JP4594582B2 - Chemical injection device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a chemical injection device in which a chemical syringe for injecting a chemical into a subject is detachably mounted, and particularly to a chemical injection device that holds a cylinder member of a chemical syringe with a cylinder flange.
[0002]
[Prior art]
Currently, there are CT (Computed Tomography) scanner, MRI (Magnetic Resonance Imaging) device, PET (Positron Emission Tomography) device, etc. as medical devices for imaging tomographic images of subjects, as medical devices for imaging blood vessels images of subjects. , Angio device, MRA (MR Angio) device, etc.
[0003]
When using the apparatus as described above, a chemical liquid such as a contrast medium or physiological saline may be injected into the subject, and a chemical liquid injection apparatus that automatically executes this injection has also been put into practical use. The above-described chemical liquid injector has an injection head, and a chemical syringe is detachably attached to the injection head.
[0004]
The chemical liquid syringe has a cylindrical cylinder member filled with the chemical liquid, and a columnar piston member is slidably inserted into the cylinder member. Generally, an annular cylinder flange is formed on the outer periphery of the rear end of the cylinder member, and an annular piston flange is formed on the outer periphery of the rear end of the piston member.
[0005]
When using a chemical injection device, the cylinder member of the chemical syringe filled with the chemical solution is connected to the subject with an extension tube, and the chemical syringe is attached to the syringe holding member of the chemical injection device. In a general chemical solution injector, a concave portion having a shape corresponding to the cylinder member and cylinder flange of the chemical syringe is formed on the upper surface of the syringe holding member. Retained.
[0006]
Furthermore, the chemical liquid injector holds the piston flange separately from the cylinder member by the piston drive mechanism, and slides the piston member by the piston drive mechanism. Thus, the chemical solution is injected from the chemical solution syringe into the subject, and the chemical solution is sucked into the chemical solution syringe from the chemical solution tank as necessary.
[0007]
The piston member of the chemical syringe as described above generally has a structure in which a piston head is mounted on the front end of a piston rod in which a piston flange is formed on the outer periphery of the rear end. There is also a chemical syringe formed.
[0008]
In such a chemical injection device corresponding to a chemical syringe, a piston driving mechanism slidably supports a slide rod having a chuck mechanism formed at the front end, and the piston member is held by the chuck mechanism of the slide rod to be a cylinder. Slide the inside of the member.
[0009]
In addition to the products in which the chemical liquid syringe is directly mounted as described above, there are products in which the chemical liquid syringe is mounted via a cylinder adapter in the above-described chemical liquid injection device. Although there are various types of such cylinder adapters, for example, those for the purpose of preventing breakage due to the internal pressure of the chemical syringe are formed of thick polycarbonate in a shape covering the entire cylinder member.
[0010]
In such a cylinder adapter, an annular adapter flange is formed on the outer periphery of the rear end, and a concave portion for engaging the cylinder flange is formed inside the rear surface of the adapter flange. Then, a chemical | medical solution injection | pouring apparatus hold | maintains a cylinder flange indirectly by hold | maintaining the adapter flange of the cylinder adapter with which the cylinder member was loaded.
[0011]
In addition, in the above-mentioned chemical | medical solution injection | pouring apparatus, in order to hold | maintain the cylinder flange of a chemical | medical solution syringe, there exist some which pivotally supported a pair of flange holding member. In such a chemical solution injector, the flange holding member is formed with an arc-shaped concave groove on which the cylinder flange can be freely engaged and disengaged, and is arranged at a position for holding the cylinder flange from the left and right sides.
[0012]
Such a flange holding member is pivotally supported at an open position where the cylinder flange can be inserted by opening upward and a closed position where the cylinder flange is held from both the left and right sides. For this reason, when the cylinder flange is inserted into the flange holding member arranged at the open position and rotated to the closed position, the cylinder flange is held from the left and right sides by the pair of flange holding members (for example, Patent Documents). 1).
[0013]
[Patent Document 1]
JP 2002-11096 A
[Problems to be solved by the invention]
In the above-described chemical solution injector, the cylinder flange of the chemical solution syringe is easily and detachably held, so that the cylinder flange is held from both the left and right sides by a rotatable flange holding member.
[0015]
However, when the chemical solution is injected into the subject from the chemical solution syringe at a high pressure, the stress acting on the flange holding member from the cylinder flange becomes excessive. In such a case, there is a concern that the flange holding member pivotally supported as described above may be broken due to insufficient strength.
[0016]
The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a chemical liquid injector that is easy to attach and detach a cylinder flange but has sufficient strength to hold the cylinder flange.
[0017]
[Means for Solving the Problems]
The chemical injection device according to the present invention includes the cylinder member and the piston member of a chemical syringe in which a piston member is slidably inserted into a cylindrical cylinder member in which an annular cylinder flange is formed on the outer periphery of the rear end. A chemical injection device for relative movement,
An immovable holding member in which an arc-shaped concave groove in which a lower portion of the cylinder flange is freely detachable is formed on the upper surface;
One is arranged on each of the left and right sides of the upper surface of the stationary holding member, and is configured to take an open position where the cylinder flange can be inserted by opening upward and a closed position for holding the cylinder flange from both the left and right sides. And a pair of movable holding members for holding the cylinder flange from both sides,
Two support shafts pivotally supporting the movable holding members in the vertical direction;
A flat holding guide member that holds the immobile holding member and the support shafts;
With
The pair of movable holding members are provided on the rear surface of the holding guide member, and the front surface of each movable holding member and the rear surface of the holding guide member are in contact with each other, and the axial direction applied to the syringe when the piston member is pushed in. The holding guide member is configured to receive force via the movable holding member,
And a member holding mechanism for selectively holding the pair of movable holding members at the open position and the closed position,
The member holding mechanism is
A spherical member press-fitted together with a coil spring in an opening formed in the front surface of the movable holding member, and the holding guide member,
In the holding guide member,
A first recessed hole in which the spherical member of the movable holding member disposed in the open position is detachably engaged;
A second recessed hole in which the spherical member of the movable holding member disposed at the closed position is detachably engaged;
The spherical member is elastically engaged with the first or second recessed hole by the bias of the coil spring .
[0019]
In the chemical injection device of the present invention, the cylinder flange is held by the pair of movable holding members and the recessed groove of the stationary holding member. Since the pair of movable holding members are rotatably supported, the chemical syringe is easy to attach and detach, and the stationary holding member is fixed, so that the chemical syringe is held with sufficient strength. Further, the front surface of each movable holding member and the rear surface of the holding guide member are in contact with each other, and the holding guide member applies an axial force applied to the syringe when the piston member is pushed in via the movable holding member. Since it is comprised so that it may receive, a cylinder flange can be firmly hold | maintained also with a pair of movable holding member.
[0020]
It should be noted that the various components referred to in the present invention do not have to be individually independent. For example, a plurality of components are formed as one member, and a certain component is a component of another component. It is possible that it is a part, a part of a certain component overlaps a part of another component, and the like.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described below with reference to the drawings. In the present embodiment, the front, rear, left, right, top, and bottom directions are defined and described as shown in the drawings. However, this is defined for convenience in order to simplify the explanation of the relative relationship of each part, and the apparatus of the present invention It is not intended to limit the direction of production or use.
[0022]
[Configuration of the embodiment]
As shown in FIG. 3, the chemical liquid injector 100 according to the present embodiment has an operation panel 102 and a liquid crystal display 103 disposed on the upper surface of the apparatus main body 101, and is injected by a movable arm 104 on the side of the apparatus main body 101. A head 110 is attached. As shown in FIG. 2, the injection head 110 has a semi-cylindrical groove-shaped recess 112 formed on the upper surface of the head main body 111, and the drug syringe 200 is detachably attached to the recess 112.
[0023]
The chemical syringe 200 includes a cylinder member 201 and a piston member 202, and the piston member 202 is slidably inserted into the cylinder member 201. A cylinder flange 203 is formed on the outer periphery of the rear end of the cylinder member 201, and a piston flange 204 is formed on the outer periphery of the rear end of the piston member 202.
[0024]
The injection head 110 has a piston drive mechanism 113 disposed behind the concave portion 112 of the head body 111, and the piston drive mechanism 113 holds the piston flange 204 and moves back and forth. In addition, the injection head 110 has a pair of flange holding mechanisms 120 mounted at predetermined positions of the recesses 112 of the head main body 111, and the flange holding mechanism 120 holds the cylinder flange 203 of the chemical syringe 200.
[0025]
More specifically, as shown in FIGS. 5 and 6, the flange holding mechanism 120 has a flat plate-like holding guide member 121, and the holding guide member 121 is integrally fixed to the head main body 111. . A U-shaped recess 122 is formed on the upper surface of the holding guide member 121, and the cylinder member 201 of the chemical syringe 200 is loaded into the recess 122 from above.
[0026]
A stationary holding member 124 is integrally fixed below the rear surface of the holding guide member 121, and a pair of movable holding members 125 are pivotally supported one by one on the left and right sides above the rear surface. The fixed holding member 124 has an upper surface formed in an arc shape corresponding to the outer peripheral surface of the cylinder member 201, and an arc-shaped concave groove 126 into which the lower portion of the cylinder flange 203 is detachably inserted is formed on the upper surface. ing.
[0027]
The pair of movable holding members 125 has an inner surface formed in an arc shape corresponding to the outer peripheral surface of the cylinder member 201, and an arc-shaped concave groove 127 with which the upper portion of the cylinder flange 203 is engaged is formed on the inner surface. The immovable / movable holding members 124 and 125 are formed so that the entire inner surfaces of the concave grooves 126 and 127 are flush with each other, and in particular, the concave grooves 126 and 127 with which the front surface of the cylinder flange 203 abuts. The rear surface is formed so as to be flush with the surface with high accuracy.
[0028]
The pair of movable holding members 125 are pivotally supported by a support shaft 129 that is a member pivotal support mechanism so that the front surface thereof is in contact with the rear surface of the holding guide member 121. A member holding mechanism (not shown) that holds the moving position is formed.
[0029]
More specifically, as shown in FIG. 5, an opening hole 131 is formed in the front surface of the movable holding member 125, and a ball 133 that is a spherical member is press-fitted into the opening hole 131 together with the coil spring 132. . Further, as shown in FIG. 6B, first and second concave holes 134 and 135 are formed in order from the outside on the left and right sides above the rear surface of the holding guide member 121. The ball 133 of the movable holding member 125 is elastically engaged with the second concave holes 134 and 135 by the bias of the coil spring 132.
[0030]
When the ball 133 is engaged with the first concave hole 134 of the holding guide member 121, the pair of movable holding members 125 are opened upward and the cylinder flange 203 is inserted as shown in FIG. When held in a freely open position and engaged with the second recessed hole 134, as shown in FIG. 1C, the cylinder flange 203 is held in a closed position where the cylinder flange 203 is held from both the left and right sides.
[0031]
Further, the movable holding member 125 is formed in a shape in which the lower end is located below the axis of the support shaft 129 and the upper end is located above the axis of the support shaft 129 when disposed at the closed position. A lever portion 136 that is manually operated is integrally formed at the upper end.
[0032]
In addition, as shown in FIG. 4, the chemical injection device 100 of the present embodiment is used in the vicinity of the imaging unit 301 of the MRI apparatus 300, for example, and connected to the control unit 302 of the MRI apparatus 300 as necessary. The control unit 302 includes a computer system, and controls the operation of the imaging unit 301 and displays a tomographic image.
[0033]
[Operation of the embodiment]
In the configuration as described above, when using the liquid injector 100 according to the present embodiment, for example, the operator selects an appropriate liquid syringe 200 corresponding to the liquid injected into the subject, and the liquid syringe 200 is selected as the MRI. An extension tube is connected to a subject located in the imaging unit 301 of the apparatus 300 (not shown).
[0034]
In the state where the liquid syringe 200 is not attached to the injection head 110, the chemical liquid injection device 100 is engaged with the first concave hole 135 of the holding guide member 121 by the ball 133 of the movable holding member 125 as shown in FIG. As shown in a), the movable holding member 125 is held in the open position.
[0035]
Therefore, when the operator inserts the cylinder flange 203 of the chemical syringe 200 into the concave groove 126 of the pair of movable holding members 125 held in the open position and presses downward, as shown in FIG. When the movable holding member 125 is pressed and rotated by the cylinder member 201 and the cylinder flange 203, the ball 133 drops from the first recessed hole 135.
[0036]
Furthermore, when the operator presses the chemical syringe 200 downward, the movable holding member 125 is rotated by being pressed by the cylinder member 201 and the cylinder flange 203, so that the ball 133 is engaged with the second recessed hole 135. As shown in FIG. 1C, the movable holding member 125 is held in the closed position.
[0037]
Then, the upper part of the cylinder flange 203 is held by the pair of movable holding members 125 from both sides and the lower part of the chemical syringe 200 is held by the immobile holding member 124. In addition, when the movable holding member 125 is difficult to rotate by simply pressing the chemical syringe 200 downward as described above, the movable holding member 125 can be closed by manual operation of the lever portion 136 as desired.
[0038]
At this time, since the piston drive mechanism 113 holds the piston flange 204 of the chemical liquid syringe 200, when the operator performs a predetermined operation on the operation panel 102 of the chemical liquid injector 100, the piston drive mechanism 113 slides the piston member 202. Thus, the chemical solution is injected from the cylinder member 201 to the subject.
[0039]
When this injection operation is completed, for example, the operator removes the extension tube from the subject and pulls out the drug syringe 200 upward from the injection head 110. Then, the movable holding member 125 is pressed and rotated by the cylinder member 201 and the cylinder flange 203, so that the ball 133 falls out of the second recessed hole 135.
[0040]
When the operator further raises the chemical syringe 200 upward, as shown in FIG. 1 (b), the ball 133 is moved by the pressing of the cylinder member 201 and the cylinder flange 203 and the movable holding member 125 is rotated. 1 is engaged with the recessed hole 135.
[0041]
As shown in FIG. 1A, since the movable holding member 125 is held in the open position, the chemical syringe 200 is taken out upward. As described above, when the movable holding member 125 is difficult to rotate simply by pulling the chemical syringe 200 upward, the movable holding member 125 can be opened by manual operation of the lever portion 136 as desired.
[0042]
As described above, since the movable holding member 125 is held at the open position in the state where the chemical solution syringe 200 is not attached to the chemical solution injection apparatus 100 as described above, the chemical solution syringe is not required without special preparation operation. The installation of 200 can be started.
[0043]
[Effect of the embodiment]
In the chemical injection device 100 according to the present embodiment, the movable holding member 125 is pivotally supported in the vertical direction as described above, and the lower end disposed at the closed position is below the axis of the support shaft 129. It is located and the upper end is formed in the shape located upwards.
[0044]
Therefore, when the chemical syringe 200 is inserted into the recess 112 of the injection head 110 from above by manual operation, the cylinder flange 203 is automatically held by the pair of movable holding members 125, and from this state, the chemical syringe 200 is moved upward by manual operation. When pulled out, the pair of movable holding members 125 are automatically opened.
[0045]
Therefore, in the liquid injector 100 of this embodiment, since the liquid syringe 200 can be easily and reliably attached to and detached from the injection head 110 with one hand, the liquid injector 100 that causes contamination at the medical site is operated with only one hand. It is possible to keep the other hand clean at all times.
[0046]
Moreover, if the movable holding member 125 can be freely opened and closed to facilitate the attachment and detachment of the chemical syringe 200 as described above, the mechanical strength inevitably decreases. However, in the chemical injection device 100 of this embodiment, the injection head 110 is used. The lower part of the cylinder flange 203 is held by a stationary holding member 124 fixed to the cylinder.
[0047]
For this reason, the chemical | medical solution syringe 200 can be hold | maintained firmly and the mechanical strength of the flange holding mechanism 120 does not run short even when the piston member 202 is pressed to high pressure. That is, the chemical injection device 100 of this embodiment uses both the movable holding member 125 and the immobile holding member 124 in combination, so that both the ease of attaching and detaching the chemical syringe 200 and the strength of holding are compatible.
[0048]
In particular, in the chemical injection device 100 of this embodiment, the support shaft 129 that pivotally supports the movable holding member 125, and the holding guide member 121 in which the concave holes 134 and 135 into which the balls 133 of the movable holding member 125 are engaged are formed. Since the stationary holding member 124 is fixed integrally, a strong structure is easily realized.
[0049]
Moreover, in the chemical injection device 100 of this embodiment, the holding guide member 121 is formed in a flat plate shape, and a U-shaped recess 122 in which the cylinder member 201 is located is formed on the upper surface, and the holding guide member 121 has a rear surface on the rear surface. The front surface of the movable holding member 125 is in contact.
[0050]
For this reason, even if the stress which presses the piston member 202 to high pressure acts on the movable holding member 125 from the cylinder flange 203, this movable holding member 125 can be hold | maintained with the holding guide member 121, and it can move freely. The member 125 can also hold the cylinder flange 203 firmly.
[0051]
In addition, since the immovable / movable holding members 124 and 125 are formed so that the rear surfaces of the concave grooves 126 and 127 with which the front surface of the cylinder flange 203 abuts are made to be flush with each other with high accuracy, the liquid syringe that is pressed forward. 200 can be firmly held with good accuracy.
[0052]
Furthermore, in the chemical injection device 100 of this embodiment, the lever portion 136 that is manually operated is integrally formed at the upper end of the movable holding member 125, so that the movable holding member 125 rotates only by moving the chemical syringe 200 up and down. When it is difficult, the movable holding member 125 can be opened and closed by manual operation of the lever portion 136 as desired, and the movable holding member 125 can be opened and closed reliably.
[0053]
In the chemical injection device 100 of this embodiment, the ball 133 press-fitted together with the coil spring 132 into the opening hole 131 of the movable holding member 125 is engaged with the first and second concave holes 134 and 135 of the holding guide member 121. Thus, the member holding mechanism that holds the movable holding member 125 in the open position and the closed position is realized with a simple structure.
[0054]
[Modification of Embodiment]
The present invention is not limited to the present embodiment, and various modifications are allowed without departing from the scope of the present invention. For example, in the above embodiment, the non-moving holding member 124, the support shaft 129, and the holding guide member 121 are illustrated as being formed separately and mounted integrally. However, a part or all of these are formed integrally. It is also possible.
[0055]
For example, as shown in FIG. 7, the stationary holding member 124 and the holding guide member 121 are integrally formed, thereby improving the mechanical strength of the stationary holding member 124 and at the time when the liquid syringe 200 is pressed forward. Since the positional accuracy of the movable holding member 125 and the stationary holding member 124 can be improved, the chemical syringe 200 can be held more firmly.
[0056]
Further, in the above embodiment, the ball 133 is press-fitted together with the coil spring 132 into the opening hole 131 of the movable holding member 125, and the first and second concave holes 134 and 135 are formed in the holding guide member 121. did. However, it is also possible to form the first and second concave holes 134 and 135 in the movable holding member 125 by forming the opening 131 in the holding guide member 121 and press-fitting the ball 133 together with the coil spring 132.
[0057]
Alternatively, convex portions that engage with the first / second concave holes 134, 135 of the holding guide member 121 are formed on the movable holding member 125, or the first / second concave holes 134, 135 are formed on the movable holding member 125. It is also possible to form a convex portion on the holding guide member 121 and press the movable holding member 125 against the holding guide member 121 with a coil spring or the like.
[0058]
In the above embodiment, it is assumed that the chemical injection device 100 is used in the vicinity of the MRI apparatus 300, but this can also be used in the vicinity of a CT scanner, a PET apparatus, an angio apparatus, an MRA apparatus, or the like. Furthermore, in the above embodiment, one chemical syringe 200 is attached to one recess 112 of the chemical injector 100, but a plurality of chemical syringes 200 can be attached to a plurality of recesses of the injection head. (Not shown).
[0059]
Further, in the above embodiment, the chemical syringe 200 is directly attached to the chemical injection device 100. However, since there are various sizes of the commercially available chemical syringe 200, for example, the maximum size chemical syringe 200 is used. It is also possible that only the chemical solution injection device 100 is directly attached to the chemical solution injection device 100, and various sizes of the chemical solution syringes 200 other than the maximum are attached to the chemical solution injection device 100 via a dedicated cylinder adapter (not shown). .
[0060]
In particular, in the chemical injection device 100 that injects the chemical at a high pressure, a cylinder adapter that loads the entire cylinder member 201 is used in order to prevent the cylinder member 201 of the chemical syringe 200 from being destroyed. Such a cylinder adapter is formed in a cylindrical shape in which the cylinder member 201 is detachably loaded from the rear end, and an annular adapter flange is formed on the outer periphery of the rear end.
[0061]
Since a concave portion in which the cylinder flange 203 of the chemical syringe 200 is detachably engaged is formed on the rear surface inside the adapter flange, when the chemical syringe 200 with such a cylinder adapter is attached to the chemical injector 100. The immovable holding member 124 and the pair of movable holding members 125 hold the cylinder flange 203 indirectly by directly holding the adapter flange.
[0062]
In the above embodiment, the rod-shaped piston member 202 is illustrated as being inserted into the cylinder member 201 of the chemical syringe 200. However, such a chemical syringe includes a product in which the piston member is only the head portion (not shown). ) In particular, in the chemical syringe that injects the chemical liquid at a high pressure as described above, the piston member is only the head portion as described above in order to prevent the rod portion from being broken.
[0063]
In a chemical injection device that uses such a chemical syringe (not shown), the piston drive mechanism grips and slides the piston head of the chemical syringe with a metal solid slide arm or the like. The flange holding mechanism 120 having the above-described configuration can also be used in the apparatus.
[0064]
【The invention's effect】
In liquid injector of the present invention, the cylinder flange is held by a pair of movable holding member, the groove of the stationary holding member. Since the pair of movable holding members are pivotally supported, the chemical syringe can be easily attached and detached, and the stationary holding member is fixed, so that the chemical syringe can be held with sufficient strength. it can.
[Brief description of the drawings]
FIG. 1 is a front view showing a state in which a chemical syringe is attached to and detached from a movable holding member and a non-moving holding member of a chemical injection device according to an embodiment of the present invention.
FIG. 2 is a perspective view showing a state where a chemical syringe is attached to and detached from an injection head of the chemical injection device.
FIG. 3 is a perspective view showing an appearance of a chemical liquid injector.
FIG. 4 is a perspective view showing an appearance of an MRI apparatus.
FIG. 5 is an exploded perspective view showing an assembly structure of the flange holding mechanism.
FIG. 6 is a perspective view showing a structure of a flange holding mechanism.
FIG. 7 is an exploded perspective view showing an assembly structure of a flange holding mechanism according to a modification.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 100 Chemical liquid injection device 113 Piston drive mechanism 121 Holding guide member 122 Recessed part 124 Immovable holding member 125 Movable holding member 126,127 Recessed groove 129 Support shaft 131 which is a member axial support mechanism 132 Opening hole 132 Coil spring 133 Ball 134 First recessed hole 135 Second concave hole 136 Lever portion 200 Chemical syringe 201 Cylinder member 202 Piston member 203 Cylinder flange 204 Piston flange

Claims (5)

A chemical injection device for moving the cylinder member and the piston member of a chemical syringe in which a piston member is slidably inserted into a cylindrical cylinder member having an annular cylinder flange formed on the outer periphery of the rear end. And
An immovable holding member in which an arc-shaped concave groove in which a lower portion of the cylinder flange is freely detachable is formed on the upper surface;
One is arranged on each of the left and right sides of the upper surface of the stationary holding member, and is configured to take an open position where the cylinder flange can be inserted by opening upward and a closed position for holding the cylinder flange from both the left and right sides. And a pair of movable holding members for holding the cylinder flange from both sides,
Two support shafts pivotally supporting the movable holding members in the vertical direction;
A flat holding guide member that holds the immobile holding member and the support shafts;
With
The pair of movable holding members are provided on the rear surface of the holding guide member, and the front surface of each movable holding member and the rear surface of the holding guide member are in contact with each other, and the axial direction applied to the syringe when the piston member is pushed in. The holding guide member is configured to receive force via the movable holding member ,
And a member holding mechanism for selectively holding the pair of movable holding members at the open position and the closed position,
The member holding mechanism is
A spherical member press-fitted together with a coil spring in an opening formed in the front surface of the movable holding member, and the holding guide member,
In the holding guide member,
A first recessed hole in which the spherical member of the movable holding member disposed in the open position is detachably engaged;
A second recessed hole in which the spherical member of the movable holding member disposed at the closed position is detachably engaged;
Is formed, and the spherical member is elastically engaged with the first or second concave hole by the bias of the coil spring . The upper end with the lower end of the movable retaining member disposed in the closed position is positioned below the axis of the support shaft is located above, liquid injector according to claim 1. The chemical | medical solution injection device of any one of Claims 1-2 in which the lever part operated manually is integrally formed in the upper end of the said movable holding member. The chemical solution injection device according to any one of claims 1 to 3 , wherein the stationary holding member and the holding guide member are integrally formed. An annular adapter flange is formed on the outer periphery of the rear end, and a concave portion with which a cylinder flange of the chemical syringe is detachably engaged is formed on the rear inner surface, and the cylinder member is detachably loaded from the rear end. A cylindrical cylinder adapter;
Indirectly holding the cylinder flange by holding in an adapter flange of the cylinder adapter in which the cylinder member is loaded with said stationary holding member and the pair of the movable holding member, one of the claims 1-4 1 The chemical injection device according to the item,
Having a chemical injection system.

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