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US3572334A - Intravenous catheter placement unit - Google Patents

️Tue Mar 23 1971

Mardi 23, 197 DE WITT R. PETTERSON 3,572,334

INTRAVENOUS CATHETER PLACEMENT UNIT Filed NOV. 27, 1968 mw .rdrklfww Mal'Ch 23u-w71 DE WITT R. PETTERsoN 3,572,334

INTRAVENOUS CATHETER PLACEMENT UNIT 4 Sheets-Sheet 2 Filed Nov. 27, 1968 INVENTOR f/Wrr Parri/@50N ATTORNEY Malh 23, 1971 DE WITT R. PETTERsoN 3,572,334

INTRAVENOUS CTHETER PLACEMENT UNIT Filed Nov. 27, 1968 4 Sheets-Sheet :5

FHNW @m @m Q ww Malh 23, 1971 DE wlTT R. PETTERSON 3,572,334

INTRAVENOUS CATHETER PLACEMENT UNIT 4 Sheets-

Sheet

4 Filed Nov.v 27, 196s MQ .d d

United States Patent O 3,572,334 INTRAVENOUS CATHETER PLACEMENT UNIT DeWitt R. Petterson, North Brunswick, NJ., assigner to Johnson & Johnson Filed Nov. 27, 1968, Ser. No. 779,340 Int. Cl. A61m 5/00 U.S. Cl. 12S- 214.4 5 Claims ABSTRACT F THE DISCLOSURE An intravenous catheter placement unit wherein the catheter passes through a hollow pointed needle which is fully retractable into a housing which holds the needle and the needle point rmly in position longitudinally and laterally with respect to the catheter so that the catheter cannot move into injurious contact with the sharp edges of the needle point. The needle is inserted into the vein or other body cavity and retracted into the housing under the direct control of the same needle control means held by the operator. In its preferred form, the catheter is connected to catheter control means comprising an elongated catheter protector mounted to slide axially in the housing to control the advancement of the catheter through the needle. When the catheter is fully advanced and the needle is fully retracted, the catheter, needle and protector all are telescoped, one inside the other, within the housing and locked in position to provide a stable unit. No parts are removed and no extra parts are needed to operate and use the unit of this invention.

The present invention relates to intravenous catheter placement units, more particularly to such units wherein the catheter passes internally through a sharpened needle and the needle normally remains on the unit during use.

Various attempts have been made to provide satisfactory units of this type. U.S. Letters Pat. No. 3,055,361 discloses a unit wherein the catheter is enclosed within a bag attached to the rear of the needle and the bag is removed after the needle is advanced. A special needle protector also is suggested in this unit for protecting the catheter from being cut by the point of the needle when the unit is in use. However, the needle is otherwise exposed. U.S. Letters Pat. No. 3,185,152 discloses a similar device wherein a sleeve or sheath which initially houses the catheter is removed after the catheter is advanced. However, the needle remains exposed during use and it is necessary to provide a special device to mount the catheter at an angle to the axis of the needle in order to allow the sheath to be used and removed. While U.S. Letters Pat. No. 3,262,449 discloses the broad idea of retracting a needle into its hub in a catheter placement unit having removable parts and similar to that just described, this disclosure does not provide for protecting the catheter from the sharp edges of the needle point during use.

All the prior art devices involve removable parts and necessitate the use of some kind of additional device to protect the catheter from the sharp edges of the needle point where such protection is even possible. In fact, all such devices which currently are being used leave the needle exposed on the catheter after the catheter has been fully inserted for use. Furthermore, many of these devices ar quite complicated and diiiicult to operate.

I have invented an intravenous catheter placement unit which has no removable parts except for those used in packaging the unit, provides for complete retraction of the needle and automatic protection of the catheter from injury by the sharp edges of the needle point as well as for sterile protection of the inserted catheter, and is designed for an extremely simple twoor three-step operation.

In the unit of my invention the needle is under precise control at all times and the needle point, when retracted, is held firmly in a iixed position with respect to the catheter tubing. This avoids any possibility that the sharp edges of the needle point Will cut the catheter due to relative movement between them. The needle point is automatically fixed in this position upon retraction without the need for special adjustment or the use of any additional parts to protect the catheter.

In the normally preferred form of this invention, the unit comprises a hollow needle secured to needle control means, a ilexible hollow catheter passing through the needle and secured to catheter control means which includes an elongated hollow catheter protector, and a housing for the needle and the catheter protector. The catheter control means also is attached, or adapted to be attached, to connecting tubing in communication with the catheter. The catheter and the catheter protector are advanced together through and into the housing and the needle is retracted into the housing, Where the needle and the catheter protector are retained in telescoped relation to one another. The needle is automatically positioned in the housing upon retraction as described above, and the catheter protector also is automatically locked in position in the housing when the catheter is fully advanced, thereby providing an integral unit with the catheter extending from the front end and connecting tubing extending from the rear end. This unit then may be taped in position in the usual manner to allow subsequent use of the catheter Without any danger of injuring the patient, the nurse or doctor, or the catheter itself.

In one form of this invention where the catheter is short and attached to the rear of the housing and the catheter protector is not needed, the unit is readied for use by a simple two step operation wherein the needle containing the catheter is first inserted into the vein or other body cavity and then retracted into the housing of the unit and retained in position therein, thereby leaving the catheter in the desired position. In the more normal or usual operation wherein a longer catheter is needed, the unit including the catheter protector is positioned for use in a simple three-step operation wherein the needle is first inserted as described above, the catheter control means including the catheter and the protector is advanced through and into the housing and locked in position thereon, and the needle is then retracted into the housing and held in position therein with the needle and the catheter protector retained in telescoped relation as described hereinbefore. During these operations the unit is completely self-contained and it is not necessary to add or remove any additional parts or devices to or from the unit.

In a preferred form of this invention the housing is formed or molded in longitudinal halves which are adapted to be superimposed and secured together after the associated parts of the unit are properly positioned between them. In one embodiment of the invention, the housing is molded in one piece and the halves are hinged to one another and molded with parts which are adapted to be fitted together to form the housing.

'Other and further advantages of this invention will appear to one skilled in the art from the following description and claims taken together with the drawings wherein:

FIG. 1 is a plan View of an intravenous catheter placement unit according to a preferred embodiment of the invention.

FIG. 2 is an enlarged view partly in section and partly in elevation taken along the line 2 2 of FIG. 1 showing the middle section of the housing and the front portion of the needle and catheter partially broken away to conserve space, and showing the needle in its extended position.

FIG. 2a is a view similar to FIG. 2 but showing only portions of the housing, needle, and needle control mean-s, with the needle in its retracted position, and the parts broken away in two places to conserve space.

FIG. 3 is a similarly enlarged plan view of the connecting fitting at the rear of the lhousing of the embodiment of the foregoing figures.

FIG. 4 is a view partly in section and partly in end elevation taken along the line 4-4 of FIG. 3.

FIG. 5 is a view similar to FIG. 2 partly in section and partly in plan taken along the line 5-5 of FIG. 2.

FIG. 6 is a more greatly enlarged sectional view taken along the line `6 6y of FIG. 2.

FIG. 7 is a similarly enlarged sectional view taken along the line 7-7 of FIG. 2.

FIG. 8 also is a similarly enlarged sectional view taken along the line 8 8 of FIG. 2.

FIG. 9 is a view in perspective of the intravenous catheter placement unit of the foregoing figures showing the needle in its extended position .'being inserted through the skin into a vein with the needle under control of the flag-like finger grip extending from the needle control means.

FIG. 10 is a view in perspective similar to FIG. 9 and showing the unit after the point of the needle has been positioned in the vein and the catheter control means is being advanced into the housing to advance the catheter through the needle further into the vein.

FIG. 11 is a View in perspective similar to the foregoing figures showing the unit when the catheter has been fully :advanced through the needle and the catheter connector is being locked on the rear end of the -housing before the needle is retracted.

FIG. 12 is a view in perspective of the :same unit showing the needle fully retracted in the housing and 'with one thumb placed on the skin over 'the vein for holding the leading end of the catheter in position.

FIG. 13 is a very greatly enlarged View partly in section and partly in elevation showing a portion of the catheter and the catheter protector and the relationship between these two parts as the catheter is being advanced.

FIG. 14 is a top plan view of an intravenous catheter placement unit according to a somewhat dierent elmbodiment of the invention, illustrating the needle in its extended position and partially broken away at the rear to show the relationship between the parts and broken away at the front and the rear of the unit to conserve space.

FIG. l5 is a side elevational view of the unit of FIG. 14 also broken away at the front and the rear to conserve space and partially fbroken away intermediate the ends of the housing to show the means for positioning the needle in its retracted position.

FIG. 16 is a View similar to that of FIG. 15 partly in broken away section and partly in side elevation showing the needle in its retracted position and the catheter in its fully advanced position.

FIG. 17 is a plan view of the housing of the units of FIG. 14-16 showing the hinged halves of the housing before they have been folded together.

FIG. 18 is an enlarged view partly in section and partly in elevation taken along the

line

18--18 of FIG. 17.

FIG. 19 is a similarly enlarged view partly in section and partly in elevation taken along the line 19-19 of FIG. 16.

FIG. 20 is a similarly enlarged view partly in section and partly in elevation taken along the

line

20--20 of FIG. 15.

FIG. 21 also is a similarly enlarged view partly in section and partly in elevation talen along the line 21- 21 of FIG. 14.

FIG. 22 is a top plan View of an intravenous catheter placement unit according to still a different embodiment of this invention showing the needle in its extended position.

FIG. 23 is a side view partly in section and partly in elevation taken along the line 23-23 of FIG. 22.

FIG. 24 is a view similar to that of FIG. 23 but showing the needle in its retracted position.

FIG. 25 is an enlarged sectional view taken along the line 25-25 of FIG. 24 with the flag or finger grip broken away to conserve space.

Referring to FIGS. 1-12 of the drawings, there is shown an intravenous catheter placement unit according to a preferred embodiment of the invention which comprises an elongated

hollow bore needle

30 having a

beveled point

31 at its front end and needle control means 32 at its rear end, a flexible

hollow catheter

33 passing through the

bore

30a of the needle and secured to catheter control means 34 at its rear end, and an

elongated housing

35 having a

front hub portion

36, a

rear connecting portion

37, and an intermediate

hollow barrel portion

38 defining an

elongated passageway

39 between the

hub portion

36 and the rear of the housing. The internal diameter of the

bore

40 of the

hub portion

36 of the housing is only slightly greater than the external diameter of the

needle

30 so that the needle is mounted snugly in the

bore

40 and is prevented from lateral movement with respect to the front of the housing or the

catheter

33. The needle control means 32 comprises an enlarged mounting

portion

41 surrounding and secured to the rear of the

needle

30, a

finger grip

42 extending outside the housing, and a

rib

43 connecting the

finger grip

42 and the mounting

portion

41. In this embodiment of the invention, the mounting

portion

41, the

finger grip

42 and the rib `43 are integral and formed from a single strip of relatively rigid plastic material, such as a vinyl sheet, which is wrapped around the needle to form the mounting

portion

41 and has its ends superimposed and adhered together to form a flag which includes the rib `43 and the

finger grip

42, as best shown in FIG. 8. The catheter control means 34 comprises a hub-

like catheter connector

44 having a central bore y45 in which the rear end of the catheter 33y is mounted and held securely by a suitable adhesive, and an elongated

tubular catheter protector

46. The

catheter connector

44 denes a rearwardly facing

enlarged opening

47 in cornmunication with the central bore `45 and which is adapted to receive the end of suitable tubing `48 for connecting the unit to other equipment. The

catheter connector

44 also comprises a split cylindrical rim y49 adapted to fit over the rear end of the housing and defining an internal annular groove 51 for receiving locking means on the housing. The

tubular catheter protector

46 is secured to a tubular extension 52 on the connector and extends through a

longitudinal opening

53 in the

rear connecting portion

37 of the housing into the rear end of the

passageway

39. The

protector

46 has an outwardly extending

annular flange

54 at its front end for preventing rearward removal of the protector from the housing.

The

hollow barrel portion

38 of the housing is in the form of a cylindrical tube which is split at the top to provide a

longitudinal groove

55 for receiving and guiding the

rib

43 of the needle control means. The front end of the barrel is mounted on and secured to a relieved cylindrical extension S6 of the

hub portion

36 of the housing, and the rear end of the barrel is mounted on and secured to a similar relieved

cylindrical extension

57 of the rear connecting portion of the barrel. The

rear connecting portion

37 of the barrel defines a locking

slot

58 for positioning the

needle

30 in its retracted position. This locking slot is adapted to receive the

rib

43 or flag of the needle control means and hold it in position as the needle is retracted by virtue of

opposed detents

59 at the front end of the locking slot. The space between these

detents

59 normally is less than the width of the

rib portion

43 of the flag, but the detents are adapted to be;

spread apart when the tiag is pressed into contact with the tapered leading edges to allow the flag to enter the

locking slot

58. Of course, the

rear connecting portion

37 of the housing is formed from a material which is sufficiently resilient to allow this to occur. The internal diameters of the

longitudinal opening

53 of the connecting portion 3-7 of the housing and the

passageway

39 in the housing are such that the

longitudinal opening

53 snugly receives the tubing of the

catheter protector

46 and the

passageway

39 snugly receives the

iiange

54 at the front end of the protector `46 to positively guide the protector as the protector is advanced into the housing. The connecting

portion

37 of the housing is tapered slightly at its rear end and terminates in an outwardly extending annular locking ange 61 which is adapted to cooperate with the annu lar locking groove 51 in the

catheter connector

44 to lock the catheter connector on the housing when these parts are brought together and the

catheter

33 and

catheter protector

46 are fully advanced through and into the housing.

The

catheter protector

46, like the

barrel

38 of the housing, is in the form of a split tube defining a

longitudinal groove

62 which is aligned with the

longitudinal groove

55 in the barrel and the iiag or

rib

43 of the needle control means by a longitudinal key 60 extending inwardly from the connecting

portion

37 of the housing into the

groove

62 of the

protector

46. The internal diameter of the

catheter protector

46 is such as to snugly receive the cylindrical mounting portion `4I of the needle control means at the rear of the needle and, when the catheter protector y46 is fully advanced into the housing, the leading end of the protector -46 will embrace the mounting

portion

41 of the needle control means, as best illustrated in FIG. 2A. As the

catheter protector

46 is advanced into contact with the flag-

like rib

43 of the needle control means the slit portion or

groove

62 in the protector also receives and embraces the

rib

43 of the needle control means. At this point, the flag of the needle control means is positioned in a double slot outwardly defined by the

barrel

38 and inwardly defined by the catheter protector 46l telescoped within the barrel. Thus, the needle control means is adapted to be guided during withdrawal to its retracted position by the positioning of its mounting

portion

41 within the bore of the

catheter protector

46 and its flag within the dual slot defined by the catheter protector and the barrel of the housing.

The normal operation of this embodiment of the invention is best described with reference to FIGS. 9-13 as well as the foregoing figures. The unit with the

needle

30 fully extended and the

catheter

33 fully retracted, as shown in FIGS. 1-3 and 9, is operated as follows. The

point

31 of the

needle

30 is inserted through the skin and into a

vein

63 or other body cavity with the

needle

30 under direct control of the ngers of the nurse or doctor holding the

finger grip

42 of the flag, as shown in FIG. 9. After the

point

31 of the needle is positioned in the

vein

63, the operator holds the

barrel

35 of the unit with one hand and grips the

catheter connector

44 with the other, as shown in FIG. l0. Then the catheter connector y44 may be gently advanced toward the

housing

35, as indicated by the arrow in FIG. l0, to advance the

catheter

33 through the

needle

30 and further into the

vein

63. If the

needle

30 is not properly positioned in the vein for this purpose, this will be indicated to the operator by resistance to advancement of the

catheter

33 and its control means. Any resistance to advancement of the

catheter

33 will be directly conveyed to the hand holding the

catheter connector

44 by virtue of the fact that the catheter is confined within the

tubular catheter protector

46. The internal diameter of the

catheter protector

46 is no more than a few, preferably no more than 5, times the outer diameter of the

catheter

33, with the result that the

catheter

33 cannot be caused to buckle substan tially within the unit when it meets resistance because even the slightest bending of the catheter will be pre- Vented by the inside Wall of the catheter protector, as illustrated in FIG. 13. Therefore, resistance to catheter advancement can only be conveyed directly to the hand of the operator through the

catheter connector

44.

The forward motion of the

catheter

33 and the catheter control means is continued until the catheter reaches its fully advanced position illustrated in FIG. ll. During this movement of the

catheter

33 and the

catheter protector

46, the catheter protector advances within the housing until its forward end reaches the needle control means. Then the

protector

46 embraces the mounting

portion

41 of the needle control means and the

rib

43 or flag thereof enters the slot l6.2` in the protector `46 as the forward motion of the protector continues to the point shown in FIG. 2a where the

catheter

33 is fully advanced. Similarly, the tapered inside surface of the slit rim 49 of the

catheter connector

44 comes into contact with the locking

iiange

61 at the rear end of the barrel and spreads over the

flange

61 until

flange

61 snaps into the annular groove 51 in the connector to lock the

connector

44, the

catheter protector

46 and the

cannula

33` in their fully advanced positions. The fact that the

rim

49 on the

catheter connector

44 is slit, assures that the associated parts of the housing and the connector will be suiciently resilient to allow them to be snapped together for this purpose. After the

catheter connector

44 is locked in position at the rear of the housing, as shown in FIGS. 11 and l2, the operator presses down on the leading end of the

catheter

33 through the skin of the patient, as shown in FIG. 12, and the

needle

30 is retracted into the housing merely by moving the ffag or

finger grip

42 to the rear, as shown in FIG. 12. The movement of the flag is continued until it enters the locking

slot

58 in the

rear connecting portion

37 of the housing, at which point the

needle

30 is retained in position fully retracted within the housing, and the

needle point

31 is automatically positioned intermediate the ends of the

longitudinal bore

40 of the hub portion of the housing with the needle point spaced substantially from the front end of this bore, as shown most clearly in FIG. 2a. Since the

needle

30 fits snugly within the

longitudinal bore

40 of the

hub

36, the needle point 3.1 is now fixed in position and cannot move longitudinally or axially. Similarly, the catheter '33 cannot move longitudinally or axially with respect to the sharp edges of the

needle point

31, because it is locked in position at the rear end of the housing and because it cannot move laterally with respect to the needle since it is conlined within the small diameter

longitudinal bore

40 of the hub in front of the needle point 3l. Thus, the catheter is automatically protected from injury by the sharp edges of the needle point when the

catheter

33 is fully advanced and the

needle

30 is locked in its retracted position. If it is desired to place the maximum length of catheter in the Vein, the whole unit merely is advanced t0 the left in FIG.l2 until the housing approaches the skin opening. Atthis point, or prior thereto, the unit may be taped or otherwise retained in position on the body where it may stay for any length of time for continued use of the

catheter

33 without danger of injuring the patient, the nurse or doctor, or the catheter itself.

IFIGS. 14-21 illustrate an intravenous catheter placement unit according to another embodiment of this invention wherein the

housing

65 is molded in one piece from a suitable moldable material, such as polypropylene. The

housing

65 is molded in almost identical

longitudinal half sections

66 and 67, which are held together by an integrally molded

longitudinal hinge

68, as best Y illustrated in FIGS. 17, 18, and 19. The

hinge

68 is in the form of a relatively thin longitudinal web molded between the halves and the web defines a

pivoting section

69 of reduced diameter between the two halves. These

halves

66 and 67 are adapted to be superimposed by folding them together about the

hinge

68, after the needle control means of the unit is properly positioned between them. The

halves

66 and 67 are positioned for this purpose by inserting a set of

pegs

71 molded adjacent the top of one half into a set of corresponding

cylindrical holes

72 molded adjacent the top of the other half and the halves are firmly secured together by a suitable adhesive or cement Which previously has been placed between the contacting surfaces. If desired, the

pegs

71 and holes 72 may be so shaped that the pegs may be snapped into the holes to provide mechanical engagement between the

halves

66 and 67 and lock them together in this manner. Correspondingly, if desired the

hinge

68 may be eliminated and the

halves

66 and 67 may merely be superimposed and secured together, as described above, to form the housing.

The unit of FIGS. 14-21 comprises a sharpened

needle

73 and needle control means essentially the same as those shown and described in connection with the foregoing embodiment, although the

integral iiag

74 and the mounting

portion

75 of the needle control means may Ibe molded in one piece in its final shape and then inserted over the rear end of the

needle

73 instead of forming it from a sheet which is folded over the needle, as described hereinbefore. The catheter control means also is similar to that of the foregoing figures, but comprises a

catheter protector

76 which is molded with

vertical flanges

77 on each side of the

longitudinal slot

78 at the top of the protector. These

vertical flanges

77 fit into a corresponding

rectangular recess

79 in the housing and thereby assure that the

protector

76 is properly positioned angularly in the

housing

65 with its

slot

78 aligned with the ag or

rib

74 of the needle control means, as ybest shown in FIG. 19. The catheter control means also comprises a somewhat different catheter connector 81 which is shown in mostdetail in FIGS. 20 and 21. The

catheter protector

76 is received internally in a

front opening

82 of the connector and secured thereto by a suitable adhesive or cement. As in the foregoing embodiment, the connector 81 also presents an annular rim `83 facing the

housing

65 which is adapted to lock on to the rear end of the housing. Top and

bottom ridges

84 facing inwardly toward the

catheter protector

76 are presented by the rim for this purpose for cooperating with corresponding top and

bottom grooves

85 presented by the housing. The

catheter

86 itself is cemented into a small longitudinally extending bore 86a in the connector 81 which places the

catheter

86 in communication with a tapered or

Luer type socket

87 for receiving a tapered fitting attached to the end of tubing, both not shown, to be used with the unit.

The

housing

65, when its

halves

66 and 67 are secured together, comprises a

front hub section

88 and an

elongated barrel

89 extending rearwardly thereof. The

barrel

89, in turn, has an elongated

passageway

90 extending throughout its length which is adapted to receive and slideably support the

catheter protector

76, as shown most clearly in FIGS. 16 and 19, and a slot 91 at the top of the housing for receiving and guiding the

flag

74. As compared with the embodiment of FIGS. 1-13, the

passageway

39 and the longitudinal opening `53 at the rear of the housing of the foregoing embodiment are merged into the

single passageway

90 of the unit of this embodiment. As in the foregoing embodiment, the

cylindrical mounting portion

75 of the needle control means is adapted to t closely Within the bore of the

catheter protector

76 when the catheter protector is advanced, such as shown in FIGS. 16 and 19, and to be firmly supported and slideably mounted Within the protector for movement of the needle from its extended position, shown in FIG. l5, to its retracted position, shown in FIGS. 16 and 19.

The unit of FIGS. 14-21 is operated in the same manner as that of FIGS. 1-13. First, of course, the conventional needle protector 92, shown in phantom in FIG. 14, is removed from the needle (as it also normally would be from the unit of FIGS. 1-13, since a needle protector 4generally is necessary to properly protect and confine the needle prior to use). Then the unit of FIGS. 14-21 is operated as described in conjunction with FIGS. 9-13.

However, it should be pointed out that the

needle

73 and needle control means of this embodiment is positioned or retained in the extended position of the needle by

opposed detents

93 extending from the sides of the slot 91 in the housing just rearwardly of the

flag

74. However, the

flag

74 may be easily dislodged from the

detents

93 when it is desired to retract the

needle

73.

Similar detents

94 are provided at the rear of the slot 91 to retain the

needle

73 in its retracted position in the

housing

65. Of course, these

detents

94 will assume a position in front of the

flag

74 when the needle is fully retracted, as shown in FIG. 16. When the

catheter

86 and the

catheter protector

76 are fully advanced, as shown in FIG. 16, the catheter and the protector are locked in position with respect to the

housing

65. This is accomplished when the

ridges

84 presented by the rim of the catheter connector snap into the corresponding top and bottom grooves at the rear of the housing. The

catheter protector

76 is restrained from rearward removal from the

housing

65 by a pair of

opposed detents

95 which extend inwardly from the wall of the barrel and snap into corresponding

recesses

96 in the sides of the

protector

76 when the protector is in its initial position, shown in FIGS. 14 and 15.

As in the foregoing embodiment, when the

needle

73 is fully retracted and the catheter `86 is fully advanced, the

catheter

86 is automatically protected from the sharp edges of the

needle point

96 because the needle point is locked in position longitudinally and cannot move radially because it lits snugly within the

longitudinal bore

97 of the hub section of the housing. Furthermore, the

point

96 of the needle is positioned between the ends of the

longitudinal bore

97 of the hub and spaced substantially from the front end of the bore. Thus, as described in connection with the embodiment of FIGS. 1-13, the

catheter

86 is restrained against lateral or radial motion with respect to the sharp edges of the needle point, with the result that the needle and the catheter are prevented from moving relative to one another.

A somewhat different embodiment of the invention, wherein a relatively short catheter 101 is employed and a catheter protector is not necessary, is shown in FIGS. 22-25. This unit is similar in construction to that of FIGS. 14-21 in that its

housing

102 is molded in one piece in the form of

opposed halves

103 and 104 which are hinged together and adapted to be secured or adhered to one another as described in connection with the housing of FIGS. 14-21. The

hub portion

88 of the

housing

102 and the control means for the

needle

73 is the same as that of the foregoing embodiment. The

housing

102 defines a

slot

105 and

detents

106 and 107 which are similar to those of the foregoing embodiment for positioning the needle control means in the extended and retracted positions of the

needle

73 with respect to the

housing

102.

Since in the embodiment of FIGS. 22-25 no catheter protector is required, the rear of the catheter 101 is mounted in a small longitudinal bore 108 in the housing itself, which bore is in communication with a suitable

tapered socket

109 for receiving a tapered fitting, not shown, to be used to connect suitable tubing, also not shown, to the rear of the unit. The barrel portion 111 of the housing between the

front hub portion

88 and the

rear connecting portion

112 thereof defines an

elongated passageway

113 of smaller diameter to receive the mounting

portion

75 of the needle control means directly and guide it positively during movement of the needle 73v from its extended to its retracted position. As in the foregoing embodiments, the

longitudinal groove

105 at the top of the

passageway

113 receives the rib or

flag

74 of the needle control means and guides it during retraction of the needle.

This unit is adapted to be operated in two simple steps, as described hereinbefore i.e., first, by inserting the

needle

73 into the vein under the control of the

Hag

74 and then by retracting the needle fully into the

housing

102 while advancing the whole unit forward slightly to allow the short catheter 101 to achieve maximum penetration. When the

needle

73 is fully retracted, it is locked in position longitudinally behind the

detents

107 and held against any kind of lateral or radial movement by the close lit between the

needle point

73 and the

longitudinal bore

97 of the hub section of the housing and the close fit between the mounting

portion

75 of the needle control means and the

passageway

113 at the rear of the housing. Again, the

needle point

96 is positioned intermediate the ends of the

longitudinal bore

97 of the hub and spaced substantially from the front end of the

bore

97 to assure that the catheter 101 is protected against any kind of injury from the sharp edges of the needle point, as described hereinbefore in connection with the foregoing embodiments of the invention.

The various parts of the units of this invention may be formed of any suitable materials which may be shaped or molded into the desired forms and which may be sterilized and still possess the necessary physical properties to assure that the unit will function properly as described hereinbefore.

Having now described the invention in specific detail and exemplied the manner in which it may be carried into practice, it will be readily apparent to those skilled in the art that innumerable variations, applications, modications, and extensions of the basic principles involved may be made without departing from its spirit or scope.

What is claimed is:

1. A catheter placement unit which comprises; an elongated hollow bore needle having a pointed front end and needle control means at its rear end; a flexible hollow catheter passing through the bore of said needle, said catheter being mounted at its rear end in catheter control means; and an elongated housing presenting a front hub portion having a longitudinal bore through which the needle passes, and a barrel portion extending rearwardly thereof; said needle control means comprising a mounting portion attached to the needle inside the barrel, a finger grip outside the barrel, and a rib connecting said finger grip with said mounting portion; said barrel deiining an elongated passageway for allowing said mounting portion to move longitudinally in said barrel and a corresponding longitudinal slot for receiving said rib, said slot extending between said passageway and the exterior of said barrel; said catheter control means comprising a relatively rigid and elongated catheter protector in the form of a hollow tube disposed around said catheter and mounted through an opening in the rear of said barrel for relative axial telescoping movement within said passageway; said catheter control means being adapted to be advanced with respect to said housing in such a way as to advance said catheter through said needle and said protector into telescoping relation with said barrel; said needle having an extended position wherein said needle control means is positioned at or adjacent the front end of said passageway with the remainder of the needle extending through the longitudinal bore of said hub, and a retracted position wherein said needle control means is positioned rearwardly in said passageway with the needle retracted in the housing; said protector having a longitudinal slot in axial alignment with the slot in said barrel to receive said rib during the movement of said needle from its extended to its retracted position and having an internal diameter suiiiciently large to receive said mounting portion.

2. A catheter placement unit according to

claim

1, wherein said catheter control means comprises a catheter connector and locking means is provided at the rear of said housing for engaging said catheter connector when said catheter is fully advanced through said housing.

3. A catheter placement unit according to

claim

1, wherein said catheter protector comprises means adjacent its front end for preventing its rearward withdrawal from said housing.

4. A catheter placement unit according to

claim

1, wherein said housing is formed in longitudinal halves which are adapted to be superimposed and secured t0- gether after the needle control means of said unit is properly positioned between them.

5. A catheter placement unit according to

claim

4, wherein said housing is formed in one piece and said halves are hinged together.

References Cited UNITED STATES PATENTS 1,157,524 lO/19l5 Furness 128--215 3,262,449 7/ 1966 Pannier et al 12S-214.4

3,324,853 6/1967 Czorny et al. 12S- 214.4

3,438,373 4/1969 Pannier 12S-214.4

3,463,152 8/1969 Sorenson 12S-214.4

FOREIGN PATENTS 864,007 3/1961 Great Britain 128-221 DALTON L. TRULUCK, Primary Examiner