CN111298874A

CN111298874A - New energy automobile waste glass recovery processing equipment

Info

Publication number: CN111298874A
Application number: CN202010194661.8A
Authority: CN
Inventors: 高跃
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-19
Filing date: 2020-03-19
Publication date: 2020-06-19

Abstract

The invention relates to the field of glass recovery processing equipment, and discloses new energy automobile waste glass recovery processing equipment which comprises a vertically arranged processing box, a pressing mechanism, a crushing mechanism, a sieving mechanism and a grinding mechanism, wherein a first side box and a second side box are respectively arranged on two sides of the processing box, the pressing mechanism is arranged at the top of the first side box, the front end of the pressing mechanism is fixedly connected with the top of the crushing mechanism, a first discharge port is arranged on one side of the first side box, a guide table is arranged in the first side box, the top surface of the guide table is inclined, the rear end of the guide table extends to the lower part of the sieving mechanism, a second discharge port is arranged on one side of the second side box, a feed port is arranged on one outer side wall of the processing box, and a guide plate is arranged at the feed port, so that the waste glass can not splash when the automatic crushing and grinding steps of the glass are realized, and the safety of personnel is greatly improved, and can finish the sorting of the glass, meet the production requirement of subsequent glass diversification.

Description

New energy automobile waste glass recovery processing equipment

Technical Field

The invention relates to the field of glass recovery and treatment equipment, in particular to waste glass recovery and treatment equipment for a new energy automobile.

Background

With the development of science and technology, the travel tool is gradually developed from a carriage to the current automobile, and at present, each family basically has one automobile, so that the base number of the automobiles is large, and the importance of the automobiles in the life of modern people can be shown from the side. When the automobile is scrapped or used for a long time due to traffic accidents every year, the scrapping standard is reached, in order to realize sustainable utilization of modern resources, change the automobile into valuables and change waste into valuable, large and small parts and accessories on the automobile are generally required to be recycled, two types of direct utilization and transformation utilization are generally adopted for recycling the glass on the automobile, the direct utilization means that the quality of the disassembled glass is qualified, and the glass can be directly used as accessories for the automobile type which is originally designed and manufactured. Transformation and utilization are recovery methods in which recovered glass is directly processed and converted into raw materials. Most of the existing recycling modes of automobile waste glass are transformation utilization, one of the transformation utilization modes is to mechanically crush the automobile waste glass into small particles or grind and process the automobile waste glass into small glass beads for standby application, and the automobile waste glass can be used as building materials and can also be used as recycled material for producing daily glass and glass for buildings.

Because the application range of glass is wider, therefore at present waste glass retrieves very disorderly, and is not of uniform size, the shape is different, and because glass is comparatively sharp, the fish tail with the people easily, consequently increased and smashed the degree of difficulty to glass, current glass crushing apparatus all only carries out simple crushing to glass usually, its crushing effect is not good enough, and the piece splashes when smashing, brings latent danger for the staff, still need carry out the breakage for a long time sometimes and can smash, waste time, work efficiency is low, for this reason, we have provided a new energy automobile waste glass recovery processing equipment to solve above-mentioned problem.

Disclosure of Invention

The invention aims to provide waste glass recovery and treatment equipment for a new energy automobile, and the waste glass recovery and treatment equipment is used for solving the technical problems that in the prior art, the glass crushing effect is poor, scraps splash during crushing, potential danger is brought to workers, the working efficiency is low, and the production requirements of modern enterprises cannot be met.

In order to solve the technical problems, the invention provides the following technical scheme: a new energy automobile waste glass recovery processing device comprises a processing box, a pressing mechanism, a crushing mechanism, a screening mechanism and a grinding mechanism which are vertically arranged, a first side box and a second side box communicated with the treatment box are respectively arranged at the two sides of the treatment box, the pressing mechanism is arranged at the top of the first side box, the front end of the pressing mechanism is fixedly connected with the top of the crushing mechanism, the crushing mechanism and the sieving mechanism are both arranged in the treatment box, the crushing mechanism is positioned right above the sieving mechanism, the grinding mechanism is arranged in the second side box, one side of the first side box is provided with a first discharge port, a guide table is arranged in the first side box, the top surface of the guide table is an inclined plane, the rear end of the guide table extends to the lower portion of the screening mechanism, a second discharge port is arranged on one side of a second side box, a feeding port is formed in one outer side wall of the treatment box, and a guide plate fixedly connected with the treatment box is arranged at the feeding port.

Preferably, the pressing mechanism comprises a base station, a bearing support, a linkage assembly, a rotating assembly, a swinging arm and two connecting shafts, the base station is fixed at the top of the first side box, the bearing support is fixed at the top of the base station, the linkage assembly is fixed at the top of the first side box, one end of the linkage assembly is fixedly connected with the rotating assembly, the rotating assembly is installed on the middle end portion of the bearing support, one end of the rotating assembly is fixedly connected with the rear end of the swinging arm, the middle end portion of the swinging arm is hinged to the front end of the bearing support, the two connecting shafts are vertically arranged, and two ends of each connecting shaft are fixedly connected with the front end of the swinging arm.

Preferably, the rotating assembly comprises a rotating disc, a rotating shaft, a fixed shaft, two connecting arms and two rotating arms, the rotating shaft is rotatably mounted on the middle end portion of the bearing support, the rotating disc is fixed on the middle end portion of the rotating shaft, the two rotating arms are respectively fixed on two ends of the rotating arms, front ends of the two connecting arms are fixedly connected with two ends of the fixed shaft, rear ends of the swinging arms are fixed on the middle end portion of the fixed shaft, and rear ends of the two connecting arms are respectively fixedly connected with the middle end portions of the two rotating arms.

Preferably, the linkage assembly comprises a first driving motor, a driving gear, a driven gear and a chain, the first driving motor is horizontally fixed on the first side box, the output end of the first driving motor is fixedly connected with the driving gear, the driven gear is fixedly connected with one end of the rotating shaft, and the chain is sleeved on the outer portions of the driving gear and the driven gear.

Preferably, the crushing mechanism comprises an upper pressing plate, a lower pressing plate, an L-shaped plate, a second driving motor, a belt, two synchronizing wheels, four fixing seats and two transmission shafts, the upper pressing plate and the lower pressing plate are both horizontally arranged in the treatment box, and the top board is located the holding down plate directly over, the top of top board and the bottom fixed connection of two connecting axles, the L template is fixed on the lateral wall of handling the case, second driving motor fixes on the L template and the one end fixed connection of its output and a transmission shaft, four fixing bases are the rectangle and fix the bottom at the holding down plate, every transmission shaft all runs through two fixing bases and rotates and install in handling the incasement, two synchronizing wheels are installed respectively on one of two transmission shafts is served, the belt cover is established on the outside of two synchronizing wheels, the bottom of top board and the top of holding down plate all are equipped with extrusion tooth group, and extrusion tooth group on the top board sets up with the extrusion tooth group on the holding down plate is crisscross.

Preferably, the sieve moves the mechanism and includes the sieve, the baffle, a supporting plate, two articulated seats and a plurality of elastic component, two articulated seats are the interval and fix on the inside wall of handling the case, the sieve is the slope setting and is handling the incasement and its rear end is articulated to be installed on two articulated seats, the front end of sieve extends the setting to the second side incasement, the baffle is vertical setting in the front end bottom department of sieve, the backup pad is the level setting in the second side incasement and with the lateral wall fixed connection of baffle, a plurality of elastic component are equidistant and install in the backup pad, and every elastic component's both ends respectively with sieve and backup pad fixed connection.

Preferably, each elastic component comprises a guide sleeve and a spring, the spring is arranged in the guide sleeve, the top end of the spring is fixedly connected with the bottom of the front end of the sieve plate, the guide sleeve is vertically arranged, and the bottom of the guide sleeve is fixedly connected with the top of the support plate.

Preferably, the grinding mechanism comprises a material bearing plate, a linkage assembly, an extrusion assembly, a first arc-shaped material guide frame and a second arc-shaped material guide frame, the first arc-shaped material guide frame and the second arc-shaped material guide frame are symmetrically arranged in the second side box, the rear end of the first arc-shaped material guide frame is fixedly connected with the side wall of the partition plate, the rear end of the second arc-shaped material guide frame is fixedly connected with the inner wall of the second side box, the front end of the first arc-shaped material guide frame is connected with the front end of the sieve plate, the material bearing plate is arc-shaped and is positioned between the first arc-shaped material guide frame and the second arc-shaped material guide frame, the top of the material bearing plate is provided with a convex block group, two sides of the material bearing plate are respectively butted with the first arc-shaped material guide frame and the second arc-shaped material guide frame, the linkage assembly is arranged on the inner bottom of the second side box, the top end of the linkage.

Preferably, the linkage assembly comprises a third driving motor, a linkage shaft, two discs and two linkage arms, the third driving motor is fixed on the outer side wall of the second side box, the output end of the third driving motor is fixedly connected with one end of the linkage shaft, the linkage shaft is rotatably installed in the second side box, the two discs are fixed on the linkage shaft, one ends of the two linkage arms are fixedly connected with the bottom of the material bearing plate, and the other ends of the two linkage arms are fixedly connected with the edges of the two discs respectively.

Preferably, the squeezing assembly comprises a fourth driving motor, a rotating shaft and a grinding head, the fourth driving motor is vertically fixed at the top of the second side box, the output end of the fourth driving motor is fixedly connected with one end of the rotating shaft, the rotating shaft is vertically arranged in the second side box, and the grinding head is fixed at the other end of the rotating shaft.

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

(1) the glass slides into the processing line and is positioned on the lower pressure plate under the action of the guide plate through the feeding port, then the first driving motor drives the driving gear fixedly connected with the output end of the first driving motor to rotate, the rotating shaft fixedly connected with the driven gear is driven to rotate under the action of the chain, so that the two rotating arms fixedly connected with the rotating shaft rotate, the two connecting arms respectively and fixedly connected with the middle ends of the two rotating arms synchronously rotate, the two rotating arms rotate to form a connecting rod principle under the condition that the arm lengths of the two connecting arms are unchanged, the fixed shaft on the front end of the connecting arm is driven to swing, the rear end of the swinging arm is fixed on the fixed shaft, the middle end of the swinging arm is hinged on the front end of the bearing support, so the swinging arm synchronously swings around the middle end of the swinging arm, the upper pressure plate on the bottom ends of the two connecting shafts is driven to move in the, the mutual extrusion operation between the upper pressing plate and the lower pressing plate is completed, the upper pressing plate and the lower pressing plate are both provided with the extrusion tooth groups which are arranged in a staggered mode under the action of the extrusion tooth groups and in the reciprocating and lower pressing plate extrusion processes of the upper pressing plate, so that the step of primary crushing of glass is realized, and secondly, the upper pressing plate and the lower pressing plate are mutually extruded in a sealed state, so that the situation of glass splashing cannot occur, and the safety of personnel is greatly improved;

(2) after the finished primary crushing step, a transmission shaft fixedly connected with the output end of the transmission shaft is driven to rotate through a second driving motor, a synchronizing wheel on the transmission shaft is driven to rotate, another transmission shaft fixedly connected with another synchronizing wheel is driven to rotate synchronously under the action of a belt, under the action of the fixed connection of four fixed seats and a lower pressing plate, the lower pressing plate is driven to rotate, so that the crushed glass on the lower pressing plate is dropped onto a sieve plate, the sieve plate screens the crushed glass, the up-to-standard fine crushed glass is filtered onto a guide table, the up-to-standard fine crushed glass is discharged from a first discharge port through the inclined surface design of the top surface of the guide table, and the up-to-standard large crushed glass moves from the obliquely arranged sieve plate to a grinding mechanism, so that the size sorting step of the crushed glass is realized, and the practicability of the;

(3) when the substandard large broken glass moves to a first arc-shaped guide frame which is connected and matched with the sieve plate, the substandard large broken glass moves to a material bearing plate under the action of the first arc-shaped guide frame, a rotary shaft fixedly connected with the fourth driving motor is driven to rotate by the fourth driving motor, a grinding head on the bottom end of the rotary shaft is driven to rotate, the substandard large broken glass grinding step on the material bearing plate is realized, the grinding effect of the substandard large broken glass is further improved under the action of a lug group designed on the top of the material bearing plate, after the substandard large broken glass grinding step is finished, a linkage shaft fixedly connected with the output end of the third driving motor is driven to rotate by the third driving motor, two disks and linkage arms respectively arranged on the two disks are driven to synchronously rotate, and the two linkage arms are fixedly connected with the edges of the two disks under the condition that the arm lengths of the two linkage arms are unchanged, a connecting rod principle is formed, so that the material bearing plates on the front ends of the two linkage arms are displaced, the ground broken glass blanking operation is completed, the collection operation is completed by utilizing the second discharge port, the sorting of the glass is realized, and the diversified production requirements of the subsequent glass are met;

(4) can make through a plurality of elastic component when broken glass falls to on the sieve, when reaching the bearing capacity that reduces the sieve, still make the sieve vibrations appear, further improved broken glass's size sorting effect and improved the life of sieve.

Drawings

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

FIG. 2 is a schematic view of a second angular perspective structure according to the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a cross-sectional view taken along line B-B of FIG. 3;

FIG. 6 is a first cross-sectional view of the present invention;

FIG. 7 is an enlarged view at C of FIG. 6;

FIG. 8 is a second cross-sectional view of the present invention;

fig. 9 is an enlarged view at D in fig. 8.

The reference numbers in the figures are:

the treatment box 1, the pressing mechanism 2, the base 21, the bearing bracket 22, the linkage assembly 23, the first driving motor 231, the driving gear 232, the driven gear 233, the chain 234, the rotating assembly 24, the turntable 241, the rotating shaft 242, the fixed shaft 243, the connecting arm 244, the rotating arm 245, the swing arm 25, the connecting shaft 26, the crushing mechanism 3, the upper pressing plate 31, the lower pressing plate 32, the L-shaped plate 33, the second driving motor 34, the belt 35, the synchronizing wheel 36, the fixed seat 37, the transmission shaft 38, the extrusion tooth group 39, the sieving mechanism 4, the sieve plate 41, the partition plate 42, the supporting plate 43, the hinged seat 44, the elastic assembly 45, the guide sleeve 451, the spring 452, the material bearing plate 51, the linkage assembly 52, the third driving motor 521, the linkage shaft 522, the disc 523, the linkage arm 524, the extrusion assembly 53, the fourth driving motor 531, the rotating shaft 532, the grinding head 533, the first arc-shaped guide frame 54, the second arc, the convex block group 56, the first side box 6, the second side box 7, the first discharge port 8, the guide table 9, the second discharge port 10 and the guide plate 11.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 9, a new energy automobile waste glass recycling device is disclosed, which comprises a processing box 1, a pressing mechanism 2, a crushing mechanism 3, a sieving mechanism 4 and a grinding mechanism, wherein the processing box 1, the pressing mechanism 2, the sieving mechanism 4 and the grinding mechanism are vertically arranged, a first side box 6 and a second side box 7 are respectively arranged at two sides of the processing box 1 and communicated with the processing box, the pressing mechanism 2 is arranged at the top of the first side box 6, the front end of the pressing mechanism is fixedly connected with the top of the crushing mechanism 3, the crushing mechanism 3 and the sieving mechanism 4 are both arranged in the processing box 1, the crushing mechanism 3 is positioned right above the sieving mechanism 4, the grinding mechanism is arranged in the second side box 7, a first discharging port 8 is arranged at one side of the first side box 6, a guide table 9 is arranged in the first side box 6, the top surface of the guide table 9 is inclined, the rear end of the guide table extends to the lower part of the sieving mechanism 4, a second discharging port, a feeding port is arranged on one outer side wall of the processing box 1, and a guide plate 11 fixedly connected with the processing box 1 is arranged at the feeding port.

The pressing mechanism 2 comprises a base station 21, a bearing support 22, a linkage component 23, a rotating component 24, a swing arm 25 and two connecting shafts 26, the base station 21 is fixed on the top of the first side box 6, the bearing support 22 is fixed on the top of the base station 21, the linkage component 23 is fixed on the top of the first side box 6, one end of the linkage component is fixedly connected with the rotating component 24, the rotating component 24 is installed on the middle end part of the bearing support 22, one end of the rotation component is fixedly connected with the rear end of the swing arm 25, the middle end part of the swing arm 25 is hinged on the front end of the bearing support 22, the two connecting shafts 26 are vertically arranged, and two ends of each connecting shaft 26 are respectively fixedly connected with the front end of the swing, the rotating assembly 24 is driven to rotate by the linkage assembly 23, and two connecting shafts 26 on the front end of the swinging arm 25 are driven to reciprocate in the vertical direction, so that automatic crushing operation of subsequent glass is facilitated.

The rotating assembly 24 includes a rotating plate 241, a rotating shaft 242, a fixed shaft 243, two connecting arms 244 and two rotating arms 245, the rotating shaft 242 is rotatably mounted on the middle end portion of the bearing bracket 22, the rotating plate 241 is fixed on the middle end portion of the rotating shaft 242, the two rotating arms 245 are respectively fixed on the two ends of the rotating arms 245, the front ends of the two connecting arms 244 are fixedly connected with the two ends of the fixed shaft 243, the rear end of the swing arm 25 is fixed on the middle end portion of the fixed shaft 243, the rear ends of the two connecting arms 244 are respectively fixedly connected with the middle end portions of the two rotating arms 245, the two rotating arms 245 fixedly connected with the rotating shaft 242 are driven to rotate through the linkage assembly 23, so that the two connecting arms 244 respectively fixedly connected with the middle end portions of the two rotating arms 245 rotate synchronously, under the condition that the arm lengths of the two connecting arms 244 are unchanged, the two rotating arms 245 rotate to form a link principle to, since the rear end of the swing arm 25 is fixed on the fixed shaft 243, and the middle end of the swing arm 25 is hinged on the front end of the bearing bracket 22, the swing arm 25 swings synchronously around the middle end, and drives the upper pressing plate 31 on the bottom ends of the two connecting shafts 26 to move in the vertical direction.

Linkage assembly 23 includes first driving motor 231, driving gear 232, driven gear 233 and chain 234, first driving motor 231 is the level and fixes on first side case 6 and its output and driving gear 232 fixed connection, driven gear 233 and the one end fixed connection of axis of rotation 242, chain 234 cover is established on driving gear 232 and driven gear 233's outside, through the driving of first driving motor 231 drive rather than output fixed connection's driving gear 232 rotate, under the effect of chain 234, drive the axis of rotation 242 with driven gear 233 fixed connection and rotate, be convenient for the automatic broken operation of back order glass.

The crushing mechanism 3 comprises an upper pressing plate 31, a lower pressing plate 32, an L-shaped plate 33, a second driving motor 34, a belt 35, two synchronizing wheels 36, four fixing seats 37 and two transmission shafts 38, wherein the upper pressing plate 31 and the lower pressing plate 32 are horizontally arranged in the treatment box 1, the upper pressing plate 31 is positioned right above the lower pressing plate 32, the top of the upper pressing plate 31 is fixedly connected with the bottom ends of the two connecting shafts 26, the L-shaped plate 33 is fixed on the outer side wall of the treatment box 1, the second driving motor 34 is fixed on the L-shaped plate 33, the output end of the second driving motor is fixedly connected with one end of one transmission shaft 38, the four fixing seats 37 are fixed at the bottom of the lower pressing plate 32 in a rectangular shape, each transmission shaft 38 penetrates through the two fixing seats 37 and is rotatably arranged in the treatment box 1, the two synchronizing wheels 36 are respectively arranged at one end of the two transmission shafts 38, the belt 35 is sleeved on the outer parts of the two synchronizing wheels 36, extrusion tooth groups, and the extrusion tooth groups 39 on the upper press plate 31 and the extrusion tooth groups 39 on the lower press plate 32 are arranged in a staggered manner, after the primary crushing step of the reciprocating and the extrusion of the upper press plate 31 and the lower press plate 32 is completed, one transmission shaft 38 fixedly connected with the output end of the transmission shaft is driven to rotate through the second driving motor 34, one synchronizing wheel 36 on the transmission shaft 38 is driven to rotate, under the action of the belt 35, the other transmission shaft 38 fixedly connected with the other synchronizing wheel 36 is driven to synchronously rotate, and under the action of the fixed connection of the four fixed seats 37 and the lower press plate 32, the lower press plate 32 is driven to rotate, so that the crushed glass on the lower press plate is dropped onto the screening mechanism 4.

The screening mechanism 4 comprises a screen plate 41, a partition plate 42, a support plate 43, two hinged seats 44 and a plurality of elastic components 45, wherein the two hinged seats 44 are fixed on the inner side wall of the treatment box 1 at intervals, the screen plate 41 is obliquely arranged in the treatment box 1, the rear end of the screen plate 41 is hinged and installed on the two hinged seats 44, the front end of the screen plate 41 extends into the second side box 7, the partition plate 42 is vertically arranged at the bottom of the front end of the screen plate 41, the support plate 43 is horizontally arranged in the second side box 7 and is fixedly connected with the side wall of the partition plate 42, the elastic components 45 are installed on the support plate 43 at equal intervals, the two ends of each elastic component 45 are respectively and fixedly connected with the screen plate 41 and the support plate 43, when glass is dropped on the screen plate 41 through the broken glass, the bearing force of the screen plate 41 is reduced, and the screen plate 41 is vibrated, further improving the size sorting effect of the broken glass and prolonging the service life of the sieve plate 41.

Every elastic component 45 all includes guide pin bushing 451 and spring 452, spring 452 sets up in guide pin bushing 451 and its top and the front end bottom fixed connection of sieve 41, and guide pin bushing 451 is vertical setting and the top fixed connection of its bottom and backup pad 43, under the elastic action of a plurality of springs 452, when reaching the bearing capacity that reduces sieve 41, still make sieve 41 shake appear, further improved broken glass's size sorting effect and improved sieve 41's life.

The grinding mechanism comprises a material bearing plate 51, a linkage component 52, an extrusion component 53, a first arc-shaped material guide frame 54 and a second arc-shaped material guide frame 55, the first arc-shaped material guide frame 54 and the second arc-shaped material guide frame 55 are symmetrically arranged in the second side box 7, the rear end of the first arc-shaped material guide frame 54 is fixedly connected with the side wall of the partition plate 42, the rear end of the second arc-shaped material guide frame 55 is fixedly connected with the inner wall of the second side box 7, the front end of the first arc-shaped material guide frame 54 is connected with the front end of the sieve plate 41, the material bearing plate 51 is arc-shaped and is positioned between the first arc-shaped material guide frame 54 and the second arc-shaped material guide frame 55, the top of the material bearing plate 51 is provided with a convex block group 56, two sides of the material bearing plate 51 are respectively connected with the first arc-shaped material guide frame 54 and the second arc-shaped material guide frame 55, the linkage component 52 is arranged on the inner bottom of the second side box 7, the top end of the, the large broken glass which does not reach the standard on the sieve plate 41 is moved to the material bearing plate 51 through the guiding of the first arc-shaped material guide frame 54, the automatic grinding step of the large broken glass which does not reach the standard is completed under the driving of the extrusion assembly 53, the material bearing plate 51 is driven to move by the linkage assembly 52, and the ground broken glass is discharged and recycled.

The linkage component 52 comprises a third driving motor 521, a linkage shaft 522, two disks 523 and two linkage arms 524, the third driving motor 521 is fixed on the outer side wall of the second side box 7, the output end of the third driving motor 521 is fixedly connected with one end of the linkage shaft 522, the linkage shaft 522 is rotatably installed in the second side box 7, the two disks 523 are fixed on the linkage shaft 522, one ends of the two linkage arms 524 are fixedly connected with the bottom of the material bearing plate 51, the other ends of the two linkage arms 524 are respectively fixedly connected with the edges of the two disks 523, after the step of grinding the large-size broken glass which does not reach the standard is completed, the linkage shaft 522 fixedly connected with the output end of the third driving motor 521 is driven to rotate by the third driving motor 521, the two disks 523 and the linkage arms 524 installed on the two disks 523 are driven to synchronously rotate, and the two linkage arms 524 are fixedly connected with the edges of the two disks 523 under the condition that the arm lengths, the connecting rod principle is formed, so that the material bearing plate 51 on the front ends of the two linkage arms 524 is displaced, thereby completing the ground broken glass blanking operation and the collection operation by using the second discharge port 10.

The extruding assembly 53 comprises a fourth driving motor 531, a rotating shaft 532 and a grinding head 533, wherein the fourth driving motor 531 is vertically fixed at the top of the second side box 7, the output end of the fourth driving motor 531 is fixedly connected with one end of the rotating shaft 532, the rotating shaft 532 is vertically arranged in the second side box 7, the grinding head 533 is fixed at the other end of the rotating shaft 532, when the large non-standard broken glass moves to the material bearing plate 51, the fourth driving motor 531 drives the rotating shaft 532 fixedly connected with the rotating shaft 532 to rotate, the grinding head 533 at the bottom end of the rotating shaft 532 is driven to rotate, the grinding step of the large non-standard broken glass on the material bearing plate 51 is realized, and under the action of the lug group 56 designed at the top of the material bearing plate 51, the grinding effect of the large non-standard broken glass is further improved.

The working principle of the invention is as follows: the glass slides down to the processing line through the feeding port under the action of the guide plate 11 and is positioned on the lower pressing plate 32, then the first driving motor 231 drives the driving gear 232 fixedly connected with the output end thereof to rotate, the rotating shaft 242 fixedly connected with the driven gear 233 is driven to rotate under the action of the chain 234, so that the two rotating arms 245 fixedly connected with the rotating shaft 242 rotate, so that the two connecting arms 244 respectively fixedly connected with the middle ends of the two rotating arms 245 rotate synchronously, under the condition that the arm lengths of the two connecting arms 244 are unchanged, the two rotating arms 245 rotate to form a link principle, the fixed shaft 243 on the front end of the connecting arm 244 is driven to swing, because the rear end of the swinging arm 25 is fixed on the fixed shaft 243, the middle end of the swinging arm 25 is hinged on the front end of the bearing bracket 22, so that the swinging arm 25 synchronously swings around the middle end thereof, and the upper pressing plate 31 on the bottom ends of the two connecting shafts 26 is driven, the glass crushing device has the advantages that the downward pressing plate 32 is moved and pressed downwards, the mutual extrusion operation between the upper pressing plate 31 and the lower pressing plate 32 is completed, the upper pressing plate 31 and the lower pressing plate 32 are both provided with the extrusion tooth groups 39 which are arranged in a staggered mode under the action of the extrusion tooth groups 39, and the upper pressing plate 31 reciprocates and extrudes the lower pressing plate 32, so that the step of primary crushing of glass is realized, secondly, the upper pressing plate 31 and the lower pressing plate 32 are mutually extruded in a sealed state, the situation of glass splashing cannot occur, and the safety of personnel is greatly improved; after the primary crushing step is completed, a transmission shaft 38 fixedly connected with the output end of the primary crushing step is driven to rotate by a second driving motor 34, a synchronous wheel 36 on the transmission shaft 38 is driven to rotate, under the action of the belt 35, another transmission shaft 38 fixedly connected with another synchronous wheel 36 is driven to synchronously rotate, under the action of the fixed connection of the four fixed seats 37 and the lower pressing plate 32, the lower pressing plate 32 is driven to rotate so that the broken glass on the lower pressing plate falls onto the sieve plate 41, the sieve plate 41 screens the broken glass, the fine broken glass reaching the standard is filtered onto the guide table 9, the top surface of the guide table 9 is designed to be an inclined surface, so that the up-to-standard small broken glass is discharged from the first discharge port 8, the large broken glass which does not reach the standard moves from the obliquely arranged sieve plate 41 to the grinding mechanism, so that the step of sorting the broken glass in size is realized, and the practicability of the equipment is improved; when the substandard large broken glass moves to the first arc-shaped guide frame 54 engaged with the sieve plate 41, the substandard large broken glass moves to the material bearing plate 51 under the action of the first arc-shaped guide frame 54, the fourth driving motor 531 drives the rotary shaft 532 fixedly connected with the rotary shaft to rotate, the grinding head 533 at the bottom end of the rotary shaft 532 is driven to rotate, the substandard large broken glass grinding step on the material bearing plate 51 is realized, the grinding effect of the substandard large broken glass is further improved under the action of the bump group 56 designed at the top of the material bearing plate 51, after the substandard large broken glass grinding step is finished, the linkage shaft 522 fixedly connected with the output end of the third driving motor 521 is driven to rotate, the two disks 523 and the linkage arms 524 respectively installed on the two disks 523 are driven to synchronously rotate, and the arm lengths of the two linkage arms 524 are unchanged, the two linkage arms 524 are fixedly connected with the edges of the two disks 523 to form a connecting rod principle, so that the material bearing plates 51 at the front ends of the two linkage arms 524 are displaced, the ground crushed glass blanking operation is completed, the collection operation is completed by using the second discharge port 10, the sorting of glass is realized, and the diversified production requirements of subsequent glass are met; through a plurality of elastic component 45 can make when falling to on sieve 41 through broken glass, when reaching the bearing capacity that reduces sieve 41, still make sieve 41 shake, further improved broken glass's size and selected separately the effect and improved sieve 41's life.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a new energy automobile old and useless glass recovery processing equipment which characterized in that: comprises a processing box (1), a pressing mechanism (2), a crushing mechanism (3), a sieving mechanism (4) and a grinding mechanism which are vertically arranged, wherein a first side box (6) and a second side box (7) which are communicated with the processing box (1) are respectively arranged at two sides of the processing box (1), the pressing mechanism (2) is arranged at the top of the first side box (6) and the front end of the pressing mechanism is fixedly connected with the top of the crushing mechanism (3), the crushing mechanism (3) and the sieving mechanism (4) are both arranged in the processing box (1), the crushing mechanism (3) is positioned right above the sieving mechanism (4), the grinding mechanism is arranged in the second side box (7), one side of the first side box (6) is provided with a first discharge port (8), a guide table (9) is arranged in the first side box (6), the top surface of the guide table (9) is an inclined plane, and the rear end of the guide table extends to the lower part of the sieving mechanism (4), one side of the second side box (7) is provided with a second discharge port (10), one outer side wall of the treatment box (1) is provided with a feeding port, and the feeding port is provided with a guide plate (11) fixedly connected with the treatment box (1).

2. The waste glass recycling equipment for the new energy automobile according to claim 1, characterized in that: push down mechanism (2) including base station (21), bear support (22), linkage subassembly (23), rotating assembly (24), swing arm (25) and two connecting axles (26), the top at first side case (6) is fixed in base station (21), bear support (22) and fix the top at base station (21), linkage subassembly (23) are fixed at the top of first side case (6) and its one end and rotating assembly (24) fixed connection, rotating assembly (24) are installed on the well tip that bears support (22) and its rear end fixed connection with swing arm (25), the well tip of swing arm (25) articulates on the front end that bears support (22), two connecting axles (26) are vertical setting and the both ends of every connecting axle (26) respectively with the front end and the crushing mechanism (3) fixed connection of swing arm (25).

3. The waste glass recycling equipment for the new energy automobile according to claim 2, characterized in that: the rotating assembly (24) comprises a rotating disc (241), a rotating shaft (242), a fixed shaft (243), two connecting arms (244) and two rotating arms (245), the rotating shaft (242) is rotatably installed on the middle end portion of the bearing support (22), the rotating disc (241) is fixed on the middle end portion of the rotating shaft (242), the two rotating arms (245) are respectively fixed on two ends of each rotating arm (245), the front ends of the two connecting arms (244) are fixedly connected with two ends of the fixed shaft (243), the rear end of the swinging arm (25) is fixed on the middle end portion of the fixed shaft (243), and the rear ends of the two connecting arms (244) are respectively fixedly connected with the middle end portions of the two rotating arms (245).

4. The waste glass recycling equipment for the new energy automobile according to claim 3, characterized in that: linkage subassembly (23) include first driving motor (231), driving gear (232), driven gear (233) and chain (234), and first driving motor (231) are the level and fix on first side case (6) and its output and driving gear (232) fixed connection, driven gear (233) and the one end fixed connection of axis of rotation (242), and chain (234) cover is established on the outside of driving gear (232) and driven gear (233).

5. The waste glass recycling equipment for the new energy automobile according to claim 2, characterized in that: the crushing mechanism (3) comprises an upper pressing plate (31), a lower pressing plate (32), an L-shaped plate (33), a second driving motor (34), a belt (35), two synchronizing wheels (36), four fixing seats (37) and two transmission shafts (38), wherein the upper pressing plate (31) and the lower pressing plate (32) are horizontally arranged in the treatment box (1), the upper pressing plate (31) is positioned right above the lower pressing plate (32), the top of the upper pressing plate (31) is fixedly connected with the bottom ends of the two connecting shafts (26), the L-shaped plate (33) is fixed on the outer side wall of the treatment box (1), the second driving motor (34) is fixed on the L-shaped plate (33), the output end of the second driving motor is fixedly connected with one end of one transmission shaft (38), the four fixing seats (37) are fixed at the bottom of the lower pressing plate (32) in a rectangular shape, each transmission shaft (38) penetrates through the two fixing seats (37) and is rotatably arranged in the treatment box (1, two synchronizing wheel (36) are installed respectively in one of two transmission shaft (38) and are served, and belt (35) cover is established on the outside of two synchronizing wheel (36), and the bottom of top board (31) and the top of holding down plate (32) all are equipped with extrusion tooth group (39) to extrusion tooth group (39) on top board (31) and the crisscross setting of extrusion tooth group (39) on holding down plate (32).

6. The waste glass recycling equipment for the new energy automobile according to claim 1, characterized in that: sieve moves mechanism (4) including sieve (41), baffle (42), backup pad (43), two articulated seats (44) and a plurality of elastic component (45), two articulated seats (44) are the interval and fix on the inside wall of handling case (1), sieve (41) are the slope and set up in handling case (1) and its rear end is articulated to be installed on two articulated seats (44), the front end of sieve (41) extends the setting to second side case (7) in, baffle (42) are vertical setting in the front end bottom department of sieve (41), backup pad (43) are the level setting in second side case (7) and with the lateral wall fixed connection of baffle (42), a plurality of elastic component (45) are equidistant installation on backup pad (43), and the both ends of every elastic component (45) respectively with sieve (41) and backup pad (43) fixed connection.

7. The waste glass recycling equipment for the new energy automobile according to claim 6, characterized in that: each elastic component (45) comprises a guide sleeve (451) and a spring (452), the spring (452) is arranged in the guide sleeve (451) and the top end of the spring is fixedly connected with the bottom of the front end of the sieve plate (41), and the guide sleeve (451) is vertically arranged and the bottom of the guide sleeve is fixedly connected with the top of the support plate (43).

8. The waste glass recycling equipment for the new energy automobile according to claim 6, characterized in that: the grinding mechanism comprises a material bearing plate (51), a linkage assembly (52), an extrusion assembly (53), a first arc-shaped material guide frame (54) and a second arc-shaped material guide frame (55), wherein the first arc-shaped material guide frame (54) and the second arc-shaped material guide frame (55) are symmetrically arranged in a second side box (7), the rear end of the first arc-shaped material guide frame (54) is fixedly connected with the side wall of a partition plate (42), the rear end of the second arc-shaped material guide frame (55) is fixedly connected with the inner wall of the second side box (7), the front end of the first arc-shaped material guide frame (54) is connected with the front end of a sieve plate (41), the material bearing plate (51) is arc-shaped and is positioned between the first arc-shaped material guide frame (54) and the second arc-shaped material guide frame (55), a convex block group (56) is arranged at the top of the material bearing plate (51), and two sides of the material bearing plate (51) are respectively connected with the first arc-shaped material guide frame (54) and the second, the linkage assembly (52) is arranged on the inner bottom of the second side box (7), the top end of the linkage assembly is fixedly connected with the bottom of the material bearing plate (51), and the extrusion assembly (53) is fixed on the inner top of the second side box (7).

9. The waste glass recycling equipment for the new energy automobile according to claim 8, characterized in that: the linkage assembly (52) comprises a third driving motor (521), a linkage shaft (522), two discs (523) and two linkage arms (524), the third driving motor (521) is fixed on the outer side wall of the second side box (7) and the output end of the third driving motor is fixedly connected with one end of the linkage shaft (522), the linkage shaft (522) is rotatably installed in the second side box (7), the two discs (523) are fixed on the linkage shaft (522), one ends of the two linkage arms (524) are fixedly connected with the bottom of the material bearing plate (51), and the other ends of the two linkage arms (524) are fixedly connected with the edges of the two discs (523) respectively.

10. The waste glass recycling equipment for the new energy automobile according to claim 9, characterized in that: the extrusion assembly (53) comprises a fourth driving motor (531), a rotating shaft (532) and a grinding head (533), the fourth driving motor (531) is vertically fixed at the top of the second side box (7), the output end of the fourth driving motor is fixedly connected with one end of the rotating shaft (532), the rotating shaft (532) is vertically arranged in the second side box (7), and the grinding head (533) is fixed at the other end of the rotating shaft (532).