CN217436154U - Laminating mechanism for environment-friendly epoxy seam beautifying agent - Google Patents

Abstract

The utility model provides a stacking mechanism based on beautiful seam agent of environment-friendly epoxy is used, it is including installing two runner boards on the power frame, connect through the synchronizing shaft between two runner board centers, two relative one sides of runner board are equipped with and hold in the palm the bottle subassembly, it pushes away the bottle groove to be equipped with on the runner board of support bottle subassembly department and run through, it is equipped with the gelatinization conveyer belt to push away the bottle groove outside, be fixed with two on the power frame of runner board output direction and hold in the palm the bottle track, two wherein one end of support bottle track extend between two runner board lower parts, movable mounting has the support bottle slide on the support bottle track, the vertical cartridge in support bottle slide top has spacing baffle, it has the range upon range of district of glue bottle to reserve between the adjacent spacing baffle. Rational in infrastructure after this scheme of adoption, excellent in use effect, degree of automation are high.

Description

Laminating mechanism for environment-friendly epoxy seam beautifying agent

Technical Field

The utility model belongs to the technical field of the glue technique and specifically relates to indicate based on lamination mechanism that beautiful seam agent of environment-friendly epoxy used.

Background

The crack sealer is an upgraded product of the crack sealer, the decorative practicability of the crack sealer is obviously superior to that of a color crack sealer, and the problems of unattractive gaps, dirty and black gaps and the like of the ceramic tiles are solved. The crack beautifying agent can be directly added into the gaps of the ceramic tiles after the ceramic tiles are bonded. The filling agent is suitable for filling gaps with the thickness of more than 2mm, is more convenient than the common filling agent in construction, and is an upgrading and updating product of the filling agent. The joint beautifying agent has luster after construction, rich, natural and fine colors, such as golden color, silver color, pearly color and the like, and the white and black chromaticities are obviously higher than those of white cement and a color joint mixture, so that the joint beautifying agent brings better integral effect to the wall surface, and the decoration property is greatly stronger than that of the white cement and the color joint mixture. And after the ceramic tile is solidified, the surface is smooth like porcelain, the ceramic tile can be scrubbed together with the ceramic tile, the ceramic tile has the characteristics of permeation resistance and water resistance, and the real gaps of the ceramic tile can never become black. Traditional beautiful seam agent is after the filling, and the rubber bottle is carried backward by the gluey conveyer belt bearing, snatchs through the manipulator and vanning, and manipulator can only snatch a rubber bottle under this kind of mode, and its frequency of action is high, fragile.

Disclosure of Invention

An object of the utility model is to overcome prior art's not enough, provide a stacking mechanism that rational in infrastructure, excellent in use effect, degree of automation are high for beautiful seam agent based on environment-friendly epoxy.

In order to achieve the above object, the present invention provides a technical solution: the laminating mechanism comprises two rotating wheel plates arranged on a power frame, the centers of the two rotating wheel plates are connected through a synchronizing shaft, bottle supporting assemblies with the quantity larger than 4 groups are arranged on one opposite sides of the two rotating wheel plates, the bottle supporting assemblies are uniformly distributed between the two rotating wheel plates in an annular shape by taking the synchronizing shaft as the center, bottle pushing grooves which penetrate through the rotating wheel plates at the positions of the bottle supporting assemblies are formed in the rotating wheel plates, a glue-forming conveying belt is arranged on the outer sides of the bottle pushing grooves, two bottle supporting rails are fixed on the power frame in the output direction of the rotating wheel plates, one ends of the two bottle supporting rails extend to the positions between the lower portions of the two rotating wheel plates, bottle supporting sliding plates are movably arranged on the bottle supporting rails, a push plate cylinder is arranged at one end of each bottle supporting rail, a piston rod of the push plate cylinder is connected with the bottom of each bottle supporting sliding plate, limiting partition plates with the quantity larger than 2 are vertically inserted into the tops of the bottle supporting sliding plates, and a glue bottle laminating area is reserved between the adjacent limiting partitions.

The bottle supporting assembly comprises two bottle supporting hinge rods and two bottle supporting plates, wherein the two bottle supporting hinge rods are n-shaped, the n-shaped tops of the two bottle supporting hinge rods are hinged with corresponding runner plates through hinge rod pins, the two side walls of each bottle supporting hinge rod hang naturally, the hanging ends of the two bottle supporting hinge rods are bent oppositely to form a supporting plate hinge block, the width of a bottle supporting sliding plate is smaller than the distance between the two supporting plate hinge blocks, the bottle supporting plates are movably hinged to the tops of the supporting plate hinge blocks, two sides of the end part of one end of each bottle supporting plate are hinged to the tops of the supporting plate hinge blocks, the other ends of the bottle supporting plates are suspended in the air, and a bottle supporting area is formed between the hanging ends of the two bottle supporting plates.

One side of the output end of the colloid-forming conveyer belt is positioned outside the bottle pushing groove, the other side of the output end of the colloid-forming conveyer belt is provided with a colloid-forming pushing cylinder, a piston rod of the colloid-forming pushing cylinder is provided with a colloid-forming bottle pushing plate, the colloid-forming bottle pushing plate is right opposite to the direction of the bottle pushing groove, and a colloid-forming baffle is vertically fixed at the end part of the output end of the colloid-forming conveyer belt.

After the technical proposal is adopted, the sealed glue bottle is supported by the glue conveying belt and conveyed backwards, when the glue is conveyed to the output end of the glue-forming conveying belt, the glue-forming conveying belt is blocked by a glue-forming baffle, a rotating wheel plate motor is arranged on the power frame, the rotating wheel plate motor drives a synchronizing shaft to rotate in a conventional mode, the synchronizing shaft synchronously drives two rotating wheel plates to rotate, when the bottle pushing grooves of the rotary wheel plate move to the position of the gelatinizing conveyor belt (one of the bottle pushing grooves is located at the lowest position of the rotary wheel plate), piston rods of the gelatinizing pushing cylinders extend out to drive the rubber bottle pushing plates to push rubber bottles (rubber bottles in contact with the gelatinizing baffle) at the output end of the gelatinizing conveyor belt to the bottle pushing grooves, so that the rubber bottles pass through the bottle pushing grooves and n-shaped grooves of the bottle supporting hinge rods and then move to the bottle supporting plate, the bottle supporting plate cannot rotate downwards under the limiting action of the supporting plate hinge blocks, the original state is a horizontal state, and a bottle supporting area is formed between the suspended ends of the two bottle supporting plates; the rubber bottle is supported by two bottle supporting plates together, the rotating wheel plate continuously rotates, when a bottle supporting assembly with the rubber bottle moves to the output direction of the rotating wheel plate (above the rubber bottle laminating area), the rubber bottle enters the rubber bottle laminating area, the rotating wheel plate continuously operates to drive the bottle supporting assembly to move downwards (below the rubber bottle laminating area), two sides of the rubber bottle are limited under the action of the limiting baffle plate, when the bottle supporting plate continuously moves downwards, the bottom of the bottle supporting plate is contacted with the bottle supporting sliding plate (or rubber bottles on the lower layer), the free end of the bottle supporting plate rotates upwards, the free end of the bottle supporting plate upwards jacks up the rubber bottle (the rubber bottle is in a horizontal state) to prevent the rubber bottle from tilting, after the free end of the bottle supporting plate downwards passes through the limiting baffle plate, the rubber bottle on the bottle supporting plate is supported by the bottle supporting sliding plate (or the rubber bottle on the lower layer) to complete rubber bottle laminating, and after the rubber bottle laminating area is full, the push plate drives the bottle supporting sliding plate to move one station, continue to range upon range of, range upon range of full glue bottle range upon range of district once only grabs out through outside mechanical hand and vanning, rational in infrastructure after this scheme of adoption, excellent in use effect, degree of automation height.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is the installation schematic diagram of the rubber bottle pushing plate of the present invention.

Fig. 3 is a schematic structural view of the bottle supporting assembly of the present invention.

Fig. 4 is a schematic view of the bottle supporting plate hinge of the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings, and the preferred embodiment of the present invention is: referring to fig. 1 to 4, the laminating mechanism for an environment-friendly epoxy crack sealer in this embodiment includes two rotating wheel plates 502 mounted on a power frame 501, the centers of the two rotating wheel plates 502 are connected by a synchronizing shaft, bottle supporting assemblies with a number greater than 4 are disposed on opposite sides of the two rotating wheel plates 502, the bottle supporting assemblies are uniformly distributed between the two rotating wheel plates 502 in a ring shape with the synchronizing shaft as the center, a bottle pushing groove 507 penetrating through the rotating wheel plates 502 at the bottle supporting assemblies is disposed on the rotating wheel plates 502, a glue-forming conveyer belt 508 is disposed on an outer side of the bottle pushing groove 507, two bottle supporting rails 503 are fixed on the power frame 501 in the output direction of the rotating wheel plates 502, one end of each bottle supporting rail 503 extends between the lower portions of the two rotating wheel plates 502, a bottle supporting slide plate 504 is movably mounted on each bottle supporting rail 503, a push plate cylinder 505 is mounted on one end of each bottle supporting rail 503, a piston rod of each push plate cylinder 505 is connected to the bottom of each bottle supporting slide plate 504, limiting partition plates 506 with the number larger than 2 are vertically inserted into the top of the bottle supporting sliding plate 504, and a glue bottle stacking area is reserved between every two adjacent limiting partition plates 506.

The bottle supporting component comprises two bottle supporting hinge rods 509 and bottle supporting plates 510, wherein the two bottle supporting hinge rods 509 are n-shaped, the n-shaped tops of the bottle supporting hinge rods 509 are hinged with the corresponding rotating wheel plates 502 through hinge rod pins, two side walls of the bottle supporting hinge rods 509 are hung naturally, the hanging ends of the two bottle supporting hinge rods are bent oppositely to form supporting plate hinge blocks, the width of the bottle supporting sliding plate 504 is smaller than the distance between the two supporting plate hinge blocks, the tops of the supporting plate hinge blocks are movably hinged with the bottle supporting plates 510, two sides of the end portions of one end of each bottle supporting plate 510 are hinged with the tops of the supporting plate hinge blocks, the other ends of the bottle supporting plates 510 are suspended, and a bottle supporting area is formed between the hanging ends of the two bottle supporting plates 510.

One side of the output end of the colloid-forming conveyer belt 508 is positioned outside the bottle pushing groove 507, the other side of the output end of the colloid-forming conveyer belt 508 is provided with a colloid-forming pushing cylinder 511, a piston rod of the colloid-forming pushing cylinder 511 is provided with a colloid-forming bottle pushing plate 512, the colloid-forming bottle pushing plate 512 is over against the bottle pushing groove 507, and a colloid-forming baffle 513 is vertically fixed at the end part of the output end of the colloid-forming conveyer belt 508.

After the scheme is adopted, the sealed glue bottle is supported by the glue conveying belt and conveyed backwards, when the glue is conveyed to the output end of the glue-forming conveying belt, the glue-forming conveying belt is blocked by a glue-forming baffle, a rotating wheel plate motor is arranged on the power frame, the rotating wheel plate motor drives a synchronizing shaft to rotate in a conventional mode, the synchronizing shaft synchronously drives two rotating wheel plates to rotate, when the bottle pushing grooves of the rotary wheel plate move to the position of the gelatinizing conveyor belt (one of the bottle pushing grooves is located at the lowest position of the rotary wheel plate), piston rods of the gelatinizing pushing cylinders extend out to drive the rubber bottle pushing plates to push rubber bottles (rubber bottles in contact with the gelatinizing baffle) at the output end of the gelatinizing conveyor belt to the bottle pushing grooves, so that the rubber bottles pass through the bottle pushing grooves and n-shaped grooves of the bottle supporting hinge rods and then move to the bottle supporting plate, the bottle supporting plate cannot rotate downwards under the limiting action of the supporting plate hinge blocks, the original state is a horizontal state, and a bottle supporting area is formed between the suspended ends of the two bottle supporting plates; the rubber bottle is supported by two bottle supporting plates together, the rotating wheel plate continuously rotates, when a bottle supporting assembly with the rubber bottle moves to the output direction of the rotating wheel plate (above the rubber bottle laminating area), the rubber bottle enters the rubber bottle laminating area, the rotating wheel plate continuously operates to drive the bottle supporting assembly to move downwards (below the rubber bottle laminating area), two sides of the rubber bottle are limited under the action of the limiting baffle plate, when the bottle supporting plate continuously moves downwards, the bottom of the bottle supporting plate is contacted with the bottle supporting sliding plate (or rubber bottles on the lower layer), the free end of the bottle supporting plate rotates upwards, the free end of the bottle supporting plate upwards jacks up the rubber bottle (the rubber bottle is in a horizontal state) to prevent the rubber bottle from tilting, after the free end of the bottle supporting plate downwards passes through the limiting baffle plate, the rubber bottle on the bottle supporting plate is supported by the bottle supporting sliding plate (or the rubber bottle on the lower layer) to complete rubber bottle laminating, and after the rubber bottle laminating area is full, the push plate drives the bottle supporting sliding plate to move one station, continue to range upon range of, range upon range of full glue bottle range upon range of district once only grabs out through outside manipulator and vanning, rational in infrastructure after adopting this embodiment, excellent in use effect, degree of automation height.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that all the changes made according to the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims (3)

1. Lamination mechanism based on beautiful seam agent of environment-friendly epoxy is used, its characterized in that: the bottle supporting device comprises two rotating wheel plates (502) arranged on a power frame (501), the centers of the two rotating wheel plates (502) are connected through a synchronizing shaft, bottle supporting assemblies with the number larger than 4 are arranged on one opposite sides of the two rotating wheel plates (502), the bottle supporting assemblies are uniformly distributed between the two rotating wheel plates (502) in an annular shape by taking the synchronizing shaft as the center, bottle pushing grooves (507) which penetrate through the bottle supporting assemblies are formed in the rotating wheel plates (502), glue forming conveyor belts (508) are arranged on the outer sides of the bottle pushing grooves (507), two bottle supporting rails (503) are fixed on the power frame (501) in the output direction of the rotating wheel plates (502), one ends of the two bottle supporting rails (503) extend to the position between the lower parts of the two rotating wheel plates (502), bottle supporting sliding plates (504) are movably arranged on the bottle supporting rails (503), a push plate cylinder (505) is arranged at one end of each bottle supporting rail (503), a piston rod of each push plate cylinder (505) is connected with the bottom of each bottle supporting sliding plate (504), limiting partition plates (506) with the number larger than 2 are vertically inserted into the top of the bottle supporting sliding plate (504), and a glue bottle stacking area is reserved between every two adjacent limiting partition plates (506).

2. The laminating mechanism for the environment-friendly epoxy jointing compound according to claim 1, wherein: the bottle supporting component comprises two bottle supporting hinge rods (509) and bottle supporting plates (510), wherein the two bottle supporting hinge rods (509) are n-shaped, the n-shaped tops of the bottle supporting hinge rods are hinged with the corresponding rotating wheel plates (502) through hinge rod pins, two side walls of each bottle supporting hinge rod (509) hang naturally, the hanging ends of the two bottle supporting hinge rods are bent oppositely to form a supporting plate hinge block, the width of each bottle supporting sliding plate (504) is smaller than the distance between the two supporting plate hinge blocks, the tops of the supporting plate hinge blocks are movably hinged with the bottle supporting plates (510), two sides of the end parts of one end of each bottle supporting plate (510) are hinged with the tops of the supporting plate hinge blocks, the other ends of the bottle supporting plates (510) are suspended, and a bottle supporting area is formed between the hanging ends of the two bottle supporting plates (510).

3. The laminating mechanism for the environment-friendly epoxy jointing compound according to claim 1, wherein: one side of the output end of the colloid-forming conveyer belt (508) is positioned outside the colloid-forming groove (507), the other side of the output end of the colloid-forming conveyer belt (508) is provided with a colloid-forming pushing cylinder (511), a piston rod of the colloid-forming pushing cylinder (511) is provided with a colloid-forming pushing plate (512), the colloid-forming pushing plate (512) is over against the direction of the colloid-forming groove (507), and the end part of the output end of the colloid-forming conveyer belt (508) is vertically fixed with a colloid-forming baffle (513).

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