CN111873533A - Automatic forming equipment for honeycomb briquette - Google Patents

Abstract

The utility model provides a honeycomb briquette automatic molding equipment, includes the work box, the fixed stirring chamber, the pay-off chamber, the extrusion chamber, the removal chamber of being equipped with in the work box, the fixed baffle spout that is equipped with in the work box, the horizontal slip is equipped with the striker plate in the baffle spout, the striker plate right-hand member is fixed to be equipped with forming die, fixed through-hole post, buggy groove of being equipped with on the forming die, the last ejector piece that slides from top to bottom in the forming die, send the buggy into equipment after, the equipment can be automatic at the uniform velocity add water to equipment, with the mould of impressing behind buggy and the water stirring, remove the mould to extrusion piece below through extrusion piece extrusion buggy, once only with honeycomb briquette extrusion, push out the mould with finished product honeycomb briquette after, equipment is automatic with honeycomb briquette ejection device, has improved the work efficiency of honeycomb briquette production greatly, has ensured the finished product quality of honeycomb briquette.

Description

Automatic forming equipment for honeycomb briquette

Technical Field

The invention relates to the technical field of honeycomb briquette processing, in particular to automatic honeycomb briquette forming equipment.

Background

The fire coal is from exploitation to present, the straw of the firewood is ignited for many times, but the fast-burning environmental protection ignition honeycomb briquette developed by the center can be ignited directly by the lighter or the match, and the normal coal stove is environment-friendly, energy-saving and vigorous in fire and can be used directly. Is the latest improved scientific research result.

The briquette manufacturing equipment in the current market generally cannot directly manufacture finished honeycomb briquettes at one time, through holes are punched in the honeycomb briquettes through secondary processing, residual raw materials are fed back for processing when punching is needed to be punched, the operation procedures of honeycomb briquette processing are increased, tools for manually using clamps to extrude and form water-added pulverized coal in a straight shape are also provided, the quality of the produced honeycomb briquettes is difficult to guarantee, and therefore the honeycomb briquette automatic extrusion forming equipment is designed.

Disclosure of Invention

The invention aims to provide automatic honeycomb briquette forming equipment, which overcomes the problems.

The invention is realized by the following technical scheme.

The invention relates to automatic honeycomb briquette forming equipment which comprises a working box, wherein a stirring cavity, a feeding cavity, an extrusion cavity and a moving cavity are fixedly arranged in the working box, a baffle sliding groove is fixedly arranged in the working box, a baffle plate is arranged in the baffle sliding groove in a left-right sliding manner, a forming die is fixedly arranged at the right end of the baffle plate, a through hole column and a pulverized coal groove are fixedly arranged on the forming die, a material ejecting block is arranged in the forming die in a vertical sliding manner, two material ejecting threaded rods are symmetrically arranged at the lower end of the material ejecting block in a left-right manner, an ejecting gear is rotatably arranged on the material ejecting threaded rods, an ejecting threaded hole meshed with the material ejecting threaded rod is fixedly arranged in the ejecting gear, limiting blocks fixedly arranged on the through hole column are symmetrically arranged at the upper side and the lower side of the ejecting gear, a transfer rack is fixedly arranged at the right end of the forming, a rack support rod penetrating through the barrel groove is fixedly arranged on the left wall of the moving cavity, a material ejecting rack meshed with the material ejecting gear is fixedly arranged at the right end of the rack support rod, an expansion plate fixedly arranged on the rear wall of the moving cavity is fixedly arranged at the right end of the forming die, an output fixed plate is fixedly arranged at the right end of the working box, and an output conveyor belt arranged on the moving cavity and the output fixed plate is fixedly arranged at the right end of the expansion plate;

a scraping plate is fixedly arranged on the top wall of the stirring cavity, a limiting chute is fixedly arranged on the right end face of the scraping plate, a limiting slide block is arranged in the limiting chute in a sliding manner, a limiting rod is fixedly arranged at the right end of the limiting slide block, an extrusion threaded hole is fixedly arranged at the right end of the limiting rod, an extrusion support column is fixedly arranged in the extrusion threaded hole, an extrusion motor cavity is fixedly arranged on the top wall of the extrusion cavity, an extrusion motor is fixedly arranged on the top wall of the extrusion motor cavity, an extrusion threaded rod meshed with the extrusion support column is dynamically connected to the lower end of the extrusion motor, an extrusion block is fixedly arranged at the lower end of the extrusion threaded hole, and;

the water storage tank is fixedly arranged on the upper end face of the working tank, a water storage cavity is formed in the water storage tank, a rack sliding groove is formed in the front end face of the water storage tank, a rack sliding block is arranged in the rack sliding groove in a vertically sliding mode, a rack rod is fixedly arranged at the front end of the rack sliding block, linkage racks are symmetrically arranged on the rack rod in a bilateral mode, a gear rotating shaft is rotationally arranged on the front end face of the water storage tank, a main gear is fixedly arranged on the gear rotating shaft, two pinion shafts are rotationally arranged on the front end face of the water storage tank in a bilateral mode, pinion shafts meshed with the main gear are fixedly arranged on the pinion shafts, linkage sector gears meshed with the linkage racks are fixedly arranged on the pinion shafts, a water baffle is fixedly arranged at the lower end of the rack.

Further, the fixed silo of throwing that is equipped with on the stirring chamber roof, the fixed agitator motor chamber that is equipped with in the stirring chamber left wall, the fixed agitator motor that is equipped with on the left wall in agitator motor chamber, agitator motor left end power connection is equipped with the (mixing) shaft, the fixed stirring rod that is equipped with on the (mixing) shaft, the rotatory pay-off pivot that is equipped with on the stirring chamber roof, the fixed pay-off helical blade that is equipped with in the pay-off pivot

Further, the output mechanism comprises an output motor fixedly arranged on the top wall of the extrusion cavity, the front end of the output motor is in power connection with a rotary plate shaft, a rotary plate is fixedly arranged on the rotary plate shaft, a hinge rod is connected to the rotary plate in an intersecting manner, a limiting plate is fixedly arranged on the top wall of the extrusion cavity, a hinge push rod hinged to the hinge rod is arranged in the limiting plate in a left-right sliding manner, a linkage push plate is fixedly arranged at the left end of the hinge push rod, a fixed rod is fixedly arranged on the top wall of the extrusion cavity, a hinge push plate is hinged to the fixed rod, a reset spring is connected between the hinge push plate and the fixed rod, and the rotary plate shaft is in transmission connection with the output conveyor belt through an output.

Further, a transfer motor cavity is fixedly arranged in the work box, a transfer motor cavity is fixedly arranged in the transfer motor cavity, a transfer rotating shaft is arranged at the lower end of the transfer motor cavity in a power connection mode, a transfer gear meshed with the transfer rack is fixedly arranged at the lower end of the transfer rotating shaft, and a rack groove is fixedly arranged in the work box.

Furthermore, a stirring bevel gear is fixedly arranged at the left end of the stirring shaft, and a feeding bevel gear meshed with the stirring bevel gear is fixedly arranged on the feeding rotating shaft.

Further, the fixed pivot board that is equipped with in work box upper end, the rotation is equipped with the rotation axis in the pivot board, the rotation axis with transmission connection is equipped with the linkage belt pulley between the carousel axle, the rotation axis with transmission connection is equipped with the driving pulley between the gear pivot.

The invention has the beneficial effects that: after the pulverized coal is fed into the equipment, the equipment can automatically add water into the equipment at a constant speed, the pulverized coal and the water are stirred and then are pressed into the mold, the mold is moved to the position below the extrusion block to extrude the pulverized coal through the extrusion block, the honeycomb briquette is extruded and molded at one time, after the finished honeycomb briquette is pushed out of the mold, the equipment automatically pushes the honeycomb briquette out of the equipment, the working efficiency of honeycomb briquette production is greatly improved, and the quality of the finished honeycomb briquette is guaranteed.

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 view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic view of the structure at B-B in FIG. 2;

FIG. 4 is a schematic view of the structure at C-C in FIG. 1;

fig. 5 is a side view at D in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, 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 automatic contraction tidying bookshelf described in the attached figures 1-5 comprises a working box 10, a stirring cavity 18, a feeding cavity 19, an extrusion cavity 20 and a moving cavity 21 are fixedly arranged in the working box 10, a baffle sliding groove 31 is fixedly arranged in the working box 10, a baffle plate 32 is arranged in the baffle sliding groove 31 in a left-right sliding manner, a forming die 35 is fixedly arranged at the right end of the baffle plate 32, a through hole column 37 and a coal powder groove 34 are fixedly arranged on the forming die 35, a jacking block 36 is arranged in the forming die 35 in a middle-upper and-lower sliding manner, two jacking threaded rods 39 are bilaterally symmetrically arranged at the lower end of the jacking block 36, a jacking gear 41 is rotatably arranged on the jacking threaded rods 39, a jacking threaded hole 42 meshed with the jacking threaded rod 39 is fixedly arranged in the jacking gear 41, limiting blocks 40 fixedly arranged on the through hole column 37 are symmetrically arranged on the right side of the jacking gear 41, a transfer rack 27 is fixedly arranged at the right end of the forming die 35, a barrel groove 38 is arranged in the forming die 35, a rack support rod 43 penetrating through the barrel groove 38 is fixedly arranged on the left wall of the moving cavity 21, a material ejecting rack 44 meshed with the material ejecting gear 41 is fixedly arranged at the right end of the rack support rod 43, an expansion plate 45 fixedly arranged on the rear wall of the moving cavity 21 is fixedly arranged at the right end of the forming die 35, an output fixing plate 48 is fixedly arranged at the right end of the working box 10, and an output conveyor belt 46 arranged on the moving cavity 21 and the output fixing plate 48 is fixedly arranged at the right end of the expansion plate 45;

a scraping plate 30 is fixedly arranged on the top wall of the stirring cavity 18, a limiting sliding groove 51 is fixedly arranged on the right end face of the scraping plate 30, a limiting sliding block 52 is arranged in the limiting sliding groove 51 in a sliding manner, a limiting rod 53 is fixedly arranged at the right end of the limiting sliding block 52, an extrusion threaded hole 54 is fixedly arranged at the right end of the limiting rod 53, an extrusion support column 55 is fixedly arranged in the extrusion threaded hole 54, an extrusion motor cavity 56 is fixedly arranged on the top wall of the extrusion cavity 20, an extrusion motor 57 is fixedly arranged on the top wall of the extrusion motor cavity 56, an extrusion threaded rod 58 meshed with the extrusion support column 55 is arranged at the lower end of the extrusion motor 57 in a power connection manner, an extrusion block 49 is fixedly arranged at the lower end of the extrusion;

a water storage tank 84 is fixedly arranged on the upper end surface of the working box 10, a water storage cavity 73 is arranged in the water storage tank 84, the front end face of the water storage tank 84 is provided with a rack sliding groove 80, a rack sliding block 81 is arranged in the rack sliding groove 80 in a sliding manner up and down, the rack bar 79 is fixed at the front end of the rack sliding block 81, the rack bar 79 is symmetrically provided with linkage racks 85, a gear rotating shaft 74 is rotatably arranged on the front end surface of the water storage tank 84, a main gear 75 is fixedly arranged on the gear rotating shaft 74, two pinion shafts 76 are symmetrically and rotatably arranged on the front end surface of the water storage tank 84 in a left-right manner, the pinion shafts 76 are fixedly provided with pinion shafts 76 meshed with the main gear 75, a linkage sector gear 78 meshed with the linkage rack 85 is fixedly arranged on the auxiliary gear shaft 76, the lower end of the rack bar 79 is fixedly provided with a water baffle 82, and the front end face of the water storage tank 84 is fixedly provided with a water outlet groove 83 which penetrates through the front and the back.

Beneficially, a feeding groove 17 is fixedly arranged on the top wall of the stirring cavity 18, a stirring motor cavity 11 is fixedly arranged in the left wall of the stirring cavity 18, a stirring motor 12 is fixedly arranged on the left wall of the stirring motor cavity 11, a stirring shaft 13 is arranged at the left end of the stirring motor 12 in a power connection mode, a stirring rod 14 is fixedly arranged on the stirring shaft 13, a feeding rotating shaft 28 is rotatably arranged on the top wall of the stirring cavity 18, and a feeding spiral blade 29 is fixedly arranged on the feeding rotating shaft 28

Beneficially, the output mechanism 50 includes an output motor 62 fixedly arranged on the top wall of the extrusion chamber 20, a turntable shaft 63 is arranged at the front end of the output motor 62 in a power connection manner, a turntable 64 is fixedly arranged on the turntable shaft 63, a hinge rod 65 is arranged on the turntable 64 in an alternating manner, a limit plate 67 is fixedly arranged on the top wall of the extrusion chamber 20, a hinge push rod 66 hinged to the hinge rod 65 is arranged in the limit plate 67 in a left-right sliding manner, a linkage push plate 68 is fixedly arranged at the left end of the hinge push rod 66, a fixed rod 59 is fixedly arranged on the top wall of the extrusion chamber 20, a hinge push plate 60 is hinged to the fixed rod 59, a return spring 61 is arranged between the hinge push plate 60 and the fixed rod 59, and the turntable shaft 63 is in a transmission connection with the output conveyor belt 46 through an output.

Advantageously, a transfer motor cavity 22 is fixedly arranged in the work box 10, a transfer motor cavity 23 is fixedly arranged in the transfer motor cavity 22, a transfer rotating shaft 24 is arranged at the lower end of the transfer motor cavity 23 in a power connection mode, a transfer gear 25 meshed with the transfer rack 27 is fixedly arranged at the lower end of the transfer rotating shaft 24, and a rack groove 26 is fixedly arranged in the work box 10.

Beneficially, a stirring bevel gear 15 is fixedly arranged at the left end of the stirring shaft 13, and a feeding bevel gear 16 meshed with the stirring bevel gear 15 is fixedly arranged on the feeding rotating shaft 28.

Advantageously, a rotating shaft plate 69 is fixedly arranged at the upper end of the working box 10, a rotating shaft 70 is rotatably arranged in the rotating shaft plate 69, a linkage belt pulley 71 is arranged between the rotating shaft 70 and the turntable shaft 63 in a transmission connection, and a transmission belt pulley 72 is arranged between the rotating shaft 70 and the gear rotating shaft 74 in a transmission connection.

The working steps are as follows: the output motor 62 is started, the turntable shaft 63 rotates to drive the rotating shaft 70 and the gear rotating shaft 74 to rotate, so that the two linkage sector gears 78 are driven to rotate, the rack bar 79 is made to reciprocate up and down, the water outlet groove 83 is intermittently blocked by the water baffle 82, the pulverized coal is added into the stirring cavity 18 through the feeding groove 17, then the water flows out from the water outlet groove 83 intermittently, the stirring motor 12 is started to drive the stirring rod 14 to stir the pulverized coal and the water, and the stirred pulverized coal enters the feeding cavity 19 and is rotationally extruded and pressed into the pulverized coal groove 34 in the forming die 35 through the feeding spiral blade 29;

after filling, the transfer motor cavity 22 is started to drive the transfer rack 27 to move rightwards through the rotary transfer gear 25 so as to drive the forming die 35 to move rightwards, after the forming die 35 moves to the lower end of the extrusion block 49, the extrusion motor 57 is started to drive the extrusion threaded rod 58 to rotate so as to enable the extrusion threaded hole 54 and the extrusion block 49 to move downwards to extrude coal powder, the honeycomb briquette is extruded and formed, the extrusion motor 57 drives the extrusion threaded rod 58 to rotate reversely to drive the extrusion block 49 to reset, and the forming die 35 continues to move rightwards;

the material ejecting gear 41 is meshed with the material ejecting rack 44, the material ejecting rack 44 rotates to drive the material ejecting threaded rod 39 to move upwards so as to drive the material ejecting block 36 to move upwards, the honeycomb briquette is ejected, the rotating turntable 64 drives the linkage push plate 68 to move left and right in a reciprocating manner, the linkage push plate 68 pushes the upper end of the hinge push plate 60, the hinge push plate 60 pushes the honeycomb briquette rightwards to push an output device on the output conveyor belt 46, a worker takes away the honeycomb briquette, and the transfer gear 25 rotates reversely to drive the forming die 35 to reset to continue the processing work of the next honeycomb briquette.

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 (6)

1. An automatic forming device for honeycomb briquette comprises a working box, wherein a stirring cavity, a feeding cavity, an extrusion cavity and a moving cavity are fixedly arranged in the working box, a baffle sliding groove is fixedly arranged in the working box, a baffle plate is arranged in the baffle sliding groove in a left-right sliding manner, a forming die is fixedly arranged at the right end of the baffle plate, a through hole column and a pulverized coal groove are fixedly arranged on the forming die, and a jacking block is arranged in the forming die in a vertical sliding manner, and the automatic forming device is characterized in that two jacking threaded rods are symmetrically arranged at the lower end of the jacking block in the left-right direction, a jacking gear is rotatably arranged on the jacking threaded rods, jacking threaded holes meshed with the jacking threaded rods are fixedly arranged in the jacking gear, limiting blocks fixedly arranged on the through hole column are symmetrically arranged at the right side of the jacking gear in the vertical direction, a transfer rack is fixedly arranged at the right end of the, a rack support rod penetrating through the barrel groove is fixedly arranged on the left wall of the moving cavity, a material ejecting rack meshed with the material ejecting gear is fixedly arranged at the right end of the rack support rod, an expansion plate fixedly arranged on the rear wall of the moving cavity is fixedly arranged at the right end of the forming die, an output fixed plate is fixedly arranged at the right end of the working box, and an output conveyor belt arranged on the moving cavity and the output fixed plate is fixedly arranged at the right end of the expansion plate; a scraping plate is fixedly arranged on the top wall of the stirring cavity, a limiting chute is fixedly arranged on the right end face of the scraping plate, a limiting slide block is arranged in the limiting chute in a sliding manner, a limiting rod is fixedly arranged at the right end of the limiting slide block, an extrusion threaded hole is fixedly arranged at the right end of the limiting rod, an extrusion support column is fixedly arranged in the extrusion threaded hole, an extrusion motor cavity is fixedly arranged on the top wall of the extrusion cavity, an extrusion motor is fixedly arranged on the top wall of the extrusion motor cavity, an extrusion threaded rod meshed with the extrusion support column is dynamically connected to the lower end of the extrusion motor, an extrusion block is fixedly arranged at the lower end of the extrusion threaded hole, and; the water storage tank is fixedly arranged on the upper end face of the working tank, a water storage cavity is formed in the water storage tank, a rack sliding groove is formed in the front end face of the water storage tank, a rack sliding block is arranged in the rack sliding groove in a vertically sliding mode, a rack rod is fixedly arranged at the front end of the rack sliding block, linkage racks are symmetrically arranged on the rack rod in a bilateral mode, a gear rotating shaft is rotationally arranged on the front end face of the water storage tank, a main gear is fixedly arranged on the gear rotating shaft, two pinion shafts are rotationally arranged on the front end face of the water storage tank in a bilateral mode, pinion shafts meshed with the main gear are fixedly arranged on the pinion shafts, linkage sector gears meshed with the linkage racks are fixedly arranged on the pinion shafts, a water baffle is fixedly arranged at the lower end of the rack.

2. The automatic forming equipment for honeycomb briquette according to claim 1, wherein the top wall of the stirring chamber is fixedly provided with a feeding groove, the left wall of the stirring chamber is fixedly provided with a stirring motor chamber, the left wall of the stirring motor chamber is fixedly provided with a stirring motor, the left end of the stirring motor is provided with a stirring shaft in a power connection manner, the stirring shaft is fixedly provided with a stirring rod, the top wall of the stirring chamber is rotatably provided with a feeding rotating shaft, and the feeding rotating shaft is fixedly provided with a feeding helical blade.

3. The automatic forming equipment for honeycomb briquette according to claim 1, wherein the output mechanism comprises an output motor fixedly arranged on the top wall of the extrusion cavity, the front end of the output motor is provided with a rotary disc shaft in a power connection manner, a rotary disc is fixedly arranged on the rotary disc shaft, a hinge rod is connected with the rotary disc in an intersecting manner, a limiting plate is fixedly arranged on the top wall of the extrusion cavity, a hinge push rod hinged with the hinge rod is arranged in the limiting plate in a left-right sliding manner, a linkage push plate is fixedly arranged at the left end of the hinge push rod, a fixed rod is fixedly arranged on the top wall of the extrusion cavity, a hinge push plate is hinged with the fixed rod, a reset spring is connected between the hinge push plate and the fixed rod, and the rotary disc shaft is in transmission connection with the output conveyor belt through an output belt.

4. The automatic molding equipment for honeycomb briquette according to claim 1, characterized in that a transfer motor cavity is fixedly arranged in the work box, a transfer motor cavity is fixedly arranged in the transfer motor cavity, a transfer rotating shaft is arranged at the lower end of the transfer motor cavity in a power connection manner, a transfer gear meshed with the transfer rack is fixedly arranged at the lower end of the transfer rotating shaft, and a rack groove is fixedly arranged in the work box.

5. The automatic molding equipment for honeycomb briquette according to claim 1, wherein a stirring bevel gear is fixedly arranged at the left end of the stirring shaft, and a feeding bevel gear meshed with the stirring bevel gear is fixedly arranged on the feeding rotating shaft.

6. An automatic molding equipment for honeycomb briquette according to claim 1, characterized in that a rotating shaft plate is fixedly arranged at the upper end of the working box, a rotating shaft is rotatably arranged in the rotating shaft plate, a linkage belt pulley is arranged between the rotating shaft and the rotating shaft of the rotating disc in a transmission connection, and a transmission belt pulley is arranged between the rotating shaft and the rotating shaft of the gear in a transmission connection.

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