CN116673093A

CN116673093A - Chip crushing briquetting machine

Info

Publication number: CN116673093A
Application number: CN202310844769.0A
Authority: CN
Inventors: 来国祥
Original assignee: Jiashan Vision Machinery Co ltd
Current assignee: Jiashan Vision Machinery Co ltd
Priority date: 2023-07-11
Filing date: 2023-07-11
Publication date: 2023-09-01
Anticipated expiration: 2043-07-11
Also published as: CN116673093B

Abstract

The application relates to the technical field of briquetting machines, in particular to a chip crushing briquetting machine which comprises a machine case, a feeding hole, a discharging hole and a control box, wherein the feeding hole and the discharging hole are both arranged on the machine case, the control box is arranged on the machine case, a material conveying belt is arranged on one side of the discharging hole in the machine case, and the briquetting machine further comprises: the crushing box is movably arranged in the case and is positioned at one side of the feed inlet; the crushing rollers are symmetrically and movably arranged on the crushing box, and the crushing rollers are a group in number; the screening module is arranged in the case and positioned at one side of the crushing box and is used for screening crushed cuttings; the material conveying structure is arranged in the case and is provided with a material conveying flow channel; the briquetting module is arranged in the case and is used for briquetting the screened cuttings and discharging the chips onto the conveying belt; the whole device is high in automation degree, the traditional mode of uniformly recycling chips by using manual pressing blocks is eliminated, and the device reduces the input amount of labor force.

Description

Chip crushing briquetting machine

Technical Field

The application relates to the technical field of briquetting machines, in particular to a chip crushing briquetting machine.

Background

The chip is an amorphous metal product formed by sintering or combining scrap iron, saw-toothed iron sheets and heat generated by cutting, and the sliding property of the scrap iron is different according to the different performances of metal materials, and the type and the size of the obtained chip are different even if the cutting is performed under the same condition.

Chips are not useless and after machining, they typically need to be crushed and then pressed into a block for subsequent secondary use.

The existing chip crushing and extrusion are respectively carried out by two independent devices, and the middle process needs the auxiliary operation of staff, so that the chip crushing and extrusion are very inconvenient and take a lot of time.

Disclosure of Invention

The application aims to provide a chip crushing briquetting machine, which solves the problems in the prior art.

In order to achieve the above purpose, the present application provides the following technical solutions:

the utility model provides a briquetting machine is smashed to smear metal, includes quick-witted case, feed inlet, bin outlet and control box, feed inlet and bin outlet all set up on the quick-witted case, the control box sets up on the quick-witted case, the one side that is located the bin outlet in the machine case is provided with fortune material area, the briquetting machine still includes:

the crushing box is movably arranged in the case and is positioned at one side of the feed inlet;

the crushing rollers are symmetrically and movably arranged on the crushing box, and the crushing rollers are a group in number;

the screening module is arranged in the case and positioned at one side of the crushing box and is used for screening crushed cuttings;

the conveying structure is arranged in the machine case and is used for conveying the screened cuttings; and

the briquetting module is arranged in the machine case and used for briquetting the screened cuttings and discharging the chips onto the conveying belt; wherein the method comprises the steps of

The screening module comprises:

the screen is movably arranged in the case and is in sliding fit with the crushing case, and the screen is elastically connected with the case;

the sliding block is movably arranged on the chassis and is movably connected with the screen through the pushing arm; and

the first electric telescopic rod is arranged on the case, and the movable end of the first electric telescopic rod is connected with the sliding block.

The application further adopts the technical scheme that: the material transporting structure comprises a material transporting dragon and a motor, wherein the material transporting dragon is movably arranged in a material transporting flow channel, and the motor is arranged on the case and the output end of the motor is connected with the material transporting dragon.

The application further adopts the technical scheme that: the machine case is internally provided with a briquetting cavity, a discharge window is arranged between the briquetting cavity and a discharge port, and the briquetting module comprises:

the execution assembly is arranged in the case and is used for briquetting the screened chips; and

the plugging assembly is arranged in the discharging window and used for controlling the opening and closing of the discharging window.

The application further adopts the technical scheme that: the execution assembly includes:

the threaded rod is movably arranged in the case;

the second motor is arranged on the chassis, and the output end of the second motor is connected with the threaded rod;

the movable seat is movably arranged in the pressing block cavity and is in threaded fit with the threaded rod, the movable seat is movably arranged on the first extrusion plate, and the movable seat is provided with a second electric telescopic rod connected with the first extrusion plate;

the second extrusion plate is movably arranged on the first extrusion plate and is elastically connected with the first extrusion plate, the second extrusion plate and the first extrusion plate are vertically arranged, and an inclined surface is formed on the second extrusion plate; and

the contact resisting rod is arranged in the pressing block cavity and positioned on the moving path of the inclined surface.

The application further adopts the technical scheme that: and the contact resisting rod is provided with a resistance reducing piece for reducing friction resistance generated during contact between the contact resisting rod and the inclined surface.

The application further adopts the technical scheme that: the occlusion assembly includes:

the bottom plate is movably arranged in the discharging window and is elastically connected with the discharging window;

the first magnet is arranged on the first extrusion plate; and

and the second magnet is arranged on the bottom plate and is attracted with the first magnet when meeting.

The application further adopts the technical scheme that: the machine box is characterized in that a recovery groove is formed in the machine box, an iron block is movably arranged on one side of the second magnet in the machine box, a water receiving plate is arranged on the iron block, the water receiving plate is arranged on one side of the bottom plate, and a plurality of drain holes are formed in the bottom plate at equal intervals.

Compared with the prior art, the technical scheme provided by the embodiment of the application has the following beneficial effects:

according to the embodiment of the application, the friction resistance between the screen and the crushing box is utilized, and the reciprocating motion of the screen can be controlled, and meanwhile, the crushing box and the crushing roller can be controlled to rotate, so that the crushing effect on the cuttings is improved, meanwhile, the briquetting module can be arranged to carry out briquetting treatment on the crushed and screened cuttings, the automation degree of the whole device is high, the traditional mode of uniformly recycling the cuttings by manual briquetting is eliminated, and the device reduces the input amount of labor force.

Drawings

FIG. 1 is a schematic view of a chip breaking briquetting machine in an embodiment of the application;

FIG. 2 is an enlarged schematic view of the structure at A in the chip breaking briquetting machine according to the embodiment of the application;

FIG. 3 is an enlarged schematic view of the structure of the chip breaker briquetting machine according to the embodiment of the application at B;

FIG. 4 is an enlarged schematic view of the structure of the chip breaker briquetting machine according to the embodiment of the application at C;

fig. 5 is a schematic structural view of a second pressing plate in the chip breaking briquetting machine according to the embodiment of the application.

Reference numerals in the schematic drawings illustrate:

the device comprises a 1-machine box, a 2-feeding port, a 3-discharging port, a 4-crushing box, a 5-crushing roller, a 6-screen, a 7-pushing arm, a 8-first electric telescopic rod, a 9-sliding block, a 10-material conveying runner, a 11-material conveying auger, a 12-first motor, a 13-control box, a 14-recovery tank, a 15-material conveying belt, a 16-threaded rod, a 17-moving seat, a 18-second electric telescopic rod, a 19-first extrusion plate, a 20-first magnet, a 21-second extrusion plate, a 22-inclined surface, a 23-second motor, a 24-contact rod, a 25-roller, a 26-bottom plate, a 27-drainage hole, a 28-second magnet, a 29-iron block and a 30-water receiving plate.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art without making any inventive effort, based on the embodiments of the present application are within the scope of the present application, and the present application is further described below with reference to the embodiments.

Referring to fig. 1-5, in one embodiment of the present application, a chip breaking briquetting machine includes a case 1, a feed inlet 2, a discharge outlet 3, and a control box 13, where the feed inlet 2 and the discharge outlet 3 are both disposed on the case 1, the control box 13 is disposed on the case 1, and a material conveying belt 15 is disposed on a side of the case 1 located at the discharge outlet 3, and the briquetting machine further includes:

the crushing box 4 is movably arranged in the case 1 and is positioned at one side of the feed inlet 2;

the crushing rollers 5 are symmetrically and movably arranged on the crushing box 4, and the number of the crushing rollers is one group;

the screening module is arranged in the case 1 and positioned at one side of the crushing box 4 and is used for screening crushed cuttings;

the conveying structure is arranged in the case 1 and is used for conveying the screened cuttings; and

the briquetting module is arranged in the case 1 and is used for briquetting the screened cuttings and discharging the chips onto the conveying belt 15; wherein the method comprises the steps of

The screening module comprises:

the screen 6 is movably arranged in the case 1 and is in sliding fit with the crushing case 4, and the screen 6 is elastically connected with the case 1;

the sliding block 9 is movably arranged on the case 1 and is movably connected with the screen 6 through the pushing arm 7; and

the first electric telescopic rod 8 is arranged on the case 1, and the movable end of the first electric telescopic rod is connected with the sliding block 9.

In this embodiment, the material transporting structure includes a material transporting auger and a first motor 12, the material transporting auger is movably disposed in the material transporting channel 10, and the first motor 12 is disposed on the chassis 1 and has an output end connected with the material transporting auger.

It should be noted that, in the present embodiment, the position of the slider 9 is not limited to the above-described first electric telescopic rod 8, but a linear motor or a cylinder may be used instead, which is not illustrated here.

During practical application, the cuttings are poured into the feed inlet 2, the crushing roller 5 is controlled to rotate through the control box 13 to crush the cuttings passing through the crushing box 4, and meanwhile, the first electric telescopic rod 8 is controlled to be electrified and repeatedly telescopic, so that the sliding block 9 is driven to reciprocate along the machine case 1, the screen 6 is driven to reciprocate under the action of the pushing arm 7, so that the crushed cuttings are screened, and in the process, the crushing box 4 is driven to rotate under the action of friction resistance between the screen 6 and the crushing box 4, so that the crushing effect on the cuttings is improved, in the process, the first electric motor 12 is controlled to electrifying and rotating to drive the conveying auger 11 to move, so that the crushed and screened cuttings are conveyed to the position of the briquetting module, and the cuttings are extruded into a cuttings block to be discharged to the discharge outlet 3 through controlling the briquetting module to be discharged from the discharge outlet 15 finally, so that the briquetting treatment on the cuttings is realized.

Referring to fig. 1 to 5, as another preferred embodiment of the present application, a briquetting cavity is disposed in the chassis 1, a discharge window is disposed between the briquetting cavity and the discharge port 3, and the briquetting module includes:

the execution assembly is arranged in the case 1 and is used for briquetting the screened chips; and

In a specific case of this embodiment, the execution component includes:

the threaded rod 16 is movably arranged in the case 1;

a second motor 23, which is arranged on the chassis 1 and has an output end connected with the threaded rod 16;

the movable seat 17 is movably arranged in the pressing block cavity, the movable seat 17 is in threaded fit with the threaded rod 16, the movable seat 17 is movably arranged on the first extrusion plate 19, and the movable seat 17 is provided with a second electric telescopic rod 18 connected with the first extrusion plate 19;

the second extrusion plate 21 is movably arranged on the first extrusion plate 19 and is elastically connected with the first extrusion plate 19, the second extrusion plate 21 and the first extrusion plate 19 are vertically arranged, and an inclined surface 22 is formed on the second extrusion plate 21; and

the abutment lever 24 is disposed in the press block chamber and is located on the moving path of the inclined surface 22.

In another specific case of this embodiment, the interference lever 24 is provided with a resistance reducing member for reducing friction resistance generated when the interference lever 24 contacts the inclined surface 22.

When it is specifically described, the resistance reducing member may be a ball or a roller 25, and in this embodiment, the resistance reducing member is preferably a roller 25, and the roller 25 is movably disposed on the contact rod 24.

After the crushed and screened chips are discharged into the briquetting cavity by utilizing the material conveying auger 11, the second motor 23 is controlled to be electrified to rotate by the control box 13 to drive the threaded rod 16 to rotate, so that the movable seat 17 is driven to move towards one side under the action of threaded fit between the movable seat 17 and the threaded rod 16, in the process, the first extruding plate 19 can be driven to move downwards by controlling the extension of the second electric telescopic rod 18 until the bottoms of the first extruding plate 19 and the briquetting cavity are in contact and sliding fit, so that the extrusion work of the chips in the horizontal direction is realized, and the inclined surface 22 on the second extruding plate 21 and the roller 25 meet and mutually collide, the second extruding plate 21 can be driven to move downwards along the first extruding plate 19, so that the chips are extruded into chip blocks in the vertical direction, and finally, the discharging window is opened by controlling the blocking assembly to enable the chip blocks to be discharged to the surface of the material conveying belt 15, and finally discharged from the discharge port 3.

Referring to fig. 1-5, as another preferred embodiment of the present application, the plugging assembly comprises:

the bottom plate 26 is movably arranged in the discharging window and is elastically connected with the discharging window;

a first magnet 20 provided on the first pressing plate 19; and

the magnet number two 28 is disposed on the bottom plate 26 and contacts with the magnet number one 20 to attract.

In this embodiment, the recovery tank 14 is formed in the chassis 1, an iron block 29 is movably disposed on one side of the second magnet 28 in the chassis 1, a water receiving plate 30 is disposed on the iron block 29, the water receiving plate 30 is disposed on one side of the bottom plate 26, and a plurality of drain holes 27 are disposed on the bottom plate 26 at equal intervals.

When the movable seat 17 moves to press the scraps, the first magnet 20 and the second magnet 28 can meet, the position of the bottom plate 26 is limited and does not move, cutting fluid in the scraps can be discharged into the recovery groove 14 along the water receiving plate 30 along the water discharging hole 27 in the extrusion process, and when the movable seat 17 resets, the bottom plate 26 can be driven to move under the action of attractive force between the first magnet 20 and the second magnet 28, so that the water receiving plate 30 can be driven to synchronously move under the action of attractive force between the second magnet 28 and the iron block 29, and the phenomenon that the water receiving plate 30 blocks the scraps on the material conveying belt 15 is avoided.

The working principle of the application is as follows:

the cutting scraps are poured into the feed inlet 2, the crushing roller 5 is controlled to rotate by the control box 13 to crush the cutting scraps passing through the crushing box 4, meanwhile, the first electric telescopic rod 8 is controlled to be electrified and repeatedly telescopic, so that the sliding block 9 is driven to reciprocate along the machine box 1, the screen 6 is driven to reciprocate under the action of the pushing arm 7, the crushing box 4 is driven to rotate under the action of friction resistance between the screen 6 and the crushing box 4 in the process, the crushing effect on the cutting scraps is improved, the first electric motor 12 is controlled to electrify and rotate to drive the conveying auger 11 to move, the crushed and screened cutting scraps are conveyed to the position of the briquetting module, and after the crushed and screened cutting scraps are discharged into the briquetting cavity by the conveying auger 11, the second motor 23 is controlled by the control box 13 to be electrified to rotate so as to drive the threaded rod 16 to rotate, thereby driving the movable seat 17 to move towards one side under the action of the threaded fit between the movable seat 17 and the threaded rod 16, in the process, the second electric telescopic rod 18 is controlled to extend so as to drive the first extrusion plate 19 to move downwards until the first extrusion plate 19 contacts with the bottom of the briquetting cavity and is in sliding fit, so that the extrusion work of the horizontal direction of the cuttings is realized, the second extrusion plate 21 can be driven to move downwards along the first extrusion plate 19 when the inclined surface 22 on the second extrusion plate 21 meets and mutually collides with the roller 25, the vertical direction of the cuttings is extruded, the cuttings are extruded into a cuttings block, the first magnet 20 and the second magnet 28 meet when the movable seat 17 moves to carry out briquetting treatment on the cuttings, and the position of the bottom plate 26 is limited and does not move at the moment, cutting fluid in the cuttings can be discharged into the recovery groove 14 along the water receiving plate 30 in the extrusion process along the water draining hole 27, and when the movable seat 17 is reset, the bottom plate 26 can be driven to move under the attractive force action between the first magnet 20 and the second magnet 28, so that the water receiving plate 30 can be driven to synchronously move under the attractive force action between the second magnet 28 and the iron block 29, and the phenomenon that the water receiving plate 30 blocks the cuttings falling on the conveying belt 15 is avoided.

The application and its embodiments have been described above by way of illustration and not limitation, and the application is illustrated in the accompanying drawings and described in the drawings in which the actual structure is not limited thereto. Therefore, if one of ordinary skill in the art is informed by this disclosure, the structural mode and the embodiments similar to the technical scheme are not creatively designed without departing from the gist of the present application.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The utility model provides a briquetting machine is smashed to smear metal, includes quick-witted case, feed inlet, bin outlet and control box, feed inlet and bin outlet all set up on the quick-witted case, the control box sets up on the quick-witted case, one side that is located the bin outlet in the machine case is provided with fortune material area, its characterized in that, the briquetting machine still includes:

The screening module comprises:

2. The chip breaking briquetting machine according to claim 1, wherein the material conveying structure comprises a material conveying dragon and a motor, the material conveying dragon is movably arranged in the material conveying runner, and the motor is arranged on the case and the output end of the motor is connected with the material conveying dragon.

3. The chip breaking briquetting machine of claim 1, wherein a briquetting cavity is provided in the chassis, a discharge window is provided between the briquetting cavity and a discharge port, and the briquetting module comprises:

4. A chip breaking briquetting machine according to claim 3, in which the actuating assembly comprises:

the threaded rod is movably arranged in the case;

5. The chip breaking briquetting machine according to claim 4, wherein the abutment bar is provided with a resistance reducing member for reducing frictional resistance generated when the abutment bar contacts the inclined surface.

6. The chip breaking briquetting machine of claim 4, wherein the plugging assembly comprises:

the first magnet is arranged on the first extrusion plate; and

7. The chip breaking briquetting machine according to claim 6, wherein a recovery groove is formed in the machine case, an iron block is movably arranged on one side of the second magnet in the machine case, a water receiving plate is arranged on the iron block, the water receiving plate is arranged on one side of a bottom plate, and a plurality of drain holes are formed in the bottom plate at equal intervals.