JP2004154235A - Liquid medicine injection system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid medicine injection system simply installing a plurality of liquid medicine syringes connected to each other by a branch pipe in a liquid medicine injection device. <P>SOLUTION: A cylinder adapter 200 is formed with a plurality of U-shaped recess parts 201 retaining cylinder members 301 of a plurality of liquid medicine syringes 300 parallel to each other, and a cylinder retaining member 111 is installed with a single cylinder adapter 200 installed with the plurality of liquid medicine syringes 300. This constitution can facilitate to prepare a set formed by connecting the branch pipe to the plurality of the liquid medicine syringes 300 retained by the cylinder retaining member 111 and to install the set on the cylinder retaining member 111. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a drug solution injection system for injecting a drug solution of a drug solution syringe into a subject using a drug solution injection device, and particularly to a drug solution injection system for freely injecting a plurality of types of drug solutions.
[0002]
[Prior art]
Currently, there are CT (Computed Tomography) scanners, MRI (Magnetic Resonance Imaging) devices, PET (Positive Emission Tomography) devices, and the like as medical devices that capture tomographic images of a subject. , An angio apparatus, an MRA (MR Angio) apparatus, and the like. When the above-described device is used, a medical solution such as a contrast medium or a physiological saline may be injected into a subject, and a medical solution injection system that automatically executes the injection has been put to practical use.
[0003]
Here, a conventional example of such a drug solution injection system will be described below with reference to FIG. The chemical liquid injection system 1 exemplified here includes one chemical liquid injector 20 in which up to two chemical liquid syringes 10 are mounted, and various cylinder adapters 25. The chemical syringe 10 includes one cylinder member 11 and one piston member 12, and the cylinder member 11 has a single hole 13 opened in the end face formed therein.
[0004]
The distal end surface of the cylinder member 11 is closed to form a hollow conduit portion 14 at the center, and the hole portion 13 communicates with the distal end of the conduit portion 14. A piston member 12 is slidably inserted into a hole 13 of the cylinder member 11, and a piston flange 15 and a cylinder flange 16 are formed on the outer periphery of the distal end of the piston member 12 and the cylinder member 11, respectively. .
[0005]
The liquid injector 20 includes one syringe holding member 21 and two piston drive mechanisms 22. The one syringe holding member 21 holds the cylinder members 11 of the two liquid syringes 10 individually. A plurality of U-shaped concave portions 23 are formed. Two piston drive mechanisms 22 are individually arranged behind each of the two recesses 23, and these piston drive mechanisms 22 hold and slide the piston member 12 of the liquid syringe 10.
[0006]
However, since the liquid syringe 10 has various sizes depending on the manufacturer, the type of the liquid, and the like, the concave portion 23 of the liquid injector 20 is formed corresponding to the liquid syringe 10 having the largest size. Therefore, a dedicated cylinder adapter 25 is prepared for each of the non-maximum-sized drug solution syringes 10 in order to mount the non-maximum-sized drug solution syringe 10 on the drug solution injector 20.
[0007]
The upper surface of the cylinder adapter 25 is formed to hold the cylinder member 11 of the liquid syringe 10 like the concave portion 23 of the liquid injector 20, and the lower surface corresponds to the cylinder member 11 of the liquid syringe 10 of the largest size. It is formed in a shaped shape.
[0008]
In addition, this chemical | medical solution injection | pouring system 1 also has the branch pipe 18 in which the front-end | tip part was integrated into one, and the terminal part branched into two, and the two terminal parts of this branch pipe 18 are two. The individual liquid syringes 10 are individually connected to the conduit section 14. A catheter is connected to one end of the branch pipe 18 by, for example, an extension tube, and the catheter is connected to a subject (not shown).
[0009]
In the above-described configuration, in the conventional liquid injector 1, two types of liquids can be injected into the subject from two liquid syringes 10 by one liquid injector 20. Thus, it is possible to inject a contrast medium into a subject from which a tomographic image is to be captured and then boost with a physiological saline.
[0010]
As described above, when the two liquid syringes 10 are mounted on the liquid injector 20 using the cylinder adapter 25, two cylinder adapters 25 are prepared and individually mounted on the two liquid syringes 10. Then, the two liquid syringes 10 in this state are mounted on the liquid injector 20.
[0011]
At present, various proposals have been made for the above-described chemical liquid injection device (for example, see Patent Documents 1 and 2).
[0012]
[Patent Document 1]
JP-A-2002-11096 (page 2-3, FIG. 11-14)
[Patent Document 2]
JP-A-2002-102343 (Page 2-3, FIG. 8)
[0013]
[Problems to be solved by the invention]
In the liquid medicine injection system 1 as described above, the liquid medicine syringe 10 having the maximum size can be directly mounted on one liquid medicine injection device 20, and the liquid syringe 10 having a size other than the maximum is mounted using the cylinder adapter 25. can do. However, in order to mount two liquid syringes 10 having sizes other than the maximum to the liquid injector 20, it is necessary to prepare two cylinder adapters 25 and mount them individually to the two liquid syringes 10. The operation is complicated.
[0014]
Further, at a site where the above-described chemical liquid injection system 1 is actually used, a set in which two chemical liquid syringes 10 and one branch pipe 18 are connected is prepared, and the set is connected to the chemical liquid injection device. 20. For this reason, it is necessary to mount the two chemical liquid syringes 10 connected by the flexible branch pipe 18 into the two concave portions 23 of the cylinder holding member 21, and the operation is not easy.
[0015]
For example, it is not impossible to connect the branch pipe 18 after mounting the two liquid syringes 10 on the cylinder holding member 21, but this will delay the work on site. Further, the cylinder holding member 21 is actually held at the tip of a movable arm (not shown) and is unstable, and it is not easy to connect the branch pipe 18 to the chemical syringe 10 mounted thereon.
[0016]
The present invention has been made in view of the above-described problems, and has as its object to provide a drug solution injection system that can easily mount a plurality of drug solution syringes on a cylinder holding member.
[0017]
[Means for Solving the Problems]
The drug solution injection system of the present invention has a cylinder adapter, a cylinder holding member, and a piston drive mechanism, and the cylinder adapter has a plurality of U-shaped recesses that hold the cylinder members of the plurality of drug solution syringes in parallel. The cylinder holding member is equipped with a plurality of liquid syringe cylinder members held by a cylinder adapter, and the piston drive mechanism is capable of individually detaching the plurality of liquid syringe piston members mounted on the cylinder holding member. And slide it.
[0018]
Since a plurality of liquid syringes held by the cylinder holding member are directly attached to the cylinder holding member, for example, a set in which a branch pipe is connected to a plurality of liquid syringes held by the cylinder holding member is prepared, and the The set is mounted on the cylinder holding member.
[0019]
It should be noted that the various components referred to in the present invention do not need to be individually independent, and that a plurality of components are formed as one member, and that one component is a part of another component. It is also possible that some of the components overlap with some of the other components.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
[Configuration of First Embodiment]
A first embodiment of the present invention will be described below with reference to FIGS. In this embodiment, the directions of up, down, front, rear, right and left are shown in FIG. 1 and the like, and are used for description. However, this is defined for convenience for the sake of simplicity. It does not limit the time or direction of use.
[0021]
As shown in FIGS. 1 and 2, the drug solution injection system 100 of the present embodiment includes a drug solution injection device 101 and a cylinder adapter 200. The drug solution syringe 300 is connected to the drug solution syringe 300 via the cylinder adapter 200 or the like. It is attached to the injection device 101.
[0022]
More specifically, the liquid syringe 300 has the same structure as the liquid syringe 10 described in the related art, and a piston member 302 is slidably inserted into a cylinder member 301. In the chemical syringe 300, a cylinder flange 303 and a piston flange 304 are formed on the outer periphery of the ends of a cylinder member 301 and a piston member 302, and are formed into various external shapes for each manufacturer or chemical solution.
[0023]
As shown in FIG. 2, the liquid injector 101 of the present embodiment has an apparatus main body 103 mounted on an upper end of a support stand 102, and an operation panel 104 and a liquid crystal display 105 mounted on the apparatus main body 103. . A movable arm 106 is mounted on a side portion of the apparatus main body 103, and an injection head 110 is mounted on an upper end of the movable arm 106.
[0024]
As shown in FIG. 1, the injection head 110 includes one holding member main body 111 serving as a cylinder holding member, a plurality of types of cylinder adapters 200, and a piston driving mechanism 140. On the upper surface of the holding member main body 111, Two U-shaped concave portions 112 corresponding to the outer shape of the liquid syringe 300 having the maximum size are formed in parallel.
[0025]
A concave groove 113 is formed at a rear portion of each of these concave portions 112. When the maximum size chemical liquid syringe 300 is mounted on the holding member main body 111, the cylinder member 301 is held by the concave portion 112 and the cylinder flange 303 is formed. It is held by the concave groove 113.
[0026]
The cylinder adapter 200 is prepared for each of the liquid syringes 300 having a size other than the maximum size, and has a structure in which a plate material is bent as necessary as a whole. On the upper surface, similarly to the holding member main body 111, two U-shaped concave portions 201 corresponding to the outer shape of the liquid syringe 300 to be mounted are formed in parallel with the concave grooves 202.
[0027]
Further, as shown in FIG. 4, the lower surface thereof is formed in an outer shape corresponding to the two maximum-sized liquid medicine syringes 300 arranged in parallel, and thus has the same shape as the cylinder flange 303 of the largest-sized liquid medicine syringe 300. Adapter flange 206 is formed at the rear.
[0028]
For this reason, the cylinder adapter 200 is detachably attached to the holding member main body 111 from above in the same manner as the two maximum-sized chemical liquid syringes 300, and the two concave portions 201 on the upper surface thereof have two dedicated sizes each. Is detachably mounted.
[0029]
Two round holes 204 are formed on the left side of the cylinder adapter 200 at the front and rear, and a convex portion 115 that engages with these round holes 204 is formed on the upper surface of the holding member main body 111. As shown in FIGS. 1 and 4, an engagement claw 205 is formed in the center of the lower surface of the cylinder adapter 200, and an opening 116 into which the engagement claw 205 is inserted is formed in the holding member main body 111. Have been.
[0030]
As shown in FIG. 4, a lock mechanism 120 is built in the holding member main body 111, and as shown in FIG. 5, the lock mechanism 120 detachably holds the engagement claw 205. More specifically, the lock mechanism 120 includes a rotation shaft 121, an operation lever 122, and an engagement cam 123. When the operation lever 122 exposed on the lower surface of the holding member main body 111 is manually rotated, The engagement cam 123 connected to the operation lever 122 by the rotation shaft 121 is disengaged from the engagement claw 205.
[0031]
The piston drive mechanism 140 is formed by a drive motor or a slider mechanism and is built in the rear part of the holding member main body 111. The piston driving mechanism 140 is provided with two liquid syringes 300 mounted on the holding member main body 111 via a cylinder adapter 200 or the like. The piston members 302 are individually moved and slid.
[0032]
In addition, also in the chemical liquid injection system 100 of the present embodiment, one branch pipe 210 can be attached to two chemical liquid syringes 300 as shown in FIG. This branch pipe 210 has one end portion integrated and one end portion branched into two, and each of the two end portions has a built-in one-way valve 211.
[0033]
Note that, as shown in FIG. 3, the drug solution injector 101 of the present embodiment is used near the imaging unit 1001 of the CT scanner 1000, and is connected to the control unit 1002 of the CT scanner 1000 as necessary. The control unit 1002 includes a computer system, controls the operation of the imaging unit 1001, and displays a tomographic image.
[0034]
[Operation of First Embodiment]
In the above-described configuration, in the drug solution injection system 100 of the present embodiment, as shown in FIG. 1, two drug syringes 300 having the maximum size can be directly mounted on the drug solution injection device 101 as desired, Two liquid syringes 300 of a size other than the maximum size can be mounted by the cylinder adapter 200.
[0035]
Further, when the two liquid syringes 300 are mounted on the liquid injector 101 with the cylinder adapter 200, the branch pipe 210 can be mounted on the two liquid syringes 300. In this case, for example, a cylinder adapter 200 that is not mounted on the liquid injector 101 is disposed on an upper surface of a worktable (not shown) or the like, and two liquid syringes 300 are provided in two concave portions 201 on the upper surface of the cylinder adapter 200. Are individually mounted.
[0036]
Next, the branch pipe 210 is connected to the two liquid syringes 300 mounted on the cylinder adapter 200, and this set is mounted on the holding member main body 111 of the liquid injector 101. At this time, as shown in FIGS. 4 and 5, when the operator rotates the operation lever 122 of the lock mechanism 120 exposed on the lower surface of the holding member main body 111, the engagement cam 123 of the lock mechanism 120 is turned on. Engage with the engagement claws 205 of the cylinder adapter 200.
[0037]
Further, since the convex portion 115 of the holding member main body 111 is engaged with the round hole 204 of the cylinder adapter 200, the cylinder adapter 200 is fixed to the holding member main body 111. Thus, the liquid injector 101 is in a state in which the two liquid syringes 300 can be individually driven. For example, it is possible to inject a contrast medium into a subject and then inject a physiological saline.
[0038]
[Effect of the first embodiment]
In the drug solution injection system 100 of the present embodiment, even when two drug solution syringes 300 having a size other than the maximum size are mounted on the drug solution injection device 101 as described above, the two drug solution syringes 300 are connected to one cylinder adapter 200. , And this may be mounted on the chemical liquid injector 101. In other words, two cylinder adapters are individually mounted on the two liquid syringes 300, and it is not necessary to separately mount the two liquid syringes 300 in this state on the liquid syringe 101, so that the operation is simple.
[0039]
Further, even when the branch pipes 18 are connected to the two liquid syringes 300, the two liquid syringes 300 are mounted on the cylinder adapter 200 arranged on a work table or the like, and the branch pipes 18 are connected to these liquid syringes 300. This set may be attached to the chemical solution injector 101.
[0040]
Therefore, there is no need to perform a complicated operation of mounting the two liquid syringes 10 connected by the flexible branch pipe 18 into the two concave portions 23 of the cylinder holding member 21, and the unstable holding position located at the tip of the movable arm 106 is eliminated. There is no need for a complicated operation for connecting the branch pipe 18 to the two liquid syringes 300 mounted on the member main body 111.
[0041]
Furthermore, in the chemical liquid injection system 100 of the present embodiment, when the cylinder adapter 200 is mounted on the holding member main body 111, the projection 115 of the holding member main body 111 engages with the round hole 204 of the cylinder adapter 200, so that the cylinder adapter 200 is held. It is satisfactorily held by the member main body 111.
[0042]
In addition, since the engagement claw 205 of the cylinder adapter 200 can be held by the lock mechanism 120 of the holding member main body 111 as desired, the cylinder adapter 200 can be securely fixed to the holding member main body 111. Note that, as shown in FIG. 4, the engaging claws 205 are arranged in the dead space of the cylinder adapter 200, and the engaging claws 205 do not interfere even if the cylinder adapter 200 is arranged on the upper surface of the workbench or the like.
[0043]
In the liquid injector 100 of the present embodiment, the outer shape of the lower surface of the cylinder adapter 200 is formed in a shape corresponding to the liquid syringe 300 of the maximum size, and the concave portion 112 of the holding member main body 111 is formed in the liquid syringe 300 of the maximum size. It is formed in a corresponding shape. For this reason, the holding member main body 111 can use a conventional structure. For example, by simply supplying the cylinder adapter 200 to the site where the conventional chemical injection device 101 is used, the chemical injection system 100 of the present embodiment can be used. Can be realized.
[0044]
[Modification of First Embodiment]
The present invention is not limited to the present embodiment, and allows various modifications without departing from the gist thereof. For example, in the present embodiment, two chemical liquid syringes 300 are attached to the chemical liquid injector 101 and the cylinder adapter 200, but three or more chemical liquid syringes can be used.
[0045]
Furthermore, in the present embodiment, the maximum size liquid syringe 300 is directly mounted in the concave portion 112 of the liquid injector 101, and the liquid syringe 300 having a size other than the maximum is mounted with the cylinder adapter 200. The liquid syringe 300 having the size of (1) can be attached to the liquid injector 101 by the cylinder adapter 200.
[0046]
Further, in the present embodiment, it is assumed that a contrast agent or a physiological saline is injected into the subject to be imaged by the CT scanner 1000 by the liquid injector 101, but the subject is imaged by the MRI apparatus or the angio apparatus by the liquid injector 101. It is also possible to inject a drug solution such as a contrast agent or physiological saline.
[0047]
[Configuration of Second Embodiment]
A second embodiment of the present invention will be described below with reference to FIGS. In the following embodiments, the same parts as those in the first embodiment will be denoted by the same names and reference numerals, and detailed description thereof will be omitted.
[0048]
As shown in FIG. 6, a chemical solution injection system 500 according to the present embodiment includes an injection head 501 and a cylinder adapter 400, and two U-shaped upper surfaces of a holding member main body 502 that is a cylinder holding member of the injection head 501. A recess 503 is formed. A pair of flange holding members 511 is attached to each of the two concave portions 503, and the flange holding members 511 hold the cylinder flange 303 of the liquid syringe 300.
[0049]
More specifically, as shown in FIGS. 6 and 7, the flange holding member 511 is formed in a semicircular shape corresponding to the cylinder flange 303, and the concave groove 512 into which the cylinder flange 303 is inserted has an inner peripheral surface. Is formed. The flange holding member 511 is formed integrally with an insertion guide 513 that is expanded to the left and right as it goes upward, and the above-described concave groove 512 is formed up to the upper surface of the insertion guide 513.
[0050]
A support arm 514 protrudes from the outer peripheral surface of the flange holding member 511, and is supported by the support arm 514 so as to be rotatable vertically. For this reason, a pair of flange holding members 511 for each of the two concave portions 503 is opened upward as shown in FIG. 7A, and an open position where the cylinder flange 303 is freely insertable, as shown in FIG. 7B. Thus, the cylinder flange 303 is displaceably supported at a closed position for holding the cylinder flange 303 from both left and right sides.
[0051]
Further, as shown in FIG. 1, inside the injection head 501, two holding lock members 515 are arranged in parallel so as to be slidable in the front-rear direction, and these holding lock members 515 are a pair of open positions. Of the pair of flange holding members 511 at a closed position, and a holding position at which the one of the pair of flange holding members 511 at the closed position abuts from the side.
[0052]
A curved spring (not shown), which is an opening urging means, is mounted on the flange holding member 511, and the curved spring urges the flange holding member 511 to the open position. A pressure spring (not shown), which is lock urging means, is mounted on the injection head 501, and the pressure spring urges the holding lock member 515 to the holding position.
[0053]
As described above, two holding lock members 515 are arranged inside the injection head 501, and these two holding lock members 515 are individually attached to the two operation levers 516 arranged in parallel. The operation levers 516 are connected to each other and are exposed on the upper surface of the holding member body 502.
[0054]
In the chemical liquid injection system 500 of the present embodiment, the concave portion 503 of the holding member body 502 and the flange holding member 511 are formed corresponding to the maximum size of the liquid syringe 300, and the outer shape of the lower surface of the cylinder adapter 400 is maximum. This corresponds to a shape in which the cylinder members 301 of the two liquid syringes 300 of the size are arranged in parallel.
[0055]
The cylinder adapter 400 of the present embodiment also has two concave portions 401 formed on the upper surface corresponding to the cylinder member 301 of the liquid syringe 300 to be mounted, and a cylinder flange 303 of the largest size liquid syringe 300 at the rear of the lower surface. And two adapter flanges 402 having the same shape as the above.
[0056]
Further, a concave groove 403 into which the cylinder flange 303 is inserted is formed on the upper surface behind the adapter flange 402, and a funnel-shaped insertion guide that expands upward is provided at a position communicating with the concave groove 403. 404 are formed. The insertion guide 404 is formed in a shape positioned behind the insertion guide 513 of the flange holding member 511 of the injection head 501 when the cylinder adapter 400 is mounted in the recess 503 of the injection head 501.
[0057]
The cylinder adapter 400 of the present embodiment includes, for example, a flange holding mechanism 411 for resiliently holding the cylinder flange 303 of the attached chemical syringe 300 as filed by the present applicant as Japanese Patent Application No. 2000-198358. Is also formed. More specifically, as shown in FIG. 8, a pair of parallel linear cutouts 306 are formed on the outer peripheral portion of the cylinder flange 303 of the chemical syringe 300, and are orthogonal to these cutouts 306. A pair of recesses 307 are formed at positions.
[0058]
The flange holding mechanism 411 includes a pair of elastically bendable holding arms 412 having a shape corresponding to the cylinder flange 303, and a tip of each of the holding arms 412 corresponds to a pair of recesses 307 of the cylinder flange 303. A convex part 413 having a shape is formed. Such a flange holding mechanism 411 is built, for example, at the position of the concave groove 403 of the adapter body 401 of the cylinder adapter 400 (not shown).
[0059]
Then, as shown in FIG. 8A, the liquid syringe 300 is inserted into the cylinder adapter 400 from above with the linear notch 306 of the cylinder flange 303 located on the left and right, and then, as shown in FIG. As shown in c), when the chemical syringe 300 inserted into the cylinder adapter 400 is rotated up to 90 degrees in the left-right direction, the convex portion 413 of the holding arm 412 resiliently engages with the concave portion 307 of the cylinder flange 303. Thus, the chemical syringe 300 is elastically held by the cylinder adapter 400.
[0060]
[Operation of Second Embodiment]
In the configuration as described above, the chemical liquid injection system 500 of the present embodiment can also directly mount two maximum-sized liquid chemical syringes 300 in each of the two concave portions 503 of the injection head 501, and Two liquid syringes 300 of other sizes can be mounted by one cylinder adapter 400.
[0061]
For example, when two liquid syringes 300 having the maximum size are mounted on the injection head 501, as shown in FIG. 7A, the flange holding member 511 of the injection head 501 not mounted with the liquid syringe 300 is a curved spring. Since they are arranged at the open positions by the biasing, an operator (not shown) inserts the cylinder flange 303 of the chemical syringe 300 into the opening of the flange holding member 511 from above.
[0062]
At this time, since the insertion guide 513 of the flange holding member 511 is expanded right and left, the cylinder guide 303 of the chemical syringe 300 is easily inserted into the concave groove 512 of the flange holding member 511 by the insertion guide 513. When the cylinder flange 303 of the liquid syringe 300 is inserted into the flange holding member 511 in this manner, as shown in FIG. 7B, the pair of flange holding members 511 are moved from the open position against the bias of the bending spring. Since the cylinder is moved to the closed position, the flange holding member 511 holds the cylinder flange 303 of the liquid syringe 300.
[0063]
Further, when the flange holding member 511 is disposed at the closed position as described above, the holding lock member 515 slides from the release position to the holding position by the bias of the pressing spring. The holding member 511 is fixed at the closed position.
[0064]
When removing the liquid syringe 300 from the injection head 501, the operation lever 516 is manually retracted against the urging of the pressing spring. Then, as shown in FIG. 7A, since the holding lock member 515 is located at the release position, the pair of flange holding members 511 is displaced from the closed position to the open position by the urging of the bending spring. At this time, the chemical syringe 300 is pushed upward by the pair of displaced flange holding members 511, and the operator removes the chemical syringe 300 upward from the opening of the flange holding member 511.
[0065]
When two liquid syringes 300 having a size other than the maximum size are mounted on the injection head 501, for example, the two liquid syringes 300 are individually mounted on the two concave portions 401 of the cylinder adapter 400. At this time, as shown in FIG. 8, the chemical syringe 300 is inserted into the cylinder adapter 400 in a direction parallel to the notch 306 of the cylinder flange 303, and when the cylinder member 301 is rotated to 90 degrees from that state, the cylinder flange 303 is rotated. Are resiliently held by the flange holding mechanism 411.
[0066]
When one cylinder adapter 400 on which the two liquid syringes 300 are mounted is mounted on the injection head 501, one cylinder adapter 400 is connected to the injection head 501 in the same manner as the two maximum-sized liquid syringes 300. Is held and locked.
[0067]
When only one of the two maximum-sized liquid syringes 300 mounted on the injection head 501 is to be removed, only one corresponding one of the two operation levers 516 may be manually operated. When removing the cylinder adapter 400 from the injection head 501, it is necessary to manually operate the two operation levers 516 at the same time. However, as shown in FIG. 6, since the two operation levers 516 are provided side by side, It can be manually operated like one.
[0068]
[Effect of Second Embodiment]
In the drug solution injection system 500 of the present embodiment, when the maximum size drug solution syringe 300 or cylinder adapter 400 is inserted into the concave portion 503 of the injection head 501 by manual operation, the cylinder flange 303 or the adapter flange 402 is formed by the pair of flange holding members 511. When the operation lever 516 is retracted by manual operation from this state, the pair of flange holding members 511 is automatically opened.
[0069]
Therefore, the liquid syringe 300 and the cylinder adapter 400 can be easily and reliably attached to and detached from the injection head 501 even with one hand, so that the medical liquid injection system 500 that causes contamination at the medical site can be operated with only one hand, and the other hand. Can be kept clean at all times.
[0070]
In addition, if the cylinder flange 303 of the liquid syringe 300 or the adapter flange 402 of the cylinder adapter 400 is inserted into the opened flange holding member 511 of the injection head 501, and the liquid syringe 300 or the cylinder adapter 400 is pressed down, the flange holding member 511 is automatically turned off. The liquid syringe 300 and the cylinder adapter 400 can be extremely easily attached to the injection head 501 even with one hand because they are closed and fixed.
[0071]
In particular, since the insertion guide 513 that expands upward is formed integrally with the flange holding member 511, the cylinder flange 303 of the chemical syringe 300 and the adapter flange 402 of the cylinder adapter 400 are inserted into the concave groove 512 of the flange holding member 511. It can be easily inserted.
[0072]
Further, when the flange holding member 511 holding the liquid syringe 300 is opened, the liquid syringe 300 and the cylinder adapter 400 are pushed upward by the displacement of the flange holding member 511, so that the liquid syringe is opened from the opened flange holding member 511. It is possible to take out the 300 and the cylinder adapter 400 very easily with one hand.
[0073]
Further, the flange holding member 511 includes two pairs for holding the cylinder flange 303 of the two chemical liquid syringes 300 and the two adapter flanges 402 of the cylinder adapter 400 from the left and right sides, and the holding lock member 515 includes a pair of flange holding members. Since there is only one for each 511, the structure for holding the flange holding member 511 is simple.
[0074]
In addition, when removing the cylinder adapter 400 from the injection head 501, it is necessary to manually operate the two operation levers 516 at the same time. However, as shown in FIG. It is easy to operate manually as in the case of the individual.
[0075]
Further, as in the case of Japanese Patent Application No. 2000-198358, the cylinder adapter 400 resiliently holds the cylinder flange 303 of the mounted liquid syringe 300, so that the liquid is supplied to the cylinder adapter 400 mounted on the injection head 501. The syringe 300 can be reliably held.
[0076]
In addition, since the insertion guide 404 that is expanded upward toward the cylinder adapter 400 is formed integrally, the cylinder flange 303 of the chemical syringe 300 can be easily inserted into the concave groove 403 of the cylinder adapter 400. In particular, when the cylinder adapter 400 is mounted on the injection head 501, the large-sized insertion guide 403 of the cylinder adapter 400 is located behind the insertion guide 513 of the injection head 501, so that the liquid syringe is mounted on the cylinder adapter 400 mounted on the injection head 501. The 300 can be easily mounted.
[0077]
[Modification of Second Embodiment]
In this embodiment, a curved spring is provided as an opening urging means for urging the flange holding member 511, and a pressing spring is provided as a lock urging means for urging the holding lock member. Can be formed by weights or magnets (not shown). However, since the magnetic field of the MRI apparatus may be affected if the urging means is formed by a magnet, when the liquid injector 100 is used near the MRI apparatus, each urging means must be formed by a spring or a weight. Is preferred.
[0078]
[Configuration of Third Embodiment]
A third embodiment of the present invention will be described below with reference to FIG. The liquid injector (not shown) of the present embodiment includes, for example, the cylinder adapter 600 of the present embodiment and the above liquid injector 101. Also in the cylinder adapter 600 of this embodiment, two cylinder-shaped grooves 602 having a U-shaped cross section are formed in the cylinder holding member 601, and the cylinder members 301 of the two drug solution syringes 300 are individually formed in these grooves 602. It is attached detachably.
[0079]
At the rear of each of the concave portions 602 of the cylinder holding member 601, a frame-shaped portion 603 opened vertically and rearward is integrally formed, and the cylinder flange 303 of the cylinder member 301 is inserted into this frame-shaped portion. . Further, a rear end pressing member 604 is integrally formed on the right side of the frame-shaped portion 603, and the rear end pressing member 604 is moved from the cylinder opening on the distal end surface of the cylinder member 301 mounted in the concave groove 602. The outside position is elastically pressed.
[0080]
Further, a U-shaped tip holding member 605 is integrally formed at the front portion of the cylinder holding member 601, and the tip holding member 605 has an outer portion of the tip end surface of the cylinder member 301 mounted in the concave groove 602. Abuts. The cylinder member 301 of the chemical syringe 300 is formed with a predetermined thickness. For example, the tip surface is formed flat only at the outer peripheral portion corresponding to the thickness of the main body portion 211. The tip holding member 605 is formed in a shape that comes into contact with only a flat outer peripheral portion of the tip face of the cylinder member 301.
[0081]
In the vicinity of the center of the concave groove 602 of the cylinder holding member 601, there is formed a concave portion 606 having a rectangular cross section communicating with the left and right directions, and a cylinder holding mechanism 607 is mounted in the concave portion 606. The cylinder holding mechanism 607 is formed in a C-shaped cross section, and elastically holds the cylinder member 301 mounted on the concave groove 602 on the outer peripheral surface.
[0082]
Further, a flat plate portion 608 is provided on the upper portion of the cylinder holding member 601, and a movable holding member 609 is horizontally rotatably mounted at a position on the right side of each of the two concave portions 606 in the flat plate portion 608. . The movable holding member 609 is formed in a lever shape that can be easily operated manually, and has a rubber pad 610 attached to the lower surface of the distal end.
[0083]
The movable holding member 609 is freely displaceable between a retracted position retracted from the opening of the concave groove 602 and a holding position protruding from the opening of the concave groove 602. Abut.
[0084]
The cylinder adapter 600 of the present embodiment also has a lower surface formed in an outer shape similar to the cylinder member 301 of the two maximum size liquid medicine syringes 300 arranged side by side, and is similar to the cylinder flange 303 of the maximum size liquid medicine syringe 300. An adapter flange 612 is formed.
[0085]
[Operation of Third Embodiment]
In the above-described configuration, when the liquid syringe 300 is mounted on the cylinder adapter 600 of the liquid injector of the present embodiment, the movable holding member 609 of the cylinder adapter 600 is disposed at the retracted position, and the cylinder adapter 600 is placed in this state. The cylinder member 301 of the chemical syringe 300 is inserted into the concave groove 602 of 600 from above.
[0086]
Then, since the cylinder holding mechanism 607 resiliently holds the cylinder member 301, the click sound and the click sensation allow the operator to recognize that the cylinder member 301 has been inserted to an appropriate position. When the cylinder member 301 of the liquid syringe 300 is inserted into the cylinder adapter 600 in this manner, the outer peripheral portion of the distal end surface of the cylinder member 301 is pressed forward by the rear end pressing member 604, so that the outer peripheral portion of the distal end surface of the cylinder member 301 is pressed. The portion comes into contact with the tip holding member 605.
[0087]
When the operator rotates the movable holding member 609 to the holding position in such a state, the movable holding member 609 comes into contact with the outer peripheral surface of the cylinder member 301 with the rubber pad 610 from above. Thus, the cylinder member 301 is held by the cylinder holding member 601 from below and left and right, held by the rear end pressing member 604 from behind, held by the front end holding member 605 from the front, and held by the movable holding member 609 from above. Therefore, it is completely fixed to the cylinder adapter 600.
[0088]
[Effect of Third Embodiment]
In the drug solution injection device of the present embodiment, when the piston member 220 of the drug solution syringe 300 attached to the injection head 101 via the cylinder adapter 600 is pressed to inject the drug solution in the cylinder member 301 into the subject, the pressure causes the cylinder to move. The member 301 is also pressed forward, but in this direction, the cylinder member 301 is held by the tip holding member 605 of the cylinder adapter 600 at the outer peripheral portion of the tip face.
[0089]
Therefore, a buckling stress acts on the cylinder member 301 but no bending stress acts on the cylinder flange 303, so that the cylinder member 301 can be prevented from being broken. Therefore, since the glass cylinder member 301 can be used safely, a chemical solution that reacts with the resin can also be used, and the sliding resistance of the piston member 220 is reduced to reduce the power consumption of the chemical injection device. You can also.
[0090]
In particular, since the cylinder adapter 600 holds only the outer peripheral portion of the distal end surface corresponding to the thickness of the cylinder member 301 by the distal end holding member 605, no bending stress acts on the distal end surface of the cylinder member 301, and Destruction can be prevented well.
[0091]
The maximum size liquid syringe 300 is mounted on the injection head 101 without using the cylinder adapter 600 and is held by the cylinder flange 303. However, since the maximum size liquid syringe 300 has a large wall thickness and high strength, the tip of the liquid syringe 300 is large. It is not destroyed even if it is not held on the surface.
[0092]
In particular, since the cylinder adapter 600 presses the mounted cylinder member 301 forward by the rear end pressing member 604 at the outer peripheral portion of the end surface, the front end surface of the cylinder member 301 can be reliably brought into contact with the front end holding member 605. As a result, the cylinder member 301 can be favorably held in the front-rear direction.
[0093]
Further, the cylinder member 301 mounted in the concave groove 602 of the cylinder adapter 600 is easily displaced in a direction separating from the concave groove 602 when a stress is applied in the axial direction. Is held by the movable holding member 609, so that the cylinder member 301 can be prevented from coming off from the concave groove 602.
[0094]
In particular, since the movable holding member 609 is located on the upper surface of the cylinder adapter 600, the manual operation is easy, and it is possible to prevent the operator from forgetting the manual operation. Further, since the rubber pad 610 is attached to the lower surface of the distal end of the movable holding member 609, the cylinder member 301 can be satisfactorily held without being damaged.
[0095]
Moreover, when the liquid syringe 300 is mounted on the cylinder adapter 600, the cylinder holding mechanism 607 resiliently holds the cylinder member 301, so that the click sound and the click feeling allow the operator to insert the cylinder member 301 to an appropriate position. You can recognize that it was done. In particular, since the cylinder holding mechanism 607 is formed separately from the cylinder holding member 601, the cylinder holding member 601 can be formed of a hard resin and the cylinder holding mechanism 607 can be formed of a flexible resin. .
[0096]
[Modification of Third Embodiment]
The present invention is not limited to the present embodiment, and allows various modifications without departing from the gist thereof. For example, in the present embodiment, the movable holding member 609 is rotatably supported by the cylinder adapter 600 between the retreat position and the holding position. However, the movable holding member slidably moves between the retreat position and the holding position. It can also be formed (not shown).
[0097]
Further, in the present embodiment, the cylinder holding mechanism 607 of the cylinder adapter 600 has been illustrated as being formed separately from the cylinder holding member 601. However, for example, these may be formed integrally, and the cylinder holding mechanism may be formed. It is also possible not to provide 607.
[0098]
Also, in the above-described first to third embodiments, the structure of each part of each of the two concave portions 201, 401, and 602 of the cylinder adapters 200, 400, and 600 has been described as being common. Like the structure of the cylinder adapter 400 in the left half of the structure of the adapter 200, it is also possible to combine various structures of the cylinder adapters 200, 400, and 600 described above.
[0099]
【The invention's effect】
In the drug solution injection system of the present invention, a plurality of drug solution syringes can be mounted on one cylinder adapter, and the plurality of drug solution syringes mounted on the cylinder adapter can be mounted on the drug solution injection device at a time. It is possible to easily prepare a set in which a branch pipe is connected to a plurality of liquid syringes held by a holding member and mount the set to a cylinder holding member.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing a chemical solution injection system according to a first embodiment of the present invention.
FIG. 2 is a perspective view showing an appearance of a chemical liquid injector of the first embodiment.
FIG. 3 is a perspective view illustrating an appearance of a CT scanner.
FIG. 4 is an exploded perspective view showing a relationship between a lower surface shape of the cylinder adapter and a lock mechanism.
FIG. 5 is a perspective view showing the operation of the lock mechanism.
FIG. 6 is an exploded perspective view showing a drug solution injection system according to a second embodiment of the present invention.
FIG. 7 is a perspective view showing an operation of holding a cylinder member by a cylinder holding member.
FIG. 8 is a front view showing an operation of holding a cylinder flange by a flange holding mechanism.
FIG. 9 is an exploded perspective view showing a cylinder adapter according to a third embodiment of the present invention.
FIG. 10 is an exploded perspective view showing a conventional liquid injector system.
[Explanation of symbols]
100,500 Chemical solution injection system
101 Chemical injection device
111,502 Main body of holding member as syringe holding member
112,503 recess
120 Lock mechanism
140 Piston drive mechanism
200, 400, 600 cylinder adapter
201, 401, 602 recess
205 engaging claw
300 liquid syringe
301 cylinder member
302 piston member
411 Flange holding mechanism
607 Cylinder holding mechanism

Claims (9)

A drug solution injection system for holding the cylinder member and the piston member of a drug solution syringe in which a piston member is slidably inserted into a cylinder member and relatively moving the cylinder member and the piston member,
A cylinder adapter having a plurality of U-shaped recesses for holding cylinder members of the plurality of liquid syringes in parallel;
A cylinder holding member to which a plurality of cylinder members of the liquid medicine syringe held by the cylinder adapter are attached;
A piston drive mechanism that individually and detachably holds and slides the piston members of the plurality of liquid medicine syringes mounted on the cylinder holding member,
A chemical solution injection system. The liquid syringe has various sizes,
The cylinder adapter is prepared for each of the liquid syringes of a size other than the maximum, at least a part of the outer shape corresponds to the outer shape of the cylinder member of the liquid syringe of the maximum size,
The cylinder holding member is formed with a plurality of U-shaped recesses to which the medical syringe having a maximum size is directly mounted and the medical syringe having a size other than the maximum is mounted via the cylinder adapter. Item 6. The drug solution injection system according to Item 1. The cylinder adapter has an engagement claw formed at a predetermined position,
The chemical solution injection system according to claim 1, wherein a lock mechanism that detachably holds the engagement claw is provided on the cylinder holding member. 4. The chemical liquid injection system according to claim 1, wherein the cylinder adapter has a cylinder holding mechanism that resiliently holds the cylinder member. 5. In the chemical syringe, a cylinder flange is formed on the outer periphery of the end of the cylinder member,
The drug solution injection system according to any one of claims 1 to 4, wherein the cylinder adapter is provided with a flange holding mechanism that resiliently holds the cylinder flange. A cylinder adapter for holding the cylinder member of a drug solution syringe in which a piston member is slidably inserted into the cylinder member,
A cylinder adapter having a plurality of U-shaped recesses for holding a plurality of cylinder members of the liquid syringe in parallel. The cylinder adapter according to claim 6, wherein an engagement claw is formed at a predetermined position. The cylinder adapter according to claim 6, wherein a cylinder holding mechanism that elastically holds the cylinder member is formed. The cylinder adapter according to any one of claims 6 to 8, further comprising a flange holding mechanism that elastically holds a cylinder flange formed on an outer periphery of a distal end of the cylinder member of the liquid syringe.

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