CN116570504A - Automatic injection device for radioactive therapeutic drug - Google Patents

Abstract

The invention relates to the technical field of nuclear medicine treatment, in particular to an automatic injection device for a radioactive therapeutic drug, which is used for pumping liquid from a drug tank into a drug bottle according to requirements through a liquid pumping device, then moving the drug bottle to the position of a Su-shou detection assembly through a bottle moving device to detect activity, under the condition that the activity meets requirements, starting a sealer to seal the top of the drug bottle, then further moving the drug bottle to a second mounting head of a rotary disc through the bottle moving device to fix, at the moment, moving a first mounting head to insert the injector into the drug bottle, then rotating the rotary disc by 180 degrees to absorb the drug in the drug bottle through the injector, then pumping the injector out and restoring the rotary disc to the original position, at the moment, extending the injector out of a shell, and mounting the injection head, so that the injection is performed, the radiation to medical staff is reduced, and the working efficiency is improved.

Description

Automatic injection device for radioactive therapeutic drug

Technical Field

The invention relates to the technical field of nuclear medicine treatment, in particular to an automatic injection device for a radioactive therapeutic drug.

Background

In clinical practice of nuclear medicine, patients undergoing nuclear medicine imaging examination usually need to inject radiopharmaceuticals, and as the demand for nuclear medicine examination increases, the preparation of nuclear medicine radiopharmaceuticals and the radiation to which medical staff is subjected correspondingly increase greatly, and particularly many chemotherapy patients have poor vascular conditions and difficult injection, so that the medical staff bear huge mental stress.

1. The automatic radiopharmaceutical injection device on the market at present is designed and produced aiming at diagnostic medicines, the time required for injecting the medicines is quick, generally within 30S, and the automatic radiopharmaceutical injection device is fixed on a special injection window of a nuclear medicine department, one device is used by a plurality of people, and no radiation protection means is provided for patients in the injection process;

2. there are also syringe pumps or automatic infusion pumps of common drugs on the market, which are common therapeutic drugs, do not have radiation protection function, and the measurement unit is volume (unit name ml), and the measurement unit of the radioactive drug is radioactivity (unit name mCi), so the current syringe pump cannot satisfy the use of the radioactive therapeutic drug.

Because the equipment can not meet the requirements, the injection can only be performed manually at present, the manual injection has radiation influence, the medical staff is occupied for a long time, and the injection flow and the injection time can not be well controlled by the manual injection.

Disclosure of Invention

The invention aims to provide an automatic injection device for a radioactive therapeutic drug, which aims to ensure that the whole injection process does not need manual participation, reduce the radiation to medical staff and improve the working efficiency.

In order to achieve the above object, the present invention provides an automatic injection device for a radiotherapy drug, comprising a supporting component, a sub-packaging component, a detecting component and an injection component, wherein the supporting component comprises a base and a protective shell, the protective shell is arranged at the top of the base, the sub-packaging component comprises a drug box, a liquid extractor, a bottle moving device, a drug bottle and a sealer, the drug box is arranged in the protective shell, the liquid extractor is arranged at one side of the drug box, the drug bottle is arranged at one side of the liquid extractor, the bottle moving device is in sliding connection with the base and is positioned at one side of the drug bottle, the sealer is arranged at one side of the protective shell, the detecting component is arranged between the sealer and the liquid extractor, the injection component comprises a rotating disc, a first mounting head, a second mounting head, the injector and the injector, the rotating disc is rotatably arranged at one side of the shell, the first mounting head is arranged on the rotating disc for fixing and moving the injector, the second mounting head is arranged on the rotating disc for fixing the drug bottle at one side of the protective shell.

The protective shell comprises a shell body and a protective door, wherein the protective door is rotationally connected with the shell body and is positioned on one side of the shell body.

The medicament box comprises a box body, a cover plate and a liquid suction pipe, wherein the cover plate is in sliding connection with the shell and is positioned at the top of the box body, and the liquid suction pipe is fixed on the cover plate.

The liquid extracting device comprises a liquid extracting pump, a metering device and a liquid injecting pipe, wherein the liquid extracting pump is arranged on one side of the shell, the metering device is connected with the liquid extracting pump, and the liquid injecting pipe is communicated with the liquid extracting pump and is positioned at the top of the medicament bottle.

The bottle moving device comprises a moving cylinder, a moving plate and a reset spring, wherein the moving cylinder is fixed on one side of the shell, the moving plate is fixedly connected with the output end of the moving cylinder, and the reset spring is arranged between the moving cylinder and the moving plate.

The sealing device comprises a sealing cylinder and a sealing head, wherein the sealing cylinder is arranged at the top of the shell, and the sealing head is detachably connected to the sealing cylinder.

The detection assembly comprises an activity meter and a driver, wherein the driver is arranged on one side of the shell, and the activity meter is arranged on the driver.

Wherein, injection subassembly still includes plumbous lag, plumbous lag sets up the syringe outside.

According to the automatic injection device for the radioactive therapeutic drugs, the protective shell is supported by the base, the protective shell is made of the radiation-proof material and comprises radiation-proof concrete, heavy metal materials such as lead, steel and the like, common concrete, clay brick masonry and the like to isolate the radioactive drugs in the protective shell, then the medicament required by injection can be extracted from the medicament box through the split charging assembly, quantitative use is facilitated, particularly, the liquid extracting device is used for extracting liquid from the medicament box into the medicament bottle according to the requirement, then the medicament bottle is moved to the position of the sovier detection assembly through the bottle moving device to detect the activity, under the condition that the activity meets the requirement, the sealer is started to seal the top of the medicament bottle, then the medicament bottle is further moved to the second mounting head of the rotary disc through the bottle moving device, at the moment, the first mounting head is moved into the medicament bottle, then the rotary disc is rotated 180 degrees, the medicament bottle is extracted through the injector, then the rotary disc is moved to the position of the medicament bottle, the rotary disc is restored to the position, the radiation efficiency of the injector is reduced, and the manual injection efficiency of the injector is improved, and the radiation-sensitive syringe is reduced.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a block diagram of an automatic injection device for a radiation therapy drug according to a first embodiment of the present invention.

Fig. 2 is a cross-sectional view of an automatic injection device for a radiation therapy drug according to a first embodiment of the present invention.

Fig. 3 is a block diagram of an automatic radiation therapy drug injection device according to a second embodiment of the present invention.

Fig. 4 is a cross-sectional view showing a constitution of an automatic injection device for a radiation therapy drug according to a second embodiment of the present invention.

Fig. 5 is an internal structural view of an automatic injection device for a radiation therapy drug according to a third embodiment of the present invention.

Fig. 6 is an enlarged view of a portion of detail a of fig. 5.

The support assembly 101, the dispensing assembly 102, the detection assembly 103, the injection assembly 104, the base 105, the protective housing 106, the medicine box 107, the drawer 108, the vial shifter 109, the medicine bottle 110, the sealer 111, the rotary disk 112, the first mounting head 113, the second mounting head 114, the syringe 115, the injector head 116, the housing 201, the protective door 202, the housing 203, the cover plate 204, the liquid suction tube 205, the liquid suction pump 206, the gauge 207, the liquid suction tube 208, the moving cylinder 209, the moving plate 210, the return spring 211, the seal cylinder 212, the seal head 213, the activity meter 214, the driver 215, the lead protective sheath 301, the clamp plate 302, the second spring 303, the injection rod 304, the liquid suction head 305, the second cylinder 306, the mounting block 307, and the third cylinder 308.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

In the description of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention. Furthermore, in the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

First embodiment

Referring now to fig. 1 and 2, fig. 1 is a block diagram of an automatic injection device for a radiation therapy drug according to a first embodiment of the present invention. Fig. 2 is a cross-sectional view of an automatic injection device for a radiation therapy drug according to a first embodiment of the present invention.

The invention provides an automatic injection device for a radioactive therapeutic drug, which comprises a support assembly 101, a split charging assembly 102, a detection assembly 103 and an injection assembly 104, wherein the support assembly 101 comprises a base 105 and a protective shell 106, the protective shell 106 is arranged at the top of the base 105, the split charging assembly 102 comprises a drug tank 107, a liquid extractor 108, a bottle moving device 109, a drug bottle 110 and a sealing device 111, the drug tank 107 is arranged in the protective shell 106, the liquid extractor 108 is arranged at one side of the drug tank 107, the drug bottle 110 is arranged at one side of the liquid extractor 108, the bottle moving device 109 is connected with the base 105 in a sliding manner and is positioned at one side of the drug bottle 110, the sealing device 111 is arranged at one side of the protective shell 106, the detection assembly 103 is arranged between the sealing device 111 and the liquid extractor 108, the injection assembly 104 comprises a rotary disc 112, a first mounting head 113, a second mounting head 114, a syringe 115 and an injection head 116, the rotary disc 112 is rotatably arranged at one side of the protective shell 106, the first mounting head 113 is arranged at one side of the drug tank 107, the syringe 110 is arranged at one side of the rotary disc 112, the rotary disc is arranged at the other side of the rotary disc 112, the syringe head 115 is arranged at the other side of the rotary disc 112.

In this embodiment, the base 105 is used to support the protective shell 106, the protective shell 106 is made of a radiation-proof material, and includes radiation-proof concrete, heavy metal materials such as lead, steel, etc., common concrete, clay brick masonry, etc. to isolate the inside radiopharmaceuticals, then the dispensing assembly 102 can be used to withdraw the required medicines from the medicine box 107 for quantitative use, specifically, the liquid extractor 108 is used to extract the medicines from the medicine box 107 into the medicine bottles 110 as required, then the medicine bottles 110 are moved to the position where the soilback detection assembly 103 is located by the bottle moving device 109, under the condition that the activity meets the requirement, the sealer 111 is started to seal the top of the medicine bottles 110, then the medicine bottles 110 are further moved to the second mounting head 114 of the rotary disk 112 by the bottle moving device 109, at this time, the first mounting head 113 is moved to insert the syringes 115 into the medicine bottles 110, then the rotary disk 180 is rotated, the syringes 115 are moved to the rotary disk 115, at this time, the syringe 115 is not required to be completely protruded outside the rotary disk 112, and the syringe is completely outside the syringe bottles 115, thus the syringe efficiency is reduced, and the syringe is completely required to be completely filled outside the syringe bottles 112.

Second embodiment

Referring to fig. 3 to 4, fig. 3 is a block diagram showing an automatic injection device for a radiation therapy drug according to a second embodiment of the present invention. Fig. 4 is a cross-sectional view showing a constitution of an automatic injection device for a radiation therapy drug according to a second embodiment of the present invention.

The present invention further provides an automatic injection device for a radiotherapy drug, wherein the protective housing 106 comprises a housing 201 and a protective door 202, and the protective door 202 is rotatably connected with the housing 201 and is located on one side of the housing 201. The medicine in the medicine tank 107 can be replenished by opening the protection door 202, so that the use is more convenient.

In this embodiment, the medicine box 107 includes a box 203, a cover 204, and an access tube 205, where the cover 204 is slidably connected to the housing 201 and is located at the top of the box 203, and the access tube 205 is fixed on the cover 204. When the medicine in the box 203 needs to be replenished, the cover plate 204 is lifted, so that the box 203 can be opened, the use is more convenient, and then the medicine can be extracted through the liquid extracting pipe 205.

The liquid pump 108 includes a liquid pump 206, a meter 207, and a liquid injection tube 208, wherein the liquid pump 206 is disposed on one side of the housing 201, the meter 207 is connected to the liquid pump 206, and the liquid injection tube 208 is communicated with the liquid pump 206 and is disposed on the top of the medicament bottle 110. The liquid pump 206 can pump the medicine in the box 203 and inject the medicine into the medicine bottle 110 through the liquid injection tube 208, and the meter 207 is used for converting the volume to control the injection amount.

Then, the bottle shifter 109 includes a moving cylinder 209, a moving plate 210, and a return spring 211, the moving cylinder 209 is fixed at one side of the housing 201, the moving plate 210 is fixedly connected to an output end of the moving cylinder 209, and the return spring 211 is disposed between the moving cylinder 209 and the moving plate 210. The moving plate 210 is driven to move in segments by the moving cylinder 209 so that the medicine bottle 110 can be conveniently moved onto the detecting assembly 103, the sealer 111 and the rotating disk 112.

The sealer 111 includes a sealing cylinder 212 and a sealing head 213, the sealing cylinder 212 is disposed at the top of the housing 201, and the sealing head 213 is detachably connected to the sealing cylinder 212. When the activity in the medicament bottle 110 meets the requirement, the sealing cylinder 212 is activated to mount the sealing head 213 to the top of the medicament bottle 110 for sealing. The telescoping section of the seal cylinder 212 may be provided with clamping jaws to control the installation and removal of the seal head 213.

The detection assembly 103 includes an activity meter 214 and a driver 215, the driver 215 being disposed on one side of the housing, the activity meter 214 being disposed on the driver 215. After the medicine bottle 110 moves to the position of the activity meter 214, the driver 215 may be driven to drive the activity meter 214 to move downward for detection, so that the use is more convenient.

Third embodiment

Referring to fig. 5 to 6, fig. 5 is an internal structural view of an automatic injection device for a radiation therapy drug according to a third embodiment of the present invention. Fig. 6 is an enlarged view of a portion of detail a of fig. 5.

On the basis of the second embodiment, the present invention also provides an automatic injection device for a radioactive therapeutic drug, the injection assembly 104 further comprising a lead shield 301, the lead shield 301 being disposed outside the syringe 115. The amount of radiation at the syringe 115 may be further controlled by the lead sheath 301.

The second mounting head 114 includes two clamping plates 302 and a second spring 303, the two clamping plates 302 are slidably connected to the rotating disk 112 and located at one side of the rotating disk 112, and the second spring 303 is disposed between the two clamping plates 302. The medicine bottle is clamped by the pretightening force provided by the two clamping plates 302 and the elastic force of the second spring 303, and the medicine bottle 110 is also conveniently withdrawn, so that the use is more convenient.

Further, the syringe 115 includes an injection rod 304 and an extractor head 305, the extractor head 305 being disposed on one side of the injection rod 304. The liquid can be injected and sucked through the liquid sucking head 305, so that the use is more convenient.

Finally, the first mounting head 113 includes a second cylinder 306, a mounting block 307, and a third cylinder 308, the second cylinder 306 is fixed on the rotating disk 112, the mounting block 307 is connected with the second cylinder 306, the third cylinder 308 is fixed on the mounting block 307, and the injector 115 is disposed on an output end of the third cylinder 308. The third cylinder 308 can drive the injector 115 to move up and down to suck the medicine in the medicine bottle 110 or inject the medicine, and the second cylinder 306 controls the installation plane of the injector 115, so that the use is more convenient.

The above disclosure is only a preferred embodiment of the present invention, and it should be understood that the scope of the invention is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present invention.

Claims (8)

1. An automatic injection device for a radioactive therapeutic drug, which is characterized in that,

including supporting component, partial shipment subassembly, detection component and injection subassembly, supporting component includes base and protecting crust, the protecting crust sets up the base top, the partial shipment subassembly includes medicament case, liquid extractor, moves bottle ware, medicament bottle and sealer, the medicament case sets up in the protecting crust, the liquid extractor sets up one side of medicament case, the medicament bottle sets up one side of liquid extractor, move bottle ware with base sliding connection, and be located one side of medicament bottle, the sealer sets up one side of protecting crust, detection component sets up the sealer with between the liquid extractor, injection subassembly includes rotary disk, first installation head, second installation head, syringe and injector head, the rotary disk rotates the setting and is in one side of protecting crust, first installation head sets up on the rotary disk for fixed and remove the syringe, the second installation head sets up on the rotary disk for fixed the medicament bottle, the injector head sets up one side at the rotary disk.

2. An automatic radiation therapy drug injection device as in claim 1,

the protective shell comprises a shell body and a protective door, wherein the protective door is rotationally connected with the shell body and is positioned on one side of the shell body.

3. An automatic radiation therapy drug injection device as in claim 2,

the medicament box comprises a box body, a cover plate and a liquid suction pipe, wherein the cover plate is in sliding connection with the shell and is positioned at the top of the box body, and the liquid suction pipe is fixed on the cover plate.

4. An automatic radiation therapy drug injection device as in claim 3,

the liquid extractor comprises a liquid extracting pump, a meter and a liquid filling pipe, wherein the liquid extracting pump is arranged on one side of the shell, the meter is connected with the liquid extracting pump, and the liquid filling pipe is communicated with the liquid extracting pump and is positioned at the top of the medicament bottle.

5. An automatic radiation therapy drug injection device as in claim 4,

the bottle shifter comprises a movable air cylinder, a movable plate and a reset spring, wherein the movable air cylinder is fixed on one side of the shell, the movable plate is fixedly connected with the output end of the movable air cylinder, and the reset spring is arranged between the movable air cylinder and the movable plate.

6. An automatic radiation therapy drug injection device as in claim 5,

the sealing device comprises a sealing cylinder and a sealing head, wherein the sealing cylinder is arranged at the top of the shell, and the sealing head is detachably connected to the sealing cylinder.

7. An automatic radiation therapy drug injection device as in claim 6,

the detection assembly comprises an activity meter and a driver, wherein the driver is arranged on one side of the shell, and the activity meter is arranged on the driver.

8. An automatic radiation therapy drug injection device as in claim 7,

the injection assembly further includes a lead shield disposed outside the syringe.