CN112191301B - Broken recovery plant of abandonment glass bottle of environmental protection - Google Patents

Abstract

The utility model provides a broken recovery plant of abandonment glass bottle of environmental protection, including shell structure, shell structure includes the shell, set up the frame of concentrating in the shell, the broken recovery plant of abandonment glass bottle of environmental protection is still including setting up the rotatory frame structure in the shell, set up the structure of breaking into pieces on rotatory frame structure, concentrate the frame accept in the shell and rather than interior fixed surface connection, be equipped with the cavity that runs through its upper and lower surface on concentrating the frame, the cavity is the cylinder, rotatory frame structure includes the motor, set up in the pivot of motor below, set up in the rotatory frame of pivot below, set up the locating frame on the rotatory frame. According to the invention, by arranging the rotating frames, the glass bottles can be sequentially placed in the rotating frames and orderly arranged in the rotating frames, so that one glass bottle in each rotating frame can be broken, the force application degree is low, the crushing effect is good, and meanwhile, the damage to other structures is small due to the low force application degree, and the service life can be further prolonged.

Description

Broken recovery plant of abandonment glass bottle of environmental protection

Technical Field

The invention relates to the technical field of machinery, in particular to environment-friendly waste glass bottle crushing and recycling equipment.

Background

At present, glass bottles are widely applied to life and industry, and the glass bottles not only facilitate the life of people, but also drive the development of a plurality of industries, such as food and the like. However, as the glass bottles are used, waste glass bottles are generated, so that the glass bottles need to be crushed and recovered, however, the conventional glass bottle crushing and recovering device is large in size, complex in structure and suitable for the requirement of large-scale glass crushing; the glass bottle can be crushed for a single time, and the crushing effect is not ideal; the crushing is insufficient, and crushed slag after crushing cannot meet the requirement of size processing in the later period; meanwhile, in the crushing process, a large number of glass bottles and scraps are concentrated to cause blockage, so that the smooth recycling is influenced.

Therefore, there is a need to provide a new technical solution to overcome the above-mentioned drawbacks.

Disclosure of Invention

The invention aims to provide environment-friendly waste glass bottle crushing and recycling equipment which can effectively solve the technical problems.

In order to achieve the purpose of the invention, the following technical scheme is adopted:

the utility model provides a broken recovery plant of abandonment glass bottle of environmental protection, includes shell structure, shell structure include the shell, set up in concentrated frame in the shell, the broken recovery plant of abandonment glass bottle of environmental protection still including set up in rotatory frame structure in the shell, set up in the structural broken structure of breaing up of rotatory frame, concentrated frame accept in the shell and rather than interior fixed surface connection, be equipped with the cavity that runs through its upper and lower surface on the concentrated frame, the cavity is the cylinder, rotatory frame structure include the motor, set up in the pivot of motor below, set up in the rotatory frame of pivot below, set up in locating frame on the rotatory frame, be equipped with the third through-hole on the rotatory frame, the lower extreme of locating frame aim at the third through-hole and with the last fixed surface connection of rotatory frame, it includes first cylinder, the broken structure of breaing up, The knocking fragment is contained in the positioning frame and is in sliding contact with the inner surface of the positioning frame, the knocking fragment can penetrate through the third through hole and extend into the rotating frame when moving downwards, the lower end of the rotating shaft is fixedly connected with the upper surface of one end of the rotating frame, and the rotating shaft and the central axis of the cavity are not collinear.

Preferably, the broken recovery plant of abandonment glass bottle of environmental protection still including set up in revolution frame structure below elevation structure, elevation structure include the second cylinder, set up in second catch bar on the second cylinder, set up in the concentrated board of second catch bar top, set up in the top of concentrated board leans on the pole, first spring, set up in lean on the filter screen of pole top, set up in lift frame on the filter screen.

Preferably, the housing structure further includes a light slider, a second through hole is formed in the lower surface of the housing, the light slider is accommodated in the second through hole and is fixedly connected with the housing, the lower end of a second push rod is connected with the second cylinder, the second push rod penetrates through the upper surface and the lower surface of the light slider and is in sliding contact with the upper surface and the lower surface, the concentration plate is accommodated in the housing and is in sliding contact with the inner surface, and the upper end of the second push rod is fixedly connected with the concentration plate.

Preferably, the lower end of the top leaning rod is fixedly connected with the concentration plate, the lower end of the first spring is fixedly connected with the concentration plate, the upper end of the first spring is fixedly connected with the filter screen, the upper surface and the lower surface of the lifting frame are communicated, and the filter screen is contained in the lifting frame and is fixedly connected with the inner surface of the lifting frame.

Preferably, the rotating frame structure further comprises a supporting rod arranged below the rotating frame, an extruding block arranged below the supporting rod, the upper end of the supporting rod is fixedly connected with the lower surface of the rotating frame, the lower end of the supporting rod is fixedly connected with the upper end of the extruding block, the extruding block is contained in the lifting frame, and the supporting rod is parallel to the rotating shaft and is not collinear.

Preferably, the shell is provided with a first through hole on the right surface thereof, the shell structure further comprises an elastic plate arranged in the shell, the centralized plate is inclined, the lower end of the centralized plate is close to the first through hole, the lower end of the elastic plate is fixedly connected with the bottom surface of the inner cavity of the shell, the front surface and the rear surface of the elastic plate are in sliding contact with the inner surface of the shell, and the upper end of the elastic plate abuts against the lower surface of the centralized plate and is in sliding contact with the same.

Preferably, the environment-friendly waste glass bottle crushing and recycling equipment further comprises a discharging structure, wherein the discharging structure comprises a discharging frame, a moving rod arranged on the discharging frame, a baffle contained in the first through hole, and a second spring arranged on the baffle.

Preferably, the left wall and the lower wall of the discharging frame are provided with openings, the left wall of the discharging frame is aligned with the first through hole and fixedly connected with the right surface of the shell, the moving rod penetrates through the inner surface and the outer surface of the discharging frame and is in sliding contact with the inner surface and the outer surface of the discharging frame, the baffle is matched with the first through hole in shape, the baffle is contained in the first through hole and is in sliding contact with the side surface of the baffle, the right surface of the centralized plate abuts against the left surface of the baffle, the left end of the moving rod is fixedly connected with the right surface of the baffle, one end of the second spring is fixedly connected with the baffle, and the other end of the second spring is fixedly connected with the inner surface of the discharging frame.

Preferably, the rotating frame structure comprises a fixed frame arranged on the motor, a supporting frame arranged on the fixed frame, and a bearing arranged at the lower end of the supporting frame, one end of the fixed frame is fixedly connected with the upper surface of the shell, the other end of the fixed frame is fixedly connected with the motor, the upper end of the supporting frame is fixedly connected with the fixed frame, the lower end of the supporting frame is fixedly connected with the outer ring of the bearing, and the rotating shaft penetrates through the inner ring of the bearing and the fixed connection thereof

Preferably, rotatory frame structure still including set up in rotatory frame is kept away from the jam piece of cavity inner wall one end, the one end of jam piece stretches into rotatory frame is inside and rather than internal surface sliding contact, the structure of breaking into pieces still including set up in support on the first cylinder, the upper end of support with first cylinder fixed connection, the lower extreme of support with rotatory frame fixed connection.

Compared with the prior art, the invention has the following beneficial effects: the environment-friendly waste glass bottle crushing and recycling equipment provided by the invention can be sequentially placed in the rotating frame and orderly arranged in the rotating frame by arranging the rotating frame, so that one glass bottle in the rotating frame can be subjected to breaking treatment, the applied force is small, the crushing effect is good, and meanwhile, the damage to other structures is small due to the small applied force, so that the service life can be prolonged; the distance between one end of the rotating frame, which is close to the inner wall of the cavity, and the inner wall of the cavity is periodically changed in length when the rotating frame rotates through the different lines of the central axes of the rotating shaft and the cavity, so that crushed debris can be prevented from being blocked between the rotating frame and the inner wall of the cavity, and the crushed debris in the rotating frame can be timely discharged; the positioning frame can enable the smashing block to stably move up and down, so that the smashing block can stably and effectively smash and smash the glass bottle in the rotating frame; the bearing and the support frame are arranged to stably support and fix the rotating shaft, so that the rotating shaft can stably rotate; the arrangement of the rotary extrusion block and the matching of the filter screen which moves up and down can not only crush the broken glass fragments again, but also screen and filter the broken glass fragments, thereby improving the efficiency and saving the time; meanwhile, the arrangement of the collecting plate can move the filtered scraps to the right side and concentrate the filtered scraps on the left side of the baffle, when the crushed scraps need to be discharged, the moving rod is moved to the right side, so that the baffle moves rightwards, the scraps above the collecting plate move into the discharging frame and are discharged from the lower end of the discharging frame; the elastic plate is arranged to prevent the glass fragments from rebounding to the shell, so that the comprehensive discharge of the fragments is facilitated, and meanwhile, the support effect on the concentrating plate is achieved.

Drawings

FIG. 1 is a schematic structural diagram of an environment-friendly waste glass bottle crushing and recycling device according to the present invention;

FIG. 2 is a sectional view taken along A-A' of the apparatus for breaking and recycling waste glass bottles in the environment-friendly environment of FIG. 1;

FIG. 3 is a cross-sectional view taken along the direction B-B' of the apparatus for breaking and recycling discarded glass bottles of the present invention shown in FIG. 1;

FIG. 4 is a cross-sectional view taken along the direction C-C' of the environmentally friendly waste glass bottle breaking and recycling apparatus of FIG. 1.

Detailed Description

The invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, the environment-friendly waste glass bottle crushing and recycling device of the present invention includes a housing structure 1, a rotating frame structure 2 disposed in the housing structure 1, a breaking structure 3 disposed on the rotating frame structure 2, a lifting structure 4 located below the rotating frame structure 2, and a baffle structure 5 disposed outside the housing structure 1.

As shown in fig. 1 to 4, the housing structure 1 includes a housing 11, an optical slider 12 disposed on a lower wall of the housing 11, an elastic plate 13 disposed on a bottom surface of an inner cavity of the housing 11, and a concentrating frame 14 disposed above the elastic plate 13. The shell 11 is preferably a hollow cuboid, the shell 11 can also be other geometric solid, the upper end of the shell 11 is provided with an opening, the shell 11 is provided with a first through hole 111 located on the right surface of the shell and a second through hole 112 located on the lower surface of the shell, the first through hole 111 is preferably a cuboid, the lower surface of the first through hole 111 is flush with the bottom surface of the inner cavity of the shell 11, the first through hole 111 and the second through hole 112 penetrate through the inner surface and the outer surface of the shell 11, and the second through hole 112 is located at the center of the lower surface of the shell 11. The optical slider 12 is accommodated in the second through hole 112 and fixedly connected to the housing 11, and the optical slider 12 may be made of a material with a small friction coefficient, such as a steel material, a high-strength glass, or the like. Elastic plate 13 is the slope form, elastic plate 13 adopts elastic material to make, elastic plate 13 can elastic deformation, elastic plate 13's lower extreme with the bottom surface fixed connection of shell 11 inner chamber, and be close to first through-hole 111, elastic plate 13's front and back surface (use in fig. 1 one side near the reader as the front end, keep away from one side of reader as the rear end) with shell 11's internal surface sliding contact, elastic plate 13 can concentrate the glass piece after smashing in the first through-hole 111. The concentration frame 14 is a cuboid, the concentration frame 14 is accommodated in the shell 11 and fixedly connected with the inner surface of the shell, a cavity 141 penetrating through the upper surface and the lower surface of the concentration frame 14 is formed in the concentration frame 14, and the cavity 141 is cylindrical.

The arrangement of the shell structure 1 can collect the glass bottles into the shell 11 for centralized crushing and recycling treatment; and the first through hole 111 is provided to discharge the crushed glass cullet; while the provision of the elastic plate 13 can concentrate the crushed chips into the first through hole 111 and can prevent the chips from moving back into the housing 11.

As shown in fig. 1 to 3, the rotating frame structure 2 includes a motor 21, a rotating shaft 22 disposed below the motor 21, a rotating frame 23 disposed below the rotating shaft 22, a blocking block 24 disposed at one end of the rotating frame 23, a supporting rod 25 disposed below the rotating frame 23, a pressing block 26 disposed below the supporting rod 25, a positioning frame 27 disposed above the rotating frame 21, a fixing frame 28 disposed on the motor 21, a bearing 20 disposed on the rotating shaft 22, and a supporting frame 29 disposed on the bearing 20. The motor 21 is electrically connected with a power supply (not shown) to provide electric energy for the motor to normally operate, and a switch (not shown) is arranged on the motor 21 to conveniently control the motor to be turned on or turned off. The upper end of the rotating shaft 22 is connected with the motor 21, so that the motor 21 can drive the rotating shaft 22 to rotate, the rotating shaft 22 is located in the cavity 141 and is eccentrically arranged with the cavity 141, and the rotating shaft 22 is parallel to the central axis of the cavity 141. The rotating frame 23 is hollow and has left and right end faces communicated with each other, the rotating frame 23 may be a hollow cylinder, or may be a hollow cuboid or other geometric solid, the lower end of the rotating shaft 22 is fixedly connected to the upper surface of one end of the rotating frame 23, so that the rotating shaft 22 can drive the rotating frame 23 to rotate in the cavity 141, and because the central axes of the rotating shaft 22 and the cavity 141 do not contribute to the rotation of the rotating frame 23, the distance between one end of the rotating frame 23 close to the inner wall of the cavity 141 and the inner wall of the cavity 141 is periodically changed in length, so that the glass bottle in the rotating frame 23 can be moved out from the space between the inner wall of the cavity 141 and the end of the rotating frame 23, and because of the periodic change in length, the glass scraps are not blocked, and the smooth movement is ensured, the upper surface of one end of the rotating frame 23 close to the inner wall of the cavity 141 is provided with a third through hole 242, the third through hole 242 penetrates the inner and outer surfaces of the rotating frame 23. The longitudinal section of the plugging block 24 is T-shaped, one end of the plugging block 24 is contained in the rotating frame 23 is far away from one end opening of the inner wall of the cavity 141 and is blocked, the rotating frame 23 is far away from one end opening of the inner wall of the cavity 141, the plugging block 24 is provided with a fourth through hole 241 which runs through the left surface and the right surface of the plugging block, the arrangement of the plugging block 24 can prevent a glass bottle in the rotating frame 23 from being thrown out from one end of the plugging block which is far away from the cavity 141, and the plugging block 24 is made of rubber materials. The upper end of the support rod 25 is fixedly connected with the lower surface of the rotating frame 23, and the support rod 25 is not collinear with the central axis of the rotating shaft 22 and is parallel to the central axis. The longitudinal section of the extrusion block 26 is in an isosceles trapezoid shape, the lower end of the support rod 25 is fixedly connected with the upper surface of the extrusion block 26, the area of the lower surface of the extrusion block 26 is larger than that of the upper surface of the extrusion block, so that more glass scraps can be extruded, and proportion scraps above the extrusion block 26 can slide down along the side surface of the extrusion block 26. The upper and lower surfaces of the positioning frame 27 are communicated, the lower end of the positioning frame 27 is aligned with the third through hole 242 and is fixedly connected with the upper surface of the rotating frame 23, so that the inside of the positioning frame 27 is communicated with the inside of the rotating frame 23, and the shape of the third through hole 242 is matched with the shape of the inner circumferential surface of the positioning frame 27. The fixing frame 28 is bent, one end of the fixing frame 28 is fixedly connected with the upper surface of the housing 11, and the other end of the fixing frame 28 is fixedly connected with the motor 21. The rotating shaft 22 passes through the inner ring of the bearing 20 and is fixedly connected with the inner ring. The support frame 29 is L-shaped, the upper end of the support frame 29 is fixedly connected with the fixed frame 28, the lower end of the support frame 29 is fixedly connected with the outer ring of the bearing 20 and fixedly connected with the outer ring of the bearing 20, so that the bearing 20 can be fixed, the bearing 20 can support and fix the rotating shaft 22, and the glass bottles in the rotating frame 23 can be stably smashed by the smashing block 33.

The setting of rotatory frame structure 2 can be taken out the back with jam piece 24, inserts the glass bottle in rotatory frame 23 from the one end that rotatory frame 23 kept away from the cavity 141 inner wall to can put into a plurality ofly in proper order, the length of rotatory frame 23 is longer, and the glass bottle that it can be placed is more, then blocks up the one end that rotatory frame 23 kept away from the cavity 141 inner wall with jam piece 24, thereby can concentrate the glass bottle in rotatory frame 23, and can move to the one end that is close to the cavity 141 inner wall in proper order along with the rotation of rotatory frame 23.

As shown in fig. 1, the breaking structure 3 includes a first cylinder 31, a first push rod 32 disposed on the first cylinder 31, a breaking block 33 disposed at a lower end of the first push rod 32, and a bracket 34 disposed on the first cylinder 31. A switch (not shown) is disposed on the first cylinder 31 to facilitate opening or closing of the first cylinder 31, and the first cylinder 31 is located above the third through hole 242. The upper end of the first pushing rod 32 is connected with the first cylinder 31, so that the first cylinder 31 can drive the first pushing rod 32 to move up and down. The beating fragment 33 is contained in the positioning frame 27 and is in sliding contact with the inner surface of the positioning frame 27, so that the beating fragment 33 can move up and down in the positioning frame 27, the lower end of the first push rod 32 is fixedly connected with the beating fragment 33, the beating fragment 33 is driven to move up and down, and the beating fragment 33 can penetrate through the third through hole 242 and beat on a glass bottle in the rotating frame 23 when moving down, so that the glass bottle can be beaten and broken. The bracket 34 is bent, one end of the bracket 34 is fixedly connected with the rotating frame 23, and the other end of the bracket 34 is fixedly connected with the first cylinder 31, so as to support the first cylinder 31.

The first pushing rod 32 and the fragment 33 can be driven by the first cylinder 31 to move up and down periodically by the aid of the breaking structure 3, so that the fragment 33 can be broken when moving down into the rotating frame 23, the glass bottles in the rotating frame 23 can be broken due to the fact that the third through hole 242 is close to one end, close to the inner wall of the cavity 141, of the rotating frame 23, the third through hole 242 can be broken by the broken fragment 33 penetrating through the third through hole 242 when moving out from one end, close to the inner wall of the cavity 141, so that the glass bottles can be crushed preliminarily, single glass bottles can be sequentially broken and crushed at the same time, the crushing of large batches of glass bottles is not directly performed, excessive pressure does not need to be applied to the fragment 33, and the crushing effect of the glass bottles can be guaranteed; simultaneously smash the glass bottle one by one to can conveniently make the glass bottle after smashing gradually enter into elevation structure 4, then smash the glass piece after preliminary smashing again in turn, thereby can directly not smash the too big power of knocking that needs to whole glass bottle, guaranteed the crushing effect to the glass bottle.

As shown in fig. 1, 3 and 4, the lifting structure 4 includes a second cylinder 41, a second pushing rod 42 disposed on the second cylinder 41, a centering plate 43 disposed at an upper end of the second pushing rod 42, a plurality of abutting rods 44 disposed above the centering plate 43, a first spring 45 disposed at one side of the abutting rods 44, a filter screen 46 disposed above the abutting rods 44, and a lifting frame 47 disposed on the filter screen 46. The second cylinder 41 is electrically connected to a power source (not shown) for providing electric energy to the power source, so that the second cylinder 41 can operate normally, and is located below the housing 11. The lower end of the second pushing rod 42 is connected to the second cylinder 41, so that the second cylinder 41 can drive the second pushing rod 42 to move up and down, and the second pushing rod 42 penetrates through the upper surface of the optical slider 12 and is in sliding contact with the upper surface, so that the second pushing rod 42 can stably move up and down. The collecting plate 43 is inclined, the lower end of the collecting plate 43 is aligned with the first through hole 111, the collecting plate 43 is accommodated in the housing 11 and is in sliding contact with the inner surface of the housing 11, so that the collecting plate 43 can move up and down in the housing 11, the upper end of the second push rod 42 is fixedly connected with the lower surface of the collecting plate 43, so that the collecting plate 43 can be driven to move up and down, the upper end of the elastic plate 13 abuts against the lower surface of the collecting plate 43 and is in sliding contact with the lower surface, and when the collecting plate 43 moves down, the upper end of the elastic plate 13 moves down and in a direction away from the first through hole 111. The number of the abutting rods 44 is several, and the lower ends of the abutting rods 44 are fixedly connected with the centralized plate 43. The number of the first springs 45 is several, and the lower ends of the first springs 45 are fixedly connected with the centralized plate 43. The filter screen is located beat the below of fragment 26, the upper end of first spring 45 with filter screen 46 fixed connection, the upper end that leans on pole 44 can lean on in the top on the lower surface of filter screen 46, filter screen 46 adopts the network structure that high strength wire woven, the aperture size of filter screen 46 filtration pore is suitable, can select the glass piece of needs size. The upper and lower tables of the lifting frame 47 are communicated, the lifting frame 47 is accommodated in the shell 11 and is in sliding contact with the inner surface of the lifting frame, the upper surface of the lifting frame 47 can be abutted against the lower surface of the concentration frame 14, the filter screen 46 is accommodated in the lifting frame 47 and is fixedly connected with the inner surface of the lifting frame, and the lower surface of the filter screen 46 is preferably coplanar with the lower surface of the lifting frame 47.

The lifting structure 4 is arranged to collect the primarily crushed glass scraps in the lifting frame 47 and above the filter screen 46, so that the primarily crushed glass scraps are collected in the lifting frame 47 and above the filter screen 46, and the crushed glass scraps on the filter screen 46 are crushed by matching with the crusher 26; the second cylinder 41 can drive the second pushing rod 42 and the concentration plate 43 to move up and down, so that the abutting rod 44 and the first spring 45 move up and down along with the second pushing rod, and the first spring 45 drives the filter screen 46 and the lifting frame 47 to move up and down along with the first pushing rod, so that mutual flowing of gas above and below the filter screen 46 can be promoted, and filter holes of the filter screen 46 are prevented from being blocked; and when the concentration plate 43 moves upwards, the upper end of the abutting rod 44 can abut against the lower surface of the filter screen 46 so as to support the filter screen 46 and enable the filter screen 46 to move upwards smoothly, and the knock fragments 46 can tightly abut against the glass fragments on the filter screen 46 so as to further crush the glass fragments, and further crush the glass fragments for multiple times, thereby ensuring the crushing effect.

As shown in fig. 1 and 4, the baffle structure 5 includes a discharging frame 51, a holding rod 53 disposed outside the discharging frame 51, a moving rod 52 disposed on the discharging frame 51, a baffle 54 disposed at an end of the moving rod 52, and a second spring 55 disposed on the baffle 54. The discharging frame 51 is preferably a rectangular parallelepiped, the left wall and the lower wall of the discharging frame 51 are both provided with openings, so that the longitudinal section of the discharging frame 51 is 7-shaped, the left end of the discharging frame 51 is aligned to the first through hole 111 and is fixedly connected with the right surface of the shell 11, and the first through hole 111 is communicated with the inside of the discharging frame 51. The moving rod 52 penetrates through the inner surface and the outer surface of the discharging frame 51 and is in sliding contact with the inner surface and the outer surface, one end of the moving rod 52 extends into the discharging frame 51, the other end of the moving rod 52 extends out of the discharging frame 51, the end part of the moving rod 52 extending out of the moving frame 51 is fixedly connected with the holding rod 53, and a user can hold the holding rod 53 to pull the moving rod 52 conveniently. The shape of the baffle plate 54 is matched with that of the first through hole 111, the baffle plate 54 is accommodated in the first through hole 111, the end part of the movable rod 52 extending into the discharging frame 51 is fixedly connected with the baffle plate 54, the right surface of the collecting plate 43 abuts against the left surface of the baffle plate 54, and the lower end of the elastic plate 13 abuts against the left surface of the baffle plate 54. The number of the second springs 55 is multiple, one end of each second spring 55 is fixedly connected with the inner surface of the discharging frame 51, the other end of each second spring 55 is fixedly connected with the baffle 54, and the second springs 55 support the baffle 54.

The discharge structure 5 is arranged to collect crushed glass chips above the middle plate 43 to the right side above the middle plate, when a user holds the holding rod 53 to move rightwards, the moving rod 52 and the baffle 54 move rightwards, then the glass chips above the middle plate 43 move rightwards to the inside of the discharge frame 51 and are positioned at the left side of the baffle 54, and then the glass chips flow downwards through the lower end opening of the discharge frame 51; the elastic plate 13 is arranged to prevent the glass scraps above the collecting plate 43 from moving rightwards to the discharging frame 51, and then partially dropping on the bottom surface of the first through hole 111 and rebounding to the inside of the housing 11, which is beneficial to discharging the glass scraps from the lower end of the discharging frame 51 to the outside.

As shown in fig. 1 to 4, when the environment-friendly waste glass bottle crushing and recycling device is used, the blocking block 24 is firstly pulled out, then the glass bottles are respectively put into the rotating frame 23 from one end of the rotating frame 23 far away from the inner wall of the cavity 141, and the glass bottles are sequentially put in, so that the glass bottles are respectively and independently crushed, the crushing effect on the glass bottles is ensured, excessive force is not required to be applied each time, a special supporting structure is not required, and the damage to the structure such as the rotating frame can be reduced. The blocking block 24 is then re-blocked to prevent the glass vial from being expelled from the end of the rotating frame 23 remote from the inner wall of the cavity 141. Then, the switch of the first cylinder 31 is turned on, so that the first pushing rod 32 drives the smashed pieces 33 to periodically move up and down, the smashed pieces 33 can move into the rotating frame 23 when moving downwards, so as to smash glass bottles in the rotating frame 23, meanwhile, the third through hole 242 is close to one end, close to the inner wall of the cavity 141, of the rotating frame 23, so that the glass bottles discharged from the rotating frame 23 can be smashed by the smashing blocks 33 when the glass bottles are discharged from the rotating frame 23, then the switch of the motor 21 is turned on, so that the rotating shaft 22 rotates, so that the rotating frame 23 rotates, and in the rotating process of the rotating frame 23, as the central axes of the rotating shaft 22 and the cavity 141 are not collinear and parallel to each other, the periodic length change of the distance between one end, close to the inner wall 141, of the rotating frame 23 and the inner wall of the cavity 141 is prevented from being blocked by smashed glass chips caused by inconvenience of the distance between the two and being not discharged downwards Influence kibbling going on smoothly, rotatory frame 23 is at rotatory in-process simultaneously, and its inside glass bottle can be automatic under the effect of centrifugal force move towards the direction of third through hole 242 to carry out shredding to the glass bottle in proper order, need not to set up the propelling movement structure in addition, practice thrift the cost, reduce the waste of the energy. The primarily crushed glass cullet falls into the elevating frame 47 through a gap between the end of the rotating frame 23 and the inner wall of the cavity 141. The second air cylinder 41 can move the second pushing rod 42 up and down, so that the centralized plate 43, the abutting rod 44, the filter screen 46 and the lifting frame 47 move downwards and upwards at first, and move up and down periodically, so that the glass scraps above the filter screen 46 and in the lifting frame 47 move up and down periodically, and the glass scraps above the filter screen 46 can be crushed and extruded again by matching with the rotary extrusion block 26, and the rotary extrusion block 26 can crush the glass scraps in different areas above the filter screen 46, so that the crushing is more comprehensive and thorough; meanwhile, in the lifting process of the filter screen 46 and the lifting frame 47, the gas above and below the filter screen 46 flows mutually and continuously passes through the filter holes of the filter screen 46, so that the filter holes of the filter screen 46 can be prevented from being blocked, and the continuous filtering is ensured; meanwhile, the filter screen 46 is woven by high-strength metal wires, and can be matched with the extrusion block 26 to realize extrusion, crushing and filtering treatment on glass scraps. The glass cullet filtered by the filter screen 46 then falls onto the concentrating plate 43 and is concentrated on the right side above the concentrating plate 43 while leaning against the baffle 54. Then hold holding rod 53 and move to the right side for the broken glass piece of collecting the board 43 top drops in ejection of compact frame 51, and is in the left side of baffle 54, then discharges through ejection of compact frame 51's lower extreme opening, above-mentioned in-process easy operation, convenient to use to can carry out crushing processing many times to the glass bottle, and kibbling abundant and effect is showing, the kibbling demand of satisfying daily a small amount of glass bottles that can be fine. Therefore, the use process of the environment-friendly waste glass bottle crushing and recycling equipment is described.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. The utility model provides a broken recovery plant of abandonment glass bottle of environmental protection, includes shell structure, shell structure include the shell, set up in frame, its characterized in that concentrate in the shell: the environment-friendly waste glass bottle crushing and recycling equipment further comprises a rotating frame structure arranged in the shell and a breaking structure arranged on the rotating frame structure, the centralized frame is contained in the shell and fixedly connected with the inner surface of the shell, a cavity penetrating through the upper surface and the lower surface of the centralized frame is arranged on the centralized frame, the cavity is cylindrical, the rotating frame structure comprises a motor, a rotating shaft arranged below the motor, a rotating frame arranged below the rotating shaft and a positioning frame arranged on the rotating frame, a third through hole is arranged on the rotating frame, the lower end of the positioning frame is aligned to the third through hole and fixedly connected with the upper surface of the rotating frame, the breaking structure comprises a first air cylinder, a first push rod arranged below the first air cylinder and broken pieces arranged below the first push rod, and the broken pieces are contained in the positioning frame and are in sliding contact with the inner surface of the positioning frame, the knocking fragments can penetrate through the third through hole and extend into the rotating frame when moving downwards, the lower end of the rotating shaft is fixedly connected with the upper surface of one end of the rotating frame, and the rotating shaft and the central axis of the cavity are not collinear.

2. The environment-friendly waste glass bottle crushing and recycling device as claimed in claim 1, wherein: the broken recovery plant of abandonment glass bottle of environmental protection still including set up in revolution frame structure below elevation structure, elevation structure include the second cylinder, set up in second catch bar on the second cylinder, set up in the collection medium board of second catch bar top, set up in the top of concentrating the board top leans on pole, first spring, set up in the top leans on the filter screen of pole top, set up in lift frame on the filter screen.

3. The environment-friendly waste glass bottle crushing and recycling device as claimed in claim 2, wherein: the shell structure further comprises an optical sliding block, a second through hole is formed in the lower surface of the shell, the optical sliding block is contained in the second through hole and fixedly connected with the shell, the lower end of a second push rod is connected with the second air cylinder, the second push rod penetrates through the upper surface and the lower surface of the optical sliding block and is in sliding contact with the upper surface and the lower surface of the optical sliding block, the concentration plate is contained in the shell and is in sliding contact with the inner surface of the shell, and the upper end of the second push rod is fixedly connected with the concentration plate.

4. The environment-friendly waste glass bottle crushing and recycling device as claimed in claim 3, wherein: the lower end of the top leaning rod is fixedly connected with the concentration plate, the lower end of the first spring is fixedly connected with the concentration plate, the upper end of the first spring is fixedly connected with the filter screen, the upper surface and the lower surface of the lifting frame are communicated, and the filter screen is contained in the lifting frame and is fixedly connected with the inner surface of the lifting frame.

5. The environment-friendly waste glass bottle crushing and recycling device as claimed in claim 4, wherein: the rotating frame structure further comprises a supporting rod arranged below the rotating frame and an extrusion block arranged below the supporting rod, the upper end of the supporting rod is fixedly connected with the lower surface of the rotating frame, the lower end of the supporting rod is fixedly connected with the upper end of the extrusion block, the extrusion block is contained in the lifting frame, and the supporting rod is parallel to the rotating shaft and is not collinear.

6. The environment-friendly waste glass bottle crushing and recycling device as claimed in claim 5, wherein: the shell is provided with a first through hole located on the right surface of the shell, the shell structure further comprises an elastic plate arranged in the shell, the centralized plate is inclined, the lower end of the centralized plate is close to the first through hole, the lower end of the elastic plate is fixedly connected with the bottom surface of the inner cavity of the shell, the front surface and the rear surface of the elastic plate are in sliding contact with the inner surface of the shell, and the upper end of the elastic plate abuts against the lower surface of the centralized plate and is in sliding contact with the upper end of the elastic plate.

7. The environment-friendly waste glass bottle crushing and recycling device as claimed in claim 6, wherein: the environment-friendly waste glass bottle crushing and recycling equipment further comprises a discharging structure, wherein the discharging structure comprises a discharging frame, a moving rod arranged on the discharging frame, a baffle plate accommodated in the first through hole and a second spring arranged on the baffle plate.

8. The environment-friendly waste glass bottle crushing and recycling device as claimed in claim 7, wherein: the left wall and the lower wall of the discharging frame are provided with openings, the left wall of the discharging frame is aligned to the first through hole and fixedly connected with the right surface of the shell, the moving rod penetrates through the inner surface and the outer surface of the discharging frame and is in sliding contact with the inner surface and the outer surface of the discharging frame, the baffle is matched with the first through hole in shape, the baffle is contained in the first through hole and is in sliding contact with the side surface of the baffle, the right surface of the concentrating plate abuts against the left surface of the baffle, the left end of the moving rod is fixedly connected with the right surface of the baffle, one end of the second spring is fixedly connected with the baffle, and the other end of the second spring is fixedly connected with the inner surface of the discharging frame.

9. The environment-friendly waste glass bottle crushing and recycling device as claimed in claim 8, wherein: the rotating frame structure comprises a fixing frame arranged on the motor, a supporting frame arranged on the fixing frame, and a bearing arranged at the lower end of the supporting frame, one end of the fixing frame is fixedly connected with the upper surface of the shell, the other end of the fixing frame is fixedly connected with the motor, the upper end of the supporting frame is fixedly connected with the fixing frame, the lower end of the supporting frame is fixedly connected with the outer ring of the bearing, and the rotating shaft penetrates through the inner ring of the bearing and is fixedly connected with the inner ring.

10. The environment-friendly waste glass bottle crushing and recycling device as claimed in claim 9, wherein: rotatory frame structure still including set up in rotatory frame is kept away from the jam piece of cavity inner wall one end, the one end of jam piece stretches into rotatory frame is inside and rather than internal surface sliding contact, the structure of breaking into pieces still including set up in support on the first cylinder, the upper end of support with first cylinder fixed connection, the lower extreme of support with rotatory frame fixed connection.

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