CN218054378U - Automatic compounding machine for processing energy-saving heat-insulation building materials - Google Patents

Abstract

The application provides an automatic compounding machine is used in processing of energy-conserving heat preservation building materials includes: the machine table is provided with an installation surface; the workbench is arranged on the mounting surface; the workbench is used for placing plates; the positioning mechanism comprises two positioning components; the two positioning assemblies are connected with the workbench; one positioning assembly is used for clamping and positioning the plate along a first direction; the other positioning assembly is used for clamping and positioning the plate along a second direction; the application provides an automatic compounding machine for processing energy-saving heat-preservation building materials has eliminated the follow-up unnecessary step of repairing the corner that leads to because of the corner misalignment among the multiunit panel pressfitting process, has improved work efficiency and compound quality.

Description

Automatic compounding machine for processing energy-saving heat-insulation building materials

Technical Field

The application relates to the technical field of building material composite processing, in particular to an automatic compound machine for processing energy-saving and heat-insulating building materials.

Background

The energy-saving heat-insulating building material is a general name of materials used in civil engineering and constructional engineering, and the composite plate is also one of the materials; at present, an automatic compound machine is generally used for producing composite boards, and the automatic compound machine carries out compound treatment on boards coated with viscose on the surfaces in a hot pressing mode, so that finished composite boards are obtained; in the hot-pressing compounding process of the composite board, the board is generally manually loaded onto a workbench, but the loaded multilayer board cannot be kept flush, so that the corners of the board need to be trimmed after pressing; the working efficiency and the composite quality are reduced; therefore, an automatic compound machine for processing the energy-saving heat-preservation building material is provided.

Disclosure of Invention

The application aims at the problems and provides an automatic compound machine for processing energy-saving heat-preservation building materials.

The application provides an automatic compounding machine is used in processing of energy-conserving heat preservation building materials includes:

a machine station: the machine table is provided with an installation surface;

a workbench: the workbench is arranged on the mounting surface; the workbench is used for placing plates;

a positioning mechanism: the positioning mechanism comprises two positioning components; the two positioning assemblies are fixedly connected with the workbench; one positioning assembly is used for clamping and positioning the plate along a first direction; the other positioning assembly is used for clamping and positioning the plate along a second direction; the second direction is perpendicular to the first direction.

According to the technical scheme provided by some embodiments of the application, the positioning assembly comprises a bidirectional telescopic driving device; the workbench is provided with an inner space, the bidirectional telescopic driving device is arranged in the inner space, and two output ends of the bidirectional telescopic driving device extend out of the inner space along the first direction/the second direction; two output ends of the bidirectional telescopic driving device are respectively connected with a movable plate; a clamping part is arranged on one side, close to the workbench, of the moving plate; the clamping part is used for clamping and positioning the plate.

According to the technical scheme provided by certain embodiments of the application, the moving plate is connected with the mounting surface in a sliding mode.

According to an aspect provided by some embodiments of the present application, the clamping portion includes a contact plate body; a movable component is connected between the contact plate body and the moving plate; the movable component is used for media for movably connecting the movable plate and the contact plate body.

According to the technical solution provided by some embodiments of the present application, the movable member includes two guide rods parallel to each other; the guide rod is perpendicular to one side, close to the workbench, of the moving plate, one end of the guide rod is fixedly connected with the moving plate, and the other end of the guide rod is provided with a blocking piece; the two guide rods are movably sleeved with connecting plates, and one side of each connecting plate, which is close to the workbench, is detachably connected with the contact plate body.

According to the technical scheme provided by some embodiments of the application, grooves are formed in the top and the bottom of the contact plate body; a pressing plate is arranged in the groove in a sliding manner, and an elastic piece connected with the outer wall of the groove is arranged on one side, close to the moving plate, of the pressing plate; the contact plate body is kept away from one side laminating of movable plate has the anti-sticking film, top and bottom are arranged respectively in the both ends of anti-sticking film in the recess, the clamp plate is pressed and is covered fixedly the both ends of anti-sticking film.

According to the technical scheme provided by some embodiments of the application, a support frame is arranged on the machine table; the support frame is arranged above the workbench in a spanning mode; a telescopic driving device is arranged on the supporting frame; the telescopic driving device is positioned right above the workbench; the output end of the telescopic driving device can extend along the third direction, and the third direction is perpendicular to the second direction and the first direction; the output end of the telescopic driving device is connected with a hot pressing plate.

Compared with the prior art, the beneficial effect of this application: the application provides an automatic compounding machine is used in processing of energy-conserving heat preservation building materials includes: the device comprises a machine table, a workbench and a positioning mechanism; the machine table is provided with an installation surface; the workbench is arranged on the mounting surface; the workbench is used for placing plates; the positioning mechanism comprises two positioning components; the two positioning assemblies are fixedly connected with the workbench; one positioning assembly is used for clamping and positioning the plate along a first direction; the other positioning assembly is used for clamping and positioning the plate along a second direction; when the device is used, a plurality of plates with surfaces coated with viscose glue are manually and sequentially stacked on the workbench, and the two positioning assemblies are simultaneously controlled to clamp and position a plurality of groups of plates placed on the workbench along the first direction/the second direction, so that four corners of the plurality of groups of plates are aligned, namely, the preparation work of the plurality of groups of plates before hot pressing is completed; the automatic compound machine for processing the energy-saving heat-preservation building materials eliminates the subsequent step of trimming the corners caused by the fact that the corners are not aligned in the pressing process of a plurality of plates, reduces the workload, and improves the working efficiency and the compound quality.

Drawings

FIG. 1 is a schematic view of the overall structure of the automatic compounding machine for processing energy-saving and heat-insulating building materials of the present invention;

FIG. 2 is a schematic structural view of a positioning mechanism in the automatic compounding machine for processing energy-saving and heat-insulating building materials of the utility model;

FIG. 3 is a schematic structural view of a positioning assembly in the automatic compound machine for processing energy-saving and heat-insulating building materials of the utility model;

fig. 4 is a schematic view of the sectional structure of the contact plate assembly in the automatic compound machine for processing energy-saving and heat-preserving building materials of the utility model.

The text labels in the figures are represented as:

1. a machine platform; 2. a mounting surface; 3. a work table; 4. a support frame; 5. a positioning assembly; 6. moving the plate; 7. a clamping portion; 8. hot pressing plate; 9. a telescopic driving device; 10. a guide bar; 11. a connecting plate; 12. a blocking member; 13. a contact plate body; 14. pressing a plate; 15. an elastic member; 16. and (4) an anti-sticking film.

Detailed Description

The following detailed description of the present application is given for the purpose of enabling those skilled in the art to better understand the technical solutions of the present application, and the description in this section is only exemplary and explanatory, and should not be taken as limiting the scope of the present application in any way.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

Referring to fig. 1 to 4, the present embodiment provides an automatic compound machine for processing energy-saving heat-preservation building materials, including:

a machine table 1: the machine table 1 is provided with an installation surface 2;

a workbench 3: the workbench 3 is arranged on the mounting surface 2; the workbench 3 is used for placing plates;

a positioning mechanism: the positioning mechanism comprises two positioning components 5; the two positioning assemblies 5 are connected with the workbench 3; one of the positioning assemblies 5 is used for clamping and positioning the sheet material along a first direction; the other positioning assembly 5 is used for clamping and positioning the plate material along a second direction; the second direction is perpendicular to the first direction.

Specifically, in this embodiment, the machine table 1 has an installation surface 2 with a rectangular structure, the workbench 3 with a box structure is arranged in a central area of the installation surface 2, the upper surface of the workbench 3 is the plate placing position, and both the two positioning assemblies 5 are fixed to the workbench 3; the two positioning assemblies 5 position and clamp a plurality of groups of plates placed on the workbench 3 from four directions; the first direction is a horizontal direction, and the second direction is also a horizontal direction; the first direction is perpendicular to the second direction.

When using, the manual multiunit that has the viscose of scribbling on the surface panel stacks in proper order the upper surface of workstation 3, controls two simultaneously locating component 5 is followed first direction the second direction is to placing multiunit on the workstation 3 panel presss from both sides tight location, makes its multiunit four corners of panel align, wait for the multiunit panel carries out the hot-pressing.

By adopting the structure, the subsequent operation step of trimming the corners caused by misalignment of a plurality of groups of plate corners during hot-pressing treatment is eliminated, and the working efficiency and the composite quality are improved.

Further referring to fig. 1 and 2, the positioning assembly 5 includes a bi-directional telescopic driving device; the workbench 3 is provided with an inner space, the bidirectional telescopic driving device is arranged in the inner space, and two output ends of the bidirectional telescopic driving device extend out of the inner space along the first direction/the second direction; two output ends of the bidirectional telescopic driving device are respectively connected with a movable plate 6; a clamping part 7 is arranged on one side of the moving plate 6 close to the workbench 3; the clamping part 7 is used for clamping and positioning the plate.

Specifically, in this embodiment, both the two-way telescopic driving devices are two-way cylinders; the two bidirectional telescopic driving devices are arranged in the workbench 3, namely the two bidirectional telescopic driving devices are arranged in the inner space; one of the two-way telescopic driving devices is arranged above the other one of the two-way telescopic driving devices, so that the two-way telescopic driving devices are arranged in a staggered manner, and the output ends of the two-way telescopic driving devices extend out of the inner space along the first direction or/and the second direction; the output end of each bidirectional telescopic driving device is connected with the movable plate; the moving plate 6 is a plate with a rectangular structure; a clamping part 7 is arranged on one side of each moving plate close to the workbench 3; the four clamping portions 7 position and clamp multiple groups of plates in four directions.

When the device is used, the bidirectional telescopic driving devices are started simultaneously, and the output ends of the bidirectional telescopic driving devices contract to drive the four moving plates 6 to be close to a plurality of groups of plates; each clamping portion 7 is provided with a contact end, and the contact ends are contacted with multiple groups of plate materials to clamp and position the multiple groups of plate materials from four directions.

Further referring to fig. 1 and 2, the moving plate 6 is slidably connected to the mounting surface 2.

Specifically, the bottom of the moving plate 6 is provided with a sliding block, the mounting surface 2 is respectively provided with sliding grooves matched with the four sliding blocks, and the extending direction of each sliding groove is the same as the extending direction of the output end of each corresponding bidirectional telescopic driving device; the friction of the mounting surface 2 is reduced and the abrasion of the moving plate 6 is avoided in the process that the moving plate 6 moves under the control of the bidirectional telescopic driving device.

With further reference to fig. 2 and 3, the clamping portion 7 includes a contact plate body 6; a movable component is connected between the contact plate body 13 and the moving plate 6; the movable member is used as a medium for movable connection between the moving plate 6 and the contact plate body 13.

Specifically, the contact plate body 13 is a plate with a rectangular structure, a lower end edge line of the contact plate body 13 is flush with an upper surface edge line of the workbench 3, the movable member has two ends, and the two ends are respectively connected with the moving plate 6 and the contact plate body 13; the contact plate 13 can be moved towards or away from the moving plate 6 by the movable member.

Further referring to fig. 3, the movable member includes two parallel guide rods; the guide rod is perpendicular to one side, close to the workbench 3, of the moving plate 6, one end of the guide rod 10 is fixedly connected with the moving plate 6, and the other end of the guide rod 10 is provided with a blocking piece 12; the two guide rods 10 are movably sleeved with connecting plates 11, and one sides of the connecting plates 11, which are close to the workbench 3, are detachably connected with the contact plate bodies 13.

Specifically, the two guide rods 10 are the same and located at the same height, the two guide rods 10 are perpendicular to the moving plate 6, springs are sleeved at one ends, far away from the moving plate 6, of the two guide rods 10, a connecting plate 11 is sleeved after the springs are sleeved, the connecting plate 11 is of a rectangular structure, two through holes are formed in two ends of the connecting plate 11 respectively, the distance between the two holes formed in the connecting plate 11 is equal to the distance between the two guide rods 10, and the connecting plate is sleeved on the two guide rods so that the connecting plate 11 can slide on the two guide rods 10; the blocking piece 12 is a baffle plate arranged at one end of each of the two guide rods 10 far away from the moving plate 6, the baffle plate is of a disc-shaped structure, the baffle plate is fixedly connected with the guide rods 10, and the diameter of the hole is smaller than that of the baffle plate; a protrusion is arranged on one side of the middle area of the connecting plate 11, which is far away from the moving plate 6, and is named as a first protrusion for the convenience of distinguishing from the following, a protrusion is arranged on one side of the contact plate body 13, which is close to the moving plate 6, and is named as a second protrusion for the convenience of distinguishing from the above, and a groove matched with the first protrusion is formed on one surface of the second protrusion, which is close to the moving plate 6; for convenience of distinction from the following, herein designated as the first recess; the first protrusion is inserted into the first groove, and the first protrusion and the second protrusion which are connected in a penetrating manner along the third direction are fixed through a screw; the bottom edge line of the contact plate body 13 is at the same height as the top edge line of the work table 3.

When the bidirectional telescopic driving device is used, the two bidirectional telescopic driving devices are started simultaneously; drive the movable plate 6 is close to workstation 3, four contact plate body 13 is respectively from four directions extrusion multiunit during panel, connecting plate 11 is to being close to the direction of movable plate 6 removes, and the spring compresses, and the elastic force that produces drives contact plate body 13 is to the multiunit panel compresses tightly, after the hot pressing finishes, movable plate 6 is kept away from workstation 3, under the effect of spring, connecting plate 11 carries out the elasticity and resets.

Further referring to fig. 4, the top and the bottom of the contact plate 13 are both provided with a groove; a pressing plate 14 is arranged in the groove in a sliding mode, and an elastic piece 15 connected with the outer wall of the groove is arranged on one side, close to the moving plate 6, of the pressing plate; an anti-sticking film 16 is attached to one side, far away from the moving plate 6, of the contact plate body 13, two ends of the anti-sticking film 16 are arranged in the grooves in the top and the bottom respectively, and two ends of the anti-sticking film 16 are pressed and fixed by the pressing plate 14.

Specifically, an anti-sticking film 16 is arranged on one surface of the contact plate body 16 close to the workbench 3; the top and the bottom of the contact plate body 13 are both provided with the same groove, and the contact plate body is named as a second groove for the convenience of distinguishing from the above; a pressing plate 14 is arranged in the second groove, a plurality of groups of elastic pieces 18 are arranged on one side, close to the moving plate 11, of the pressing plate 14, and the elastic pieces 15 are springs; one end of the elastic piece 15 is connected with the pressing plate 14, and the other end of the elastic piece is connected with the side wall of the second groove; a clamping space is formed between one side of the pressing plate 14, which is far away from the moving plate 6, and the inner wall of the second groove, and the clamping space is a place for placing two ends of the anti-sticking film 16; under the action of the elastic members 15, a pressing force is provided to fix both ends of the anti-adhesion film 16.

By adopting the structure of the anti-sticking film 16, the situation that the glue between two adjacent groups of plates seeps from the edges of the plates and adheres to the contact plate body 13 when the multiple groups of plates are subjected to hot-pressing treatment and compounding is avoided, the anti-sticking film 16 specifically covers one side of the contact plate body 13 close to the workbench 3, and two ends of the anti-sticking film are folded into the second groove and fixed through the pressing plate 14 so as to be convenient to disassemble and replace.

Further referring to fig. 1, a supporting frame 4 is installed on the machine 1; the support frame 4 is arranged above the workbench 3 in a spanning manner; a telescopic driving device 9 is arranged on the support frame 4; the telescopic driving device 9 is positioned right above the workbench 3; the output end of the telescopic driving device 9 can extend along the third direction, and the third direction is perpendicular to the second direction and the first direction; the output end of the telescopic driving device 9 is connected with a hot pressing plate 8.

Specifically, a support frame 4 is fixedly connected to the machine table 1, and the machine table 1 and the support frame 4 are fixedly connected through bolts; flexible drive arrangement 9 is electric telescopic handle, flexible drive arrangement 9's output is connected hot pressboard 8, hot pressboard 8's inside is provided with electrical components and is used for heating hot pressboard 8's lower surface, hot pressboard 8's lower surface with workstation 3's upper surface is parallel, flexible drive arrangement 9 is located workstation 3's top, the third direction is vertical direction.

When the two bidirectional telescopic driving devices are used, the two bidirectional telescopic driving devices are simultaneously started, and the four contact plate bodies 13 approach to a plurality of groups of plates placed on the workbench 3 from four directions and clamp and position the plates; and controlling an electrical element of the hot pressing plate 8 to heat the lower surface of the hot pressing plate 8 to a required temperature, starting the telescopic driving device 9, and driving the driving end of the telescopic driving device 9 to extend downwards to drive the hot pressing plate 8 to be close to the plate so as to carry out hot pressing treatment on the plate.

The working principle of the automatic compound machine for processing the energy-saving heat-preservation building materials provided by the embodiment is as follows:

(1) A plurality of groups of plates needing hot-pressing treatment are stacked on the workbench 3;

(2) The two bidirectional telescopic driving devices are started simultaneously, and the output ends of the two bidirectional telescopic driving devices contract to drive the four moving plates 6 to simultaneously approach the workbench 3;

(3) The four contact plate bodies 13 respectively contact a plurality of groups of plates from four directions, the connecting plates 11 contact the plates, and the plates are extruded under the action of elastic force generated by the springs on the two guide rods 10, so that four corners of the plurality of groups of plates are aligned;

(4) Controlling an electrical element in the hot-pressing plate 8 to heat the lower surface of the hot-pressing plate 8, starting the telescopic driving device 9 when the lower surface is heated to a required temperature, and driving the hot-pressing plate 8 to be close to a plurality of groups of plates downwards by the output end of the telescopic driving device 9 and performing hot-pressing treatment on the plates;

(5) After the hot pressing treatment is finished, the telescopic driving device 9 and the two bidirectional telescopic driving devices are sequentially controlled to reset, and the required composite product can be obtained.

The automatic compound machine for processing the energy-saving heat-preservation building materials provided by the embodiment of the application removes the redundant steps of follow-up corner trimming caused by non-alignment of corners in the plate pressing process, and improves the working efficiency and the compound quality.

The principles and embodiments of the present application are explained herein using specific examples, which are provided only to help understand the method and the core idea of the present application. The foregoing is only a preferred embodiment of the present application, and it should be noted that there are no specific structures which are objectively limitless due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes can be made without departing from the principle of the present invention, and the technical features mentioned above can be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the invention using its teachings or may be resorted to without departing from the scope of the invention as set forth in the claims that follow.

Claims (7)

1. The utility model provides an automatic compounding machine is used in processing of energy-conserving heat preservation building materials which characterized in that includes:

machine (1): the machine table (1) is provided with an installation surface (2);

table (3): the workbench (3) is arranged on the mounting surface (2); the workbench (3) is used for placing plates;

a positioning mechanism: the positioning mechanism comprises two positioning components (5); the two positioning assemblies (5) are connected with the workbench (3); one of the positioning assemblies (5) is used for clamping and positioning the sheet material along a first direction; the other positioning assembly (5) is used for clamping and positioning the plate material along a second direction; the second direction is perpendicular to the first direction.

2. The automatic compound machine for processing energy-saving and heat-insulating building materials according to claim 1, wherein the positioning assembly (5) comprises a bidirectional telescopic driving device; the workbench (3) is provided with an inner space, the bidirectional telescopic driving device is arranged in the inner space, and two output ends of the bidirectional telescopic driving device extend out of the inner space along the first direction/the second direction; two output ends of the bidirectional telescopic driving device are respectively connected with a movable plate (6); a clamping part (7) is arranged on one side, close to the workbench (3), of the moving plate (6); the clamping part (7) is used for clamping and positioning the plate.

3. The automatic laminating machine for processing energy-saving and heat-preserving building materials as claimed in claim 2, wherein the moving plate (6) is slidably connected with the mounting surface (2).

4. The automatic compound machine for processing energy-saving and heat-insulating building materials as claimed in claim 2, wherein the clamping part (7) comprises a contact plate body (13); a movable component is arranged between the contact plate body (13) and the moving plate (6); the movable component is used for mediating the movable connection between the movable plate (6) and the contact plate body (13).

5. The automatic compound machine for processing energy-saving and heat-insulating building materials as claimed in claim 4, wherein the movable member comprises two guide rods parallel to each other; the guide rod is perpendicular to one side, close to the workbench (3), of the moving plate (6), one end of the guide rod (10) is fixedly connected with the moving plate (6), and the other end of the guide rod (10) is provided with a blocking piece (12); two the movable sleeve is equipped with connecting plate (11) on guide arm (10), connecting plate (11) are close to one side of workstation (3) can be dismantled and be connected contact plate body (13).

6. The automatic compound machine for processing the energy-saving heat-insulation building materials as claimed in claim 5, wherein the top and the bottom of the contact plate body (13) are provided with grooves; a pressing plate (14) is arranged in the groove in a sliding mode, and an elastic piece (15) connected with the outer wall of the groove is arranged on one side, close to the moving plate (6), of the pressing plate (14); one side of the contact plate body (13) far away from the moving plate (6) is attached with an anti-sticking film (16), two ends of the anti-sticking film (16) are respectively arranged in the grooves at the top and the bottom, and two ends of the anti-sticking film (16) are pressed and fixed by the pressing plate (14).

7. The automatic compound machine for processing the energy-saving heat-insulation building materials as claimed in claim 1, wherein a support frame (4) is mounted on the machine table (1); the support frame (4) is arranged above the workbench (3) in a spanning manner; a telescopic driving device (9) is arranged on the support frame (4); the telescopic driving device (9) is positioned right above the workbench (3); the output end of the telescopic driving device (9) can extend along a third direction, and the third direction is perpendicular to the second direction and the first direction; the output end of the telescopic driving device (9) is connected with a hot pressing plate (8).

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