CN215241700U - Interior wallboard production line - Google Patents

Abstract

The utility model relates to the technical field of inner wall panel production equipment, and discloses an inner wall panel production line, which comprises a stirring mixer and an extrusion molding machine, wherein the stirring mixer and the extrusion molding machine are connected through a first conveying mechanism, the inner wall panel production line also comprises a crusher, a dust remover, a collecting mechanism and a recycling conveying mechanism, the crusher is connected with the stirring mixer through a second conveying mechanism, the collecting mechanism comprises a collecting pipe and a plurality of collecting covers, the starting end of the recycling conveying mechanism is arranged below the discharge port of the extrusion molding machine, the starting end of the recycling conveying mechanism is vertically provided with a second recycling pipe, the tail end of the recycling conveying mechanism extends to the feed port of the crusher, the part of the recycling conveying mechanism below the stirring mixer is vertically provided with a first recycling pipe, the utility model can not only carry out secondary utilization after crushing waste materials, effectively reduce the production cost, and simultaneously improve the utilization rate of raw materials, the waste is reduced, the dust removal effect is good, and the production environment is effectively improved.

Description

Interior wallboard production line

Technical Field

The utility model relates to an interior wallboard production facility technical field especially relates to an interior wallboard production line.

Background

At present, the production line of the inner wallboard mainly comprises three production modes, namely a flat die, a vertical die and extrusion vibration molding. Wherein extrusion vibration molding is mainly through rotatory spiral of a set of screw rod with the mix backward propulsion, crowded reality, adds the muscle structure and distributes into in the upper and lower surface of slab with steel wire orientation, location ground automatically and continuously, and continuous slab is left to the extruder rear, treats that the quiet stops to cut to certain length after hardening, and current interior wallboard extrusion equipment has following defect:

(1) the main materials used for the production of the inner wallboard comprise sand, ceramsite, fly ash and the like, the market price of which continuously rises, the purchase is difficult, and the defect of high production cost is caused.

(2) Dust is generated in the production process, and the workshop environment is polluted.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model aims to provide an interior wallboard production line not only can carry out broken back reutilization to the waste material, effective reduction in production cost improves utilization of raw materials simultaneously, reduces the waste, and dust removal effect is good moreover, effectively improves the production environment.

The purpose of the utility model is realized by adopting the following technical scheme:

an inner wall panel production line comprises a stirring mixer and an extrusion molding machine, wherein the stirring mixer is connected with the extrusion molding machine through a first conveying mechanism, the first conveying mechanism is used for conveying materials after stirring and mixing to the extrusion molding machine, the inner wall panel production line further comprises a crusher, a dust remover, a collecting mechanism and a recycling conveying mechanism, the crusher and the dust remover are arranged on one side of the stirring mixer, the crusher is connected with the stirring mixer through a second conveying mechanism, and the second conveying mechanism is used for conveying the materials after crushing to the stirring mixer;

the collecting mechanism comprises a collecting pipe and a plurality of collecting covers, the collecting covers are correspondingly arranged above the crusher, the stirring mixer and the extrusion molding machine, one end of the collecting pipe is communicated with the collecting covers, and the other end of the collecting pipe is communicated with the dust remover;

the start end of the recycling conveying mechanism is arranged below a discharge port of the extrusion forming machine, a second recycling pipe is vertically arranged at the start end of the recycling conveying mechanism and used for collecting residual materials of the extrusion forming machine, the tail end of the recycling conveying mechanism extends to a feed port of the crusher, a first recycling pipe is vertically arranged at a part, located below the stirring mixer, of the recycling conveying mechanism, and the first recycling pipe is used for collecting residual materials of the stirring mixer.

Further, the stirring mixes the machine and includes fixed bolster, mixing drum and driving motor, the mixing drum rotates to set up on the fixed bolster, the both ends of mixing drum are provided with feed end and discharge end respectively, the mixing drum outer wall is provided with the rack along the circumferencial direction, driving motor sets up on the fixed bolster, driving motor's drive shaft is provided with the gear, the gear with the rack meshes mutually.

Further, the dust shaker is including collecting container, filter core and suction fan, the one end of collecting the container is connected the collecting pipe, the other end with the connection can be dismantled to the filter core, the filter core sets up the air intake department of suction fan.

Furthermore, the number of the collecting covers is not less than 3, and the collecting covers are respectively arranged above a feed inlet of the crusher, above a discharge end of the stirring mixer and above a feed hopper of the extrusion forming machine.

Further, the first conveying mechanism, the second conveying mechanism and the recovery conveying mechanism are all belt conveying mechanisms.

Compared with the prior art, the beneficial effects of the utility model reside in that:

(1) be provided with and retrieve conveying mechanism and breaker, the stirring mixes in the clout waste material of machine and extrusion molding machine can be respectively through the leading-in conveying mechanism that retrieves of first recovery tube and second recovery tube to carry to the breaker and carry out the breakage, the waste material after the breakage can be carried to the stirring through second conveying mechanism and mixes the machine and carry out the reutilization, effective reduction in production cost improves the utilization ratio of raw materials simultaneously, reduces extravagantly.

(2) The dust remover is provided with the dust remover and the collecting mechanism, strong suction force generated by the dust remover is achieved, dust generated in the production process is collected through the collecting pipe and the collecting cover, and the production environment is effectively improved.

The utility model discloses not only can carry out broken back reutilization to the waste material, effective reduction in production cost improves the utilization ratio of raw materials simultaneously, reduces the waste, and dust removal effect is good moreover, effectively improves the production environment.

Drawings

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

FIG. 2 is a rear view of an embodiment of the mixing blender;

fig. 3 is a schematic structural view of a dust collector in an embodiment of the present invention.

In the figure: 1. stirring and mixing the materials; 11. fixing a bracket; 12. a mixing drum; 121. a feeding end; 122. a rack; 123. a discharge end; 13. a drive motor; 131. a gear; 2. an extrusion molding machine; 21. a feed hopper; 3. a first conveying mechanism; 4. a crusher; 5. a second conveying mechanism; 6. a dust remover; 61. a collection container; 62. a filter element; 63. a suction fan; 7. a collection mechanism; 71. a collection pipe; 72. a collection hood; 8. a recovery conveying mechanism; 81. a first recovery pipe; 82. a second recovery pipe.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

As shown in fig. 1-3, an interior wallboard production line, including stirring mixer 1 and extrusion molding machine 2, stirring mixer 1 and extrusion molding machine 2 link to each other through first conveying mechanism 3, and first conveying mechanism 3 is used for carrying the material after the stirring is mixed to extrusion molding machine 2, and the initiating terminal of first conveying mechanism 3 sets up in the discharge end 123 below of stirring mixer 1, and the end setting of first conveying mechanism 3 is in the feeder hopper 21 top of extrusion molding machine 2.

Still include breaker 4, the dust shaker 6, collect mechanism 7 and retrieve conveying mechanism 8, breaker 4 and dust shaker 6 set gradually and mix the left side of machine 1 at the stirring, breaker 4 mixes machine 1 with the stirring through second conveying mechanism 5 and links to each other, second conveying mechanism 5 is used for carrying the material after the breakage to the stirring and mixes machine 1, the initiating terminal setting of second conveying mechanism 5 is in the below of breaker 4, the end setting of second conveying mechanism 5 is in the feed end 121 top that the stirring mixed machine 1.

The collecting mechanism 7 comprises a collecting pipe 71 and a plurality of collecting covers 72, the collecting covers 72 are correspondingly arranged above the crusher 4, the stirring mixer 1 and the extrusion molding machine 2, one end of the collecting pipe 71 is communicated with the collecting covers 72, the other end of the collecting pipe 71 is communicated with the dust remover 6, and during operation, strong suction force generated by the dust remover 6 is led to the collecting covers 72 through the collecting pipe 71, so that dust generated in the production process is timely sucked into the dust remover 6 for collection, and the centralized processing is facilitated.

Retrieve conveying mechanism 8's initiating terminal setting in the below of extrusion forming machine 2 discharge gate, the initiating terminal of retrieving conveying mechanism 8 is provided with second recovery tube 82 perpendicularly, second recovery tube 82 is fixed to be set up on retrieving conveying mechanism 8's support frame, second recovery tube 82 is used for collecting the clout waste material of extrusion forming machine 2, the workstation of extrusion forming machine 2 is run through to the upper end of second recovery tube 82, operating personnel can push into in the second recovery tube 82 with the clout waste material of extrusion forming machine 2 exhaust, make it through on the leading-in recovery conveying mechanism 8 of second recovery tube 82.

Retrieve conveying mechanism 8's end and extend to the feed inlet department of breaker 4, it is provided with first recovery pipe 81 perpendicularly to retrieve the part that conveying mechanism 8 is located the stirring and mixes machine 1 below, first recovery pipe 81 is fixed to be set up on retrieving conveying mechanism 8's support frame, first recovery pipe 81 is used for collecting the clout waste material that the stirring mixed machine 1, the discharge end 123 that the stirring mixed machine 1 was mixed is run through to the upper end of first recovery pipe 81, first recovery pipe 81 upper end can be dismantled simultaneously and be provided with the baffle, dismantle behind the baffle, the leading-in recovery conveying mechanism 8 of mixture material accessible first recovery pipe 81 of discharge end 123 is gone up.

As a preferred embodiment, the stirring mixer 1 includes a fixed bracket 11, a mixing barrel 12 and a driving motor 13, the mixing barrel 12 is rotatably disposed on the fixed bracket 11, a feeding end 121 and a discharging end 123 are respectively disposed at two ends of the mixing barrel 12, a rack 122 is disposed on an outer wall of the mixing barrel 12 along a circumferential direction, the driving motor 13 is disposed on the fixed bracket 11, a gear 131 is disposed on a driving shaft of the driving motor 13, the gear 131 is engaged with the rack 122, in operation, the driving motor 13 drives the gear 131 to transmit power to the mixing barrel 12 through the rack 122 so as to rotate at a constant speed, so as to stir and mix the material input from the feeding end 121, and finally the material is discharged into the first conveying mechanism 3 through the discharging end 123, so as to convey the material to the extrusion molding machine 2 for a molding process.

As a preferred embodiment, the dust remover 6 comprises a collecting container 61, a filter element 62 and a suction fan 63, one end of the collecting container 61 is connected with a collecting pipe 71, the other end of the collecting container is detachably connected with the filter element 62, the filter element 62 is arranged at an air inlet of the suction fan 63, the collecting container 61 is connected with the air inlet of the filter element 62 through a bolt, dust is filtered by the filter element 62 due to the suction force of the suction fan 63 and is collected in the collecting container 61, and an operator can periodically detach the collecting container 61 for cleaning or replacing, so that the dust removing effect is ensured.

As a preferred embodiment, the number of the collecting covers 72 is not less than 3, and the collecting covers 72 are respectively arranged above the feeding hole of the crusher 4, the discharging end 123 of the stirring mixer 1 and the feeding hopper 21 of the extrusion molding machine 2, so that dust generated during the operation of the crusher 4, the stirring mixer 1 and the extrusion molding machine 2 can be timely collected through the collecting covers 72, and the dust removal efficiency can be improved.

In a preferred embodiment, the first conveying mechanism 3, the second conveying mechanism 5 and the recovery conveying mechanism 8 are all belt conveying mechanisms, so that the structure is simple, and the conveying height can be flexibly adjusted.

The utility model discloses a theory of operation:

during operation, mix the machine 1 with the material through throwing into the stirring, mix through the stirring of a period and discharge in first conveying mechanism 3, carry to extrusion molding machine 2 and carry out the shaping process, after the shaping process, the stirring mixes the clout waste material of machine 1 and extrusion molding machine 2, in operating personnel can be respectively through leading-in recovery conveying mechanism 8 of first recovery pipe 81 and second recovery pipe 82, thereby carry to breaker 4 and carry out the breakage, waste material after the breakage can carry to mixing machine 1 through second conveying mechanism 5 and carry out the reutilization. Meanwhile, the dust collector 6 generates strong suction force, and dust generated in the production process is collected through the collecting pipe 71 and the collecting cover 72, so that the dust collection effect is achieved.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (5)

1. The utility model provides an interior wallboard production line, mixes machine and extrusion moulding machine including the stirring, the stirring mixes machine and extrusion moulding machine and links to each other through first conveying mechanism, first conveying mechanism is used for mixing the material after the stirring carry extremely extrusion moulding machine, its characterized in that: the stirring mixer is characterized by further comprising a crusher, a dust remover, a collecting mechanism and a recycling conveying mechanism, wherein the crusher and the dust remover are arranged on one side of the stirring mixer, the crusher is connected with the stirring mixer through a second conveying mechanism, and the second conveying mechanism is used for conveying crushed materials to the stirring mixer;

the collecting mechanism comprises a collecting pipe and a plurality of collecting covers, the collecting covers are correspondingly arranged above the crusher, the stirring mixer and the extrusion molding machine, one end of the collecting pipe is communicated with the collecting covers, and the other end of the collecting pipe is communicated with the dust remover;

the start end of the recycling conveying mechanism is arranged below a discharge port of the extrusion forming machine, a second recycling pipe is vertically arranged at the start end of the recycling conveying mechanism and used for collecting residual materials of the extrusion forming machine, the tail end of the recycling conveying mechanism extends to a feed port of the crusher, a first recycling pipe is vertically arranged at a part, located below the stirring mixer, of the recycling conveying mechanism, and the first recycling pipe is used for collecting residual materials of the stirring mixer.

2. An interior wall panel production line according to claim 1, wherein: the stirring mixes machine and includes fixed bolster, mixing drum and driving motor, the mixing drum rotates to set up on the fixed bolster, the both ends of mixing drum are provided with feed end and discharge end respectively, the mixing drum outer wall is provided with the rack along the circumferencial direction, driving motor sets up on the fixed bolster, driving motor's drive shaft is provided with the gear, the gear with the rack meshes mutually.

3. An interior wall panel production line according to claim 1, wherein: the dust shaker is including collecting container, filter core and suction fan, the one end of collecting container is connected the collecting pipe, the other end with the connection can be dismantled to the filter core, the filter core sets up the air intake department of suction fan.

4. An interior wall panel production line according to claim 1, wherein: the number of the collecting covers is not less than 3, and the collecting covers are respectively arranged above a feed inlet of the crusher, above a discharge end of the stirring mixer and above a feed hopper of the extrusion forming machine.

5. An interior wall panel production line according to claim 1, wherein: and the first conveying mechanism, the second conveying mechanism and the recovery conveying mechanism are all belt conveying mechanisms.

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