CN112457897A - Coal breaker for automatically making honeycomb briquette from raw materials - Google Patents

Abstract

The invention discloses a coal breaker for automatically making honeycomb briquette by raw materials, which comprises a machine body, wherein a crushing cavity with an upward opening is arranged in the machine body, a braking mechanism is arranged in the crushing cavity, a sliding cavity with a downward opening is arranged on the right inner wall of the crushing cavity, a weight measuring mechanism is arranged in the sliding cavity, a pushing cavity with a leftward opening is arranged on the right inner wall of the sliding cavity, a communicating cavity is arranged on the lower inner wall of the pushing cavity, a manufacturing mechanism is arranged in the communicating cavity, the invention has simple structure and convenient operation, can finish automatically crushing coal blocks through mechanical transmission when the coal blocks with large volume need to be crushed, when the honeycomb briquette is needed to be made, a certain amount of crushed coal particles can be mixed and stirred with water through mechanical transmission, and the well-stirred coal can be extruded and molded through mechanical transmission, so that the workload of workers is reduced.

Description

Coal breaker for automatically making honeycomb briquette from raw materials

Technical Field

The invention relates to the field of coal correlation, in particular to a coal breaker for automatically manufacturing honeycomb briquette by using raw materials.

Background

The honeycomb briquette is mainly used for household fire generation and heating, the raw material of the honeycomb briquette is mainly coal, large-volume coal blocks are required to be crushed into small-particle crushed coal, the crushed coal and equal-proportion water are stirred and mixed, and then the mixture is extruded and formed, and the crushed coal and the water are required to be manually finished.

At present, the coal briquette is crushed and the honeycomb briquette is made manually, so that the coal briquette crushing and honeycomb briquette making process is complicated, a large amount of physical strength of workers is consumed, and the workload of the workers is increased.

Disclosure of Invention

The invention aims to solve the technical problem of providing a coal breaker for automatically making honeycomb briquette by raw materials, which overcomes the problems that coal blocks cannot be automatically broken and honeycomb briquette cannot be automatically made and the like, and increases the functions of automatically breaking the coal blocks and automatically making honeycomb briquette.

The invention is realized by the following technical scheme.

The invention relates to a coal breaker for automatically making honeycomb briquette by raw materials, which comprises a machine body, wherein a crushing cavity with an upward opening is arranged in the machine body, a braking mechanism is arranged in the crushing cavity, a sliding cavity with a downward opening is arranged on the right inner wall of the crushing cavity, a weight measuring mechanism is arranged in the sliding cavity, a pushing cavity with a leftward opening is arranged on the right inner wall of the sliding cavity, a communicating cavity is arranged on the lower inner wall of the pushing cavity, a making mechanism is arranged in the communicating cavity, the making mechanism comprises a pneumatic cavity with a rightward opening on the left inner wall of the communicating cavity, a communicating block is connected in the pneumatic cavity in a sliding way, the right end of the communicating block is fixedly connected with a communicating rod, the right end of the communicating rod is fixedly connected with a fixed rod, a moving cavity with a leftward opening is arranged on the left inner wall of the communicating cavity, a moving, a driven cavity with a downward opening is arranged on the upper inner wall of the moving cavity, a stirring cavity communicated with the sliding cavity is arranged on the left inner wall of the moving cavity, a stirring shaft extending leftwards is rotatably arranged on the right inner wall of the driven cavity, a stirring wheel and a stirring bevel gear are fixedly connected on the stirring shaft, a driven shaft is rotatably arranged on the rear inner wall of the driven cavity, a driven wheel and a driven bevel gear are fixedly connected to the driven shaft, the driven bevel gear is meshed with the stirring bevel gear, the upper end face of the moving block is provided with thread teeth meshed with the driven wheel, a transition cavity is arranged on the left inner wall of the stirring cavity, a discharge cavity with a downward opening is arranged on the lower inner wall of the transition cavity, the other end of the air pressure cavity is arranged on the front inner wall of the discharge cavity, a limiting block is connected in the air pressure cavity in a sliding mode, and a limiting cavity with a forward opening is arranged on the rear inner wall of the discharge cavity.

Furthermore, the braking mechanism comprises two crushing shafts which are positioned on the front inner wall of the crushing cavity and extend backwards in a rotating manner, the crushing shafts are fixedly connected with crushing wheels, the rear side of the rear inner wall of the crushing cavity is provided with a power cavity, the rear inner wall of the power cavity is fixedly provided with two power motors, the front ends of the two power motors are both in power connection with the rear end of the crushing shaft, the right side of the crushing shaft is fixedly connected with the power wheels, the rear inner wall of the power cavity is provided with a rotating groove with a forward opening, a rotating shaft extending forwards is arranged in the rotating groove in a rotating manner, the rotating shaft is in key connection with the rotating wheels, the rear inner wall of the rotating groove is fixedly connected with a rotating torsion spring fixedly connected with the rear end of the rotating shaft, a rotating stay cord is wound on the rotating shaft, the right inner wall of the power cavity is provided with a linkage cavity with a leftward, the linkage cavity is characterized in that a linkage groove with a leftward opening is formed in the linkage block, the rotating wheels are slidably connected in the linkage groove, a linkage spring fixedly connected with the rear end of the linkage block is fixedly connected to the rear inner wall of the linkage cavity, and a linkage pull rope and a driving pull rope are fixedly connected to the rear end of the linkage block.

Further, the weight measuring mechanism comprises a sliding block which is positioned in the sliding cavity and is in sliding connection, a sliding spring which is fixedly connected with the lower end of the sliding block is fixedly connected to the lower inner wall of the sliding cavity, a braking cavity with a leftward opening is arranged on the right inner wall of the sliding cavity, a braking block is connected in the braking cavity in a sliding manner, a braking spring which is fixedly connected with the right end of the braking block is fixedly connected to the right inner wall of the braking cavity, the right end of the braking block is fixedly connected with the other end of the linkage pull rope, a braking pull rope is fixedly connected to the lower end of the braking block, a pushing block is connected in the pushing cavity in a sliding manner, the lower end of the pushing block is fixedly connected with the upper end of the fixed rod, a pushing spring which is fixedly connected with the right end of, the brake shaft is arranged on the front inner wall and the rear inner wall of the sliding cavity in a rotating mode, the brake plate is fixedly connected onto the brake shaft, the brake shaft is fixedly connected with the inner wall of the sliding cavity through a brake torsion spring, and the other end of the brake pull rope is wound on the brake shaft.

Furthermore, an upper cavity with a downward opening is arranged on the upper inner wall of the stirring cavity, an upper block is connected in the upper cavity in a friction way, the left end of the upper position block is fixedly connected with an upper position pull rope and the other end of the driving pull rope, the front inner wall and the rear inner wall of the stirring cavity are rotatably connected with a separation shaft, the partition shaft is fixedly connected with a partition plate, the partition shaft is fixedly connected with the inner wall of the stirring cavity through a partition torsional spring, a water storage cavity communicated with the water drainage cavity is arranged on the left inner wall of the stirring cavity, a driving shaft extending backwards is rotatably arranged on the front inner wall of the water drainage cavity, the driving shaft is fixedly connected with a driving sector wheel, the rear inner wall of the drainage cavity is provided with a torsion spring groove with a forward opening, the budget is fixedly connected with the driving torsion spring which drives the rear end of the shaft to be fixedly connected, and the driving shaft is wound with the other end of the upper pull rope.

Furthermore, the friction force between the upper cavity and the upper block is smaller than the torsion force of the driving torsion spring, the torsion force of the rotating torsion spring is larger than the elastic force of the pushing spring, and the elastic force of the braking spring is larger than the elastic force of the linkage spring.

The invention has the beneficial effects that: the automatic coal briquette crushing device is simple in structure and convenient and fast to operate, when large-volume coal briquettes need to be crushed, the coal briquettes can be automatically crushed through mechanical transmission, when honeycomb briquettes need to be manufactured, a certain amount of crushed coal particles and water can be mixed and stirred through the mechanical transmission, and the stirred coal materials can be extruded and molded through the mechanical transmission, so that the workload of workers is reduced.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram at A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram at B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram at C-C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram at D-D in FIG. 1 according to an embodiment of the present invention;

fig. 6 is an enlarged schematic structural diagram at E in fig. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The coal breaker for automatically making honeycomb briquette by raw materials, which is described in conjunction with the attached drawings 1-6, comprises a machine body 10, a crushing cavity 11 with an upward opening is arranged in the machine body 10, a braking mechanism 73 is arranged in the crushing cavity 11, a sliding cavity 27 with a downward opening is arranged on the right inner wall of the crushing cavity 11, a weight measuring mechanism 72 is arranged in the sliding cavity 27, a pushing cavity 37 with a leftward opening is arranged on the right inner wall of the sliding cavity 27, a communicating cavity 54 is arranged on the lower inner wall of the pushing cavity 37, a making mechanism 74 is arranged in the communicating cavity 54, the making mechanism 74 comprises a pneumatic cavity 58 with a rightward opening arranged on the left inner wall of the communicating cavity 54, a communicating block 57 is slidably connected in the pneumatic cavity 58, a communicating rod 55 is fixedly connected to the right end of the communicating block 57, a fixing rod 56 is fixedly connected to the right end of the communicating rod 55, a moving cavity 59 with a, a moving block 60 is connected in the moving cavity 59 in a sliding manner, the right end of the moving block 60 is fixedly connected with the left end of the fixed rod 56, a driven cavity 61 with a downward opening is arranged on the upper inner wall of the moving cavity 59, a stirring cavity 40 communicated with the sliding cavity 27 is arranged on the left inner wall of the moving cavity 59, a stirring shaft 62 extending leftwards is arranged on the right inner wall of the driven cavity 61 in a rotating manner, a stirring wheel 63 and a stirring bevel gear 64 are fixedly connected onto the stirring shaft 62, a driven shaft 65 is arranged on the rear inner wall of the driven cavity 61 in a rotating manner, a driven wheel 66 and a driven bevel gear 67 are fixedly connected onto the driven shaft 65, the driven bevel gear 67 is meshed with the stirring bevel gear 64, thread teeth meshed with the driven wheel 66 are arranged on the upper end surface of the moving block 60, a transition cavity 68 is arranged on the left inner wall of the stirring cavity 40, and a discharge, the other end of the air pressure cavity 58 is arranged on the front inner wall of the discharge cavity 69, a limiting block 70 is connected in the air pressure cavity 58 in a sliding mode, and a limiting cavity 71 with a forward opening is arranged on the rear inner wall of the discharge cavity 69.

Beneficially, the braking mechanism 73 includes two crushing shafts 12 rotatably disposed on the front inner wall of the crushing cavity 11 and extending backwards, the crushing shafts 12 are both fixedly connected with crushing wheels 13, the rear side of the rear inner wall of the crushing cavity 11 is provided with a power cavity 14, the rear inner wall of the power cavity 14 is fixedly provided with two power motors 15, the front ends of the two power motors 15 are both in power connection with the rear end of the crushing shaft 12, the right side of the crushing shaft 12 is fixedly connected with a power wheel 16, the rear inner wall of the power cavity 14 is provided with a rotating groove 17 with a forward opening, a rotating shaft 18 extending forwards is rotatably disposed in the rotating groove 17, the rotating shaft 18 is in key connection with a rotating wheel 21, the rear inner wall of the rotating groove 17 is fixedly connected with a rotating torsion spring 19 fixedly connected with the rear end of the rotating shaft 18, a rotating pull rope 20 is wound on the rotating shaft 18, and the right inner wall of the power cavity 14 is provided with a linkage, a linkage block 23 is connected in the linkage cavity 22 in a sliding manner, a linkage groove 24 with a leftward opening is formed in the linkage block 23, the rotating wheel 21 is connected in the linkage groove 24 in a sliding manner, a linkage spring 25 fixedly connected with the rear end of the linkage block 23 is fixedly connected on the rear inner wall of the linkage cavity 22, and a linkage pull rope 26 and a driving pull rope 47 are fixedly connected with the rear end of the linkage block 23.

Advantageously, the weight measuring mechanism 72 comprises a sliding block 32 slidably connected in the sliding cavity 27, a sliding spring 33 fixedly connected to the lower end of the sliding block 32 is fixedly connected to the lower inner wall of the sliding cavity 27, a brake cavity 34 with a leftward opening is formed on the right inner wall of the sliding cavity 27, a brake block 35 is slidably connected in the brake cavity 34, a brake spring 36 fixedly connected to the right end of the brake block 35 is fixedly connected to the right inner wall of the brake cavity 34, the other end of the linkage rope 26 is fixedly connected to the right end of the brake block 35, a brake rope 31 is fixedly connected to the lower end of the brake block 35, a pushing block 38 is slidably connected in the pushing cavity 37, the lower end of the pushing block 38 is fixedly connected to the upper end of the fixing rod 56, a pushing spring 39 fixedly connected to the right end of the pushing block 38 is fixedly connected to, the right end of the pushing block 38 is fixedly connected with the other end of the rotating pull rope 20, the front inner wall and the rear inner wall of the sliding cavity 27 are provided with a braking shaft 28 in a rotating mode, the braking shaft 28 is fixedly connected with a braking plate 29, the braking shaft 28 is fixedly connected with the inner wall of the sliding cavity 27 through a braking torsion spring 30, and the other end of the braking pull rope 31 is wound on the braking shaft 28.

Beneficially, an upper chamber 44 with a downward opening is arranged on the inner wall of the stirring chamber 40, an upper block 45 is connected in the upper chamber 44 in a friction manner, an upper pull rope 46 and the other end of the driving pull rope 47 are fixedly connected to the left end of the upper block 45, a separating shaft 41 is rotatably connected to the front inner wall and the rear inner wall of the stirring chamber 40, a separating plate 42 is fixedly connected to the separating shaft 41, the separating shaft 41 and the inner wall of the stirring chamber 40 are fixedly connected by a separating torsion spring 43, a water storage chamber 49 communicated with a water drainage chamber 48 is arranged on the left inner wall of the stirring chamber 40, a driving shaft 50 extending backwards is rotatably arranged on the front inner wall of the water drainage chamber 48, a driving sector wheel 51 is fixedly connected to the driving shaft 50, a torsion spring groove 52 with a forward opening is arranged on the rear inner wall of the water drainage chamber 48, a driving torsion spring 53 with a budget fixedly connected to the rear end of the driving shaft 50 is, the other end of the upper pulling rope 46 is wound around the driving shaft 50.

Advantageously, the friction force between the upper chamber 44 and the upper block 45 is smaller than the torsion force of the driving torsion spring 53, the torsion force of the rotating torsion spring 19 is greater than the elastic force of the pushing spring 39, and the elastic force of the braking spring 36 is greater than the elastic force of the linkage spring 25.

In the initial state, the carry cord 47 is in a relaxed state, the push spring 39 is in a compressed state, and the link spring 25 is in a compressed state.

When the coal crushing machine works, the two power motors 15 are started, the two power motors 15 work to rotate the two crushing shafts 12 in the same speed and in the opposite directions, the two crushing wheels 13 rotate in the same speed and in the opposite directions, coal blocks are put into the crushing cavity 11 and pass through the two crushing wheels 13, the coal blocks are crushed and fall on the lower inner wall of the crushing cavity 11, coal slag can slide into the sliding cavity 27 and fall on the sliding block 32, when the coal slag reaches a certain mass on the upper side of the sliding block 32, the sliding block 32 is pressed downwards, the sliding spring 33 is compressed, the sliding block 32 moves downwards, the brake block 35 is pushed rightwards by the sliding block 32, the brake spring 36 is compressed, the linkage pull rope 26 is released, the brake pull rope 31 is pulled, the brake torsion spring 30 is twisted, the brake shaft 28 and the brake plate 29 rotate clockwise, and the brake plate 29 separates the crushing cavity 11 from the sliding cavity 27 and is not communicated with each other, so that the cinder in the crushing chamber 11 can not get into in the sliding chamber 27, the linkage stay cord 26 is loosened and is made the linkage spring 25 reset, make linkage piece 23 and running wheel 21 move forward, make the running wheel 21 move to mesh with the power wheel 16, right side crushing axle 12 rotates and drives power wheel 16, running wheel 21, make axis of rotation 18 driven rotation, make the rotation torsional spring 19 twisted, the running stay cord 20 is loosened, make the push spring 39 reset, make the push block 38 promote to the left, make the dead lever 56, the connecting rod 55, the movable block 60 promote to the left together.

The connecting rod 55 moves leftwards to push the connecting block 57 leftwards, so that the air pressure in the air pressure cavity 58 is increased, the limiting block 70 is pushed backwards to enter the limiting cavity 71, the moving block 60 moves leftwards to drive the driven wheel 66 to rotate, the driven shaft 65 and the driven bevel gear 67 rotate, the driven bevel gear 67 rotates to drive the stirring bevel gear 64, the stirring shaft 62 and the stirring wheel 63 to rotate, the pushing block 38 moves leftwards to push the cinder on the upper side of the sliding block 32 leftwards and compress the cinder into honeycomb briquette, the separating plate 42 is pushed to rotate clockwise to rotate the separating torsion spring 43, at the moment, the moving block 60 enters the transition cavity 68 and pushes the cinder which falls on the lower inner wall of the stirring cavity 40 leftwards, when the pushing block 38 pushes the cinder on the sliding block 32 leftwards to completely fall into the stirring cavity 40 and onto the upper end face of the moving block 60, the separating plate 42 rotates clockwise by ninety degrees, the upper block 45 is pushed upwards by the partition plate 42, the upper pull rope 46 and the driving pull rope 47 are pulled, the upper pull rope 46 is pulled to drive the torsion spring 53 to be twisted, the driving shaft 50 and the driving sector wheel 51 rotate clockwise by one hundred eighty degrees, water in the groove of the driving sector wheel 51 falls on the upper end face of the moving block 60 to be mixed with coal cinder, the stirring wheel 63 is in a rotating state at the moment to stir the coal cinder and the water, the driving pull rope 47 is pulled to drive the linkage block 23 and the rotating wheel 21 to move backwards to an initial position, the rotating wheel 21 is not limited by the power wheel 16, the rotating torsion spring 19 and the rotating pull rope 20 are reset, the pushing block 38 moves rightwards to the initial position, the pushing spring 39 is compressed, the partition plate 42 and the upper block 45 are reset, the upper pull rope 46 is reset, the driving shaft 50 and the driving sector wheel 51 to rotate to the initial position, the fixed rod 56, the communication rod 55, the communication block 57 and the moving block 60 move rightwards to the initial position, coal cinder stirred at the upper side of the moving block 60 falls on the lower inner wall of the stirring cavity 40, the communication block 57 moves to the initial position, air pressure in the air pressure cavity 58 is recovered, the limiting block 70 moves to the initial position, honeycomb briquette at the upper side of the limiting block 70 falls outside through the discharge cavity 69, and the effect of circularly manufacturing the honeycomb briquette can be achieved by repeating the processes.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a with automatic coal breaker of preparation honeycomb briquette of raw and other materials, includes the organism, its characterized in that: a crushing cavity with an upward opening is arranged in the machine body, a braking mechanism is arranged in the crushing cavity, a sliding cavity with a downward opening is arranged on the right inner wall of the crushing cavity, a weight measuring mechanism is arranged in the sliding cavity, a pushing cavity with a leftward opening is arranged on the right inner wall of the sliding cavity, a communicating cavity is arranged on the lower inner wall of the pushing cavity, a manufacturing mechanism is arranged in the communicating cavity, the manufacturing mechanism comprises a pneumatic cavity with a rightward opening on the left inner wall of the communicating cavity, a communicating block is connected in the pneumatic cavity in a sliding manner, a communicating rod is fixedly connected at the right end of the communicating block, a fixed rod is fixedly connected at the right end of the communicating rod, a moving cavity with a leftward opening is arranged on the left inner wall of the communicating cavity, a moving block is connected in the moving cavity in a sliding manner, the right end of the, the movable cavity comprises a movable block, a sliding cavity, a driven shaft, a driven wheel, a driven bevel gear, a driven shaft, a driven bevel gear, a threaded tooth, a transition cavity and a limiting block, wherein the movable block is arranged on the left inner wall of the movable cavity, the stirring cavity is communicated with the sliding cavity, the driven shaft extends leftwards and is rotatably arranged on the right inner wall of the driven cavity, the driven bevel gear is meshed with the stirring bevel gear, the upper end face of the movable block is provided with the threaded tooth meshed with the driven wheel, the left inner wall of the stirring cavity is provided with the transition cavity, the lower inner wall of the transition cavity is provided with a discharge cavity with a downward opening, the front inner wall of the discharge cavity is provided with the other end of the air pressure cavity, the.

2. The coal pulverizer for automatically making honeycomb briquette from raw materials according to claim 1, characterized in that: the brake mechanism comprises two crushing shafts which are positioned on the front inner wall of the crushing cavity and extend backwards in a rotating manner, the crushing shafts are fixedly connected with crushing wheels, the rear side of the rear inner wall of the crushing cavity is provided with a power cavity, the rear inner wall of the power cavity is fixedly provided with two power motors, the front ends of the two power motors are both in power connection with the rear end of the crushing shaft, the right side of the crushing shafts is fixedly connected with the power wheels, the rear inner wall of the power cavity is provided with a rotating groove with a forward opening, a rotating shaft extending forwards is arranged in the rotating groove in a rotating manner, the rotating shaft is in key connection with the rotating wheels, the inner wall of the rotating groove is fixedly connected with a rotating torsion spring fixedly connected with the rear end of the rotating shaft, a rotating stay cord is wound on the rotating shaft, the right inner wall of the power cavity is provided with a linkage cavity with a, the linkage cavity is characterized in that a linkage groove with a leftward opening is formed in the linkage block, the rotating wheels are slidably connected in the linkage groove, a linkage spring fixedly connected with the rear end of the linkage block is fixedly connected to the rear inner wall of the linkage cavity, and a linkage pull rope and a driving pull rope are fixedly connected to the rear end of the linkage block.

3. The coal pulverizer for automatically making honeycomb briquette from raw material as claimed in claim 2, wherein: the weight measuring mechanism comprises a sliding block which is positioned in the sliding cavity and is in sliding connection, a sliding spring which is fixedly connected with the lower end of the sliding block is fixedly connected on the lower inner wall of the sliding cavity, a brake cavity with a leftward opening is arranged on the right inner wall of the sliding cavity, a brake block is connected in the brake cavity in a sliding manner, a brake spring which is fixedly connected with the right end of the brake block is fixedly connected on the right inner wall of the brake cavity, the right end of the brake block is fixedly connected with the other end of the linkage pull rope, the lower end of the brake block is fixedly connected with a brake pull rope, a push block is connected in the push cavity in a sliding manner, the lower end of the push block is fixedly connected with the upper end of the fixed rod, a push spring which is fixedly connected with the right end of the push block is fixedly connected on the right, the brake shaft is fixedly connected with a brake plate, the brake shaft is fixedly connected with the inner wall of the sliding cavity through a brake torsion spring, and the other end of the brake pull rope is wound on the brake shaft.

4. The coal pulverizer for automatically making honeycomb briquette from raw material as claimed in claim 2, wherein: an upper cavity with a downward opening is arranged on the upper inner wall of the stirring cavity, an upper block is connected in the upper cavity in a friction way, the left end of the upper position block is fixedly connected with an upper position pull rope and the other end of the driving pull rope, the front inner wall and the rear inner wall of the stirring cavity are rotatably connected with a separation shaft, the partition shaft is fixedly connected with a partition plate, the partition shaft is fixedly connected with the inner wall of the stirring cavity through a partition torsional spring, a water storage cavity communicated with the water drainage cavity is arranged on the left inner wall of the stirring cavity, a driving shaft extending backwards is rotatably arranged on the front inner wall of the water drainage cavity, the driving shaft is fixedly connected with a driving sector wheel, the rear inner wall of the drainage cavity is provided with a torsion spring groove with a forward opening, the budget is fixedly connected with the driving torsion spring which drives the rear end of the shaft to be fixedly connected, and the driving shaft is wound with the other end of the upper pull rope.

5. The coal pulverizer for automatically making honeycomb briquette from raw material as claimed in claim 4, wherein: the friction force between the upper cavity and the upper block is smaller than the torsion force of the driving torsion spring, the torsion force of the rotating torsion spring is larger than the elastic force of the pushing spring, and the elastic force of the braking spring is larger than the elastic force of the linkage spring.

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