CN112675946B - Medical treatment glass rubbish auxiliary treatment device - Google Patents

Abstract

The invention relates to an auxiliary treatment device, in particular to an auxiliary treatment device for medical glass waste. The invention provides a medical glass waste auxiliary treatment device which can sterilize and disinfect glass in the process of treating medical glass. A medical glass waste auxiliary treatment device comprises support legs and supports, wherein the supports are symmetrically arranged on the support legs; the discharging frame is arranged among the four brackets; the cutting mechanism is arranged at the bottom of the discharging frame; the extrusion mechanism is arranged in the discharging frame. According to the glass crushing device, the cutting mechanism and the extrusion mechanism are matched with each other, so that the glass is crushed by the knocking hammer, and the glass after being processed passes through the baffle plate, so that people can collect glass fragments, and therefore the effect of rapidly crushing the glass is achieved.

Description

Medical treatment glass rubbish auxiliary treatment device

Technical Field

The invention relates to an auxiliary treatment device, in particular to an auxiliary treatment device for medical glass waste.

Background

As medical treatment is more and more sound, more and more medical glass is used, so that the problem of how to treat the used medical glass is solved, the medical glass is not treated for a period of time, so that a lot of bacteria and germs are generated in the glass, the glass is unsafe compared with places with large flow of people in hospitals, and at present, a lot of glass treatment equipment cannot completely crush the glass and does not have the effects of disinfection and sterilization.

The patent application: CN201710667772.4, published as 20170807, discloses a medical glass garbage crushing device for circular crushing, which comprises supporting legs, a crushing box body, a feeding hole, a discharging hole, a supporting plate, a crushing motor, a crushing rotating shaft, an active taper gear, a crushing stator, a filtering layer and supporting columns, wherein the filtering layer is fixedly connected to the bottom end of the crushing rotating shaft, so that the effect of filtering and screening crushed glass fragments is achieved, and the glass fragments which are not completely crushed are conveyed to the inside of a circular reflux cylinder; the surface of the backflow rotating shaft is fixedly connected with the backflow spiral sheet, so that the effect of circulating crushing of the incompletely crushed glass fragments which flow back to the space between the crushing stator and the crushing rotor is achieved; the inner wall of the crushing stator and the surface of the crushing rotor are respectively and fixedly connected with crushing outer teeth and crushing inner teeth; the top that sets up broken stator is the arc shape, can effectively reduce glass with the possibility of broken stator top jam to the effectual incomplete problem of ordinary glass rubbish of having solved, nevertheless this equipment can not disinfect or disinfect glass, and the later stage still need expend manpower and time and handles.

In conclusion, the medical glass waste auxiliary treatment device can only crush the medical glass during treatment and cannot sterilize the treated glass at the same time, and the medical glass waste auxiliary treatment device is designed for sterilizing and disinfecting the glass during the treatment of the medical glass.

Disclosure of Invention

In order to overcome the defects that the medical glass can only be crushed and the treated glass can not be disinfected simultaneously in the treatment process, the invention has the technical problems that: provides a medical glass waste auxiliary treatment device which can sterilize and disinfect glass in the process of treating the medical glass.

The technical scheme is as follows: a medical glass waste auxiliary treatment device comprises:

the support legs are symmetrically provided with the brackets;

the discharging frame is arranged among the four brackets;

the cutting mechanism is arranged at the bottom of the discharging frame;

the extrusion mechanism is arranged in the discharging frame.

Further, the cutting mechanism comprises:

the two sides of the bottom of the discharging frame are provided with first sliding rods;

the baffle is arranged between the two first sliding rods in a sliding mode and matched with the discharging frame;

the two ends of the first spring are respectively connected with the baffle and the first sliding rod;

the hand lever is arranged at the end part of the baffle.

Further, the extrusion mechanism includes:

the left side and the right side of the discharging frame are both provided with a second sliding rod in a sliding manner;

the inner sides of the two second sliding rods are connected with knocking hammers which are connected with the discharging frame in a sliding manner;

and the outer sides of the two second sliding rods are sleeved with second springs, and two ends of each second spring are connected with the material placing frame and the second sliding rod respectively.

Further, still include rotary mechanism, rotary mechanism includes:

the mounting plate is arranged on the rear side of the discharging frame;

the mounting plate is provided with a motor;

the output shaft of the motor is connected with the sector gear;

the left end of the outer wall of the material placing frame is provided with a first sliding sleeve;

the side part of the discharging frame is rotatably provided with a straight gear, and the sector gear is meshed with the straight gear;

the first sliding sleeve is provided with a first sliding rack in a sliding mode, the first sliding rack is meshed with the straight gear, and the first sliding rack is connected with the second sliding rod on the left side;

the right end of the outer wall of the discharging frame is provided with a second sliding sleeve;

and the second rack is arranged on the second sliding sleeve in a sliding manner, is meshed with the straight gear, and is connected with the second sliding rod on the right side.

Further, still including the mechanism that disinfects, the mechanism that disinfects includes:

the front side and the rear side of the outer wall of the discharging frame are provided with third sliding rods;

the ultraviolet lamp is arranged between the two third sliding rods in a sliding manner;

the connecting rods are arranged on two sides between the two ultraviolet lamps;

and the two ends of the third spring are respectively connected with the ultraviolet lamp and the third sliding rod on one side.

Further, still including pulling mechanism, pulling mechanism includes:

a third sliding sleeve is arranged on the front side of the second sliding sleeve;

a fourth sliding rod is arranged on the third sliding sleeve in a sliding mode, and the second rack is connected with the fourth sliding rod;

the first support column is arranged on the second rack and the fourth sliding rod;

the front side and the rear side of the discharging frame are respectively provided with a winding wheel in a rotating mode;

the front side and the rear side of the ultraviolet lamp are respectively provided with a second support;

stay cord, all around having the stay cord on two reels, the stay cord both ends are connected with first pillar and second pillar respectively.

Further, still including disinfection mechanism, disinfection mechanism includes:

the two ultraviolet lamps are symmetrically provided with first push rods;

the outer sides of the two third sliding rods are provided with fifth sliding rods;

the two third sliding rods are provided with convex blocks;

the two fifth sliding rods are slidably provided with fourth sliding sleeves, and the first push rod is matched with the fourth sliding sleeves;

the fourth springs are sleeved on one sides of the two fifth sliding rods, and two ends of each fourth spring are respectively connected with the fifth sliding rods and the fourth sliding sleeves;

the material discharging boxes are arranged on the two sides of the fourth sliding sleeve;

the front side and the rear side of the bottoms of the two emptying boxes are provided with the extrusion blocks in a sliding manner;

and the four extrusion blocks are sleeved with the fifth springs, and two ends of each fifth spring are respectively connected with the extrusion blocks and the discharging box.

Further, still include and strike the mechanism, strike the mechanism and include:

the two second sliding rods are provided with second push rods;

the sixth sliding rod is arranged at two parts of the inner side of the discharging frame;

the extrusion hammer is arranged between the two sixth sliding rods in a sliding manner;

the middle part of the extrusion hammer is provided with a first wedge-shaped block which is matched with the two second push rods;

and the two sixth sliding rods are sleeved with sixth springs, and two ends of each sixth spring are respectively connected with the sixth sliding rod and the extrusion hammer.

Further, still including sorting mechanism, sorting mechanism is including:

the material receiving frame is arranged between the two sides of the middle part of the bracket;

the bottom of the second rack and the fourth sliding rod are provided with second wedge-shaped blocks;

the material receiving frames are symmetrically provided with seventh sliding rods;

screening frames are arranged between the four seventh sliding rods in a sliding manner;

the convex rods are arranged between the two sides of the screening frame;

the seventh springs are sleeved on the four seventh sliding rods, and two ends of each seventh spring are respectively connected with the seventh sliding rod and the screening frame;

the bottom of the material receiving frame is provided with a fifth sliding sleeve;

the bottom of the material receiving frame is provided with the blanking frame in a sliding manner;

the eighth sliding rods and the fifth sliding sleeves are symmetrically and slidably provided with eighth sliding rods, and the four eighth sliding rods are connected with the blanking frame;

and the eighth springs are sleeved on the four eighth sliding rods, and two ends of each eighth spring are respectively connected with the blanking frame and the fifth sliding sleeve.

Compared with the prior art, the invention has the following advantages: 1. according to the invention, the cutting mechanism and the extrusion mechanism are matched with each other, so that the glass is crushed by the knocking hammer, and the processed glass passes through the baffle plate, so that people collect glass fragments, thereby achieving the effect of rapidly crushing the glass.

2. According to the automatic glass crushing device, the extrusion mechanism is matched with the rotating mechanism, the motor is started, and the knocking hammer automatically moves, so that glass is crushed, and the effect of automatically crushing the glass is achieved.

3. The glass treatment device is provided with the sterilization mechanism, so that when glass is treated, the glass fragments are sterilized through the movement of the ultraviolet lamp, and people are not easily infected by micro organisms when collecting the glass.

4. According to the invention, through the matching of the pulling mechanism and the sterilization mechanism, the ultraviolet lamp is automatically moved in the process that the pull rope is pulled by the reel, so that the effect of automatically sterilizing the glass being crushed is achieved.

5. According to the invention, the disinfection mechanism is arranged, disinfection water is placed in the material placing box, and through the matching of the convex block and the extrusion block, the disinfection water is sprayed out to disinfect the glass which is being crushed and sterilized, so that the safety of treatment of people is further ensured.

6. According to the invention, through the matching of the extrusion mechanism and the knocking mechanism, the crushed glass is further crushed, so that the glass is treated more thoroughly.

7. By arranging the sorting mechanism, the glass collecting device can enable people to collect the processed glass more quickly, and the possibility that people are cut when collecting the glass is reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the cutting mechanism of the present invention.

Fig. 3 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 4 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 5 is a schematic perspective view of the sterilization mechanism of the present invention.

Fig. 6 is a schematic perspective view of the pulling mechanism of the present invention.

Fig. 7 is a schematic perspective view of the sterilizing mechanism of the present invention.

Fig. 8 is a schematic perspective view of the knocking mechanism according to the present invention.

Fig. 9 is a schematic perspective view of the sorting mechanism of the present invention.

In the above drawings: 1: leg, 2: a bracket, 3: a material placing frame, 4: cutting mechanism, 41: baffle, 42: first slide bar, 43: first spring, 44: hand lever, 5: pressing mechanism, 51: second slide bar, 52: knocking hammer, 53: second spring, 6: rotation mechanism, 61: mounting plate, 62: motor, 63: sector gear, 64: first runner, 65: spur gear, 66: first rack, 67: second rack, 68: second sliding bush, 7: sterilization mechanism, 71: third slide bar, 72: ultraviolet lamp, 73: link, 74: third spring, 8: pulling mechanism, 81: first pillar, 82: reel, 83: pull cord, 84: second pillar, 85: fourth slide bar, 86: third sliding sleeve, 9: disinfection mechanism, 91: first push rod, 92: fifth slide bar, 93: bump, 94: fourth runner, 95: fourth spring, 96: discharge box, 97: extrusion block, 98: fifth spring, 10: knocking mechanism, 101: second push rod, 102: sixth slide bar, 103: squeeze hammer, 104: first wedge block, 105: sixth spring, 11: sorting mechanism, 111: material receiving frame, 112: second wedge block, 113: seventh slide bar, 114: screening box, 115: nose bar, 116: seventh spring, 117: fifth runner, 118: eighth slide bar, 119: eighth spring, 1110: and (7) discharging the material.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The utility model provides a medical glass rubbish auxiliary processing device, as shown in figure 1, including stabilizer blade 1, support 2, blowing frame 3, cutting mechanism 4 and extrusion mechanism 5, the equal front and back symmetry is equipped with support 2 about on the stabilizer blade 1, is equipped with blowing frame 3 between four supports 2, and blowing frame 3 bottom is equipped with cutting mechanism 4, is equipped with extrusion mechanism 5 in the blowing frame 3.

When people need handle glass, people place the glass that needs to handle in blowing frame 3, then remove to the inboard through people's manual promotion extrusion mechanism 5, make extrusion mechanism 5 carry out the crushing processing with glass in blowing frame 3, when people handle glass the back of accomplishing, people no longer promote the 5 motion of extrusion mechanism, people's manual pulling is opened material mechanism 4 this moment, make opening material mechanism 4 no longer with the cooperation of blowing frame 3, thereby make the glass piece of crushing pass through the 3 unloading of blowing frame, people collect the glass piece this moment, when people still need handle glass, people place glass in blowing frame 3 again, it can to promote extrusion mechanism 5 again.

Example 2

On the basis of the embodiment 1, as shown in fig. 2, the cutting mechanism 4 includes a baffle 41, first slide bars 42, first springs 43 and a hand lever 44, the front and rear sides of the bottom of the material placing frame 3 are respectively provided with the first slide bars 42, the baffle 41 is slidably arranged between the two first slide bars 42, the baffle 41 is matched with the material placing frame 3, the left sides of the two first slide bars 42 are respectively sleeved with the first springs 43, two ends of each first spring 43 are respectively connected with the baffle 41 and the first slide bar 42, and the right end of the baffle 41 is provided with the hand lever 44.

When people place glass in the discharging frame 3, the glass is positioned on the baffle 41 at the moment, people manually push the extrusion mechanism 5 to enable the extrusion mechanism 5 to crush the glass, when the glass is completely crushed into glass fragments, people do not push the extrusion mechanism 5 any more to enable the extrusion mechanism 5 not to process the glass any more, people manually pull the hand lever 44 to the right side at the moment to enable the hand lever 44 to drive the baffle 41 to move to the right side, the baffle 41 slides on the first sliding rod 42 at the moment to enable the first spring 43 to be stretched, so that the baffle 41 is not matched with the discharging frame 3 any more, people collect the glass fragments discharged from the discharging frame 3 at the moment, after people collect the glass fragments, people relax the hand lever 44 to enable the first spring 43 to reset, then drive the baffle 41 and the hand lever 44 to move to the left side, and at the moment, the baffle 41 is matched with the discharging frame 3, so that the discharging frame 3 is not discharged, and if the glass needs to be processed, the glass is put into the discharging frame 3.

Example 3

On the basis of the embodiment 2, as shown in fig. 1, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, the pressing mechanism 5 includes a second slide bar 51, a knocking hammer 52 and a second spring 53, the second slide bar 51 is slidably disposed on both left and right sides of the discharge frame 3, the knocking hammer 52 is connected to both inner sides of the two second slide bars 51, the knocking hammer 52 is slidably connected to the discharge frame 3, the second spring 53 is sleeved on both outer sides of the two second slide bars 51, and both ends of the second spring 53 are respectively connected to the discharge frame 3 and the second slide bar 51.

When glass is located baffle 41, people manually push second slide bar 51 to move to the inner side, make second slide bar 51 drive strike hammer 52 to move to the inner side, second spring 53 is extruded, strike hammer 52 and crush the glass on baffle 41 this moment, after strike hammer 52 crushes the glass, people no longer stimulate second slide bar 51, make second spring 53 reset, and then drive second slide bar 51 and strike hammer 52 to move to the outer side, make strike hammer 52 no longer crush the glass, people manually stimulate hand lever 44 this moment, make baffle 41 move to the right side, thereby collect the glass of crushing, when people still need crush glass, people circulate above step can.

Also comprises a rotating mechanism 6, the rotating mechanism 6 comprises a mounting plate 61, a motor 62, a sector gear 63 and a first sliding sleeve 64, straight-teeth gear 65, first rack 66, second rack 67 and second sliding sleeve 68, blowing frame 3 rear side is equipped with mounting panel 61, install motor 62 on the mounting panel 61, be connected with fan-shaped gear 63 on motor 62's the output shaft, blowing frame 3 outer wall left end is equipped with first sliding sleeve 64, blowing frame 3 rear side is the rotation type and is equipped with straight-teeth gear 65, fan-shaped gear 63 and straight-teeth gear 65 mesh, the slip type is equipped with first rack 66 on first sliding sleeve 64, first rack 66 and straight-teeth gear 65 mesh, first rack 66 is connected with left second slide bar 51, blowing frame 3 outer wall right-hand member is equipped with second sliding sleeve 68, the slip type is equipped with second rack 67 on second sliding sleeve 68, second rack 67 and straight-teeth gear 65 mesh, second rack 67 is connected with the second slide bar 51 on right side.

In order to make the glass more convenient to be treated, when the glass is positioned on the baffle plate 41, the motor 62 is turned on, so that the output shaft of the motor 62 drives the sector gear 63 to rotate, at the same time, the sector gear 63 is meshed with the straight gear 65, when the sector gear 63 is meshed with the straight gear 65, the straight gear 65 is meshed with the first rack 66 and the second rack 67 at the same time, so that the straight gear 65 rotates to drive the first rack 66 and the second rack 67 to move inwards, then the first rack 66 slides on the first sliding sleeve 64, at the same time, the second rack 67 slides on the second sliding sleeve 68, further the second sliding rod 51 is driven to move inwards, so that the second spring 53 is squeezed, thereby the knocking hammer 52 is driven to move inwards, the glass is crushed, when the sector gear 63 is not meshed with the straight gear 65, the second spring 53 is reset, further the second sliding rod 51 and the knocking hammer 52 are driven to move outwards, so that the first rack 66 and the second rack 67 move to the outside, and the knocking hammer 52 does not process the glass any more, and when people finish processing the glass and need to collect the crushed glass, people turn off the motor 62.

Still including sterilization mechanism 7, sterilization mechanism 7 is including third slide bar 71, ultraviolet lamp 72, connecting rod 73 and third spring 74, both sides all are equipped with third slide bar 71 around the blowing frame 3 outer wall, two ultraviolet lamp 72 altogether are equipped with to the slidingtype between two third slide bars 71, both sides all are equipped with connecting rod 73 around between two ultraviolet lamp 72, two third slide bars 71 right sides all overlap there is third spring 74, the third spring 74 both ends respectively with the ultraviolet lamp 72 and the third slide bar 71 connection on right side.

Because medical glass handles, many tiny microorganisms can spread, consequently, when glass handles the in-process, people manually pull connecting rod 73 and remove to the right side, make connecting rod 73 drive two ultraviolet lamp 72 and remove to the right side, then make two ultraviolet lamp 72 slide on third slide bar 71, make third spring 74 extruded, the glass of crushing this moment disinfects through ultraviolet lamp 72, after glass handles the completion, people relax connecting rod 73, make third spring 74 reset, and then drive connecting rod 73 and ultraviolet lamp 72 and reset, thereby make ultraviolet lamp 72 no longer disinfect to glass, the glass piece that people will disinfect the completion this moment collects can.

Still including pulling mechanism 8, pulling mechanism 8 is including first pillar 81, reel 82, stay cord 83, second pillar 84, fourth slide bar 85 and third sliding sleeve 86, second sliding sleeve 68 front side is equipped with third sliding sleeve 86, the last slip of third sliding sleeve 86 is equipped with fourth slide bar 85, second rack 67 is connected with fourth slide bar 85, all be equipped with first pillar 81 on second rack 67 and the fourth slide bar 85, the equal rotary type in both sides is equipped with reel 82 around blowing frame 3 right side, both sides all are equipped with second pillar 84 around ultraviolet lamp 72, all around there being stay cord 83 on two reels 82, stay cord 83 both ends are connected with first pillar 81 and second pillar 84 respectively.

In order to save the manpower for manually sterilizing the glass, when the second rack 67 is moved inward, the fourth sliding bar 85 is moved inward, at the same time, the second rack 67 and the fourth sliding rod 85 drive the first strut 81 to move inwards, so that the pull rope 83 is gradually tensioned, the reels 82 are rotated, which in turn causes the second stays 84 to move to the right, so that the ultraviolet lamps 72 move to the right, the third springs 74 are compressed, so that the ultraviolet lamp 72 sterilizes the glass being crushed, and when the second rack 67 is moved to the outside, so that the fourth sliding rod 85 moves outwards and then drives the first strut 81 to move outwards, so that the pull rope 83 is not tensioned any more, further, the ultraviolet lamp 72 is moved to the left by the return of the third spring 74, and at this time, the reel 82 is reversed to wind the cord 83, thereby sterilizing the glass during the glass treatment.

Also comprises a disinfection mechanism 9, the disinfection mechanism 9 comprises a first push rod 91, a fifth slide rod 92, a convex block 93 and a fourth sliding sleeve 94, fourth spring 95, bin 96, extrusion block 97 and fifth spring 98, two ultraviolet lamps 72 are all equipped with first push rod 91 around symmetrically, two third slide bar 71 outsides all are equipped with fifth slide bar 92, all be equipped with lug 93 on two third slide bar 71, two fifth slide bar 92 slidingtype are equipped with fourth sliding sleeve 94, first push rod 91 and fourth sliding sleeve 94 cooperation, two fifth slide bar 92 left sides all overlap and have fourth spring 95, the fourth spring 95 both ends are connected with fifth slide bar 92 and fourth sliding sleeve 94 respectively, the fourth sliding sleeve 94 left and right sides all is equipped with bin 96, two bin 96 bottoms front and back both sides all slidingtype are equipped with extrusion block 97, all overlap on four extrusion block 97 and have fifth spring 98, the fifth spring 98 both ends are connected with extrusion block 97 and bin 96 respectively.

In order to treat the glass more thoroughly, people pour disinfectant into the material discharge box 96, when the ultraviolet lamp 72 moves towards the right side, the first push rod 91 moves towards the right side, at the same time, the first push rod 91 is matched with the fourth sliding sleeve 94, and then the fourth sliding sleeve 94 is driven to move towards the right side, so that the material discharge box 96 moves towards the right side, at the same time, the fourth spring 95 is stretched, and then the extrusion block 97 is driven to move towards the right side, so that the extrusion block 97 is matched with the bump 93, when the extrusion block 97 is matched with the protruding part of the bump 93, the extrusion block 97 moves towards the inner side along the bump 93, so that the fifth spring 98 is extruded, at the same time, the disinfectant in the material discharge box 96 is sprayed out, the glass being treated is disinfected, when the extrusion block 97 is matched with the recessed part of the bump 93, the fifth spring 98 is reset, and then the extrusion block 97 is driven to reset, so that the material discharge box 96 does not spray the disinfectant any more, when ultraviolet lamp 72 moved to the left side, first push rod 91 no longer cooperated with fourth sliding sleeve 94 this moment for fourth spring 95 resets, drives fourth sliding sleeve 94 then and removes to the left side, thereby drives discharge box 96 and removes to the left side, and discharge box 96 stops to disinfect to broken glass this moment, and the glass piece that people will disinfect and accomplish is collected can.

Still including knocking mechanism 10, knocking mechanism 10 is including second push rod 101, sixth slide bar 102, extrude the hammer 103, first wedge 104 and sixth spring 105, all be equipped with second push rod 101 on two second slide bars 51, blowing frame 3 inboard front and back two all are equipped with sixth slide bar 102, slidingtype is equipped with extrusion hammer 103 between two sixth slide bars 102, the middle part is equipped with first wedge 104 on the extrusion hammer 103, first wedge 104 and two second push rod 101 cooperations, all overlap on two sixth slide bars 102 and have sixth spring 105, sixth spring 105 both ends are connected with sixth slide bar 102 and extrusion hammer 103 respectively.

In order to crush glass better, when the second sliding rod 51 drives the knocking hammer 52 to move inwards, the second pushing rod 101 is made to move inwards, at the moment, the second pushing rod 101 is matched with the first wedge-shaped block 104, the first wedge-shaped block 104 moves upwards, then the extruding hammer 103 is driven to move upwards, the extruding hammer 103 is made to slide on the sixth sliding rod 102, the sixth spring 105 is extruded, at the moment, the knocking hammer 52 crushes the glass, when the second sliding rod 51 drives the knocking hammer 52 to move outwards, the second pushing rod 101 moves outwards, at the moment, the second pushing rod 101 is not matched with the first wedge-shaped block 104 any more, the sixth spring 105 is made to reset, then the extruding hammer 103 is driven to move downwards, the first wedge-shaped block 104 moves downwards, at the moment, the extruding hammer 103 crushes the crushed glass for the second time, and the glass is better processed.

The sorting mechanism 11 is further included, the sorting mechanism 11 includes a material receiving frame 111, a second wedge-shaped block 112, a seventh sliding rod 113, a screening frame 114, a convex rod 115, a seventh spring 116, a fifth sliding sleeve 117, an eighth sliding rod 118, an eighth spring 119 and a material discharging frame 1110, the material receiving frame 111 is arranged between the front side and the rear side of the middle portion of the support 2, the second wedge-shaped block 112 is arranged at the bottom of the second rack 67 and the fourth sliding rod 85, the seventh sliding rod 113 is symmetrically arranged at the front and the rear of the material receiving frame 111, the screening frame 114 is slidably arranged between the four seventh sliding rods 113, the convex rod 115 is arranged between the left side and the right side of the screening frame 114, the seventh spring 116 is sleeved on the four seventh sliding rods 113, two ends of the seventh spring 116 are respectively connected with the seventh sliding rod 113 and the screening frame 114, the fifth sliding sleeve 117 is arranged at the bottom of the frame 111, the material discharging frame 1110 is slidably arranged at the bottom of the material receiving frame 111, the eighth sliding rod 118 is symmetrically arranged at the front and the rear side of the fifth sliding sleeve 117, the four eighth sliding rods 118 are connected with the blanking frame 1110, the eighth springs 119 are sleeved on the four eighth sliding rods 118, and two ends of each eighth spring 119 are respectively connected with the blanking frame 1110 and the fifth sliding sleeve 117.

In order to facilitate people to collect the processed glass, when the crushed glass falls into the receiving frame 111 through the discharging frame 3, the smaller glass fragments fall into the discharging frame 1110, the larger glass fragments are left on the screening frame 114, when the fourth sliding rod 85 and the second rack 67 move, the second wedge block 112 moves rightwards, the second wedge block 112 is matched with the convex rod 115, when the second wedge block 112 is matched with the convex rod on the convex rod 115, the convex rod 115 moves downwards, the screening frame 114 is driven to move downwards, the seventh spring 116 is extruded, when the second wedge block 112 is not matched with the convex rod on the convex rod 115, the seventh spring 116 is reset, the screening frame 114 is driven to move upwards, the convex rod 115 moves upwards, the screening frame 114 shakes upwards and downwards, the processed glass fragments are subjected to secondary filtration, when the non-filtered glass fragments exist on the screening frame 114, people can crush it for the second time, after people process all glass, people manually pull the blanking frame 1110 to move downwards, so that the eighth sliding rod 118 moves downwards, at the moment, the eighth sliding rod 118 slides on the fifth sliding sleeve 117, so that the eighth spring 119 is extruded, because the blanking frame 1110 is inclined, so that glass fragments in the blanking frame 1110 flow, at the moment, people collect the glass fragments, after people collect the glass fragments, people loosen the blanking frame 1110, so that the eighth spring 119 resets, then the eighth sliding rod 118 is driven to move upwards, so that the blanking frame 1110 moves upwards, so that the blanking frame 1110 is matched with the receiving frame 111, when people still need to collect the processed glass fragments, people pull the blanking frame 1110 downwards again.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (3)

1. The utility model provides a medical treatment glass rubbish auxiliary processing device which characterized in that, including:

the supporting legs (1) and the brackets (2), wherein the brackets (2) are symmetrically arranged on the supporting legs (1);

the feeding frame (3) is arranged among the four brackets (2);

the cutting mechanism (4) is arranged at the bottom of the discharging frame (3);

the extrusion mechanism (5) is arranged in the discharging frame (3);

the cutting mechanism (4) comprises:

the two sides of the bottom of the discharging frame (3) are provided with first sliding rods (42);

the baffle (41) is arranged between the two first sliding rods (42) in a sliding manner, and the baffle (41) is matched with the material placing frame (3);

the first springs (43) are sleeved on one sides of the two first sliding rods (42), and two ends of each first spring (43) are respectively connected with the baffle (41) and the corresponding first sliding rod (42);

the hand lever (44) is arranged at the end part of the baffle (41);

the pressing mechanism (5) includes:

the left side and the right side of the discharging frame (3) are both provided with a second sliding rod (51) in a sliding manner;

the inner sides of the two second sliding rods (51) are respectively connected with a knocking hammer (52), and the knocking hammers (52) are connected with the discharging frame (3) in a sliding manner;

the outer sides of the two second sliding rods (51) are sleeved with the second springs (53), and two ends of each second spring (53) are respectively connected with the discharging frame (3) and the corresponding second sliding rod (51);

still including rotary mechanism (6), rotary mechanism (6) including:

the mounting plate (61) is arranged on the rear side of the discharging frame (3);

the motor (62) is mounted on the mounting plate (61);

a sector gear (63), wherein the output shaft of the motor (62) is connected with the sector gear (63);

the left end of the outer wall of the discharging frame (3) is provided with a first sliding sleeve (64);

the straight gear (65) is rotatably arranged on the side part of the discharging frame (3), and the sector gear (63) is meshed with the straight gear (65);

the first sliding sleeve (64) is provided with a first rack (66) in a sliding manner, the first rack (66) is meshed with the straight gear (65), and the first rack (66) is connected with the second sliding rod (51) on the left side;

the right end of the outer wall of the discharging frame (3) is provided with a second sliding sleeve (68);

the second rack (67) is arranged on the second sliding sleeve (68) in a sliding mode, the second rack (67) is meshed with the straight gear (65), and the second rack (67) is connected with the second sliding rod (51) on the right side;

still including disinfecting mechanism (7), disinfect mechanism (7) including:

the front side and the rear side of the outer wall of the discharging frame (3) are provided with third sliding rods (71);

the ultraviolet lamps (72) are arranged between the two third sliding rods (71) in a sliding manner, and the total number of the ultraviolet lamps (72) is two;

the connecting rods (73) are arranged on two sides between the two ultraviolet lamps (72);

the third springs (74) are sleeved on one sides of the two third sliding rods (71), and two ends of each third spring (74) are respectively connected with the ultraviolet lamp (72) and the third sliding rod (71) on one side;

still including pulling mechanism (8), pulling mechanism (8) including:

a third sliding sleeve (86), wherein the front side of the second sliding sleeve (68) is provided with the third sliding sleeve (86);

the fourth sliding rod (85) is arranged on the third sliding sleeve (86) in a sliding mode, and the second rack (67) is connected with the fourth sliding rod (85);

the first support column (81), the second rack (67) and the fourth sliding rod (85) are provided with the first support column (81);

the coiling wheel (82) is rotatably arranged on the front side and the rear side of the discharging frame (3);

the front side and the rear side of the ultraviolet lamp (72) are respectively provided with a second support column (84);

the pull ropes (83) are wound on the two winding wheels (82), and two ends of each pull rope (83) are respectively connected with the first support column (81) and the second support column (84);

still including disinfection mechanism (9), disinfection mechanism (9) including:

the first push rods (91) are symmetrically arranged on the two ultraviolet lamps (72);

the outer sides of the two third sliding rods (71) are respectively provided with a fifth sliding rod (92);

the convex blocks (93) are arranged on the two third sliding rods (71);

the fourth sliding sleeves (94), the two fifth sliding rods (92) are provided with the fourth sliding sleeves (94) in a sliding manner, and the first push rod (91) is matched with the fourth sliding sleeves (94);

the fourth springs (95) are sleeved on one sides of the two fifth sliding rods (92), and two ends of each fourth spring (95) are respectively connected with the fifth sliding rods (92) and the fourth sliding sleeves (94);

the material discharging box (96) is arranged on each of two sides of the fourth sliding sleeve (94);

the front side and the rear side of the bottoms of the two material placing boxes (96) are both provided with the extrusion blocks (97) in a sliding manner;

the four extrusion blocks (97) are sleeved with the fifth springs (98), and two ends of each fifth spring (98) are respectively connected with the extrusion blocks (97) and the material placing box (96);

when the ultraviolet lamp (72) moves towards the right side, the first push rod (91) is matched with the fourth sliding sleeve (94) at the moment, the fourth sliding sleeve (94) is driven to move towards the right side, the material discharging box (96) moves towards the right side, the fourth spring (95) is stretched at the moment, the extrusion block (97) is driven to move towards the right side, the extrusion block (97) is matched with the lug (93), when the extrusion block (97) is matched with the protruding part of the lug (93), the extrusion block (97) moves towards the inner side along the lug (93), the fifth spring (98) is extruded, the disinfectant water in the material discharging box (96) is sprayed out at the moment, the glass being processed is disinfected, when the extrusion block (97) is matched with the recessed part of the lug (93), the fifth spring (98) is reset, and the extrusion block (97) is driven to reset, so that the sterilizing water is no longer sprayed from the discharge tank (96).

2. The auxiliary treatment device for the medical glass waste as claimed in claim 1, further comprising a knocking mechanism (10), wherein the knocking mechanism (10) comprises:

the two second sliding rods (51) are provided with second push rods (101);

the sixth sliding rod (102) is arranged at two parts of the inner side of the discharging frame (3);

the extrusion hammer (103) is arranged between the two sixth sliding rods (102) in a sliding manner;

the upper middle part of the extrusion hammer (103) is provided with a first wedge block (104), and the first wedge block (104) is matched with the two second push rods (101);

and the two sixth sliding rods (102) are sleeved with the sixth springs (105), and two ends of each sixth spring (105) are respectively connected with the sixth sliding rod (102) and the extrusion hammer (103).

3. The auxiliary treatment device for the medical glass waste according to claim 2, further comprising a sorting mechanism (11), wherein the sorting mechanism (11) comprises:

the material receiving frame (111) is arranged between the two sides of the middle part of the bracket (2);

the bottom of the second rack (67) and the fourth sliding rod (85) are provided with a second wedge-shaped block (112);

the seventh sliding rods (113) are symmetrically arranged on the material receiving frame (111);

the screening frames (114) are arranged between the four seventh sliding rods (113) in a sliding manner;

the convex rods (115) are arranged between the two sides of the screening frame (114);

the seventh springs (116) are sleeved on the four seventh sliding rods (113), and two ends of each seventh spring (116) are respectively connected with the seventh sliding rod (113) and the screening frame (114);

a fifth sliding sleeve (117), wherein the bottom of the material receiving frame (111) is provided with the fifth sliding sleeve (117);

the blanking frame (1110), the blanking frame (1110) is arranged at the bottom of the receiving frame (111) in a sliding manner;

the eighth sliding rods (118) and the fifth sliding sleeves (117) are symmetrically and slidably provided with the eighth sliding rods (118), and the four eighth sliding rods (118) are connected with the blanking frame (1110);

the eighth springs (119) are sleeved on the four eighth sliding rods (118), and two ends of each eighth spring (119) are respectively connected with the blanking frame (1110) and the fifth sliding sleeve (117);

when the fourth sliding rod (85) and the second rack (67) move, the second wedge-shaped block (112) moves rightwards, the second wedge-shaped block (112) is matched with the convex rod (115), when the second wedge-shaped block (112) is matched with the convex rod on the convex rod (115), the convex rod (115) moves downwards, the screening frame (114) is driven to move downwards, the seventh spring (116) is extruded, when the second wedge-shaped block (112) is not matched with the convex rod on the convex rod (115), the seventh spring (116) is reset, the screening frame (114) is driven to move upwards, the convex rod (115) moves upwards, and the screening frame (114) is driven to shake upwards and downwards.

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