CN212148198U - Energy-conserving building materials heat preservation decorative board knurling device - Google Patents

Abstract

An energy-saving building material heat-insulation decorative plate embossing device comprises a conveying mechanism, a lifting mechanism and an embossing mechanism, wherein the conveying mechanism is arranged below the embossing mechanism, and the embossing mechanism is connected with the lifting mechanism; the lifting mechanism comprises a stand column, vertical slide rails, a slide seat, a lead screw pair and a lead screw motor, wherein the stand column is arranged on two sides of the conveying mechanism, the vertical slide rails are arranged on the stand column, the slide seat is connected to the vertical slide rails through slide blocks, the lead screw pair is also arranged on the vertical shaft, a lead screw of the lead screw pair is connected to the stand column through a bearing seat, a lead screw nut of the lead screw pair is connected to the slide seat, and one end of a lead screw of the lead screw pair is; the embossing mechanism comprises a machine plate, a chain group and an embossing module; the utility model discloses a plurality of knurling module vertical lift embosses the face to avoid the damage to the face, be worth wideling popularize.

Description

Energy-conserving building materials heat preservation decorative board knurling device

Technical Field

The utility model belongs to the technical field of energy-conserving building materials technique and specifically relates to an energy-conserving building materials heat preservation decorative board knurling device.

Background

The concept of building energy conservation is rich in connotation, and in developed countries, the theory goes through three stages: building energy conservation, energy conservation in the building and improvement of energy utilization efficiency in the building. In China, building energy conservation is still achieved at present, but the meaning of the building energy conservation is as far as the meaning of the third layer, namely, the building energy conservation building energy source is reasonably used and effectively utilized, the energy utilization rate is continuously improved, and the building energy consumption is reduced. The building energy consumption includes a broad building energy consumption and a narrow building energy consumption. At present, the building energy consumption is often narrowly defined building energy consumption, namely resources and energy which must be consumed in the construction process of a building; the generalized building energy consumption also includes maintaining the resources consumed in the daily use process of the building, including energy sources in the aspects of heating, air conditioning, hot water supply, cooking, lighting, household appliances and the like.

The heated board is the energy-conserving building materials of an extensive use, and general heated board uses as the decorative board, need carry out the knurling to it and decorate, because the heated board material is comparatively loose, destroys the face easily when carrying out the knurling through the roller among the prior art, this is because the convex terrace die in roller surface has one with the panel of face contained angle when the contact with break away from the face, the face at the frizzing knurling edge leads to the face to damage easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving building materials heat preservation decorative board knurling device of face avoids damaging.

In order to achieve the above object, the utility model provides a following technical scheme: an energy-saving building material heat-insulation decorative plate embossing device comprises a conveying mechanism, a lifting mechanism and an embossing mechanism, wherein the conveying mechanism is arranged below the embossing mechanism, and the embossing mechanism is connected with the lifting mechanism;

the lifting mechanism comprises a stand column, vertical slide rails, a slide seat, a lead screw pair and a lead screw motor, wherein the stand column is arranged on two sides of the conveying mechanism, the vertical slide rails are arranged on the stand column, the slide seat is connected to the vertical slide rails through slide blocks, the lead screw pair is further arranged on the vertical shaft, a lead screw of the lead screw pair is connected to the stand column through a bearing seat, a lead screw nut of the lead screw pair is connected to the slide seat, and one end of a lead screw of the lead screw pair is. The screw rod motor drives the screw rod of the screw rod pair to rotate, the sliding seat is driven to move through the screw thread effect, and then the machine plate is driven to move up and down along with the sliding seat, so that the embossing mechanism is driven to move up and down.

The embossing mechanism comprises machine plates, chain groups and embossing modules, two ends of each machine plate are respectively fixedly connected with sliding seats on stand columns on two sides, two chain groups are arranged between the two machine plates, a plurality of embossing modules are arranged between the two chain groups, each chain group comprises a chain wheel and a chain, the chains are wound on the two chain wheels, the chain wheels are arranged on the machine plates on two sides through chain wheel shafts, and the chain wheel shafts are connected with the machine plates through bearings;

the embossing module comprises a mounting seat and an embossing block, the front side and the rear side of the mounting seat are connected with chains, a protruding clamping strip is arranged at the bottom of the mounting seat, a groove matched with the clamping strip is formed in the top of the embossing block, the clamping strip is embedded into the groove, and the clamping strip and the embossing block are fixed through screws; the top of the embossing block is provided with a bearing roller, the center of the bearing roller is provided with a roller shaft, and two ends of the roller shaft are connected with the mounting seat through bearings; a baffle is arranged between the two machine plates, and the bottom surface of the baffle is contacted with the bearing roller of the mounting seat of the embossing module at the bottom of the chain group. The knurling piece passes through the screw and is connected with the mount pad is detachable, and the top of mount pad sets up the bearing roller, plays the reaction force that bears the knurling module and receive when the knurling piece pushes down, and can not influence the removal of knurling module again when the chain is followed to the knurling module and removes.

The chain wheel shaft of the chain wheel on the left side of the chain group is connected with the output shaft of the embossing motor through a coupler or a spline, and the embossing motor is arranged on the machine plate through a motor base. The chain wheel is driven to rotate by the embossing motor, and the chain is driven to move by the chain wheel, so that the embossing module connected with the chain is driven to move.

As a further aspect of the present invention: the chain wheels on the left sides of the two chain groups share one chain wheel shaft, and the chain wheels on the right sides share one chain wheel shaft. Synchronous rotation is realized.

As a further aspect of the present invention: and shaft seats are arranged on two sides of the top of the mounting seat, and the roll shaft of the bearing roll is connected with the shaft seats. The height of the shaft seat is lower than that of the upper edge of the bearing roller.

As a further aspect of the present invention: the mounting base is fixedly connected with the chain plate of the chain link through a connecting column, and the number of the connecting columns is two. The two connecting columns are matched to limit the rotation freedom degree of the mounting base relative to the chain link.

As a further aspect of the present invention: and a convex male die is arranged at the bottom of the embossing block.

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

the utility model discloses a plurality of knurling module vertical lift embosses the face to avoid the damage to the face.

The utility model discloses set up the knurling module on the chain group that removes, can drive through the chain group and remove, rotate after the knurling module knurling of below processes a period and remove the knurling module of top conversion top and carry out the knurling, avoid the continuous processing of knurling module, can clean the knurling module when converting to the top moreover, get rid of the sheet material of surface adhesion.

Drawings

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

fig. 2 is a schematic structural view of an embossing mechanism according to a first embodiment of the present invention;

fig. 3 is a schematic structural view of an embossing module according to the first embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 1-3, in an embodiment of the present invention, an energy-saving building material thermal insulation decorative plate embossing device includes a conveying mechanism 100, a lifting mechanism and an embossing mechanism, wherein the conveying mechanism 100 is disposed below the embossing mechanism, and the embossing mechanism is connected to the lifting mechanism;

the lifting mechanism comprises a stand column 1, vertical slide rails 2, a slide seat 3, a screw pair 4 and a screw motor 5, wherein the stand column 1 is arranged on two sides of the conveying mechanism 100, the vertical slide rails 2 are arranged on the stand column 1, the slide seat 3 is connected to the vertical slide rails 2 through a slide block, the screw pair 4 is further arranged on a vertical shaft, a screw of the screw pair 4 is connected with the stand column 1 through a bearing seat, a screw nut of the screw pair 4 is connected with the slide seat 3, and one end of a screw of the screw pair 4 is connected with an output shaft of the screw motor.

The embossing mechanism comprises machine plates 6, chain groups and embossing modules 7, two ends of each machine plate 6 are respectively and fixedly connected with the sliding seats 3 on the upright posts 1 at two sides, two chain groups are arranged between the two machine plates 6, a plurality of embossing modules 7 are arranged between the two chain groups, each chain group comprises a chain wheel 8 and a chain 9, the chains 9 are wound on the two chain wheels 8, the chain wheels 8 are arranged on the machine plates 6 at two sides through chain wheel shafts, and the chain wheel shafts are connected with the machine plates 6 through bearings;

the embossing module 7 comprises a mounting seat 701 and an embossing block 702, the front side and the rear side of the mounting seat 701 are connected with the chains 9, the bottom of the mounting seat 701 is provided with a protruding clamping strip, the top of the embossing block 702 is provided with a groove matched with the clamping strip, the clamping strip is embedded into the groove, and the clamping strip and the embossing block 702 are fixed through screws; the top of the embossing block 702 is provided with a bearing roller 703, the center of the bearing roller 703 is provided with a roller shaft, and two ends of the roller shaft are connected with the mounting seat 701 through bearings; a baffle plate 11 is arranged between the two machine plates 6, and the bottom surface of the baffle plate 11 is contacted with a bearing roller 703 of a mounting seat 701 of the embossing module 7 at the bottom of the chain group. The embossing block 702 is detachably connected with the mounting seat 701 through a screw, the top of the mounting seat 701 is provided with a bearing roller 703, the bearing roller bears the reaction force of the embossing module 7 when the embossing block 702 is pressed down, and the embossing module 7 cannot influence the movement of the embossing module 7 when moving along with the chain 9.

The chain wheel shaft of the chain wheel 8 at the left side of the chain group is connected with the output shaft of the embossing motor 10 through a coupler or a spline, and the embossing motor 10 is arranged on the machine plate 6 through a motor base. Through the rotation of the chain wheel 8 driven by the embossing motor 10 and the movement of the chain 9, the chain wheel 8 drives the chain 9 to move, and then drives the embossing module 7 connected with the chain 9 to move.

As described above, the sprockets 8 on the left side of the two chain groups share one sprocket shaft, and the sprockets 8 on the right side share one sprocket shaft. Synchronous rotation is realized.

In the above, shaft seats are arranged on two sides of the top of the mounting seat 701, and the shaft of the bearing roller 703 is connected with the shaft seats. The height of the axle seat is lower than the height of the upper edge of the bearing roller 703.

Above, mount pad 701 is through the link joint fixed connection of spliced pole and chain link, and the spliced pole is equipped with two. The two connecting posts cooperate to limit the rotational freedom of mount 701 relative to the links.

As described above, the bottom of the embossing block 702 is provided with a convex male die.

Each link of the chain 9 is connected to one embossing module 7. The embossing density and spacing can be adjusted by removing the embossing blocks 702 on the embossing module 7 to disable embossing.

The screw motor 5 and the embossing motor 10 are servo motors and are connected with a power supply through a driver.

The conveying mechanism 100 is a belt conveyor.

The movement direction of the conveying mechanism 100 is in the front-rear direction, and the plate 6 is perpendicular to the movement direction of the conveying mechanism 100.

The utility model discloses an embossing block 702 sets up to detachable structure, is convenient for change embossing block 702 in order to adapt to the pattern of different embossments.

The utility model discloses a structural feature and theory of operation: the conveying mechanism 100 is used for placing a plate to be embossed or a plate to be embossed in the mold, the plate to be embossed moves to the lower part of the embossing mechanism along with the conveying mechanism 100, the lifting mechanism drives the embossing mechanism to move downwards, an embossing block 702 of the embossing mechanism is in contact with the surface of the plate to be embossed to perform embossing processing on the plate, the lifting mechanism resets after embossing is finished, and the conveying mechanism 100 conveys the next plate to be embossed to move to the lower part of the embossing mechanism.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. The embossing device for the energy-saving building material heat-insulation decorative plate is characterized by comprising a conveying mechanism, a lifting mechanism and an embossing mechanism, wherein the conveying mechanism is arranged below the embossing mechanism;

the lifting mechanism comprises a stand column, vertical slide rails, a slide seat, a lead screw pair and a lead screw motor, wherein the stand column is arranged on two sides of the conveying mechanism, the vertical slide rails are arranged on the stand column, the slide seat is connected to the vertical slide rails through slide blocks, the lead screw pair is also arranged on the vertical shaft, a lead screw of the lead screw pair is connected to the stand column through a bearing seat, a lead screw nut of the lead screw pair is connected to the slide seat, and one end of a lead screw of the lead screw pair is;

the embossing mechanism comprises machine plates, chain groups and embossing modules, two ends of each machine plate are respectively fixedly connected with sliding seats on stand columns on two sides, two chain groups are arranged between the two machine plates, a plurality of embossing modules are arranged between the two chain groups, each chain group comprises a chain wheel and a chain, the chains are wound on the two chain wheels, the chain wheels are arranged on the machine plates on two sides through chain wheel shafts, and the chain wheel shafts are connected with the machine plates through bearings;

the embossing module comprises a mounting seat and an embossing block, the front side and the rear side of the mounting seat are connected with chains, a protruding clamping strip is arranged at the bottom of the mounting seat, a groove matched with the clamping strip is formed in the top of the embossing block, the clamping strip is embedded into the groove, and the clamping strip and the embossing block are fixed through screws; the top of the embossing block is provided with a bearing roller, the center of the bearing roller is provided with a roller shaft, and two ends of the roller shaft are connected with the mounting seat through bearings; a baffle plate is arranged between the two machine plates, and the bottom surface of the baffle plate is contacted with a bearing roller of a mounting seat of an embossing module at the bottom of the chain group;

the chain wheel shaft of the chain wheel on the left side of the chain group is connected with the output shaft of the embossing motor through a coupler or a spline, and the embossing motor is arranged on the machine plate through a motor base.

2. The embossing device for the energy-saving building material thermal insulation decorative plate as claimed in claim 1, wherein the left side sprockets of the two chain sets share a sprocket shaft, and the right side sprockets share a sprocket shaft.

3. The embossing device for the energy-saving building material heat-preservation decorative plate as claimed in claim 1, wherein shaft seats are arranged on two sides of the top of the mounting seat, and the roll shaft of the bearing roll is connected with the shaft seats.

4. The embossing device for the energy-saving building material heat-insulating decorative plate as claimed in claim 1, wherein the mounting seat is fixedly connected with the chain plate of the chain link through two connecting columns.

5. The embossing device for the energy-saving building material heat-preservation decorative plate as claimed in claim 1, wherein a convex die is arranged at the bottom of the embossing block.

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