CN219783520U - Automatic split charging injection instrument for radioactive drug - Google Patents

Abstract

The utility model discloses an automatic split charging injection instrument for radiopharmaceuticals, which comprises a device body, wherein one side of the device body is provided with a conveyor belt shell, the front surface of the conveyor belt shell is provided with a motor shell, the inside of the motor shell is provided with a conveyor belt motor, the inside of the device body is symmetrically provided with a screw motor, the inner wall of the device body is provided with a mounting block.

Description

Automatic split charging injection instrument for radioactive drug

Technical Field

The utility model relates to the technical field of radioactive drug split charging, in particular to an automatic split charging injection instrument for radioactive drugs.

Background

Radiopharmaceuticals refer to a special class of drugs that contain radionuclides for medical diagnostic and therapeutic use. The radioactive nuclide-labeled compound or biological agent for medical diagnosis or treatment in a machine body is characterized in that a human body is directly contacted with a radioactive drug to cause injury to the human body, the radioactive drug is split-charged and injected by an injector to automatically split-charge, a worker is too close to the radioactive drug when placing a container in the equipment, the radioactive drug possibly affects and hurts the human body, and the radioactive drug automatic split-charging injector can bring safety to the worker.

Disclosure of Invention

The utility model aims to provide an automatic split charging injection instrument for radiopharmaceuticals, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an automatic partial shipment injection appearance of radiopharmaceutical, includes the ware body, the conveyer belt shell is installed to one side of the ware body, the motor housing is installed in the front of conveyer belt shell, motor housing's internally mounted has the conveyer belt motor, the lead screw motor is installed to the inside symmetry of the ware body, the lead screw is installed to the output of lead screw motor, the telescopic link is installed in the outside of lead screw, the connecting block is installed in the front of telescopic link, anchor clamps are installed in the front of connecting block, the installation piece is installed to the inner wall of the ware body.

Preferably, the bottom of the device body is symmetrically provided with a base, and the front surface of the device body is provided with glass.

Preferably, a feeding hole is formed in one side of the device body, a telescopic rod movable groove is formed in the inner wall of the feeding hole, and an extending groove is formed in the front face of the device body.

Preferably, the output end of the conveyor belt motor is provided with a connecting rod, the inside of the conveyor belt shell is provided with a through groove, and the connecting rod is connected with the conveyor belt motor through the through groove.

Preferably, the outside of connecting rod is installed the cylinder, the conveyer belt is installed to the outside of cylinder, a plurality of conveyer belt supporting seats are installed to the bottom of conveyer belt shell.

Preferably, a plurality of transmission motors are arranged in the mounting block, and a transmission rod is arranged at the output end of each transmission motor.

Preferably, the front symmetry of installation piece installs the bracing piece, the movable groove has been seted up to the inside of bracing piece, the supporting shoe is installed in the front of transfer line, a plurality of through-holes have been seted up to the inside of supporting shoe, the standing groove has been seted up at the top of supporting shoe.

Preferably, the movable blocks are symmetrically arranged on two sides of the supporting block, and the movable blocks are positioned in the movable grooves.

Preferably, the internally mounted of heat dissipation groove has the screen that keeps off, keeps off the place ahead that the net is located the support, the internally mounted of heat dissipation groove has the dust screen, and the dust screen is located between support and the screen that keeps off.

By adopting the technical scheme, the beneficial effects obtained by the utility model are as follows:

1. according to the utility model, the clamp is arranged, a worker places the lead box for storing the radioactive drug on the conveyor belt, the lead box is moved into the clamp through the conveyor belt, then the telescopic rod drives the clamp to extend out to clamp the lead box, the screw rod motor is started to drive the telescopic rod to move, the lead box is moved into the equipment, the conveyor belt is matched with the clamp, the lead box can be substituted into the equipment, and the situation that the body is irradiated due to the fact that the worker contacts the radioactive drug is prevented, so that the body health is affected.

2. According to the utility model, the supporting blocks are arranged, the placing grooves formed in the tops of the supporting blocks can provide placing spaces for the sub-packaging containers, when workers place the sub-packaging containers in the placing grooves, the driving motor drives the driving rod to bring the supporting blocks back inwards, the movable grooves formed in the two side symmetrically arranged supporting rods can provide movable spaces for the movable blocks arranged on the two sides of the supporting blocks, and the limiting capacity is provided for the supporting blocks, and the placing grooves can provide automatic placing capacity for the workers, so that the workers are prevented from being affected by radiation due to close contact with radioactive medicines.

Drawings

Fig. 1 is a schematic perspective view of the apparatus of the present utility model.

Fig. 2 is a schematic cross-sectional view of a screw motor according to the present utility model.

Fig. 3 is a schematic cross-sectional view of a conveyor belt according to the present utility model.

Fig. 4 is a schematic perspective view of a support block according to the present utility model.

In the figure: 1. a body; 101. a base; 102. glass; 103. a feed inlet; 104. a telescopic rod movable groove; 105. extending out of the groove;

2. a conveyor belt motor; 201. a conveyor belt housing; 202. a motor housing; 203. a connecting rod; 204. a pass through slot; 205. a roller; 206. a conveyor belt; 207. a conveyor belt support;

3. a screw motor; 301. a screw rod; 302. a telescopic rod; 303. a connecting block; 304. a clamp;

4. a mounting block; 401. a drive motor; 402. a transmission rod; 403. a support rod; 404. a movable groove; 405. a support block; 406. a through hole; 407. a placement groove; 408. a movable block.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, an automatic split charging syringe for radiopharmaceuticals;

including ware body 1, the base 101 is installed to the bottom symmetry of ware body 1, base 101 can provide support and stability for the ware body 1 in top, prevent the condition that ware body 1 appears moving, glass 102 is installed in the front of ware body 1, ware body 1 can provide support for the glass 102 of front installation, glass 102 can provide the view for the inside of staff's observer body 1, feed inlet 103 has been seted up to one side of ware body 1, the feed inlet 103 that can set up for one side provides the space, the feed inlet 103 can be for the space inside the radiopharmaceuticals entering equipment, telescopic link movable slot 104 has been seted up to the inner wall of feed inlet 103, telescopic link movable slot 104 can provide the movable space for the telescopic link movable slot 104 that the inner wall was seted up, the extension slot 105 has been seted up in the front of ware body 1, the extension slot 105 that can be for the front start provides the space, extension slot 105 can provide the space for the outside removal of supporting shoe 405.

Referring to fig. 1 and 2, an automatic split charging syringe for radiopharmaceuticals;

a conveyor belt housing 201 is installed on one side of the machine body 1, the conveyor belt housing 201 can provide protection and support for a conveyor belt 206 installed inside, a motor housing 202 is installed on the front surface of the conveyor belt housing 201, the conveyor belt housing 201 can provide support for the motor housing 202 installed on the front surface, the motor housing 202 can provide installation space and support for a conveyor belt motor 2 installed inside, the conveyor belt motor 2 is installed inside the motor housing 202, the conveyor belt motor 2 can provide power for the conveyor belt 206, a connecting rod 203 is installed at the output end of the conveyor belt motor 2, the conveyor belt motor 2 can provide support for the connecting rod 203 installed at the output end, the conveyor belt motor 2 starts to drive the connecting rod 203 installed at the output end to rotate, and a through groove 204 is formed inside the conveyor belt housing 201;

specifically, the connecting rod 203 is connected with the conveyor motor 2 through the through groove 204, the conveyor housing 201 can provide the space for the inside through groove 204 that sets up, can provide the space for the connecting rod 203 through the groove 204, make the connecting rod 203 can be connected with the conveyor motor 2, the cylinder 205 is installed in the outside of connecting rod 203, the connecting rod 203 can provide the support for the cylinder 205 of outside installation, the cylinder 205 of outside installation rotates when connecting rod 203 rotates, the conveyer belt 206 is installed in the outside of cylinder 205, the conveyer belt 206 of outside installation can be provided with the support for the conveyer belt 206 of outside installation when the cylinder 205 rotates, the conveyer belt 206 rotates and drives the radiopharmaceutical to the inside removal of ware body 1, a plurality of conveyer belt supporting seat 207 are installed to the bottom of conveyor housing 201, conveyer belt supporting seat 207 of conveyer belt housing 201 bottom installation can provide support and stability for the conveyer belt housing 201 of top installation, the condition that prevents that conveyer belt 206 from appearing moving.

Referring to fig. 1 and 3, an automatic split charging syringe for radiopharmaceuticals;

the inside symmetry of ware body 1 installs lead screw motor 3, the ware body 1 can provide installation space and support for inside symmetry installation's lead screw motor 3, lead screw 301 is installed to the output of lead screw motor 3, lead screw motor 3 can provide support for output installation's lead screw 301, drive output installation's lead screw 301 when lead screw motor 3 starts and rotate, telescopic link 302 is installed in the outside of lead screw 301, lead screw 301 can provide support for outside installation's telescopic link 302, drive outside installation's telescopic link 302 when lead screw 301 rotates and remove, the connecting block 303 is installed in telescopic link 302's front, telescopic link 302 can provide support for front installation's connecting block 303, connecting block 303 can be connected anchor clamps 304 and telescopic link 302, anchor clamps 304 are installed in the front of connecting block 303 can provide support for front installation's anchor clamps 304, anchor clamps 304 outwards stretch out when telescopic link 302 starts, carry out the centre gripping with the lead box when anchor clamps 304 outwards stretch out, rethread lead screw motor 3 drives lead screw 301 and removes lead box to ware body 1 inside.

Referring to fig. 1 and 4, an automatic split charging syringe for radiopharmaceuticals;

the inner wall of the device body 1 is provided with a mounting block 4, the inside of the mounting block 4 is provided with a plurality of transmission motors 401, the mounting block 4 can provide mounting space and support for the plurality of transmission motors 401 which are internally mounted, the output end of each transmission motor 401 is provided with a transmission rod 402, each transmission motor 401 can provide support for the transmission rod 402 which is installed at the output end, the transmission rod 402 which is installed at the output end is driven to rotate when the transmission motor 401 is started, the front side of the mounting block 4 is symmetrically provided with a supporting rod 403, the mounting block 4 can provide support for the supporting rod 403 which is symmetrically installed at the front side, the inside of the supporting rod 403 is provided with a movable groove 404, the supporting rod 403 can provide a space for the movable groove 404 which is internally provided, the movable groove 404 can provide a movable space for the movable block 408, and can provide limit for the supporting block 405, and the front side of the transmission rod 402 is provided with the supporting block 405;

specifically, the transfer line 402 can provide the activity ability for the supporting shoe 405 of front installation, a plurality of through-holes 406 have been seted up to the inside of supporting shoe 405, a plurality of through-holes 406 that the supporting shoe 405 can be for inside seting up offer the space, the through-hole 406 can provide through-space for the transfer line 402, standing groove 407 has been seted up at the top of supporting shoe 405, the standing groove 407 that the supporting shoe 405 can be for the top seting up offers the space, standing groove 407 can provide the space for the partial shipment container, movable block 408 is installed to the bilateral symmetry of supporting shoe 405, movable block 408 is located movable groove 404, supporting shoe 405 can provide the support for the movable block 408 of bilateral symmetry installation, after the staff places the partial shipment container in standing groove 407, drive transfer line 402 through start drive motor 401, inwards remove by the supporting shoe 405 again by transfer line 402, know into inside the ware body 1, outwards send out supporting shoe 405 through drive motor 401 after the partial shipment is accomplished.

Working principle: staff is through placing the plumbous box that deposits the radiopharmaceutical on conveyer belt 206, in moving plumbous box to anchor clamps 304 through conveyer belt 206, anchor clamps 304 inwards move the plumbous box through telescopic link 302 centre gripping, then drive lead screw 301 through lead screw motor 3 and rotate and remove telescopic link 302 to equipment inside, then the staff is through placing the partial shipment container in standing groove 407, rethread driving drive motor 401 drives transfer line 402 and inwards withdraws supporting shoe 405, wait to divide the back of accomplishing and outwards send supporting shoe 405 through transfer motor 401, the staff with the container after the partial shipment can.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (8)

1. The utility model provides an automatic partial shipment injection appearance of radiopharmaceutical, includes ware body (1), its characterized in that, conveyer belt shell (201) are installed to one side of ware body (1), motor housing (202) are installed in the front of conveyer belt shell (201), internally mounted of motor housing (202) has conveyer belt motor (2), lead screw motor (3) are installed to the inside symmetry of ware body (1), lead screw (301) are installed to the output of lead screw motor (3), telescopic link (302) are installed in the outside of lead screw (301), connecting block (303) are installed in the front of telescopic link (302), anchor clamps (304) are installed in the front of connecting block (303), installation piece (4) are installed to the inner wall of ware body (1).

2. The automatic sub-packaging injector for radiopharmaceuticals according to claim 1, wherein the bottom of the container body (1) is symmetrically provided with a base (101), and the front surface of the container body (1) is provided with glass (102).

3. The automatic split charging injector for radiopharmaceuticals according to claim 1, wherein a feed inlet (103) is formed in one side of the body (1), a telescopic rod movable groove (104) is formed in the inner wall of the feed inlet (103), and an extension groove (105) is formed in the front face of the body (1).

4. The automatic sub-packaging injection device for the radiopharmaceuticals according to claim 1, wherein a connecting rod (203) is installed at the output end of the conveyor motor (2), a through groove (204) is formed in the conveyor housing (201), and the connecting rod (203) is connected with the conveyor motor (2) through the through groove (204).

5. The automatic sub-packaging injector for radiopharmaceuticals according to claim 4, wherein a roller (205) is mounted on the outer side of the connecting rod (203), a conveyor belt (206) is mounted on the outer side of the roller (205), and a plurality of conveyor belt supporting seats (207) are mounted on the bottom of the conveyor belt housing (201).

6. The automatic sub-packaging injection device for the radiopharmaceuticals according to claim 1, wherein a plurality of transmission motors (401) are installed in the installation block (4), and a transmission rod (402) is installed at the output end of each transmission motor (401).

7. The automatic sub-packaging injection instrument for radiopharmaceuticals according to claim 6, wherein the support bars (403) are symmetrically arranged on the front sides of the mounting blocks (4), movable grooves (404) are formed in the support bars (403), support blocks (405) are arranged on the front sides of the transmission bars (402), a plurality of through holes (406) are formed in the support blocks (405), and placing grooves (407) are formed in the tops of the support blocks (405).

8. The automatic sub-packaging injector as set forth in claim 7, wherein the support block (405) is symmetrically provided with movable blocks (408) on both sides, and the movable blocks (408) are located in the movable grooves (404).