CN112588798A

CN112588798A - Pharmaceutical waste recovery device for biotechnology

Info

Publication number: CN112588798A
Application number: CN202110082796.XA
Authority: CN
Inventors: 王齐繁
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-21
Filing date: 2021-01-21
Publication date: 2021-04-02

Abstract

The invention discloses a pharmaceutical waste recovery device for biotechnology, relating to the field of pharmaceutical equipment and comprising a bottom plate, a cleaning device, a distributing device, a moving device and a paving device, the cleaning device comprises a driving component and a cleaning component, the driving component is arranged on the top of the bottom plate, the cleaning component is arranged on the driving component, the distributing device is arranged at the discharge end of the cleaning component, the moving device is arranged below the material distributing device, the paving device comprises a paving component and a clamping component, the paving component is arranged on the moving device, the clamping component is arranged on the paving component, the device can uniformly distribute the waste materials through the mutual operation among all the devices, the drying effect of the waste materials is better, the processing efficiency of the waste materials is improved, the aluminum foil paper cannot be damaged, and the cost is saved.

Description

Pharmaceutical waste recovery device for biotechnology

Technical Field

The invention relates to the field of pharmaceutical equipment, in particular to a pharmaceutical waste recovery device for biotechnology.

Background

The biological pharmaceutical raw materials mainly comprise natural biological materials, including microorganisms, human bodies, animals, plants, marine organisms and the like. With the development of biotechnology, purposely artificially prepared biological raw materials become the main source of the current biopharmaceutical raw materials. Such as animal material prepared by immunization, microorganism or other cell material prepared by changing gene structure, etc. The biological medicine has the features of high pharmacological activity, less toxic side effect and high nutritive value. The biological medicine mainly comprises protein, nucleic acid, saccharide, lipid, etc. The constituent units of the substances are amino acid, nucleotide, monosaccharide, fatty acid and the like, and the substances are not only harmless to human bodies but also important nutrient substances.

To waste material processing usually need separate earlier the washing to the waste material, carry out the sunning with the waste material again, generally adopt aluminium foil paper sunning platform to carry out the sunning, but, when placing on the aluminium foil paper sunning, generally place through the manual work, break aluminium foil paper easily when placing to and artifical material loading is inhomogeneous, lead to the waste material sunning effect not good, thereby cause to waste material machining efficiency low.

Disclosure of Invention

In order to overcome the disadvantages of the prior art, the present invention provides a pharmaceutical waste recycling device for biotechnology, which can solve the above problems in the background art.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows: the utility model provides a pharmaceutical waste recovery device for biotechnology, includes bottom plate, belt cleaning device, distributing device, mobile device and paves the device, belt cleaning device includes drive assembly and washing subassembly, drive assembly installs on the top of bottom plate, it sets up on drive assembly to wash the subassembly, distributing device sets up the discharge end at washing subassembly, the mobile device sets up the below at the distributing device, pave the device including paving subassembly and clamping component, it sets up on the mobile device to pave the subassembly, clamping component sets up on paving the subassembly.

Preferably, the driving assembly comprises a concave frame, a square seat, a rotating shaft, a driving motor, two side plates, two semicircular convex blocks, two rotating gears and eight fixed columns, the two side plates are symmetrically installed on the top of the bottom plate, the square seat is arranged between the two side plates, a square groove is formed in the square seat, the concave frame covers the square seat, the rotating shaft is arranged in the square groove of the square seat, two ends of the rotating shaft penetrate through two side walls of the square seat and extend outwards, the driving motor is arranged in the square groove, one rotating gear is arranged on a main shaft of the driving motor, the other rotating gear is sleeved on the rotating shaft and the two rotating gears are meshed, the two semicircular convex blocks are arranged on two sides of the square seat and the two semicircular convex blocks are installed on two ends of the rotating shaft respectively, two ends of the four fixed columns are symmetrically installed on two side walls of the concave frame in pairs, and the other ends of the fixed columns penetrate through the two side plates And one ends of the other four fixed columns are symmetrically arranged in the concave frame in pairs, the other ends of the four fixed columns extend to the square seat, and springs are sleeved on the eight fixed columns.

Preferably, the cleaning component comprises a V-shaped seat, a cleaning material channel, a cleaning plate, a feed inlet, a discharging channel, a discharge outlet, a waste water pipe, a water inlet branch pipe and a plurality of nozzles, the V-shaped seat is arranged on the top of the square seat, the cleaning material channel is arranged on the top of the V-shaped seat, the feed inlet is arranged on the top of the cleaning material channel and communicated with the cleaning material channel, the cleaning plate is arranged in the cleaning material channel, a plurality of filter holes are arranged on the cleaning plate, a waste liquid channel which is obliquely arranged is arranged below the cleaning plate, the discharging channel is arranged at one end part of the cleaning material channel, the discharge outlet is arranged at the end part of the discharging channel and communicated with the discharging channel, the water inlet branch pipe is arranged above the cleaning plate, the nozzles are respectively clamped on the top of the cleaning material channel, the nozzles are respectively communicated with the water inlet branch pipe, and the nozzles are just opposite to the cleaning plate, the water inlet pipe is arranged on the water inlet branch pipe, and the waste water pipe is arranged at the bottom of the cleaning material channel and is communicated with the waste liquid channel.

Preferably, the distributing device comprises a frame, a conveying belt, a portal frame, a fixed shaft, a blanking plate, a mounting seat, a distributing electric cylinder, a rack, a distributing sliding plate, two sleeves, two toothed bars and three distributing gears, wherein the frame is arranged under the discharge port, the conveying belt is arranged in the frame, the blanking plate is arranged at the tail part of the conveying belt, the portal frame is arranged at the top part of the frame, the two sleeves are symmetrically arranged on the inner top wall of the portal frame, each sleeve is provided with a sliding hole, the fixed shaft is arranged on the two inner side walls of the portal frame, the three distributing gears are sleeved on the fixed shaft at equal intervals, the two toothed bars are respectively arranged in the two sleeves and are respectively meshed with the two distributing gears, the mounting seat is arranged on the inner top wall of the portal frame, the cloth electric cylinder is arranged in the mounting seat, the rack is arranged in the mounting seat, one end of the rack is arranged at the telescopic end of the cloth electric cylinder, the rack is meshed with the other cloth gear, the cloth sliding plate is clamped in the frame and is arranged at the bottoms of the two toothed bars, and the cloth sliding plate is in sliding fit with the frame.

Preferably, the moving device comprises a U-shaped frame, a protective cover, a first double-shaft motor and two sets of moving parts, the U-shaped frame is arranged below the frame, circular sliding holes are formed in two side walls of the U-shaped frame, the protective cover is arranged in the U-shaped frame, the first double-shaft motor is arranged in the protective cover, the two sets of moving parts are arranged on two side walls of the U-shaped frame respectively, each set of moving parts comprises two rotating disks, two first connecting rods, two second connecting rods and three moving gears, the three moving gears are arranged in the protective cover respectively, one moving gear is connected with a main shaft of the first double-shaft motor, every two adjacent moving gears are meshed, the two rotating disks are clamped on the side wall of the U-shaped frame respectively and are connected with the two corresponding moving gears, one end of each first connecting rod is arranged on the two rotating disks respectively, one end of each of the two second connecting rods is hinged to the other end of each of the two first connecting rods, and the other end of each of the two second connecting rods is connected with the paving component.

Preferably, the subassembly of paving includes the rectangle frame, paves the roller, the buffer roller, two pave the motor, two threaded rods, two sliding blocks and four slide bars, the rectangle frame sets up in the U-shaped frame, the symmetry is equipped with the slide in the rectangle frame, four the slide bar sets up respectively in two circular slide holes and two bisymmetry installs on the both sides wall of rectangle frame, and four the slide bar is connected with four second connecting rods in two sets of moving parts respectively, two the one end at the rectangle frame is installed respectively to the motor of paving, two the threaded rod sets up respectively in two slides and is connected with two main shafts of paving the motor respectively, two the sliding block is established respectively on two threaded rods, pave the roller and the buffer roller card is established in the rectangle frame and the both ends of paving roller and buffer roller are connected with two sliding blocks respectively.

Preferably, the clamping assembly comprises a second double-shaft motor, a clamping plate, two lifting slide blocks, two first bevel gears, two second bevel gears and two rotating rods, the second double-shaft motor is arranged in a rectangular frame, the two first bevel gears are respectively arranged on two main shafts of the second double-shaft motor, the two second bevel gears are respectively arranged in the rectangular frame and are respectively meshed with the two first bevel gears, the two rotating rods are respectively arranged on the two second bevel gears, the two rotating rods respectively penetrate through the rectangular frame to be vertically upwards arranged, the two lifting slide blocks are respectively vertically arranged on the rectangular frame, the two lifting slide blocks are respectively in sliding fit with the two rotating rods, and the clamping plate is arranged above the rectangular frame and at two ends of the clamping plate respectively arranged on the two lifting slide blocks.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the waste materials can be uniformly distributed through the mutual operation among the arranged devices, so that the drying effect of the waste materials is better, the processing efficiency of the waste materials is improved, the aluminum foil paper cannot be damaged, and the cost is saved.

Secondly, when the waste is poured onto a cleaning plate in a cleaning material channel from a feed inlet, water enters a water inlet branch pipe from a water inlet pipe and flows into a plurality of nozzles to be sprayed on the cleaning plate to clean the waste, a rotary gear sleeved on a main shaft of a driving motor is driven to rotate by the work of the driving motor, another rotary gear is driven to rotate and drives a rotating shaft to rotate, so that two semicircular convex blocks are driven to rotate, under the action of eight fixed columns and springs on the eight fixed columns, a square seat and a concave frame can be driven to vibrate, a V-shaped seat can be driven to vibrate, so that the cleaning material channel is driven to vibrate, the waste vibration on the cleaning plate can be automatically conveyed into a material distribution device from a feed channel, the subsequent processing efficiency of the waste is improved, and when the vibration is carried out, the waste water of the waste flows into a waste liquid channel from a filtering hole on the cleaning plate, and the waste water in the waste can be discharged from a waste, the cleaning effect is good.

Thirdly, when the cleaned waste falls onto the conveying belt, the conveying belt conveys the waste, the cloth electric cylinder works to drive the rack to move, the cloth gear meshed with the rack can be driven to rotate, the fixed shaft can be driven to rotate, the other two cloth gears can be driven to rotate, so that the two toothed bars meshed with the other two cloth gears are driven to move downwards in the two sleeves, the cloth sliding plates at the bottoms of the two toothed bars are driven to move downwards to proper positions, the cloth sliding plates are matched with the conveying belt to enable the waste to be conveyed to the leveling assembly from gaps in the cloth sliding plates and the conveying belt, the waste is prevented from being accumulated together, the effect of subsequent airing is influenced, the waste is uniformly dispersed on the conveying belt, the effect of spreading the subsequent dispersed waste on the leveling assembly is improved, and the airing effect of the waste is improved.

Fourthly, when the waste materials are required to be distributed on the aluminum foil paper, the second double-shaft motor works to drive the two first bevel gears to rotate, and can drive the two second bevel gears meshed with the two first bevel gears to rotate, so that the two rotating rods arranged on the two second bevel gears can be driven to rotate, the two lifting sliding blocks are driven to move downwards, the clamping plates can be driven to move downwards, one ends of the aluminum foil paper on the rectangular frame can be clamped, the paving assembly can conveniently pave and receive the aluminum foil paper, the aluminum foil paper cannot shake during airing, and the airing effect is improved.

Fifth, the invention drives the moving gear connected with the main shaft of the first double-shaft motor to rotate through the work of the first double-shaft motor, because every two adjacent moving gears are meshed, the other two moving gears are driven to rotate, then the two rotating disks meshed with the two moving gears are driven to rotate, then the two first connecting rods move, because the other ends of the two first connecting rods are respectively hinged with the two second connecting rods, the two second connecting rods are driven to move, so that the four sliding rods are driven to move in the two circular sliding holes, the rectangular frame is driven to move, when the two connecting rods move to the blanking plate, the two threaded rods are driven to rotate through the work of the two paving motors, the two sliding blocks are driven to move in the sliding ways, the paving roller and the buffer roller are driven to move in the rectangular frame, and the buffer roller can play a bearing role on the aluminum foil paper during feeding, alleviate the pressure of aluminium foil paper, play the effect of protection aluminium foil paper to the realization will be spread the aluminium foil paper on the roller and spread in the rectangle frame, when spreading, the distributing device realizes carrying out even material loading to the aluminium foil paper on the rectangle frame, and it is better to have improved the effect of waste material sunning, has improved the machining efficiency of waste material.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a cross-sectional view of the present invention;

FIG. 4 is a schematic perspective cross-sectional view of the present invention;

FIG. 5 is a schematic perspective view of a dispensing device of the present invention;

FIG. 6 is a partial perspective view of the present invention;

FIG. 7 is a partial perspective sectional view of the first embodiment of the present invention;

fig. 8 is a partial perspective sectional view of the second embodiment of the present invention.

In the figure: the cleaning device comprises a bottom plate 1, a cleaning device 2, a driving assembly 3, a concave frame 30, a square seat 31, a rotating shaft 32, a driving motor 33, a side plate 34, a semicircular lug 35, a rotating gear 36, a fixed column 37, a spring 38, a cleaning assembly 4, a V-shaped seat 40, a cleaning material channel 41, a cleaning plate 42, a feeding hole 43, a discharging channel 44, a discharging hole 45, a waste water pipe 46, a water inlet pipe 47, a water inlet branch pipe 48, a nozzle 49, a waste water channel 421, a distributing device 5, a frame 50, a conveying belt 51, a portal frame 52, a fixed shaft 53, a discharging plate 54, a mounting seat 55, a distributing electric cylinder 56, a rack 57, a distributing sliding plate 58, a sleeve 59, a toothed rod 591, a distributing gear 531, a moving device 6, a U-shaped frame 60, a protective cover 61, a first double-shaft motor 62, a moving part 63, a rotating disk 64, a first connecting rod 65, a second connecting rod 67, a, a leveling roller 81, a buffer roller 82, a leveling motor 83, a threaded rod 84, a sliding block 85, a sliding rod 86, a clamping assembly 9, a second double-shaft motor 90, a clamping plate 91, a lifting slide block 92, a first bevel gear 93, a second bevel gear 94 and a rotating rod 95.

Detailed Description

The invention will be further described with reference to the accompanying drawings 1 to 8 and the detailed description of the invention: the utility model provides a pharmaceutical waste recovery device for biotechnology, includes bottom plate 1, belt cleaning device 2, distributing device 5, mobile device 6 and paves device 7, belt cleaning device 2 includes drive assembly 3 and cleaning component 4, drive assembly 3 installs on the top of bottom plate 1, cleaning component 4 sets up on drive assembly 3, distributing device 5 sets up the discharge end at cleaning component 4, mobile device 6 sets up the below at distributing device 5, pave device 7 including paving subassembly 8 and clamping component 9, paving subassembly 8 sets up on mobile device 6, clamping component 9 sets up on paving subassembly 8.

Specifically, the driving assembly 3 includes a concave frame 30, a square seat 31, a rotating shaft 32, a driving motor 33, two side plates 34, two semicircular protrusions 35, two rotating gears 36 and eight fixing posts 37, wherein the two side plates 34 are symmetrically installed on the top of the bottom plate 1, the square seat 31 is disposed between the two side plates 34, a square groove is disposed in the square seat 31, the concave frame 30 covers the square seat 31, the rotating shaft 32 is disposed in the square groove of the square seat 31, both ends of the rotating shaft 32 penetrate through two side walls of the square seat 31 and extend outwards, the driving motor 33 is disposed in the square groove, one rotating gear 36 is disposed on a main shaft of the driving motor 33, the other rotating gear 36 is sleeved on the rotating shaft 32 and engaged with the two rotating gears 36, the two semicircular protrusions 35 are disposed on both sides of the square seat 31, and the two semicircular protrusions 35 are respectively installed on both ends of the rotating shaft 32, one ends of four fixing columns 37 are symmetrically arranged on two side walls of the concave frame 30 in pairs, the other ends of the fixing columns 37 respectively penetrate through the two side plates 34 and extend, one ends of the other four fixing columns 37 are symmetrically arranged in the concave frame 30 in pairs, the other ends of the four fixing columns 37 extend to the square seat 31, and springs 38 are sleeved on the eight fixing columns 37; when the waste material separation is washd, pour the waste material into in wasing subassembly 4, it is rotatory to establish rotatory 36 at the epaxial rotating gear of driving motor 33 main through driving motor 33 work drive cover, can drive another rotating gear 36 rotatory, then can drive axis of rotation 32 and rotate, thereby it is rotatory to drive two semicircle lugs 35, and through the spring on eight fixed columns 37 and the eight fixed columns 37 that set up, can drive square seat 31 and the vibration of spill frame 30, thereby drive the vibration of cleaning element, the realization is separated the washing to the waste material, can carry away the waste material vibrations that the separation was washd, need not to utilize transport mechanism to carry the waste material that washs, the machining efficiency of follow-up waste material is improved.

Specifically, the cleaning assembly 4 includes a V-shaped seat 40, a cleaning material channel 41, a cleaning plate 42, a feed inlet 43, a discharging channel 44, a discharge outlet 45, a waste water pipe 46, a water inlet pipe 47, a water inlet branch pipe 48 and a plurality of nozzles 49, the V-shaped seat 40 is installed on the top of the square seat 31, the cleaning material channel 41 is installed on the top of the V-shaped seat 40, the feed inlet 43 is installed on the top of the cleaning material channel 41 and communicated with the cleaning material channel 41, the cleaning plate 42 is arranged in the cleaning material channel 41, the cleaning plate 42 is provided with a plurality of filtering holes, the waste water channel 421 obliquely arranged below the cleaning plate 42 is arranged below the cleaning plate 42, the discharging channel 44 is arranged at one end of the cleaning material channel 41, the discharge outlet 45 is arranged at the end of the discharging channel 44 and communicated with the discharging channel 44, the water inlet branch pipe 48 is arranged above the cleaning plate 42, the nozzles 49 are respectively clamped on the top of the cleaning material channel 41 and the nozzles 49 are respectively communicated with the water inlet branch pipe 48, the nozzles 49 face the cleaning plate 42, the water inlet pipe 47 is arranged on the water inlet branch pipe 48, and the waste water pipe 46 is arranged at the bottom of the cleaning material channel 41 and communicated with the waste liquid channel 421; when the waste material is poured into the cleaning plate 42 in the cleaning material channel 41 from the feed inlet 43, the driving part works to drive the V-shaped seat 40 to move, so that the cleaning material channel 41 is driven to move, the waste material on the cleaning plate 42 is vibrated and conveyed to the distributing device 5 from the discharging channel 44, and when the waste material is vibrated, the waste water of the waste material flows into the waste liquid channel 421 from the filtering hole on the cleaning plate 42, and the waste water in the waste material is discharged from the waste water pipe 46, so that the cleaning effect is good.

Specifically, the distributing device 5 comprises a frame 50, a conveying belt 51, a portal frame 52, a fixed shaft 53, a blanking plate 54, a mounting seat 55, a distributing electric cylinder 56, a rack 57, a distributing sliding plate 58, two sleeves 59, two toothed bars 591 and three distributing gears 531, wherein the frame 50 is arranged right below the discharging port 45, the conveying belt 51 is arranged in the frame 50, the blanking plate 54 is arranged at the tail of the conveying belt 51, the portal frame 52 is arranged on the top of the frame 50, the two sleeves 59 are symmetrically arranged on the inner top wall of the portal frame 52, each sleeve 59 is provided with a sliding hole, the fixed shaft 53 is arranged on the two inner side walls of the portal frame 52, the three distributing gears 531 are equidistantly sleeved on the fixed shaft 53, the two toothed bars 591 are respectively arranged in the two sleeves 59, and the two toothed bars 591 are respectively meshed with the two distributing gears 531, the mounting seat 55 is arranged on the inner top wall of the portal frame 52, the cloth electric cylinder 56 is arranged in the mounting seat 55, the rack 57 is arranged in the mounting seat 55, one end of the rack 57 is arranged at the telescopic end of the cloth electric cylinder 56, the rack 57 is meshed with the other cloth gear 531, the cloth sliding plate 58 is clamped in the frame 50 and is arranged at the bottom of the two toothed bars 591, the cloth sliding plate 58 is in sliding fit with the frame 50, when cleaned waste material slides from the blanking channel 44 to the discharging port 45, the cleaned waste material falls onto the conveyer belt 51, the conveyer belt 51 conveys the waste material, the rack 57 is driven to move by the work of the cloth electric cylinder 56, the cloth gear 531 meshed with the rack 57 is driven to rotate, the fixed shaft 53 is driven to rotate, the other two cloth gears 531 are driven to rotate, and accordingly the two toothed bars 591 meshed with the other two cloth gears 531 are driven to move downwards in the two sleeves 59, and the cloth sliding plates 58 at the bottoms of the two toothed bars 591 are driven to move downwards to move to proper positions, the cloth sliding plates 58 are matched with the conveying belt 51, so that the waste materials are conveyed to the paving component 8 from gaps in the cloth sliding plates 58 and the conveying belt 51, the waste materials are prevented from being stacked together, the effect of subsequent air drying is influenced, the waste materials are uniformly dispersed on the conveying belt 51, the effect of dispersing the subsequent waste materials on the paving component 8 is improved, and the air drying effect of the waste materials is improved.

Specifically, the moving device 6 includes a U-shaped frame 60, a protective cover 61, a first double-shaft motor 62 and two sets of moving parts 63, the U-shaped frame 60 is disposed below the frame 50, two side walls of the U-shaped frame 60 are provided with circular sliding holes, the protective cover 61 is disposed in the U-shaped frame 60, the first double-shaft motor 62 is disposed in the protective cover 61, the two sets of moving parts 63 are disposed on two side walls of the U-shaped frame 60, respectively, each set of moving parts 63 includes two rotating discs 64, two first connecting rods 65, two second connecting rods 67 and three moving gears 68, the three moving gears 68 are disposed in the protective cover 61, respectively, one of the moving gears 68 is connected with a main shaft of the first double-shaft motor 62, and every two adjacent moving gears 68 are engaged, the two rotating discs 64 are respectively clamped on the side walls of the U-shaped frame 60, and the two rotating discs 64 are connected with the two corresponding moving gears 68, one end of each of the two first connecting rods 65 is respectively mounted on the two rotating discs 64, one end of each of the two second connecting rods 67 is respectively hinged to the other end of each of the two first connecting rods 65, the other end of each of the two second connecting rods 67 is respectively connected to the leveling assembly 8, when the material distribution device 5 distributes material, the first double-shaft motor 62 operates to drive the moving gear 68 connected to the main shaft of the first double-shaft motor 62 to rotate, and each two adjacent moving gears 68 are engaged with each other to drive the other two moving gears 68 to rotate, so as to drive the two rotating discs 64 engaged with the two moving gears 68 to rotate, so as to drive the two first connecting rods 65 to move, and because the other ends of the two first connecting rods 65 are respectively hinged to the two second connecting rods 67, the two second connecting rods 67 are driven to move, so as to drive the leveling assembly 8 to move in the U-shaped frame 60, the material distribution effect of the material distribution device 5 on the paving component 8 is improved.

In particular, the paving assembly 8 comprises a rectangular frame 80, a paving roller 81, a buffer roller 82, two paving motors 83, two threaded rods 84, two sliding blocks 85 and four sliding rods 86, the rectangular frame 80 is arranged in the U-shaped frame 60, the rectangular frame 80 is symmetrically provided with slide ways, the four slide rods 86 are respectively arranged in the two circular slide holes and are symmetrically arranged on the two side walls of the rectangular frame 80 in pairs, the four sliding rods 86 are respectively connected with the four second connecting rods 67 in the two groups of moving parts 63, the two paving motors 83 are respectively arranged at one end of the rectangular frame 80, the two threaded rods 84 are respectively arranged in the two slideways and are respectively connected with the main shafts of the two paving motors 83, the two sliding blocks 85 are respectively sleeved on the two threaded rods 84, the leveling roller 81 and the buffer roller 82 are clamped in the rectangular frame 80, and two ends of the leveling roller 81 and the two ends of the buffer roller 82 are respectively connected with the two sliding blocks 85; press from both sides tightly the one end of the aluminium foil paper on the roller 81 of paving through clamping assembly 9, it rotates to drive two threaded rods 84 through two work of paving motor 83, can electronic two sliding blocks 85 remove in the slide, then can drive and pave roller 81 and buffer roller 82 and remove in rectangle frame 80, thereby realize paving in rectangle frame 80 the aluminium foil paper on the roller 81 of paving, the effect of bearing can be played the aluminium foil paper when the material loading through the buffer roller 82 that sets up, alleviate the pressure of aluminium foil paper, play the effect of protection aluminium foil paper, can realize automatic paving and receive aluminium foil paper, aluminium foil paper can in time rolling when the waste material is not sunning, avoid damaging aluminium foil paper.

Specifically, the clamping assembly 9 includes a second dual-shaft motor 90, a clamping plate 91, two lifting sliders 92, two first bevel gears 93, two second bevel gears 94 and two rotating rods 95, the second dual-shaft motor 90 is disposed in the rectangular frame 80, the two first bevel gears 93 are respectively mounted on two spindles of the second dual-shaft motor 90, the two second bevel gears 94 are respectively disposed in the rectangular frame 80 and are respectively engaged with the two second bevel gears 94 and the two first bevel gears 93, the two rotating rods 95 are respectively mounted on the two second bevel gears 94 and are respectively vertically disposed upward through the rectangular frame 80, the two lifting sliders 92 are respectively vertically disposed on the rectangular frame 80 and are respectively slidably engaged with the two rotating rods 95, the clamping plate 91 is disposed above the rectangular frame 80 and two ends of the clamping plate 91 are respectively mounted on the two lifting sliders 92, when needs distribute the waste material on the aluminium foil paper, it is rotatory to drive two first bevel gears 93 through the work of second biax motor 90, can drive two second bevel gears 94 rotatory with two first bevel gears 93 engaged with, so can drive two dwang 95 rotations of installing on two second bevel gears 94, thereby drive two lift slider 92 downstream, then can drive clamp plate 91 downstream, the realization presss from both sides tightly aluminium foil paper one end on rectangular frame 80, can conveniently pave subassembly 8 and pave and receive aluminium foil paper, and aluminium foil paper can not rock during the sunning, the sunning effect has been improved.

The working principle of the invention is as follows: when the waste material needs to be recycled, firstly, the waste material is poured onto the cleaning plate 42 in the cleaning material channel 41 from the feeding hole 43, water enters the water inlet branch pipe 48 from the water inlet pipe 47 and flows into the plurality of nozzles 49 to be sprayed on the cleaning plate 42 to clean the waste material, then the driving motor 33 works to drive the rotating gear 36 sleeved on the main shaft of the driving motor 33 to rotate, the other rotating gear 36 is driven to rotate, the rotating shaft 32 is driven to rotate, the two semicircular convex blocks 35 are driven to rotate, the square seat 31 and the concave frame 30 can be driven to vibrate through the eight fixed columns 37 and the springs on the eight fixed columns 37, the V-shaped seat 40 is driven to vibrate, the cleaning material channel 41 is driven to vibrate, the waste material vibration on the cleaning plate 42 is conveyed into the distributing device 5 from the feeding channel 44, and the waste water of the waste material flows into the waste liquid channel 421 from the filtering holes on the cleaning plate 42 during vibration, the waste water in the waste material is discharged from the waste water pipe 46, when the waste material falls on the conveyer belt 51, the conveyer belt 51 conveys the waste material, the rack 57 is driven to move by the work of the material distribution electric cylinder 56, the material distribution gear 531 meshed with the rack 57 is driven to rotate, the fixed shaft 53 is driven to rotate, the other two material distribution gears 531 are driven to rotate, so that the two toothed bars 591 meshed with the other two material distribution gears 531 are driven to move downwards in the two sleeves 59, the material distribution sliding plates 58 at the bottoms of the two toothed bars 591 are driven to move downwards to proper positions, the material distribution sliding plates 58 are matched with the conveyer belt 51, so that the waste material is conveyed to the leveling assembly 8 from gaps in the material distribution sliding plates 58 and the conveyer belt 51, the waste material is prevented from being accumulated together, the subsequent drying effect is influenced, the waste material is uniformly dispersed on the conveyer belt 51, and the material is distributed, the first biaxial motor 62 is operated to drive the moving gear 68 connected with the main shaft of the first biaxial motor 62 to rotate, each two adjacent moving gears 68 are engaged to drive the other two moving gears 68 to rotate, the two rotating discs 64 engaged with the two moving gears 68 are driven to rotate, the two first connecting rods 65 are driven to move, the other ends of the two first connecting rods 65 are respectively hinged to the two second connecting rods 67 to drive the two second connecting rods 67 to move, so as to drive the four sliding rods 86 to move in the two circular sliding holes, so as to drive the rectangular frame 80 to move, when the rectangular frame moves to the blanking plate 54, the second biaxial motor 90 is operated to drive the two first bevel gears 93 to rotate, the two second bevel gears 94 engaged with the two first bevel gears 93 are driven to rotate, so as to drive the two rotating rods 95 installed on the two second bevel gears 94 to rotate, thereby driving the two lifting slide blocks 92 to move downwards, and then driving the clamping plate 91 to move downwards, so as to clamp one end of the aluminum foil paper on the rectangular frame 80, and after clamping, the two paving motors 83 work to drive the two threaded rods 84 to rotate, so that the two sliding blocks 85 can be driven to move in the slide way, the leveling roller 81 and the buffer roller 82 are driven to move in the rectangular frame 80, the buffer roller 82 can bear the aluminum foil paper during feeding, the pressure of the aluminum foil paper is reduced, the effect of protecting the aluminum foil paper is achieved, thereby realize spreading the aluminium foil paper on the roller 81 of will spreading and level in rectangle frame 80, when spreading, distributing device 5 realizes carrying out even material loading to the aluminium foil paper on the rectangle frame 80, avoids having now damaging the problem of aluminium foil paper easily to aluminium foil paper stone, and even material loading has improved the effect of waste material sunning better, has improved the machining efficiency of waste material.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims

1. The utility model provides a pharmaceutical waste recovery device for biotechnology which characterized in that: including bottom plate (1), belt cleaning device (2), distributing device (5), mobile device (6) and paving device (7), belt cleaning device (2) are including drive assembly (3) and cleaning assembly (4), install on the top of bottom plate (1) drive assembly (3), cleaning assembly (4) set up on drive assembly (3), distributing device (5) set up the discharge end at cleaning assembly (4), mobile device (6) set up the below at distributing device (5), paving device (7) is including paving subassembly (8) and clamping component (9), paving subassembly (8) sets up on mobile device (6), clamping component (9) set up on paving subassembly (8).

2. The pharmaceutical waste recycling device of claim 1, wherein: the driving assembly (3) comprises a concave frame (30), a square seat (31), a rotating shaft (32), a driving motor (33), two side plates (34), two semicircular convex blocks (35), two rotating gears (36) and eight fixed columns (37), wherein the two side plates (34) are symmetrically arranged on the top of the bottom plate (1), the square seat (31) is arranged between the two side plates (34), a square groove is arranged in the square seat (31), the concave frame (30) covers the square seat (31), the rotating shaft (32) is arranged in the square groove of the square seat (31), two ends of the rotating shaft (32) penetrate through two side walls of the square seat (31) and extend outwards, the driving motor (33) is arranged in the square groove, one rotating gear (36) is arranged on a main shaft of the driving motor (33), the other rotating gear (36) is sleeved on the rotating shaft (32) and the two rotating gears (36) are meshed, two semicircle convex blocks (35) set up the both sides of square seat (31) and two semicircle convex blocks (35) are installed respectively on the both ends of axis of rotation (32), and wherein two double-phase symmetry in the one end of four fixed columns (37) is installed on the both sides wall of spill frame (30) and the other end of fixed column (37) runs through two curb plates (34) respectively and extends, and two double-phase symmetry in the one end of four fixed columns (37) is installed in spill frame (30) and the other end of four fixed columns (37) all extends to square seat (31) in addition, eight all overlap and be equipped with spring (38) on fixed column (37).

3. The pharmaceutical waste recycling device of claim 2, wherein: the cleaning component (4) comprises a V-shaped seat (40), a cleaning material channel (41), a cleaning plate (42), a feed inlet (43), a blanking channel (44), a discharge outlet (45), a waste water pipe (46), a water inlet pipe (47), a water inlet branch pipe (48) and a plurality of nozzles (49), wherein the V-shaped seat (40) is installed on the top of the square seat (31), the cleaning material channel (41) is installed on the top of the V-shaped seat (40), the feed inlet (43) is installed on the top of the cleaning material channel (41) and communicated with the cleaning material channel (41), the cleaning plate (42) is arranged in the cleaning material channel (41), a plurality of filter holes are formed in the cleaning plate (42), the waste liquid channel (421) which is obliquely arranged is arranged below the cleaning plate (42), the blanking channel (44) is arranged at one end part of the cleaning material channel (41), the discharge outlet (45) is arranged at the end part of the blanking channel (44) and communicated with the blanking channel (44), the branch pipe (48) of intaking sets up in the top of wasing board (42), and is a plurality of nozzle (49) are blocked respectively and are established on the top of wasing material way (41) and a plurality of nozzle (49) are linked together with branch pipe (48) of intaking respectively, and a plurality of nozzle (49) just are being linked together to wasing board (42), inlet tube (47) are installed on branch pipe (48) of intaking, waste water pipe (46) are installed and are being linked together in the bottom of wasing material way (41) and with waste liquid way (421).

4. The pharmaceutical waste recycling device of claim 3, wherein: the distributing device (5) comprises a frame (50), a conveying belt (51), a portal frame (52), a fixed shaft (53), a blanking plate (54), a mounting seat (55), a distributing electric cylinder (56), a rack (57), a distributing sliding plate (58), two sleeves (59), two rack rods (591) and three distributing gears (531), wherein the frame (50) is arranged under a discharging port (45), the conveying belt (51) is arranged in the frame (50), the blanking plate (54) is arranged at the tail part of the conveying belt (51), the portal frame (52) is arranged on the top of the frame (50), the two sleeves (59) are symmetrically arranged on the inner top wall of the portal frame (52), each sleeve (59) is provided with a sliding hole, the fixed shaft (53) is arranged on two inner side walls of the portal frame (52), the three distributing gears (531) are sleeved on the fixed shaft (53) at equal intervals, the two toothed bars (591) are respectively arranged in the two sleeves (59), the two toothed bars (591) are respectively meshed with the two cloth gears (531) in the two sleeves, the mounting seat (55) is arranged on the inner top wall of the portal frame (52), the cloth electric cylinder (56) is arranged in the mounting seat (55), the rack (57) is arranged in the mounting seat (55), one end of the rack (57) is arranged at the telescopic end of the cloth electric cylinder (56), the rack (57) is meshed with the other cloth gear (531), the cloth sliding plate (58) is clamped in the frame (50) and arranged at the bottom of the two toothed bars (591), and the cloth sliding plate (58) is in sliding fit with the frame (50).

5. The pharmaceutical waste recycling device of claim 4, wherein: the moving device (6) comprises a U-shaped frame (60), a protective cover (61), a first double-shaft motor (62) and two sets of moving parts (63), the U-shaped frame (60) is arranged below the frame (50), circular sliding holes are formed in two side walls of the U-shaped frame (60), the protective cover (61) is arranged in the U-shaped frame (60), the first double-shaft motor (62) is arranged in the protective cover (61), the two sets of moving parts (63) are respectively arranged on two side walls of the U-shaped frame (60), each set of moving parts (63) respectively comprises two rotating discs (64), two first connecting rods (65), two second connecting rods (67) and three moving gears (68), the three moving gears (68) are respectively arranged in the protective cover (61), and one of the moving gears (68) is connected with a main shaft of the first double-shaft motor (62), and every two adjacent mobile gears (68) are meshed with each other, the two rotary disks (64) are respectively clamped on the side wall of the U-shaped frame (60), the two rotary disks (64) are connected with the two corresponding mobile gears (68), one ends of the two first connecting rods (65) are respectively installed on the two rotary disks (64), one ends of the two second connecting rods (67) are respectively hinged to the other ends of the two first connecting rods (65), and the other ends of the two second connecting rods (67) are respectively connected with the paving component (8).

6. The pharmaceutical waste recycling device of claim 5, wherein: the paving component (8) comprises a rectangular frame (80), a paving roller (81), a buffer roller (82), two paving motors (83), two threaded rods (84), two sliding blocks (85) and four sliding rods (86), wherein the rectangular frame (80) is arranged in a U-shaped frame (60), the rectangular frame (80) is symmetrically provided with slides, the four sliding rods (86) are respectively arranged in two circular sliding holes and are symmetrically arranged on two side walls of the rectangular frame (80), the four sliding rods (86) are respectively connected with four second connecting rods (67) in two groups of moving parts (63), the two paving motors (83) are respectively arranged at one end of the rectangular frame (80), the two threaded rods (84) are respectively arranged in the two slides and are respectively connected with main shafts of the two paving motors (83), the two sliding blocks (85) are respectively sleeved on the two threaded rods (84), the paving roller (81) and the buffer roller (82) are clamped in the rectangular frame (80), and two ends of the paving roller (81) and the two ends of the buffer roller (82) are respectively connected with the two sliding blocks (85).

7. The pharmaceutical waste recycling device of claim 6, wherein: the clamping assembly (9) comprises a second double-shaft motor (90), a clamping plate (91), two lifting sliding blocks (92), two first bevel gears (93), two second bevel gears (94) and two rotating rods (95), the second double-shaft motor (90) is arranged in a rectangular frame (80), the two first bevel gears (93) are respectively installed on two main shafts of the second double-shaft motor (90), the two second bevel gears (94) are respectively arranged in the rectangular frame (80) and are respectively meshed with the two second bevel gears (94) and the two first bevel gears (93), the two rotating rods (95) are respectively installed on the two second bevel gears (94), the two rotating rods (95) respectively penetrate through the rectangular frame (80) and are vertically arranged upwards, the two lifting sliding blocks (92) are respectively vertically arranged on the rectangular frame (80), and the two lifting sliding blocks (92) are respectively matched with the two rotating rods (95) in a sliding manner, the clamping plate (91) is arranged above the rectangular frame (80) and two ends of the clamping plate (91) are respectively installed on the two lifting sliding blocks (92).