CN220040475U - Excrement and urine detects cardboard loading attachment - Google Patents

Abstract

The utility model relates to the technical field of fecal detection clamping plate feeding, in particular to a fecal detection clamping plate feeding device which comprises a clamping plate box body assembly, a clamping plate selecting assembly, a clamping plate pushing assembly and an upper controller, wherein a plurality of groups of clamping plate box body assemblies are arranged above the clamping plate selecting assembly side by side through supporting assemblies, the clamping plate box body assembly comprises a plurality of fecal detection clamping plates which are stacked, the clamping plate selecting assembly is used for selecting the fecal detection clamping plates of the clamping plate box body assemblies and moving the selected fecal detection clamping plates to a feeding port, the clamping plate pushing assembly is used for pushing the fecal detection clamping plates positioned at the feeding port to the next station, and the clamping plate selecting assembly and the clamping plate pushing assembly are respectively controlled by the upper controller. The assembly is selected through the cardboard and a plurality of excrement and urine that stack together detects the cardboard and select, and the rethread cardboard is released the assembly and is detected the excrement and urine that will select and carry out propelling movement to next station, realizes automatic feeding, and its work efficiency is high, has reduced the cost of labor.

Description

Excrement and urine detects cardboard loading attachment

Technical Field

The utility model relates to the technical field of feeding of a fecal detection clamping plate, in particular to a fecal detection clamping plate feeding device.

Background

The full-automatic fecal analyzer detects the project comparatively more, and every detection project all needs a solitary excrement detection cardboard for detect corresponding detection project, need dispose a plurality of excrement detection cardboard on the instrument promptly, after detecting a project, change another excrement detection cardboard again, in order to satisfy different detection demands.

At present, the work for loading a plurality of excrement and urine detection cardboard is accomplished by the manual work, and artifical intensity of labour is very big, and because a plurality of excrement and urine detection cardboard stacks together, occupation space is great, inconvenient selection leads to work efficiency lower.

Accordingly, there is a need for improvements over the prior art.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides the excrement detection clamping plate feeding device, a plurality of excrement detection clamping plates stacked together are selected through the clamping plate selecting assembly, and then the selected excrement detection clamping plates are pushed to the next station through the clamping plate pushing assembly, so that automatic feeding is realized, the working efficiency is high, and the labor cost is reduced.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides a excrement and urine detects cardboard loading attachment, select the subassembly including cardboard box body subassembly, the cardboard, cardboard release subassembly and upper controller, multiunit cardboard box body subassembly is through supporting component side by side the top that the subassembly was selected to the cardboard box body subassembly, the cardboard box body subassembly is including a plurality of excrement and urine that pile up the setting detects the cardboard, the cardboard is selected the subassembly and is used for selecting the excrement and urine that the cardboard box body subassembly detects the cardboard, and will select excrement and urine and detect the cardboard and remove to the pay-off mouth, the cardboard release subassembly is used for being located the excrement and urine that the pay-off mouth detects cardboard propelling movement to next station, the cardboard is selected the subassembly and is released the subassembly and is passed through upper controller control respectively.

According to the above scheme, the supporting component includes first supporting seat, second supporting seat and backup pad, and the lower extreme of first supporting seat and second supporting seat is fixed in the cardboard respectively and selects on the subassembly, and the backup pad is fixed in the upper end of first supporting seat and second supporting seat, and cardboard box body subassembly is fixed in the backup pad, is equipped with the material mouth in the backup pad.

According to the scheme, the first supporting seat is located at one side, close to the clamping plate pushing-out assembly, of the clamping plate selecting assembly, the feeding port is formed in the first supporting seat, the feeding port is correspondingly provided with the feeding inductor, and the feeding inductor is in signal connection with the upper controller.

According to the scheme, the clamping plate selecting assembly comprises a first supporting frame, a first fixed platform and a lifting platform, wherein the first fixed platform is fixedly arranged on the first side of the first supporting frame, the lifting platform is movably arranged on the second side of the first supporting frame, a first sliding rail is arranged on the first fixed platform, a first sliding block is arranged on the first sliding rail in a sliding mode, a second sliding rail is arranged on the lifting platform, a second sliding block is arranged on the second sliding rail in a sliding mode, a selecting manipulator is arranged on the second sliding block, the second sliding block is connected with the first sliding block, the first sliding block slides on the first sliding rail through a first driving assembly, the second sliding block is driven to slide on the second sliding rail, and the lifting platform is driven to lift on the first supporting frame through a second driving assembly.

According to the scheme, the first sliding block is provided with the second guide rod, the second sliding block is axially and fixedly connected with the second guide rod, and the second sliding block is longitudinally and movably connected with the second guide rod.

According to the above scheme, the first driving assembly comprises a first motor, a first driving wheel, a first driven wheel and a first synchronous belt, wherein the first motor is arranged at the first end of the first fixed platform, the first driving wheel is arranged at the output end of the first motor, the first driven wheel is arranged at the second end of the first fixed platform through a bearing seat, the first synchronous belt is wound on the first driving wheel and the first driven wheel, and the first sliding block is fixed with the first synchronous belt through a first connecting block.

According to the above scheme, the second drive assembly includes the second motor, and the second motor is installed on the first support frame of lift platform's below, and the output of second motor is fixed with lift platform, is equipped with a plurality of first guide bars between lift platform and the first support frame.

According to the scheme, the first support frame is provided with the first fixing plate, the first fixing plate is provided with the first row Cheng Ganying optocouplers, and the second slider is provided with the first travel sensing piece which is matched with the first row Cheng Ganying optocouplers for sensing.

According to the scheme, the cardboard is released subassembly and is included second support frame and second fixed platform, second fixed platform is fixed to be located on the second support frame, the first side of second fixed platform is equipped with the third slide rail, it is equipped with the kickoff board to slide on the third slide rail, the second side of second fixed platform is equipped with the second fixed plate, the third motor is installed to the first end of second fixed plate, the second action wheel is installed to the output of third motor, the second driven wheel is installed through the bearing frame to the second end of second fixed plate, the second action wheel is twined on with the second driven wheel and is had the second hold-in range, the kickoff board is fixed with the second hold-in range through the second connecting block.

According to the scheme, one end of the material shifting plate, which is close to the clamping plate selecting assembly, is provided with the pushing part, the pushing part penetrates through the feeding port to push the excrement detection clamping plate selected by the clamping plate selecting assembly to the next station, a plurality of second stroke induction optocouplers are arranged on the second fixing platform, and a second stroke induction piece which is matched with the second stroke induction optocouplers for induction is arranged on the material shifting plate.

The utility model has the beneficial effects that:

the utility model adopts the structure arrangement, the plurality of fecal detection clamping plates stacked together are selected through the clamping plate selecting assembly, and then the selected fecal detection clamping plates are pushed to the next station through the clamping plate pushing assembly, so that the automatic feeding is realized, the working efficiency is high, and the labor cost is reduced.

Drawings

FIG. 1 is a diagram of the overall structure of the present utility model;

FIG. 2 is an assembly view of a card select assembly and a card ejector assembly of the present utility model;

FIG. 3 is a block diagram of a panel selection assembly of the present utility model;

FIG. 4 is a block diagram of a card ejector assembly of the present utility model.

In the figure: 10. a cardboard box assembly; 101. a first support base; 102. a second support base; 103. a support plate; 104. a feeding port; 105. a fecal detection card; 20. a clamping plate selecting component; 201. a first support frame; 202. a first fixed platform; 203. a lifting platform; 204. a first guide bar; 205. a first motor; 206. a first drive wheel; 207. a first driven wheel; 208. a first synchronization belt; 209. a first connection block; 210. a first slider; 211. a second slider; 212. selecting a material manipulator; 213. a first slide rail; 214. a second slide rail; 215. first row Cheng Ganying optocouplers; 216. first row Cheng Ganying sheets; 217. a second guide bar; 218. a second motor; 219. a first fixing plate; 30. a card ejecting assembly; 301. a second support frame; 302. a second fixed platform; 303. a second fixing plate; 304. a third motor; 305. a second driving wheel; 306. a second driven wheel; 307. a second timing belt; 308. a second connection block; 309. a kick-out plate; 310. a third slide rail; 311. a pushing part; 312. a second stroke induction optocoupler; 313. and a second stroke sensing piece.

Detailed Description

The technical scheme of the utility model is described below with reference to the accompanying drawings and examples.

As shown in fig. 1 to 4, the feeding device for the fecal detection clamping plates according to the present utility model comprises a clamping plate box body assembly 10, a clamping plate selecting assembly 20, a clamping plate pushing assembly 30 and an upper controller, wherein a plurality of groups of clamping plate box body assemblies 10 are arranged above the clamping plate selecting assembly 20 side by side through supporting assemblies, the clamping plate box body assembly 10 comprises a plurality of fecal detection clamping plates 105 stacked, the clamping plate selecting assembly 20 is used for selecting the fecal detection clamping plates 105 of the clamping plate box body assembly 10 and moving the selected fecal detection clamping plates 105 to a feeding port 104, the clamping plate pushing assembly 30 is used for pushing the fecal detection clamping plates 105 positioned at the feeding port 104 to a next station, and the clamping plate selecting assembly 20 and the clamping plate pushing assembly 30 are respectively controlled by the upper controller. The working principle of the utility model is divided into two modes of material selection and material pushing, more specifically, a plurality of groups of clamping plate box body assemblies 10 are arranged above the clamping plate selecting assembly 20 in parallel through the supporting assembly, when the materials are selected, the upper controller controls the clamping plate selecting assembly 20 to move to the lower part of the clamping plate box body assembly 10, and the required excrement detection clamping plate 105 is selected, and after the excrement detection clamping plate 105 is selected, the excrement detection clamping plate is driven to move to the feeding port 104; when pushing materials, the upper controller controls the clamping plate pushing assembly 30 to push the excrement detection clamping plate 105 positioned at the feeding port 104 to the next station, automatic feeding is achieved, the working efficiency is high, and the labor cost is reduced.

In this embodiment, the supporting assembly includes a first supporting seat 101, a second supporting seat 102 and a supporting plate 103, the lower ends of the first supporting seat 101 and the second supporting seat 102 are respectively fixed on the chuck plate selecting assembly 20, the supporting plate 103 is fixed on the upper ends of the first supporting seat 101 and the second supporting seat 102, the chuck plate box assembly 10 is fixed on the supporting plate 103, and the supporting plate 103 is provided with a material taking opening. The utility model forms a supporting component for supporting a plurality of groups of clamping plate box body components 10 through the first supporting seat 101, the second supporting seat 102 and the supporting plate 103, wherein the clamping plate box body components 10 are fixed on the supporting plate 103, and a material taking opening is arranged on the supporting plate 103, so that an upper controller can conveniently control the clamping plate selecting component 20 to move to the lower part of the clamping plate box body components 10, and the excrement detection clamping plates 105 are selected through the material taking opening.

In this embodiment, the first supporting seat 101 is located at a side of the card selecting assembly 20 near the card pushing assembly 30, the first supporting seat 101 is provided with a feeding port 104, and the feeding port 104 is correspondingly provided with a feeding sensor, and the feeding sensor is in signal connection with the upper controller. According to the utility model, the feeding port 104 is arranged on the first supporting seat 101, when the clamping plate selecting assembly 20 selects the excrement detection clamping plate 105, the clamping plate is moved to the feeding port 104, the feeding sensor is fed to the upper controller, the upper controller controls the clamping plate selecting assembly 20 to stop working, controls the clamping plate pushing assembly 30 to work, and pushes the excrement detection clamping plate 105 positioned at the feeding port 104 to the next station.

In this embodiment, the chuck plate selecting assembly 20 includes a first supporting frame 201, a first fixed platform 202 and a lifting platform 203, the first fixed platform 202 is fixedly disposed on a first side of the first supporting frame 201, the lifting platform 203 is movably disposed on a second side of the first supporting frame 201, a first sliding rail 213 is disposed on the first fixed platform 202, a first sliding block 210 is slidably disposed on the first sliding rail 213, a second sliding rail 214 is disposed on the lifting platform 203, a second sliding block 211 is slidably disposed on the second sliding rail 214, a selecting manipulator 212 is disposed on the second sliding block 211, the second sliding block 211 is connected with the first sliding block 210, the first sliding block 210 is driven to slide on the first sliding rail 213 by a first driving assembly, and drives the second sliding block 211 to slide on the second sliding rail 214, and the lifting platform 203 is driven to lift on the first supporting frame 201 by a second driving assembly. According to the utility model, the first driving component drives the first sliding block 210 to drive the second sliding block 211 to slide on the first sliding rail 213 and the second sliding rail 214 respectively, so that the transverse displacement of the selecting manipulator 212 is controlled, when the selecting manipulator moves to the position of the selecting excrement detection clamping plate 105, the second driving component drives the lifting platform 203 to lift, the selecting manipulator 212 selects the excrement detection clamping plate 105, the second driving component drives the lifting platform 203 to descend, and the first driving component drives the first sliding block 210 to drive the second sliding block 211 and the selecting manipulator 212 to transversely displace to the position of the feeding port 104.

In practical application, the first driving assembly drives the selecting and taking manipulator 212 to laterally displace, and the second driving assembly drives the selecting and taking manipulator 212 to vertically displace, so that the selecting and taking are convenient.

In this embodiment, the first slider 210 is provided with a second guide rod 217, the second slider 211 is axially and fixedly connected to the second guide rod 217, and the second slider 211 is longitudinally and movably connected to the second guide rod 217. According to the utility model, the second sliding block 211 is fixedly connected with the second guide rod 217 in the axial direction, so that when the first sliding block 210 moves, the second sliding block 211 is driven to synchronously move, the second sliding block 211 is longitudinally movably connected with the second guide rod 217, and when the second sliding block 211 moves to a position, the second driving assembly drives the lifting platform 203 to drive the second sliding block 211 to synchronously lift, and in the lifting process, the second sliding block 211 is always connected with the second guide rod 217. That is, the second slider 211 can move laterally with the first slider 210 and can be lifted up and down relative to the first slider 210.

In this embodiment, the first driving assembly includes a first motor 205, a first driving wheel 206, a first driven wheel 207 and a first synchronous belt 208, the first motor 205 is installed at a first end of the first fixed platform 202, the first driving wheel 206 is installed at an output end of the first motor 205, the first driven wheel 207 is installed at a second end of the first fixed platform 202 through a bearing seat, the first synchronous belt 208 is wound around the first driving wheel 206 and the first driven wheel 207, and the first slider 210 is fixed with the first synchronous belt 208 through a first connecting block 209. The first driving wheel 206 is driven to rotate by the first motor 205, so that the first driven wheel 207 and the first synchronous belt 208 are driven to synchronously rotate, and the first sliding block 210 is fixed with the first synchronous belt 208 by the first connecting block 209, so that the first sliding block 210 is driven to slide on the first sliding rail 213.

In this embodiment, the second driving assembly includes a second motor 218, the second motor 218 is mounted on the first support frame 201 below the lifting platform 203, an output end of the second motor 218 is fixed to the lifting platform 203, and a plurality of first guide rods 204 are disposed between the lifting platform 203 and the first support frame 201. According to the utility model, the lifting platform 203 is driven to lift by the second motor 218, and in the lifting process, the lifting platform is lifted horizontally under the action of the plurality of first guide rods 204, so that the lifting is more stable and reliable.

In practical applications, the second motor 218 may be a lifting cylinder or other structures for driving the lifting platform 203 to lift, which can achieve the purpose of the present utility model.

In this embodiment, a first fixing plate 219 is disposed on the first supporting frame 201, a plurality of first rows Cheng Ganying of optocouplers 215 are disposed on the first fixing plate 219, and a first row Cheng Ganying of sheets 216 that are induced by matching with the first rows Cheng Ganying of optocouplers 215 are disposed on the second slider 211. According to the utility model, the stroke of the second sliding block 211 is controlled by the matching induction of the first row Cheng Ganying sheet 216 and the first row Cheng Ganying optocoupler 215, so that the second sliding block 211 can be accurately moved to a designated position.

In this embodiment, the card pushing assembly 30 includes a second supporting frame 301 and a second fixing platform 302, the second fixing platform 302 is fixedly disposed on the second supporting frame 301, a third sliding rail 310 is disposed on a first side of the second fixing platform 302, a material stirring plate 309 is slidably disposed on the third sliding rail 310, a second fixing plate 303 is disposed on a second side of the second fixing platform 302, a third motor 304 is mounted at a first end of the second fixing plate 303, a second driving wheel 305 is mounted at an output end of the third motor 304, a second driven wheel 306 is mounted at a second end of the second fixing plate 303 through a bearing seat, a second synchronous belt 307 is wound on the second driving wheel 305 and the second driven wheel 306, and the material stirring plate 309 is fixed with the second synchronous belt 307 through a second connecting block 308. The third motor 304 drives the second driving wheel 305 to rotate, drives the second driven wheel 306 and the second synchronous belt 307 to rotate, and drives the material shifting plate 309 to slide on the third sliding rail 310.

In this embodiment, a pushing portion 311 is disposed at an end of the material pulling plate 309 near the board selection assembly 20, the pushing portion 311 passes through the feeding port 104 to push the faeces detection board 105 selected by the board selection assembly 20 to the next station, a plurality of second stroke sensing optocouplers 312 are disposed on the second fixing platform 302, and a second stroke sensing piece 313 that is cooperatively sensed with the second stroke sensing optocouplers 312 is disposed on the material pulling plate 309. According to the utility model, the material stirring plate 309 slides on the third sliding rail 310, so that the pushing part 311 passes through the feeding port 104 to push the faeces detection clamping plate 105 selected by the clamping plate selecting assembly 20 to the next station, wherein the second stroke sensing piece 313 and the second stroke sensing optocoupler 312 cooperate to sense to control the stroke of the material stirring plate 309 on the third sliding rail 310, and the material stirring plate 309 can be conveniently and accurately moved to the designated position.

The embodiments of the present utility model have been described above with reference to the accompanying drawings, but the present utility model is not limited to the above-described embodiments, which are merely illustrative, not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present utility model and the scope of the claims, which are all within the scope of the present utility model.

Claims (10)

1. Excrement and urine detects cardboard loading attachment, its characterized in that: including cardboard box body subassembly, cardboard select subassembly, cardboard to push out subassembly and upper controller, multiunit cardboard box body subassembly passes through supporting component and selects the top of subassembly side by side of cardboard, cardboard box body subassembly includes a plurality of excrement and urine that pile up the setting and detect the cardboard, the cardboard is selected the subassembly and is used for selecting the excrement and urine that the cardboard box body subassembly detects the cardboard to with the excrement and urine that selects detects the cardboard and remove to the pay-off mouth, the cardboard is pushed out the subassembly and is used for pushing the excrement and urine that is located the pay-off mouth to next station, the cardboard is selected the subassembly and is pushed out the subassembly and pass through upper controller control respectively.

2. The stool detection card feeding device of claim 1, wherein: the supporting assembly comprises a first supporting seat, a second supporting seat and a supporting plate, wherein the lower ends of the first supporting seat and the second supporting seat are respectively fixed on the clamping plate selecting assembly, the supporting plate is fixed at the upper ends of the first supporting seat and the second supporting seat, the clamping plate box body assembly is fixed on the supporting plate, and a material taking opening is formed in the supporting plate.

3. The stool detection card feeding device of claim 2, wherein: the feeding device comprises a clamping plate pushing assembly, a first supporting seat, a clamping plate selecting assembly, a feeding port, a feeding sensor and an upper controller.

4. The stool detection card feeding device of claim 1, wherein: the clamping plate selecting assembly comprises a first supporting frame, a first fixing platform and a lifting platform, wherein the first fixing platform is fixedly arranged on a first side of the first supporting frame, the lifting platform is movably arranged on a second side of the first supporting frame, a first sliding rail is arranged on the first fixing platform, a first sliding block is arranged on the first sliding rail in a sliding mode, a second sliding rail is arranged on the lifting platform, a second sliding block is arranged on the second sliding rail in a sliding mode, a selecting manipulator is arranged on the second sliding block, the second sliding block is connected with the first sliding block, the first sliding block is driven to slide on the first sliding rail through a first driving assembly, the second sliding block is driven to slide on the second sliding rail, and the lifting platform is driven to lift on the first supporting frame through a second driving assembly.

5. The stool detection card feeding device of claim 4, wherein: the first sliding block is provided with a second guide rod, the second sliding block is axially and fixedly connected with the second guide rod, and the second sliding block is longitudinally and movably connected with the second guide rod.

6. The stool detection card feeding device of claim 4, wherein: the first driving assembly comprises a first motor, a first driving wheel, a first driven wheel and a first synchronous belt, the first motor is arranged at the first end of the first fixed platform, the first driving wheel is arranged at the output end of the first motor, the first driven wheel is arranged at the second end of the first fixed platform through a bearing seat, the first synchronous belt is wound on the first driving wheel and the first driven wheel, and the first sliding block is fixed with the first synchronous belt through a first connecting block.

7. The stool detection card feeding device of claim 4, wherein: the second driving assembly comprises a second motor, the second motor is arranged on a first supporting frame below the lifting platform, the output end of the second motor is fixed with the lifting platform, and a plurality of first guide rods are arranged between the lifting platform and the first supporting frame.

8. The stool detection card feeding device of claim 4, wherein: the first support frame is provided with a first fixing plate, the first fixing plate is provided with a plurality of first row Cheng Ganying optocouplers, and the second slider is provided with a first travel sensing piece which is matched with the first row Cheng Ganying optocouplers for sensing.

9. The stool detection card feeding device of claim 1, wherein: the clamping plate pushing assembly comprises a second supporting frame and a second fixing platform, the second fixing platform is fixedly arranged on the second supporting frame, a third sliding rail is arranged on the first side of the second fixing platform, a stirring plate is arranged on the third sliding rail in a sliding mode, a second fixing plate is arranged on the second side of the second fixing platform, a third motor is arranged at the first end of the second fixing plate, a second driving wheel is arranged at the output end of the third motor, a second driven wheel is arranged at the second end of the second fixing plate through a bearing seat, a second synchronous belt is wound on the second driving wheel and the second driven wheel, and the stirring plate is fixed with the second synchronous belt through a second connecting block.

10. The stool detection card feeding apparatus of claim 9, wherein: the one end that the stirring plate is close to the cardboard and selects the subassembly is equipped with pushing block, pushing block passes the pay-off mouth and selects the excrement and urine detection cardboard that the subassembly selected to push to next station, be equipped with a plurality of second stroke response optocouplers on the second fixed platform, be equipped with on the stirring plate with the second stroke response piece of second stroke response optocoupler cooperation response.