CN114013092A

CN114013092A - Waste briquetting machine for machining

Info

Publication number: CN114013092A
Application number: CN202210022852.5A
Authority: CN
Inventors: 钱兵
Original assignee: Enerpat Jiangsu Environmental Protection Industrial Co ltd
Current assignee: Enerpat Jiangsu Environmental Protection Industrial Co ltd
Priority date: 2022-01-10
Filing date: 2022-01-10
Publication date: 2022-02-08
Anticipated expiration: 2042-01-10
Also published as: CN114013092B

Abstract

The invention discloses a waste briquetting machine for machining, which relates to the technical field of briquetting and comprises support legs, wherein an installation shell is fixedly arranged on each support leg, an extrusion device is arranged in each installation shell, a feed inlet is formed in the upper side of each installation shell, a discharge outlet is formed in the lower side of each installation shell, machining waste is fed from the feed inlet and extruded into blocks by the extrusion devices and discharged from the discharge outlets, a material stirring device is arranged below each installation shell, waste blocks fall on the material stirring devices, and the material stirring devices stir the waste blocks into material receiving devices for treatment.

Description

Waste briquetting machine for machining

Technical Field

The invention relates to the technical field of briquetting, in particular to a waste briquetting machine for machining.

Background

In the machining production process, different machine tools can generate different machining wastes, such as iron chips, iron wires and the like, usually due to the machining of various parts, and if the wastes are not processed in a centralized manner, the wastes bring troubles to the machining and production of workshops, possibly cut workers, and usually concentrate the wastes for briquetting treatment.

Publication No.: CN208497758U discloses a waste briquetting machine for casting, which comprises a hopper and a base, wherein the bottom end inside the hopper is rotatably connected with a scrap roller, the bottom end of the hopper is fixedly connected with a motor, the top end of the motor is provided with a transmission gear, the transmission gear is rotatably connected with the bottom end of the scrap roller, one side of the hopper is fixedly connected with a blanking pipe and an electromagnetic valve, and two sides of one end of the blanking pipe are welded with one end of a material distributing pipe; the utility model discloses a device utilizes the waste material that the bits of broken glass roller will add to carry out shredding, reduce artifical branch material processing in earlier stage, utilize the baffle box on baffle surface quick accurate guide of carrying on, avoid the waste material to overflow and produce the loss, prevent to overflow the waste material and damage machine parts, influence the equipment life, utilize the electromagnetism of separation flitch circular telegram to come the timing control separation flitch switching to carry out the unloading, realize automatic feed supplement, reduce the cost of labor effectively, the invention combines the crushed aggregates device to smash the back briquetting earlier with the waste material of casting usefulness, realize automatic waste material briquetting, but its accommodation is less, and the linkage is relatively poor, extrudees the direction not enough to the waste material, is difficult to the blocking.

Disclosure of Invention

Aiming at the technical problem, the invention discloses a waste briquetting machine for machining, which comprises support legs, wherein an installation shell is fixedly arranged on the support legs, an extrusion device is arranged in the installation shell, a feeding hole is formed in the upper side surface of the installation shell, a discharging hole is formed in the lower side surface of the installation shell, a material receiving device is arranged on the first side of the installation shell, a material stirring device is further arranged on the lower side surface of the installation shell, and the material stirring device is positioned on the lower side of the discharging hole.

The extrusion device comprises a longitudinal extrusion assembly, a transverse extrusion assembly is arranged on the longitudinal extrusion assembly, and the longitudinal extrusion assembly is connected with the material receiving device; the power device is installed on the second side of the installation shell and comprises an extrusion driving assembly and a turnover driving assembly, the extrusion driving assembly is connected with the longitudinal extrusion assembly, and the turnover driving assembly is connected with the material stirring device.

Furthermore, the longitudinal extrusion assembly comprises a push plate, the push plate is slidably mounted in the mounting shell, the extrusion plate is fixedly mounted on the push plate, a first end of the push plate is provided with a holding arm I, and a second end of the push plate is provided with a holding arm II; the mounting shell internal fixation is equipped with the fixed plate, and the fixed reset spring that is equipped with on the fixed plate, the last fixed contact plate that is equipped with of reset spring, the contact plate simultaneously with hold arm I and hold II fixed connection of arm tightly, hold arm I and hold arm II tightly and be elastic material.

Further, receiving device includes the mounting bracket, and mounting bracket fixed mounting is in on the fixed plate, the mounting bracket internal fixation is equipped with slide shaft III, and sliding fit has the slider on slide shaft III, and the minor axis is equipped with to the slider internal rotation, and the minor axis runs through the slider from last to down, and the fixed carousel that is equipped with in minor axis upper end, the fixed driving lever that is equipped with in eccentric position of carousel, the upper end of mounting bracket sets up the arc wall, the driving lever removes in the arc wall, the fixed synchronizing shaft that is equipped with of lower extreme of minor axis, the fixed blowing board that is equipped with of lower extreme of synchronizing shaft, blowing board are located the downside of dialling material device one end, one side of slider is fixed and is equipped with the universal driving shaft, and the universal driving shaft passes the fixed plate with contact plate fixed connection.

Furthermore, the transverse extrusion assembly comprises a sliding shaft I and a sliding shaft II, the sliding shaft I and the sliding shaft II are fixedly arranged on the push plate, a mounting plate II is slidably arranged on the sliding shaft I, the mounting plate II is fixedly provided with the enclasping arm II, and an air cylinder II is hinged to the mounting plate II; sliding is equipped with mounting panel I on sliding shaft II, and fixed being equipped with on mounting panel I hold arm I tightly, articulated on the mounting panel I have cylinder I, it has commentaries on classics board I to articulate on the push pedal side, the first end of commentaries on classics board I with the jar arm of cylinder II is articulated, the second end of commentaries on classics board I with the jar arm of cylinder I is articulated.

Furthermore, the extrusion driving assembly comprises a motor frame, the motor frame is fixedly installed on the installation shell, a motor is fixedly installed on the motor frame, a driving gear is fixedly installed on a rotating shaft of the motor, a rotating frame is fixedly installed on the installation shell, a driven gear is installed on the rotating frame in a rotating mode, the driven gear is meshed with the driving gear, an eccentric block is fixedly installed on a gear shaft of the driven gear, a middle block is hinged to the eccentric block, a transverse connecting rod is fixedly installed on the middle block, and the transverse connecting rod is hinged to the push plate.

Further, dial the material device and include the connecting plate, connecting plate fixed mounting be in the discharge gate lower extreme of installation shell, articulated on the connecting plate have changeing board II, change board II and go up fixed articulated piece that is equipped with, articulated piece with upset drive assembly connects.

Further, the turnover driving assembly comprises a vertical connecting rod, the upper end of the vertical connecting rod is hinged to the middle block, the lower end of the vertical connecting rod is hinged to a cross shaft, a shaft bracket is fixedly mounted at the lower end of the mounting shell, a vertical groove is formed in the lower end of the shaft bracket, and the cross shaft penetrates through the vertical groove and is hinged to the hinge block.

Further, the upper end of push pedal rotates and is equipped with gyro wheel II, gyro wheel II with the higher authority contact in the installation shell, the lower extreme of push pedal rotates and is equipped with gyro wheel I, gyro wheel I with the lower face contact in the installation shell.

Compared with the prior art, the invention has the beneficial effects that: (1) the power device can simultaneously drive the extrusion device and the material stirring device to work; (2) the extrusion device can extrude the waste materials from two directions, and meanwhile, the extrusion is carried out in the mounting shell, so that the waste materials are more easily pressed into blocks; (3) the material receiving device can be linked with the extrusion device, so that material is received and fed outwards at proper time, and the efficiency is improved.

Drawings

FIG. 1 is an overall schematic view of the present invention.

FIG. 2 is another overall view of the present invention.

FIG. 3 is a schematic view of an extrusion apparatus according to the present invention.

FIG. 4 is a partial schematic view of an extrusion apparatus of the present invention.

FIG. 5 is a schematic view of the power plant of the present invention.

FIG. 6 is a schematic view of the setting device of the present invention.

Fig. 7 is a partial schematic view of the receiving device of the invention.

Fig. 8 is a schematic view of a receiving device of the present invention.

Reference numerals: 1-an extrusion device; 2-a power plant; 3-a material receiving device; 4-a leg; 5, mounting a shell; 6-a material poking device; 101-a push plate; 102-a holding arm I; 103-a fixed plate; 104-a return spring; 105-a contact plate; 106-clasping arm II; 107-sliding shaft I; 108-sliding shaft II; 109-an extrusion plate; 110-mounting plate I; 111-cylinder i; 112-rotating the plate I; 113-cylinder II; 114-mounting plate II; 115-roller I; 116-roller II; 201-motor frame; 202-a motor; 203-a drive gear; 204-driven gear; 205-eccentric mass; 206-middle block; 207-transverse link; 208-vertical connecting rod; 209-horizontal axis; 210-a pedestal; 301-a mounting frame; 302-sliding shaft III; 303-a slide block; 304-a synchronizing shaft; 305-a discharge plate; 306-a linkage shaft; 307-minor axis; 308-a turntable; 309-deflector rod; 601-a connection plate; 602-rotating plate II; 603-hinged block.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in fig. 1 and 2, a waste briquetting machine for machining comprises support legs 4, wherein a mounting shell 5 is fixedly mounted on each support leg 4, an extruding device 1 is mounted in each mounting shell 5, a feeding hole is formed in the upper side of each mounting shell 5, a discharging hole is formed in the lower side of each mounting shell, machining waste is put in from the feeding hole, is extruded into blocks by the extruding device 1 and then is discharged from the discharging hole, a material stirring device 6 is mounted below each mounting shell 5, the waste blocks fall on the material stirring device 6, and the material stirring device 6 stirs the waste blocks into a material receiving device 3 for treatment.

As shown in the figures 1 and 2, respectively, fig. 5 shows, wherein the extruding device 1 and the material stirring device 6 are both driven by the power device 2, the power device 2 includes a motor frame 201, the motor frame 201 is fixedly installed on the installation shell 5, a motor 202 is fixedly installed on the motor frame 201 by using bolts, a driving gear 203 is fixedly installed on a rotating shaft of the motor 202, a driven gear 204 is meshed with a lower side of the driving gear 203, the driven gear 204 is rotatably installed on a rotating seat of the installation shell 5, an eccentric block 205 is fixedly installed on a gear shaft of the driven gear 204, an intermediate block 206 is hinged on the eccentric block 205, a transverse connecting rod 207 is fixedly installed on the intermediate block 206, the motor 202 operates to drive the driving gear 203 to rotate, the driving gear 203 drives the driven gear 204 to rotate, the driven gear 204 drives the eccentric block 205 to rotate, the eccentric block 205 drives the intermediate block 206 and the transverse connecting rod 207, the extruding device 1 is connected on the transverse connecting rod 207, and drives the extruding device 1 to extrude.

As shown in fig. 1, 2, 3, 4 and 5, the extrusion device 1 comprises a push plate 101, a roller ii 116 is rotatably installed on the upper side of the push plate 101, a roller i 115 is rotatably installed on the lower side of the push plate 101, the push plate 101 is slidably installed in the installation shell 5 through the roller i 115 and the roller ii 116, a sliding shaft i 107, a sliding shaft ii 108 and an extrusion plate 109 are fixedly installed on the push plate 101, the sliding shaft i 107 and the sliding shaft ii 108 are located on two sides of the extrusion plate 109, a mounting plate ii 114 is slidably installed on the sliding shaft i 107, a cylinder ii 113 is hinged on the mounting plate ii 114, a rotating plate i 112 is hinged on a cylinder arm of the cylinder ii 113, the rotating plate i 112 is hinged on a side surface of the push plate 101, a cylinder arm of the cylinder i 111 is hinged on the rotating plate i 112, the cylinder i 111 is hinged on the mounting plate i 110, the mounting plate i 110 is slidably installed on the sliding shaft ii 108, the mounting plate ii 114 and the mounting plate i 110 can be driven to slide towards the middle or towards two sides simultaneously through the operation of the cylinder ii 113 or the cylinder i 111, the mounting panel II 114 is gone up the fixed arm II 106 that hugs closely that is equipped with, and the fixed arm I102 that hugs closely that is equipped with on the mounting panel I110, hugs closely arm I102 and hugs closely II 106 and follow the I110 of mounting panel and II 114 removal of mounting panel, when moving to the centre simultaneously, hugs closely arm I102 and hugs closely II 106 lateral extrusion waste material of arm.

The mounting shell 5 is internally and fixedly provided with a fixing plate 103, the fixing plate 103 is fixedly provided with a return spring 104, the return spring 104 is fixedly provided with a contact plate 105, the contact plate 105 is fixedly connected with a clasping arm I102 and a clasping arm II 106, the push plate 101 is hinged with a transverse connecting rod 207, the push plate 101 slides under the driving of the transverse connecting rod 207, when the push plate 101 slides towards the direction of the fixing plate 103, the clasping arm I102 and the clasping arm II 106 compress the return spring 104, when the compression reaches the limit, the clasping arm I102 and the clasping arm II 106 deform, the clasping arm I102 and the clasping arm II 106 are both made of elastic materials such as rubber or spring steel, so that the push plate 101 drives the extrusion plate 109 to move continuously, the contact plate 105 does not move any more, the waste material is longitudinally extruded, after the extrusion, the transverse connecting rod 207 drives the push plate 101 to be far away from the fixing plate 103, the return spring 104 assists in resetting, the clasping arm I102 and the clasping arm II 106 bring the pressed waste material to the discharge hole of the mounting shell 5, falls on the material stirring device 6.

As shown in fig. 1, 2, 5 and 6, the power device 2 further comprises a vertical connecting rod 208, the upper end of the vertical connecting rod 208 is hinged with the middle block 206, the lower end of the vertical connecting rod 208 is hinged with a horizontal shaft 209, the lower end of the mounting shell 5 is fixedly provided with a shaft bracket 210, the lower end of the shaft bracket 210 is provided with a vertical slot, the horizontal shaft 209 passes through the vertical slot to be connected with a hinge block 603, the material stirring device 6 comprises a connecting plate 601, the connecting plate 601 is fixedly arranged at the lower side of the mounting shell 5 and located at the discharge hole, a rotating plate ii 602 is hinged on the connecting plate 601, a hinge block 603 is fixedly arranged on the rotating plate ii 602, the hinge block 603 is hinged with the horizontal shaft 209, when the push plate 101 is driven by the transverse connecting rod 207 to reciprocate, the vertical connecting rod 208 is driven by the intermediate block 206 to move, the horizontal shaft 209 is driven by the vertical connecting rod 208, the hinge block 603 is driven by the horizontal shaft 209 in the shaft bracket 210, so that the rotating plate II 602 rotates in a reciprocating way within a certain angle, and the waste blocks falling on the rotating plate II 602 are pushed into the material receiving device 3.

As shown in fig. 1, 2, 7, and 8, the material receiving device 3 includes a mounting frame 301, the mounting frame 301 is fixedly mounted on the fixed plate 103, a sliding shaft iii 302 is fixedly mounted in the mounting frame 301, a sliding block 303 is slidably mounted on the sliding shaft iii 302, a linkage shaft 306 is fixedly mounted on one side of the sliding block 303, the linkage shaft 306 passes through the fixed plate 103 and is fixedly connected with the contact plate 105, a short shaft 307 is rotatably mounted in the sliding block 303, the short shaft 307 passes through the sliding block 303 from top to bottom, a rotating disc 308 is fixedly mounted at the upper end of the short shaft 307, a shift lever 309 is fixedly mounted at an eccentric position on the upper end face of the rotating disc 308, an arc-shaped groove is formed in the upper face of the mounting frame 301, the shift lever 309 moves in the arc-shaped groove, a synchronizing shaft 304 is fixedly mounted at the lower end of the short shaft 307, a material discharging plate 305 is fixedly mounted at the lower end of the synchronizing shaft 304, and when the shift lever 309 is located at a position close to the fixed plate 103, the material discharging plate 305 is located at one side of the material discharging device 6.

The universal driving shaft 306 moves along with the contact plate 105, the universal driving shaft 306 drives the sliding block 303 to move, when the sliding block 303 is far away from the fixed plate 103, the shifting rod 309 moves in the arc-shaped groove, the rotary plate 308 is driven to rotate, the rotary plate 308 drives the short shaft 307 to rotate, the short shaft 307 drives the discharging plate 305 to rotate through the synchronizing shaft 304, the discharging plate 305 rotates to the direction perpendicular to the discharging direction of the material stirring device 6, when the shifting rod 309 is close to the fixed plate 103, the discharging plate 305 can rotate to the position opposite to the discharging port of the material stirring device 6, and the discharging plate can contain waste materials.

The working principle is as follows: pouring mechanical waste into the feeding hole, wherein the holding arm I102 and the holding arm II 106 are opposite to the feeding hole, the deflector rod 309 is positioned at a position close to the fixed plate 103, and the turntable 308 waits for containing a waste block at a position of the rotating plate II 602; after the filling is finished, the motor 202 is started, the motor 202 pushes the push plate 101 to extrude the waste material through the transverse connecting rod 207, in the extrusion process, the contact plate 105 pushes the sliding block 303 to be far away from the fixing plate 103 through the linkage shaft 306, at the moment, the discharging plate 305 turns to one side to be far away from the material stirring device 6 through the matching of the driving rod 309 and the arc groove, the holding arm I102 and the holding arm II 106 transversely and longitudinally extrude the waste material, then the transverse connecting rod 207 drives the push plate 101 to return, at the moment, the sliding block 303 starts to be close to the fixing plate 103, the discharging plate 305 also turns back to the position opposite to the connecting plate 601, when the push plate 101 drives the holding arm I102 and the holding arm II 106 to move to be far away from the fixing plate 103, the waste material just falls onto the rotating plate II 602 from the discharge hole, the power device 2 continues to work, the rotating plate II 602 is turned over through the transverse shaft 209, so that the waste material falls into the discharging plate 305, and when the holding arm I102 and the holding arm II 106 return to the position opposite to the feed hole, the motor 202 stops working, after the filling is finished again, the motor 202 is started to extrude again, the sliding block 303 is far away from the fixing plate 103 again, and the waste material block is conveniently taken out from the turning side of the discharging plate 305; can set up the device that can intermittent type feed in the pan feeding mouth department of installation shell 5 to the cooperation is used, and the opening of motor is stopped and is set up through the procedure.

Claims

1. The utility model provides a waste material briquetting machine for machining, includes the stabilizer blade, and the fixed installation shell that is equipped with on the stabilizer blade is equipped with extrusion device, its characterized in that in the installation shell: the upper side surface of the mounting shell is provided with a feeding hole, the lower side surface of the mounting shell is provided with a discharging hole, the first side of the mounting shell is provided with a material receiving device, the lower side surface of the mounting shell is also provided with a material stirring device, and the material stirring device is positioned at the lower side of the discharging hole;

the extrusion device comprises a longitudinal extrusion assembly, a transverse extrusion assembly is arranged on the longitudinal extrusion assembly, and the longitudinal extrusion assembly is connected with the material receiving device; the second side of the mounting shell is provided with a power device, the power device comprises an extrusion driving assembly and a turnover driving assembly, the extrusion driving assembly is connected with the longitudinal extrusion assembly, and the turnover driving assembly is connected with the material stirring device;

the longitudinal extrusion assembly comprises a push plate, the push plate is slidably mounted in the mounting shell, the extrusion plate is fixedly mounted on the push plate, a first end of the push plate is provided with a holding arm I, and a second end of the push plate is provided with a holding arm II; the mounting shell internal fixation is equipped with the fixed plate, and the fixed reset spring that is equipped with on the fixed plate, the last fixed contact plate that is equipped with of reset spring, the contact plate simultaneously with hold arm I and hold II fixed connection of arm tightly, hold arm I and hold arm II tightly and be elastic material.

2. The scrap briquetting machine for machining according to claim 1, wherein: receiving device includes the mounting bracket, and mounting bracket fixed mounting is in on the fixed plate, mounting bracket internal fixation is equipped with slide shaft III, and sliding fit has the slider on slide shaft III, and the minor axis is equipped with to the slider internal rotation, and the minor axis runs through the slider from last to down, and the fixed carousel that is equipped with in minor axis upper end, the fixed driving lever that is equipped with in eccentric position of carousel, the upper end of mounting bracket sets up the arc wall, the driving lever removes in the arc wall, the fixed synchronizing shaft that is equipped with of lower extreme of minor axis, the fixed blowing board that is equipped with of lower extreme of synchronizing shaft, blowing board are located the downside of kickoff one end, one side of slider is fixed and is equipped with the universal driving shaft, and the universal driving shaft passes the fixed plate with contact plate fixed connection.

3. The scrap briquetting machine for machining according to claim 2, wherein: the transverse extrusion assembly comprises a sliding shaft I and a sliding shaft II, the sliding shaft I and the sliding shaft II are fixedly arranged on the push plate, a mounting plate II is arranged on the sliding shaft I in a sliding mode, the mounting plate II is fixedly provided with the enclasping arm II, and an air cylinder II is hinged to the mounting plate II; sliding is equipped with mounting panel I on sliding shaft II, and fixed being equipped with on mounting panel I hold arm I tightly, articulated on the mounting panel I have cylinder I, it has commentaries on classics board I to articulate on the push pedal side, the first end of commentaries on classics board I with the jar arm of cylinder II is articulated, the second end of commentaries on classics board I with the jar arm of cylinder I is articulated.

4. The scrap briquetting machine for machining according to claim 3, wherein: the extrusion driving assembly comprises a motor frame, the motor frame is fixedly mounted on the mounting shell, a motor is fixedly mounted on the motor frame, a driving gear is fixedly mounted on a rotating shaft of the motor, a rotating frame is fixedly mounted on the mounting shell, a driven gear is rotatably mounted on the rotating frame and meshed with the driving gear, an eccentric block is fixedly mounted on a gear shaft of the driven gear, a middle block is hinged to the eccentric block, a transverse connecting rod is fixedly mounted on the middle block, and the transverse connecting rod is hinged to the push plate.

5. The scrap briquetting machine for machining according to claim 4, wherein: the material stirring device comprises a connecting plate, the connecting plate is fixedly installed at the lower end of a discharge port of the mounting shell, a rotating plate II is hinged to the connecting plate, a hinge block is fixedly installed on the rotating plate II, and the hinge block is connected with the turnover driving assembly.

6. The scrap briquetting machine for machining according to claim 5, wherein: the turnover driving assembly comprises a vertical connecting rod, the upper end of the vertical connecting rod is hinged to the middle block, the lower end of the vertical connecting rod is hinged to a cross shaft, a shaft bracket is fixedly mounted at the lower end of the mounting shell, a vertical groove is formed in the lower end of the shaft bracket, and the cross shaft penetrates through the vertical groove and is hinged to the hinge block.

7. The scrap briquetting machine for machining according to any of claims 2 to 6, wherein: the upper end of push pedal rotates and is equipped with gyro wheel II, gyro wheel II with the higher authority contact in the installation shell, the lower extreme of push pedal rotates and is equipped with gyro wheel I, gyro wheel I with the lower face contact in the installation shell.