CN114505300A - Material cleaning and conveying system based on intelligent voice - Google Patents

Abstract

The invention relates to a material cleaning and conveying system based on intelligent voice. Conveying system is washd to material based on intelligence pronunciation includes: the device comprises a support frame, a movable conveying platform, a laser cleaning assembly and an intelligent voice control module; the mobile conveying platform is suitable for taking the medical needle box out from the lower part of the laser cleaning component; the intelligent voice control module is suitable for controlling the conveying frequency and starting and stopping of the movable conveying platform. Carry out contactless washing through laser cleaning assembly to medical needle box, the pollution of laser cleaning assembly when having avoided wasing, wash the subassembly through laser and carry out high temperature inactivation simultaneously, guarantee that the germ can not cause the pollution to equipment, simultaneously, to the medical needle box of different inactivation time demands, issue control command through artificial observation, the operation of removing conveying platform is accomplished according to the control command that receives to intelligent voice module, has satisfied the inactivation demand of the medical needle box of different inactivation times.

Description

Material cleaning and conveying system based on intelligent voice

Technical Field

The invention relates to the field of conveying, in particular to a material cleaning and conveying system based on intelligent voice.

Background

The medical needle box is generally similar to a lunch box-shaped box body with a cover, the medical needle box needs to be cleaned when being cleaned, and the cleaned medical needle box is disinfected.

However, some infectious impurities may be attached to the medical needle box, which is inconvenient to clean, and generally, the medical needle box is manually pressed into the disinfectant, the soaking time of the medical needle box is controlled according to the self-feeling, and the disinfectant needs to be frequently replaced after the medical needle box is disinfected, so that different types of viruses are prevented from contacting, and various types of viruses are prevented from being mixed.

The above problems are currently in need of solution.

Disclosure of Invention

The invention aims to provide a material cleaning and conveying system based on intelligent voice.

In order to solve the technical problem, the invention provides a material cleaning and conveying system based on intelligent voice, which comprises:

the device comprises a support frame, a movable conveying platform, a laser cleaning assembly and an intelligent voice control module;

the movable conveying platform is arranged above the supporting frame;

the laser cleaning assembly is arranged above the movable conveying platform and is suitable for cleaning a medical needle box arranged below the laser cleaning assembly;

the mobile conveying platform is suitable for taking the medical needle box out from the lower part of the laser cleaning component;

the intelligent voice control module is suitable for controlling the conveying frequency and starting and stopping of the movable conveying platform.

Further, the mobile conveying platform comprises:

the device comprises a mobile platform, a driving mechanism and two oppositely arranged slide rails;

the moving platform is connected to the sliding rail in a sliding manner through a sliding block;

the driving mechanism is suitable for driving the moving platform to slide on the sliding rail.

Further, the mobile platform comprises a top support plate, a bottom plate and two side plates;

the two side plates are arranged perpendicular to the moving direction of the moving platform;

the top support plate and the bottom plate are arranged oppositely and connected through two oppositely arranged side plates.

Further, the laser cleaning assembly comprises a laser and a square frame;

the laser is arranged above the square frame;

the top supporting plate of the movable conveying platform penetrates through the square frame and is limited by the two side plates of the movable conveying platform.

Further, the driving mechanism comprises a moving motor, a first supporting block, a second supporting block, a moving block and a screw rod;

the first supporting block and the second supporting block are arranged between the two sliding rails;

the screw rod is rotatably connected between the first supporting block and the second supporting block and is parallel to the sliding rail;

one end of the screw rod leaks out of the supporting block and is meshed with the moving motor through a gear;

the moving block is in threaded connection with the lead screw and is fixedly arranged below the moving conveying platform;

the moving motor is suitable for driving the moving conveying platform to move when rotating.

Furthermore, the material cleaning and conveying system based on the intelligent voice also comprises a dust collection and discharge assembly and a discharge chute;

the dust-absorbing and discharging assembly and the discharging groove are respectively arranged at two sides of the movable conveying platform;

the dust-absorbing and discharging assembly is suitable for absorbing dust of the scraps on the medical needle box conveyed by the movable conveying platform and pushing the medical needle box into the discharging groove.

Furthermore, the dust-absorbing and discharging component comprises a discharging push plate, a discharging cylinder, a bottom supporting plate and a vertical plate;

the bottom supporting plate and the vertical plate are fixedly arranged on the supporting frame;

the discharging cylinder is fixedly arranged on the bottom supporting plate;

the vertical plate is provided with a sliding groove suitable for the discharging push plate to penetrate through;

one end of the discharging push plate penetrates through the vertical plate, and the other end of the discharging push plate is connected with the discharging cylinder.

Furthermore, the interface of the discharging push plate is U-shaped;

a dust absorption lug extends downwards from the top of the sliding groove of the vertical plate;

the dust absorption lug is provided with a dust absorption opening;

and a gap is arranged between the dust absorption lug and the discharging push plate.

Furthermore, the discharging push plate is provided with a plurality of brushes on the outer side of the dust absorption convex block.

Further, the material cleaning and conveying system based on the intelligent voice also comprises a disinfection mechanism;

the disinfection mechanism is arranged at the discharge port of the discharge chute;

the disinfection mechanism includes: the device comprises a disinfection bin, a turnover assembly and a material pushing assembly;

the turnover assembly is arranged at the bottom of the disinfection bin and is suitable for turning over the medical needle box falling into the disinfection bin into an inverted buckle state;

the material pushing assembly is arranged at the top of the disinfection bin and is suitable for pushing the disinfected medical needle box out of the disinfection bin.

The invention has the beneficial effect that the invention provides a material cleaning and conveying system based on intelligent voice. Conveying system is washd to material based on intelligence pronunciation includes: the device comprises a support frame, a movable conveying platform, a laser cleaning assembly and an intelligent voice control module; the movable conveying platform is arranged above the supporting frame; the laser cleaning assembly is arranged above the movable conveying platform and is suitable for cleaning a medical needle box arranged below the laser cleaning assembly; the mobile conveying platform is suitable for taking the medical needle box out from the lower part of the laser cleaning component; the intelligent voice control module is suitable for controlling the conveying frequency and starting and stopping of the movable conveying platform. Carry out contactless washing to medical needle box through laser cleaning assembly, the pollution of laser cleaning assembly when having avoided wasing, the high temperature that laser cleaning assembly produced simultaneously carries out the high temperature inactivation with medical needle box adnexed germ, guaranteed that the germ can not cause the pollution to the material cleaning conveying system based on intelligent pronunciation, and simultaneously, to the medical needle box of different inactivation time demands, issue control command through artificial observation, the operation of removing conveying platform is accomplished according to the control command that receives to intelligent voice module, the inactivation demand of the medical needle box of different inactivation times has been satisfied.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural diagram of a material cleaning and conveying system based on intelligent voice provided by the invention.

Fig. 2 is a schematic structural diagram of another perspective of the intelligent voice-based material cleaning and conveying system provided by the invention.

Fig. 3 is a top view of the intelligent voice-based material cleaning and conveying system according to the present invention after hiding the movable conveying platform.

Fig. 4 is a cross-sectional view of the intelligent voice-based material cleaning delivery system provided by the present invention.

Fig. 5 is a cross-sectional view of a disinfection mechanism of the intelligent voice-based material cleaning delivery system provided by the present invention.

FIG. 6 is a cross-sectional view of another perspective of the disinfecting mechanism of the intelligent voice-based material cleaning delivery system provided by the present invention.

In the figure: 110. a support frame; 120. moving the conveying platform; 121. a mobile platform; 1211. a top support plate; 1212. a base plate; 1213. a side plate; 1214. a slider; 122. a drive mechanism; 1221. a moving motor; 1222. a first support block; 1223. a second support block; 1224. a moving block; 1225. a screw rod; 123. a slide rail; 130. A sterilizing mechanism; 131. a disinfection bin; 132. a turnover assembly; 1321. a lifting block; 1322. a main push rod motor; 1323. a first push plate; 1324. a first lifting ramp; 1325. a first push rod motor; 1326. a second push rod motor; 1327. a second push plate; 1328. a second lifting ramp; 1329. a third push rod motor; 1329. a fourth push rod motor; 133. a material pushing assembly; 140. a medical needle magazine; 150. cleaning the component by laser; 151. a laser; 152. a square frame; 160. a dust-absorbing and discharging component; 161. a discharging push plate; 162. a discharge cylinder; 163. a bottom support plate; 164. a vertical plate; 1641. a dust-collecting projection; 170. a discharge chute.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Example 1

Referring to fig. 1 to 6, embodiment 1 provides an intelligent voice-based material cleaning and conveying system, which includes: the device comprises a support frame 110, a mobile conveying platform 120, a laser cleaning assembly 150 and an intelligent voice control module; the movable conveying platform 120 is disposed above the supporting frame 110; the laser cleaning assembly 150 is disposed above the movable conveying platform 120, and is adapted to clean the medical needle cassette 140 disposed below the laser cleaning assembly 150; the mobile transport platform 120 is adapted to carry the medical needle cassette 140 out from under the laser purge assembly 150; the intelligent voice control module is adapted to control the conveying frequency and start and stop of the mobile conveying platform 120. Carry out contactless washing to medical needle box 140 through laser cleaning assembly 150, the pollution of laser cleaning assembly 150 when having avoided wasing, the high temperature that laser cleaning assembly 150 produced simultaneously carries out the high temperature inactivation with medical needle box 140 adnexed germ, guaranteed that the germ can not cause the pollution to the material cleaning conveying system based on intelligent pronunciation, and simultaneously, to the medical needle box 140 of different inactivation time demands, issue control command through artificial observation, the operation of removing conveying platform 120 is accomplished according to the control command that receives to intelligent voice module, the inactivation demand of the medical needle box 140 of different inactivation times has been satisfied.

In this embodiment, the mobile conveying platform 120 includes: the device comprises a movable platform 121, a driving mechanism 122 and two oppositely arranged slide rails 123; the moving platform 121 is slidably connected to the slide rail 123 through a slide block 1214; the driving mechanism 122 is adapted to drive the moving platform 121 to slide on the slide rail 123. The moving platform 121 is moved by the driving mechanism 122, so that the medical needle box 140 can be conveyed out from the lower part of the laser cleaning component 150, and the problem that the conveyor belt is damaged by the laser cleaning component 150 when the medical needle box 140 is conveyed by the conveyor belt is avoided.

In this embodiment, the intelligent voice control module is adapted to control the conveying frequency and start/stop of the movable conveying platform 120, that is, the identification of the control instruction is completed through semantic identification in the intelligent voice module, and the start and stop of the movable conveying platform 120 are controlled according to the control instruction, so as to complete the control of the conveying frequency of the movable conveying platform 120, and thus complete the control of the time interval from the completion of the inactivation of the current medical needle cassette 140 to the inactivation of the next medical needle cassette 140.

In this embodiment, the movable platform 121 includes a top support plate 1211, a bottom plate 1212, and two side plates 1213; the two side plates 1213 are disposed perpendicular to the moving direction of the moving platform 121; the top support plate 1211 and the bottom plate 1212 are oppositely disposed and connected by two oppositely disposed side plates 1213.

In this embodiment, the laser cleaning assembly 150 includes a laser 151 and a square frame 152; the laser 151 is disposed above the square frame 152; the top support plate 1211 of the movable conveying platform 120 passes through the square frame 152 and is limited by the two side plates 1213 of the movable conveying platform 120. The shuttling of the top support panel 1211 within the square frame 152 prevents the mobile conveyor platform 120 from being detached from the laser cleaning assembly 150, and allows the cleaned debris to fall onto the mobile conveyor platforms for subsequent cleaning.

In this embodiment, the driving mechanism 122 includes a moving motor 1221, a first supporting block 1222, a second supporting block 1223, a moving block 1224, and a lead screw 1225; the first supporting block 1222 and the second supporting block 1223 are disposed between the two sliding rails 123; the screw 1225 is rotatably connected between the first supporting block 1222 and the second supporting block 1223, and the screw 1225 is parallel to the sliding rail 123; one end of the screw 1225 leaks out of the support block and is engaged with the moving motor 1221 through a gear; the moving block 1224 is in threaded connection with the lead screw 1225 and is fixedly arranged below the moving conveying platform 120; the moving motor 1221 is adapted to move the moving conveyance platform 120 when rotated.

In this embodiment, the material cleaning and conveying system based on intelligent voice further includes a dust suction and discharge assembly 160 and a discharge chute 170; the dust-absorbing and discharging assembly 160 and the discharging chute 170 are respectively arranged at two sides of the mobile conveying platform 120; the dust suction and discharge assembly 160 is adapted to suck the waste dust on the medical needle cassette 140 conveyed by the movable conveying platform 120 and push the medical needle cassette 140 into the discharge chute 170. The dust-absorbing and discharging assembly 160 absorbs dust passing through the scraps remained on the surface of the medical needle box 140 and the scraps on the top support plate 1211, and pushes the medical needle box 140 into the discharging groove 170, so that the subsequent disinfection treatment is facilitated, the amount of the scraps attached to the medical needle box 140 entering the disinfectant is greatly reduced, the disinfectant replacement frequency during disinfection of the medical needle box 140 is reduced, and the disinfection cost is reduced.

Specifically, the dust suction and discharge assembly 160 comprises a discharge push plate 161, a discharge air cylinder 162, a bottom support plate 163 and a vertical plate 164; the bottom support plate 163 and the vertical plate 164 are fixedly disposed on the support frame 110; the discharging cylinder 162 is fixedly arranged on the bottom supporting plate 163; the vertical plate 164 is provided with a sliding groove suitable for the discharging push plate 161 to pass through; one end of the discharging push plate 161 passes through the vertical plate 164, and the other end is connected with the discharging air cylinder 162.

Wherein, the interface of the discharging push plate 161 is U-shaped; a dust absorption projection 1641 extends downwards from the top of the sliding groove of the vertical plate 164; the dust absorption projection 1641 is provided with a dust absorption port; a gap is arranged between the dust collection bump 1641 and the discharging push plate 161.

In this embodiment, the discharging push plate 161 is provided with a plurality of brushes on the outer side of the dust collection projection 1641. Absorb the sweeps through the dust absorption mouth, make it pile up the right side of the brush on the push pedal 161 of unloading, be convenient for follow-up clearance to the sweeps.

In this embodiment, the intelligent voice-based material cleaning and conveying system further includes a disinfecting mechanism 130; the sterilizing mechanism 130 is arranged at the discharge port of the discharge chute 170; the sterilizing mechanism 130 includes: a sterilizing bin 131, a turnover assembly 132 and a pushing assembly 133; the turning component 132 is arranged at the bottom of the disinfection bin 131 and is suitable for turning the medical needle box 140 falling into the disinfection bin 131 into an inverted state; the pushing assembly 133 is disposed at the top of the sterilizing chamber 131, and is adapted to push the sterilized medical needle cassette 140 out of the sterilizing chamber 131.

In this embodiment, the turning assembly 132 includes a lifting block 1321, a main push rod motor 1322, a first push plate 1323, a first lifting ramp 1324, a first push rod motor 1325, and a second push rod motor 1326; the lifting block 1321 is arranged in the disinfection bin 131 and is suitable for being driven by the main push rod motor 1322 arranged below the disinfection bin 131; the first lifting ramp 1324 is disposed in an interval formed between one of the sidewalls of the lifting block 1321 and the sterilizing compartment 131, and is adapted to be driven by the first pusher motor 1325 disposed below the sterilizing compartment 131; a first lifting through groove is formed in one side, close to the top surface of the first lifting inclined table 1324, of the lifting block 1321; the first push plate 1323 is adapted to be inserted into the lifting block 1321 from below the first lifting through slot, and the first push plate 1323 is adapted to be driven by a second push rod motor 1326 disposed below the sterilizing compartment 131.

In this embodiment, the flipping module 132 further comprises a second pushing plate 1327, a second lifting ramp 1328, a third push rod motor 1329, and a fourth push rod motor 1329; the second lifting ramp 1328 is disposed in a space formed between the other sidewall of the lifting block 1321 and the sterilizing compartment 131, and is adapted to be driven by the third pusher motor 1329 disposed below the sterilizing compartment 131; a second lifting through groove is formed in one side, close to the top surface of the second lifting inclined table 1328, of the lifting block 1321; the second pushing plate 1327 is adapted to be inserted into the lifting block 1321 from below the second lifting through slot, and the second pushing plate 1327 is adapted to be driven by a fourth pushing rod motor 1329 disposed below the sterilizing compartment 131. The turning over of the medical needle cassette 140 to the inverted state is completed by driving the first push plate 1323, the second push plate 1327, the first lifting ramp 1324, and the second lifting ramp 1328.

In this embodiment, the top surface of the lifting block 1321 near the first lifting ramp 1324 is a downward slope. When the medical needle cassette 140 is dropped into the sterilizing chamber 131 with the opening facing upward, the medical needle cassette 140 is inclined along the inclined surface, and when the first pushing plate 1323 and the second pushing plate 1327 are protruded from the elevating block 1321, the medical needle cassette 140 is pushed into the gap formed between the elevating block 1321 and the side wall of the sterilizing chamber 131.

In this embodiment, the width of the lifting block 1321 is smaller than the width of the medical needle cassette 140.

In this embodiment, a gap formed between the lifting block 1321 and one of the sidewalls of the sterilizing chamber 131 for placing the first lifting ramp 1324 is larger than the height of the medical needle cassette 140.

In this embodiment, the top surface of the lifting block 1321 is formed by splicing two inclined surfaces inclined downwards. Specifically, two inclined planes are provided, so that the medical needle cassette 140 can be randomly inclined towards one of the inclined planes when the opening of the medical needle cassette falls into the disinfection chamber 131 by ultrasound, and at the moment, the medical needle cassette 140 can be pushed into a gap formed between the lifting block 1321 and the side wall of the disinfection chamber 131 by the first pushing plate 1323 and the second pushing plate 1327 extending out of the lifting block 1321.

In this embodiment, the gap formed between the lifting block 1321 and the other sidewall of the sterilizing chamber 131 for placing the second lifting ramp 1328 is larger than the height of the medical needle cassette 140.

In the present embodiment, the flipping element 132 has four operating states.

In the first state, the lifting block 1321 is lifted, the first lifting ramp 1324 and the second lifting ramp 1328 are lifted, and the first pushing plate 1323 and the second pushing plate 1327 are retracted into the lifting block 1321, at this time, the medical needle cassette 140 in the inverted state is buckled on the lifting block 1321, and the medical needle cassette 140 with the upward opening is inclined toward one of the inclined surfaces of the lifting block 1321.

In the second state, the lifting block 1321, the first lifting ramp 1324 and the second lifting ramp 1328 are lowered, the first pushing plate 1323 and the second pushing plate 1327 extend from the lifting block 1321, at this time, the medical needle cassette 140 in the inverted state is lifted along with the first pushing plate 1323 and the second pushing plate 1327, and the medical needle cassette 140 with the upward opening is pushed into a gap formed between the lifting block 1321 and the sterilizing chamber 131 by the lifted first pushing half and the second pushing plate 1327.

In the third state, the first lifting ramp 1324 and the second lifting ramp 1328 are lifted, at this time, the medical needle cassette 140 in the inverted state is kept still, and the medical needle cassette 140 with the upward opening is lifted to leave the gap formed between the sterilizing chamber 131 and the sidewall.

In the fourth state, the first pushing plate 1323 and the second pushing plate 1327 are retracted into the lifting block 1321, and then the first lifting ramp 1324 and the second lifting ramp 1328 are lowered, at this time, the medical needle cassette 140 in the inverted state is inverted on the lifting block 1321, and the medical needle cassette 140 with the upward opening is inverted on the lifting block 1321.

It should be noted that the medical needle cassette 140 with the upward opening in the first to fourth states refers to a state when it is dropped into the sterilizing compartment 131.

In this embodiment, the upper portion of the sterilizing chamber 131 is relatively provided with a discharge port and a material pushing port, and the material pushing assembly 133 is fixedly disposed at the material pushing port on the outer side wall of the sterilizing chamber 131. The pushing assembly 133 comprises a pushing cylinder and a pushing block, and the pushing cylinder is suitable for pushing the pushing block to the discharging port from the pushing port. Specifically, when the sterilized medical needle cassette 140 is pushed out from the sterilization chamber 131, the lifting block 1321, the first lifting ramp 1324, and the second lifting ramp 1328 need to be lifted first, and the tops of the first lifting ramp 1324 and the second lifting ramp 1328 are flush with the bottom of the discharge port and the bottom of the material pushing port, respectively, and the bottoms of the first lifting ramp 1324 and the second lifting ramp 1328 are flush with the lowest position of the top of the lifting block 1321, at this time, the medical needle cassette 140 in the inverted state is lifted by the first lifting ramp 1324 and the second lifting ramp 1328 and follows the pushing block toward the discharge port.

The invention provides a material cleaning and conveying system based on intelligent voice. Conveying system is washd to material based on intelligence pronunciation includes: the device comprises a support frame, a movable conveying platform, a laser cleaning assembly and an intelligent voice control module; the movable conveying platform is arranged above the supporting frame; the laser cleaning assembly is arranged above the movable conveying platform and is suitable for cleaning a medical needle box arranged below the laser cleaning assembly; the mobile conveying platform is suitable for taking the medical needle box out from the lower part of the laser cleaning component; the intelligent voice control module is suitable for controlling the conveying frequency and starting and stopping of the movable conveying platform. Carry out contactless washing to medical needle box through laser cleaning assembly, the pollution of laser cleaning assembly when having avoided wasing, the high temperature that laser cleaning assembly produced simultaneously carries out the high temperature inactivation with medical needle box adnexed germ, guaranteed that the germ can not cause the pollution to the material cleaning conveying system based on intelligent pronunciation, and simultaneously, to the medical needle box of different inactivation time demands, issue control command through artificial observation, the operation of removing conveying platform is accomplished according to the control command that receives to intelligent voice module, the inactivation demand of the medical needle box of different inactivation times has been satisfied.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The utility model provides a conveying system is washd to material based on intelligence pronunciation which characterized in that includes:

the device comprises a support frame, a movable conveying platform, a laser cleaning assembly and an intelligent voice control module;

the movable conveying platform is arranged above the supporting frame;

the laser cleaning assembly is arranged above the movable conveying platform and is suitable for cleaning a medical needle box arranged below the laser cleaning assembly;

the mobile conveying platform is suitable for taking the medical needle box out from the lower part of the laser cleaning component;

the intelligent voice control module is suitable for controlling the conveying frequency and starting and stopping of the movable conveying platform.

2. The intelligent voice-based material washing conveyor system of claim 1, wherein the mobile conveyor platform comprises:

the device comprises a mobile platform, a driving mechanism and two oppositely arranged slide rails;

the moving platform is connected to the sliding rail in a sliding manner through a sliding block;

the driving mechanism is suitable for driving the moving platform to slide on the sliding rail.

3. The intelligent voice-based material cleaning conveyor system of claim 2, wherein the mobile platform comprises a top support plate, a bottom plate, and two side plates;

the two side plates are arranged perpendicular to the moving direction of the moving conveying platform;

the top support plate and the bottom plate are arranged oppositely and connected through two oppositely arranged side plates.

4. The intelligent voice-based material cleaning delivery system of claim 3, wherein the laser cleaning assembly comprises a laser and a frame in the shape of a Chinese character 'tu';

the laser is arranged above the square frame;

and a top supporting plate of the moving platform penetrates through the square frame and is limited by two side plates of the moving platform.

5. The intelligent voice-based material cleaning and conveying system of claim 2, wherein the driving mechanism comprises a moving motor, a first support block, a second support block, a moving block, and a lead screw;

the first supporting block and the second supporting block are arranged between the two sliding rails;

the screw rod is rotatably connected between the first supporting block and the second supporting block and is parallel to the sliding rail;

one end of the screw rod leaks out of the supporting block and is meshed with the moving motor through a gear;

the moving block is in threaded connection with the lead screw and is fixedly arranged below the moving conveying platform;

the moving motor is suitable for driving the moving conveying platform to move when rotating.

6. The intelligent voice-based material cleaning and conveying system of claim 1, further comprising a dust collection and discharge assembly and a discharge chute;

the dust-absorbing and discharging assembly and the discharging groove are respectively arranged at two sides of the movable conveying platform;

the dust-absorbing and discharging assembly is suitable for absorbing dust of the scraps on the medical needle box conveyed by the movable conveying platform and pushing the medical needle box into the discharging groove.

7. The intelligent voice-based material cleaning and conveying system of claim 6, wherein the dust suction and discharge assembly comprises a discharge push plate, a discharge cylinder, a bottom support plate and a vertical plate;

the bottom supporting plate and the vertical plate are fixedly arranged on the supporting frame;

the discharging cylinder is fixedly arranged on the bottom supporting plate;

the vertical plate is provided with a sliding groove suitable for the discharging push plate to penetrate through;

one end of the discharging push plate penetrates through the vertical plate, and the other end of the discharging push plate is connected with the discharging cylinder.

8. The intelligent voice-based material cleaning and conveying system according to claim 7, wherein the interface of the discharging push plate is U-shaped;

a dust absorption lug extends downwards from the top of the sliding groove of the vertical plate;

the dust absorption lug is provided with a dust absorption opening;

and a gap is arranged between the dust absorption lug and the discharging push plate.

9. The intelligent voice-based material cleaning and conveying system of claim 8, wherein the discharge push plate is provided with a plurality of brushes outside the dust suction lug.

10. The intelligent voice-based material cleaning delivery system of claim 6, further comprising a disinfection mechanism;

the disinfection mechanism is arranged at the discharge port of the discharge chute;

the disinfection mechanism includes: the device comprises a disinfection bin, a turnover assembly and a material pushing assembly;

the turnover assembly is arranged at the bottom of the disinfection bin and is suitable for turning over the medical needle box falling into the disinfection bin into an inverted buckle state;

the pushing assembly is arranged at the top of the disinfection bin and is suitable for pushing the disinfected medical needle box out of the disinfection bin.

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