CN216654693U - Energy-saving production equipment for energy-saving insulating bricks - Google Patents

Abstract

The utility model discloses the field of insulating brick production, in particular to energy-saving production equipment for energy-saving insulating bricks, which comprises a shell, a fixed cylinder and a sliding cylinder, wherein the fixed cylinder is rotatably inserted into the inner side of the shell; the beneficial effects are that: the utility model provides energy-saving production equipment for energy-saving insulating bricks, which optimizes the structure of the traditional energy-saving insulating brick production equipment and ensures that the equipment has higher applicability.

Description

Energy-saving production equipment for energy-saving insulating bricks

Technical Field

The utility model relates to the field of insulating brick production, in particular to energy-saving production equipment for an energy-saving insulating brick.

Background

The insulating brick is a novel building material synthesized by using high polymer materials. The multifunctional heat-insulating decorative board can comprehensively replace common decorative materials such as aluminum-plastic boards, honeycomb boards, curtain walls and the like, is multifunctional and integrated, can meet two functional requirements of heat insulation and decoration by one-time construction, and is level, smooth, attractive and strong in decoration. The multifunctional wall is mainly suitable for toilets, kitchens, television background walls, bedrooms, outer walls and the like. The flower color is bright, the specifications are various, the cutting can be carried out at will, and the cut surface is neat. The strength product is made up by using high-quality tabular corundum and mullite as aggregate, using sillimanite composite as matrix, adding special additive and small quantity of rare earth oxide, mixing them, high-pressure forming and high-temp. The materials produced by the common light heat-insulation refractory brick comprise clay, high-alumina high-strength floating bead brick, low-iron mullite, high-alumina light heat-insulation refractory brick and diatomite heat-insulation refractory brick, and the raw materials need to be crushed and sieved in the manufacture of the heat-insulation brick; therefore, the utility model provides energy-saving production equipment for an energy-saving insulating brick to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide energy-saving production equipment for energy-saving insulating bricks, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides an energy-conserving production facility for insulating brick, includes shell, a fixed section of thick bamboo and a sliding barrel, the inboard rotation of shell is pegged graft and is had a fixed section of thick bamboo, and the inboard rotation of shell is pegged graft and is had the sliding barrel that can adjust crushing size, and the shell left surface is installed and is driven a fixed section of thick bamboo and a sliding barrel pivoted rotating-structure, and the sliding-structure of control sliding barrel sliding distance is installed on the shell right side.

Preferably, the rotating structure comprises a fixed rotating shaft, a sliding rotating shaft is arranged in front of the fixed rotating shaft, an adjusting rotating shaft is installed below the fixed rotating shaft in an inclined mode, the adjusting rotating shaft is rotatably inserted into a telescopic rod, the telescopic rod is located in a fixed block, and a base plate is fixedly connected to the lower end face of the fixed block.

Preferably, fixed rotating shaft and fixed cylinder fixed connection, fixed rotating shaft and fixed cylinder rotate and peg graft on the shell, slip pivot and slip cylinder fixed connection, the slip cylinder rotates with the slip cylinder and pegs graft on the shell, the adjustment pivot is connected through the track with slip pivot, fixed rotating shaft, the telescopic link is the L type pole that the disk was installed to the lower terminal surface, telescopic link and fixed block sliding fit, install the spring in the fixed block, the spring diameter is less than terminal surface diameter under the telescopic link, backing plate and shell side fixed connection.

Preferably, sliding structure includes the carousel, and swing joint has the dead lever on the carousel, and the fixed orifices has been seted up to shell right flank equidistance, and the slip hole has been seted up to the fixed orifices below.

Preferably, the turntable is of an annular structure with a T-shaped section, the turntable is fixedly connected with the sliding cylinder, the turntable penetrates through the sliding hole, the turntable is in sliding fit with the sliding hole, the fixed rod is in sliding fit with the telescopic rod, and the fixed rod is matched with the fixed hole.

Preferably, the sliding barrel comprises a grinding barrel, the grinding barrel is fixedly connected with the sliding rotating shaft, a gear block is inserted into the right side of the grinding barrel in a rotating mode, a rack is installed below the gear block, the rack is fixedly connected with the side face of the shell, a rectangular hole is formed in the side face of the shell, the gear block penetrates through the rectangular hole, and the gear block is in sliding fit with the rectangular hole.

Compared with the prior art, the utility model has the beneficial effects that:

1. the energy-saving production equipment for the energy-saving insulating brick provided by the utility model is used for carrying out structure optimization on the traditional energy-saving insulating brick production equipment, and the device can adjust the crushing size through the use of a sliding structure, so that the raw materials can be more conveniently ground.

2. The energy-saving production equipment for the energy-saving insulating bricks provided by the utility model is used for carrying out structural optimization on the traditional energy-saving insulating brick production equipment, and can realize that the fixed cylinder and the sliding cylinder can rotate through the rotating structure while the function of adjusting the grinding size is not influenced, so that the grinding efficiency is higher.

Drawings

FIG. 1 is a schematic structural view of an energy-saving production apparatus for an energy-saving insulating brick of the present invention;

FIG. 2 is a schematic structural view of a rotating structure and a sliding structure of the energy-saving production equipment for the energy-saving insulating brick of the utility model;

FIG. 3 is a schematic view of the structure of a sliding cylinder of the energy-saving production equipment for the energy-saving insulating brick of the present invention;

FIG. 4 is a schematic view of the rack structure of the energy-saving production equipment for the energy-saving insulating brick of the utility model.

In the figure: 1. a housing; 2. a fixed cylinder; 3. a rotating structure; 31. fixing the rotating shaft; 32. a sliding shaft; 33. adjusting the rotating shaft; 34. a telescopic rod; 35. a fixed block; 36. a base plate; 4. a sliding cylinder; 41. a grinding cylinder; 42. a gear block; 5. a sliding structure; 51. a turntable; 52. fixing the rod; 53. a fixing hole; 54. A slide hole; 6. a rectangular hole; 7. a rack.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. The embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without any inventive work, belong to the scope of protection of the present invention.

Referring to fig. 1 to 4, the present invention provides a technical solution: the utility model provides an energy-conserving production facility for insulating brick, includes shell 1, a fixed section of thick bamboo 2 and a sliding barrel 4, and 1 inboard rotation of shell is pegged graft and is had a fixed section of thick bamboo 2, and 1 inboard rotation of shell is pegged graft and is had a sliding barrel 4 that can adjust crushing size, and 1 left surface of shell is installed and is driven a fixed section of thick bamboo 2 and a sliding barrel 4 pivoted rotating-structure 3, and the sliding-structure 5 of controlling 4 sliding distance of sliding barrel is installed on 1 right side of shell.

The rotating structure 3 comprises a fixed rotating shaft 31, a sliding rotating shaft 32 is arranged in front of the fixed rotating shaft 31, an adjusting rotating shaft 33 is installed below the fixed rotating shaft 31 in an inclined mode, the adjusting rotating shaft 33 is rotatably inserted into an expansion rod 34, the expansion rod 34 is located in a fixed block 35, and a base plate 36 is fixedly connected to the lower end face of the fixed block 35.

The fixed rotating shaft 31 is fixedly connected with the fixed cylinder 2, the fixed rotating shaft 31 and the fixed cylinder 2 are rotatably inserted on the shell 1, the fixed rotating shaft 31 and the fixed cylinder 2 can rotate on the shell 1 and can not move, the sliding rotating shaft 32 is fixedly connected with the sliding cylinder 4, the sliding cylinder 4 and the sliding cylinder 4 are rotatably inserted on the shell 1, the sliding cylinder 4 and the sliding cylinder 4 can rotate on the shell 1 and can not move, the adjusting rotating shaft 33 is connected with the sliding rotating shaft 32 and the fixed rotating shaft 31 through a crawler, the adjusting rotating shaft 33, the sliding rotating shaft 32 and the fixed rotating shaft 31 are rotated through the crawler, the adjusting rotating shaft 33 is rotatably inserted on the telescopic rod 34, the adjusting rotating shaft 33 can rotate on the telescopic rod 34, the telescopic rod 34 is an L-shaped rod with a circular piece arranged on the lower end face, the telescopic rod 34 is in sliding fit with the fixed block 35, the telescopic rod 34 can rotate in the fixed block 35, and a spring is arranged in the fixed block 35, the telescopic rod 34 is made to move up and down by the elasticity of the spring, meanwhile, the caterpillar tracks among the rotating shaft 33, the sliding rotating shaft 32 and the fixed rotating shaft 31 are adjusted, the diameter of the spring is smaller than that of the lower end face of the telescopic rod 34, the spring is convenient to use, and the backing plate 36 is fixedly connected with the side face of the shell 1.

Sliding structure 5 includes carousel 51, and swing joint has dead lever 52 on the carousel 51, and fixed orifices 53 have been seted up to shell 1 right side equidistance, and sliding hole 54 has been seted up to fixed orifices 53 below.

The turntable 51 is an annular structure with a T-shaped section, the turntable 51 is fixedly connected with the sliding cylinder 4, the turntable 51 penetrates through the sliding hole 54, the turntable 51 is in sliding fit with the sliding hole 54, the turntable 51 slides in the sliding hole 54, the fixed rod 52 is in sliding fit with the telescopic rod 34, the fixed rod 52 slides in the telescopic rod 34, the fixed rod 52 is matched with the fixed hole 53, and the fixed rod 52 fixes the position of the sliding cylinder 4 when inserted into the fixed hole 53.

The sliding cylinder 4 comprises a grinding cylinder 41, the grinding cylinder 41 is fixedly connected with the sliding rotating shaft 32, a gear block 42 is inserted into the right side of the grinding cylinder 41 in a rotating mode, the gear block 42 is enabled to rotate on the grinding cylinder 41 and can drive the grinding cylinder 41 to move, a rack 7 is installed below the gear block 42, the rack 7 is fixedly connected with the side face of the shell 1, the gear block 42 is meshed with the rack 7, the gear block 42 is enabled to rotate to drive the sliding cylinder 4 to slide, the side face of the shell 1 is provided with a rectangular hole 6, the gear block 42 penetrates through the rectangular hole 6, the gear block 42 is in sliding fit with the rectangular hole 6, and the gear block 42 is enabled to slide on the rectangular hole 6.

The working principle is as follows: when the grinding device works, the motor is connected to the outer side of the fixed rotating shaft 31, the motor drives the fixed rotating shaft 31 to rotate, the sliding rotating shaft 32 is driven to rotate through the crawler, raw materials are inverted to be ground in the fixed rotating shaft, if the grinding size needs to be adjusted, the fixed rod 52 is pulled out of the fixed hole 53, the rotating disc 51 is rotated, the gear block 42 is driven to rotate on the rack 7, meanwhile, the gear block 42 can move back and forth due to the fact that the rack 7 cannot move, the gear block 42 drives the grinding cylinder 41 to move back and forth to adjust the distance between the gear block 42 and the fixed rotating shaft 31, when the distance between the grinding cylinder 41 is adjusted, the sliding rotating shaft 32 can move along with the sliding, the telescopic rod 34 drives the adjusting rotating shaft 33 to move up and down through the elasticity of the spring in the fixed block 35, and normal use of the crawler is guaranteed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an energy-conserving production facility for insulating brick which characterized in that: including shell (1), solid fixed cylinder (2) and sliding tube (4), shell (1) inboard is rotated and is pegged graft and have solid fixed cylinder (2), and shell (1) inboard is rotated and is pegged graft and have sliding tube (4) that can adjust crushing size, and shell (1) left surface is installed and is driven solid fixed cylinder (2) and sliding tube (4) pivoted rotating-structure (3), and sliding-structure (5) of control sliding tube (4) sliding distance are installed on shell (1) right side.

2. The energy-saving production equipment for the energy-saving insulating brick according to claim 1, characterized in that: rotating-structure (3) are equipped with slip pivot (32) including fixed pivot (31), fixed pivot (31) the place ahead, and adjustment pivot (33) are installed to fixed pivot (31) oblique below, and adjustment pivot (33) rotate and peg graft on telescopic link (34), and telescopic link (34) are located fixed block (35), terminal surface fixedly connected with backing plate (36) under fixed block (35).

3. The energy-saving production equipment for the energy-saving insulating brick according to claim 2, characterized in that: fixed rotating shaft (31) and a fixed cylinder (2) fixed connection, fixed rotating shaft (31) and a fixed cylinder (2) rotate and are inserted on shell (1), slide rotating shaft (32) and a sliding cylinder (4) fixed connection, sliding cylinder (4) and sliding cylinder (4) rotate and are inserted on shell (1), adjusting rotating shaft (33) and slide rotating shaft (32), fixed rotating shaft (31) is connected through a crawler belt, telescopic link (34) is an L-shaped rod with a wafer installed on the lower end face, telescopic link (34) and fixed block (35) are in sliding fit, a spring is installed in fixed block (35), the diameter of the spring is smaller than that of the lower end face of telescopic link (34), and backing plate (36) and shell (1) side face fixed connection.

4. The energy-saving production equipment for the energy-saving insulating brick according to claim 1, characterized in that: sliding construction (5) are including carousel (51), and swing joint has dead lever (52) on carousel (51), and fixed orifices (53) have been seted up to shell (1) right flank equidistance, and sliding hole (54) have been seted up to fixed orifices (53) below.

5. The energy-saving production equipment for the energy-saving insulating brick according to claim 4, characterized in that: the rotary table (51) is of an annular structure with a T-shaped section, the rotary table (51) is fixedly connected with the sliding cylinder (4), the rotary table (51) penetrates through the sliding hole (54), the rotary table (51) is in sliding fit with the sliding hole (54), the fixing rod (52) is in sliding fit with the telescopic rod (34), and the fixing rod (52) is matched with the fixing hole (53).

6. The energy-saving production equipment for the energy-saving insulating brick according to claim 1, characterized in that: sliding barrel (4) are including grinding a section of thick bamboo (41), grind a section of thick bamboo (41) and slip pivot (32) fixed connection, grind a section of thick bamboo (41) right side and rotate to peg graft and have gear block (42), rack (7) are installed to gear block (42) below, rack (7) and shell (1) side fixed connection, rectangular hole (6) have been seted up to shell (1) side, rectangular hole (6) are passed in gear block (42), gear block (42) and rectangular hole (6) sliding fit.

Images