CN113245416B - Forming processing equipment and processing method for color steel rock wool board assembly connection structure - Google Patents

Abstract

The invention belongs to the field of building materials, and particularly relates to a device and a method for molding and processing a color steel rock wool board assembly and connection structure, wherein the device comprises a horizontal bottom plate, and a pressure bearing seat is arranged on the bottom plate; the upper surface of the pressure bearing seat is provided with a pressure bearing groove; sliding grooves are symmetrically formed in the upper surface of the pressure bearing seat and located on two sides of the pressure bearing groove, and sealing mechanisms are horizontally matched with the sliding grooves in a sliding manner along the direction perpendicular to the pressure bearing groove; an end plate is vertically and fixedly arranged on the side wall of the pressure bearing seat corresponding to the pressure bearing groove port, and a layer of sponge rubber is covered on the surface of the end plate; a through groove is formed in the position, corresponding to the pressure-bearing groove port, of one end plate, and a sealing plate is arranged in the through groove; the upper surface of the bottom plate is provided with an L-shaped frame, and the L-shaped frame is provided with a pressure applying mechanism. The invention ensures that the shapes of the color steel plates at the two ends of the rock wool plate are mutually matched after being pressed, and simultaneously ensures that the shapes of the color steel plates after being pressed are mutually matched with the end parts of the rock wool plate.

Description

Forming processing equipment and processing method for color steel rock wool board assembly connection structure

Technical Field

The invention belongs to the field of building materials, and particularly relates to a device and a method for molding and processing a color steel rock wool board assembly connection structure.

Background

The color steel rock wool board is a composite board prepared by combining color steel boards and rock wool boards together through adhesive, has excellent fireproof performance, heat preservation and insulation performance and sound insulation and noise reduction performance, and is widely applied to building materials. In the production and processing process of the color steel rock wool board, after the color steel board is coated on the outer surface of the rock wool board, the strip color steel board is required to be pressed according to the shape of the end face of the rock wool board, and then the pressed strip color steel board is adhered to the end face of the rock wool board, so that butt joint between two color steel rock wool boards is facilitated. CN202010678135.9 discloses a composite processing technology for color steel rock wool board veneering, which comprises a base, a U-shaped frame, a first placing frame, a second placing frame, two lifting devices, an air cylinder, a connecting frame and an undercut mechanism, wherein the technology solves the problems that the traditional undercut equipment works in a single working position, so that the whole working efficiency is caused, the traditional punching head is usually directly forced to the butt joint to form a concave structure, the forced pressing easily causes the fold and fracture of the color steel sheet, and the quality is not too close.

In the actual processing process, the following problems still exist in the forming and processing process of the color steel rock wool board assembling and connecting structure by the existing processing equipment: (1) In the pressing process of the color steel plates, the shapes of the color steel plates at the two ends of the rock wool plates are difficult to be matched with each other after pressing, so that the two ends of the color steel rock wool plates cannot be tightly matched during installation, and the installation quality is affected. (2) In the pressing process of the color steel plate, the shape of the pressed color steel plate is difficult to be matched with the end part of the rock wool plate, and the installation quality is also influenced.

Disclosure of Invention

First, the technical problem to be solved

The invention provides a device and a method for molding and processing a color steel rock wool board assembly and connection structure, and aims to solve the following problems in the process of molding and processing the color steel rock wool board assembly and connection structure by adopting the existing processing device: in the pressing process of the color steel plates, the shapes of the color steel plates at the two ends of the rock wool plates after pressing cannot be matched with each other, so that the two ends of the color steel rock wool plates cannot be tightly matched during installation, and the installation quality is affected.

(II) technical scheme

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a various steel rock wool board assembly connection structure shaping processing equipment, includes horizontal bottom plate, and the fixed mounting of bottom plate upper surface has the pressure-bearing seat. The upper surface of the pressure bearing seat is in a horizontal state, and a pressure bearing groove penetrating through the pressure bearing seat is horizontally formed in the upper surface of the pressure bearing seat. Sliding grooves are symmetrically formed in the upper surface of the pressure bearing seat and located on two sides of the pressure bearing groove, and sealing mechanisms are horizontally matched with the sliding grooves in a sliding mode along the direction perpendicular to the pressure bearing groove.

The sealing mechanism comprises a -shaped frame which is arranged along the length direction of the pressure-bearing groove and is in sliding fit in the sliding groove. A guide cylinder penetrating through the -shaped frame is fixedly arranged on one side, far away from the pressure-bearing groove, of the vertical section of the -shaped frame, a sealing screw is arranged in the guide cylinder through threads, and a rubber sealing block in sliding fit with the inner wall of the guide cylinder is rotatably arranged at the end part of the sealing screw, which is positioned in the guide cylinder.

An end plate is vertically and fixedly arranged on the side wall of the pressure bearing seat corresponding to the pressure bearing groove port, and a layer of sponge rubber is covered on the surface of the end plate. A through groove is formed in the position, corresponding to the pressure-bearing groove port, of one end plate, and a detachable sealing plate is installed in the through groove. An L-shaped frame is fixedly arranged on the upper surface of the bottom plate at a position corresponding to the pressure-bearing groove, and a pressure applying mechanism is arranged on the L-shaped frame.

Overlapping the two color steel plates together and then placing the two color steel plates on the upper surface of the pressure-bearing seat, so that the two color steel plates are attached to the surface of the end plate towards the edge of the end plate; and the two color steel plates are positioned in two horizontal sections of the -shaped frame towards the edge of the sealing mechanism. The rubber sealing block is driven to move in the guide cylinder by rotating the sealing screw, so that the air pressure in the guide cylinder is reduced, and air is pumped from the gap of the two color steel plates by the action of the air pressure, so that the two color steel plates are tightly attached together. The pressing mechanism presses the color steel plates tightly attached together, the color steel plates are pressed into the pressure-bearing groove, the color steel plates are attached to the surface of the pressure-bearing groove through the pressing mechanism, in the process, the sealing mechanism slides and seals the edges of the two color steel plates all the time, and therefore the two color steel plates are guaranteed to be attached tightly all the time. And finally, the sealing plate is disassembled, and the pressed color steel plate is horizontally pulled out from the through groove of the end plate.

The pressing mechanism comprises lifting rods which are positioned above the pressure-bearing groove and are uniformly arranged along the length direction of the pressure-bearing groove. The lifting rod vertically penetrates through the L-shaped frame horizontal section and is in sliding fit with the L-shaped frame horizontal section. The top surfaces of the lifting rods are fixedly connected together through horizontal lifting plates. And a reset spring sleeved on the lifting rod is fixedly connected between the lifting plate and the L-shaped frame horizontal section. The lifting rod bottom surface is horizontally and fixedly provided with a first pressurizing block which is arranged along the length direction of the pressure-bearing groove. The width of the first pressurizing block is smaller than that of the top of the pressure-bearing groove. The side wall of the first pressurizing block, which faces the sealing mechanism, is horizontally matched with a second pressurizing block in a sliding way. The first pressing block is internally provided with a containing groove which is in sliding sealing fit with the second pressing block. The pressing mechanism further comprises a control unit matched with the second pressing block. After two color steel plates are well overlapped and placed on the upper surface of the pressure-bearing seat, the lifting plate is pushed to descend by manpower or other existing equipment, the lifting rod, the first pressing block and the second pressing block synchronously descend, and the reset spring is compressed. And the first pressurizing block is attached to the surface of the color steel plate in the descending process, and the color steel plate is extruded into the pressure-bearing groove until the color steel plate is attached to the bottom surface of the pressure-bearing groove. The second pressing block is controlled by the control unit to horizontally move out of the accommodating groove, and the color steel plate is pushed to be attached to the side wall of the pressure-bearing groove, so that the pressing and shaping of the color steel plate are completed.

As a preferred embodiment of the present invention, the vertical section of the -shaped frame is slidably fitted with a bead parallel to the -shaped frame in the vertical direction. The upper surface of the horizontal section of the -shaped frame, which is close to the upper side, is vertically and slidably matched with a lifting frame, the bottom end of the lifting frame is fixedly connected with a pressing bar, and an adjusting screw rod penetrating through the lifting frame is vertically and rotatably arranged on the upper surface of the horizontal section of the -shaped frame, which is close to the upper side. After the edges of the two color steel plates which are overlapped together are placed into two horizontal sections of the -shaped frame, the lifting frame and the pressing bar are driven to descend through the rotation adjusting screw until the pressing bar is attached to the surface of the color steel plates, so that the joint between the upper color steel plates and the -shaped frame vertical section is sealed through the pressing bar, air pressure can be pumped from the gap between the two color steel plates under the action of air pressure when the sealing screw is rotated, and the two color steel plates are tightly attached together.

As a preferable technical scheme of the invention, the position of the sealing plate corresponding to the edge of the pressure-bearing groove is provided with the ventilation groove in a penetrating way, and when the pressure-applying mechanism is used for carrying out compression molding on the color steel plate, the color steel plate discharges air in the pressure-bearing groove from the ventilation groove so as to ensure that the pressure-applying mechanism can tightly attach the color steel plate on the side wall of the pressure-bearing groove.

As a preferable technical scheme of the invention, the control unit comprises a gas pipe which is connected between the horizontal section of the L-shaped frame and the first pressurizing block and is communicated with the accommodating groove. The upper surface of the horizontal section of the L-shaped frame is vertically and fixedly provided with a sealing cylinder, and the gas pipe is communicated with the inside of the sealing cylinder. The sealing cylinder is vertically matched with a sealing column in a sliding sealing way. The first pressurizing block presses the color steel plate into the pressure-bearing groove so that the color steel plate is attached to the bottom surface of the pressure-bearing groove, and then presses the sealing column downwards to squeeze air in the sealing cylinder to enter the accommodating groove through the air pipe; thereby the second pressing block is pushed to horizontally move out of the accommodating groove under the action of air pressure, and the second pressing block presses the color steel plate to the side wall of the pressure-bearing groove. After the downward pressure on the lifting plate is relieved, the rebound action of the reset spring drives the lifting rod, the first pressurizing block and the second pressurizing block to rise, the second pressurizing block is restored into the accommodating groove under the guiding action of the side wall of the pressure-bearing groove, and in the process, the second pressurizing block compresses the color steel plate on the side wall of the pressure-bearing groove from bottom to top along the side wall of the pressure-bearing groove, so that the color steel plate is compressed into the shape of the pressure-bearing groove. In the process, the sealing mechanism is pulled by the color steel plates to be in a sliding state, and the two color steel plates are tightly attached together all the time.

As a preferable technical scheme of the invention, a plurality of guide rods which are arranged along the sliding direction of the second pressing block are rotatably arranged in the accommodating groove through the bearing frame, and two ends of each guide rod are respectively matched with the second pressing block through spiral grooves formed in the surface of each guide rod. The inner wall of the accommodating groove is provided with a horizontal groove along the sliding direction of the accommodating groove, and the second pressurizing block is fixedly provided with a sliding block which is in sliding fit with the horizontal groove. When the two second pressurizing blocks horizontally move in the accommodating groove, the guide rods synchronously rotate, so that the two second pressurizing blocks are ensured to synchronously move, and the two second pressurizing blocks can be used for pressing the side walls of the color steel plates onto the two side walls of the pressure-bearing groove. The sliding direction of the second pressurizing block is ensured to be horizontal through the matching of the sliding block and the horizontal groove.

As a preferable technical scheme of the invention, the top of the sealing column is fixedly provided with a lifting block. The upper surface of the horizontal section of the L-shaped frame is vertically and rotatably provided with a rotating rod penetrating through the lifting block. Spiral grooves matched with the lifting blocks are formed in the surface of the rotating rod. The rotating rod is fixedly provided with a disc which coincides with the axis of the rotating rod. A plurality of arc-shaped bulges are uniformly arranged on the circumferential surface of the disc along the circumferential direction of the disc. The upper surface of the horizontal section of the L-shaped frame is fixedly provided with a circular ring which coincides with the axis of the disc. The inner circumferential surface of the circular ring is provided with a plurality of grooves. A damping block is slidably matched in the groove, and a damping spring is fixedly connected between the damping block and the end face of the groove. The sealing post drives the dwang and the disc synchronous rotation when reciprocating, drives arc arch and damping piece and lasts the effect when the disc rotates to play the barrier effect to disc and the bellied rotation of arc through damping spring's effort, and then play the slow down effect to lifting block and sealing post upward movement, and then avoided the second to exert pressure the piece and get back to the holding tank in the in-process that rises too fast, ensure that the second is exerted pressure the piece and can be pressed the laminating with color steel sheet on the pressure-bearing tank lateral wall in-process that rises.

As a preferable technical scheme of the invention, the damping block is positioned on the end face outside the groove and the arc-shaped surface, and the curvature of the arc-shaped surface gradually increases from one side of the damping block to the other side of the damping block, so that the disc and the arc-shaped bulge are different in blocking effect when rotating in different directions. When the lifting block and the sealing column move downwards, the disc and the arc-shaped bulge rotate forwards, and the blocking effect is small, so that the second pressurizing block can rapidly and effectively move the accommodating groove; when the lifting block and the sealing column ascend, the disc and the arc-shaped bulge reversely rotate, and the blocking effect is large, so that the second pressing block is ensured to slowly recover into the accommodating groove.

As a preferable technical scheme of the invention, the horizontal section of the L-shaped frame is vertically matched with the hinge frame in a sliding way at two sides of the pressing mechanism, and the bottom end of the hinge frame is horizontally and rotatably provided with the pressing roller arranged along the length direction of the pressure-bearing groove. The upper surface of the horizontal section of the L-shaped frame is in sliding fit with a limiting frame matched with the hinge frame. In the pressing process of the color steel plates, the pressing roller is attached to the upper surface of the color steel plates through the hinge frame, the positions of the hinge frame and the pressing roller are limited through the limiting frame, so that the pressing roller is always pressed on the surface of the color steel plates to roll, the color steel plates are prevented from being tilted upwards, the two color steel plates are further guaranteed to be attached tightly all the time, and the shapes of the two color steel plates after being pressed are guaranteed to be matched with each other.

The invention provides a method for molding and processing a color steel rock wool board assembly connection structure, which is completed by adopting the equipment for molding and processing the color steel rock wool board assembly connection structure, and specifically comprises the following steps:

step one, placing a color steel plate: and (5) superposing the two color steel plates together and placing the two color steel plates on the upper surface of the pressure-bearing seat. So that the color steel plate is attached to the surface of the end plate towards the edge of the end plate.

Step two, edge sealing: and sealing the edges of the two color steel plates facing the sealing mechanism through the sealing mechanism.

Step three, compression molding: and pressing the two color steel plates which are overlapped together into the pressure-bearing groove through the pressing mechanism, so that the color steel plates are attached to the surface of the pressure-bearing groove.

Step four, taking down the color steel plate: and (3) taking the sealing plate off the end plate, and horizontally extracting the color steel plates overlapped together in the pressure-bearing groove.

And finally, bonding the pressed color steel plate to the end face of the color steel rock wool plate.

(III) beneficial effects

The invention has at least the following beneficial effects:

(1) The invention provides a device and a method for molding and processing a color steel rock wool board assembly and connection structure, which solve the following problems in the process of molding and processing the color steel rock wool board assembly and connection structure by using the existing processing device: in the pressing process of the color steel plates, the shapes of the color steel plates at the two ends of the rock wool plates are difficult to be matched with each other after pressing, so that the two ends of the color steel rock wool plates cannot be tightly matched during installation, and the installation quality is affected. In the pressing process of the color steel plate, the shape of the pressed color steel plate is difficult to be matched with the end part of the rock wool plate, and the installation quality is also influenced.

(2) In the process of molding the color steel rock wool board assembly connection structure, when the color steel boards covered on the end faces of the rock wool boards are pressed, the two color steel boards are overlapped together, the edges of the two color steel boards are sealed by the cooperation of the sealing mechanism, the end plates and the sealing plates, and air is extracted from the gap between the two color steel boards by the sealing mechanism, so that the two color steel boards are tightly sucked together in the pressing process; the shape of the color steel plates at the two ends of the rock wool plate after being pressed is mutually matched.

(3) In the process of molding the color steel rock wool board assembly connection structure, when the color steel boards covered on the end faces of the rock wool boards are pressed, the two color steel boards overlapped together are pressed into the pressure-bearing groove through the first pressing block in the pressing mechanism, and the color steel boards are pressed into a state of being mutually attached to the surfaces of the pressure-bearing groove through the second pressing block in the pressing mechanism, so that the shape of the pressed color steel boards is matched with the end parts of the rock wool boards.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic perspective view of a device for forming and processing a color steel rock wool board assembly connection structure in an embodiment of the invention;

FIG. 2 is a side view of a device for forming and processing a color steel rock wool board assembly connection structure in an embodiment of the invention;

FIG. 3 is a front view of a pressure seat according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of FIG. 1 at A;

FIG. 5 is a schematic view of a part of the internal structure of a sealing mechanism according to an embodiment of the present invention;

FIG. 6 is a schematic view of a part of the internal structure of the pressing mechanism according to the embodiment of the present invention;

FIG. 7 is a schematic view showing a part of the internal structure of the pressing mechanism according to the embodiment of the invention;

FIG. 8 is a schematic view showing a part of the internal structure of the sealing mechanism 5 according to the embodiment of the present invention;

FIG. 9 is a step diagram of a method for forming a color steel rock wool board assembly connection structure in an embodiment of the invention;

fig. 10 is a schematic diagram of an internal structure of an end portion of a color steel rock wool board according to an embodiment of the present invention.

In the figure: 1-bottom plate, 2-pressure bearing seat, 3-pressure bearing groove, 4-chute, 5-sealing mechanism, 51- -shaped frame, 52-guide cylinder, 53-sealing screw, 54-rubber sealing block, 55-layering, 56-lifting frame, 57-adjusting screw, 6-end plate, 7-sealing plate, 71-ventilation groove, 8-L-shaped frame, 9-pressing mechanism, 91-lifting rod, 92-lifting plate, 93-return spring, 94-first pressing block, 95-second pressing block, 96-containing groove, 97-control unit, 98-guide rod, 99-horizontal groove, 910-sliding block, 971-air pipe, 972-sealing cylinder, 973-sealing column, 974-lifting block, 975-rotating rod, 976-disc, 977-arc-shaped bulge, 978-ring, 979-groove, 9710-damping block, 9711-damping spring, 10-hinge frame, 11-pressing roller, 12-limiting frame.

Detailed Description

Embodiments of the invention are described in detail below with reference to the attached drawings, but the invention can be implemented in a number of different ways, which are defined and covered by the claims.

As shown in fig. 1 to 7, the present embodiment provides a device for forming and processing a color steel rock wool board assembly connection structure, which is used for performing compression forming on color steel boards on two end surfaces of a rock wool board, and the section of the mating part of the formed color steel boards and the rock wool board is shown in fig. 10. The color steel rock wool board assembly connection structure molding processing equipment comprises a horizontal bottom plate 1, and a pressure bearing seat 2 is fixedly arranged on the upper surface of the bottom plate 1. The upper surface of the pressure-bearing seat 2 is in a horizontal state, and a pressure-bearing groove 3 penetrating through the pressure-bearing seat 2 is horizontally formed in the upper surface of the pressure-bearing seat 2. The upper surface of the pressure-bearing seat 2 is symmetrically provided with sliding grooves 4 at two sides of the pressure-bearing groove 3, and the sliding grooves 4 are horizontally matched with a sealing mechanism 5 in a sliding manner along the direction perpendicular to the pressure-bearing groove 3. An end plate 6 is vertically and fixedly arranged on the side wall of the pressure bearing seat 2 corresponding to the port of the pressure bearing groove 3, and a layer of sponge rubber is covered on the surface of the end plate 6. A through groove is formed in the position, corresponding to the port of the pressure-bearing groove 3, of one end plate 6, and a detachable sealing plate 7 is arranged in the through groove. The vent groove 71 is formed in the sealing plate 7 corresponding to the edge of the pressure-bearing groove 3 in a penetrating manner, and when the pressure-applying mechanism 9 is used for pressing and forming the color steel plate, the color steel plate discharges air in the pressure-bearing groove 3 from the vent groove 71, so that the pressure-applying mechanism 9 can tightly attach the color steel plate to the side wall of the pressure-bearing groove 3. An L-shaped frame 8 is fixedly arranged on the upper surface of the bottom plate 1 corresponding to the pressure-bearing groove 3, and a pressing mechanism 9 is arranged on the L-shaped frame 8.

The horizontal section of the L-shaped frame 8 is provided with a hinged frame 10 in vertical sliding fit with two sides of the pressing mechanism 9, and the bottom end of the hinged frame 10 is horizontally rotatably provided with a pressing roller 11 arranged along the length direction of the pressure-bearing groove 3. The upper surface of the horizontal section of the L-shaped frame 8 is in sliding fit with a limiting frame 12 matched with the hinge frame 10. In the pressing process of the color steel plates, the press roller 11 is attached to the upper surface of the color steel plates through the hinge frame 10, the positions of the hinge frame 10 and the press roller 11 are limited through the limiting frame 12, so that the press roller 11 is always pressed on the surfaces of the color steel plates to roll, the color steel plates are prevented from being tilted upwards, the two color steel plates are further guaranteed to be attached tightly all the time, and the shapes of the two color steel plates after being pressed are guaranteed to be matched with each other.

The sealing mechanism 5 comprises a -shaped frame 51 arranged along the length direction of the pressure-bearing groove 3 and slidingly fitted in the slide groove 4. A guide cylinder 52 penetrating through the -shaped frame 51 is fixedly arranged on one side, far away from the pressure-bearing groove 3, of the vertical section of the -shaped frame 51, a sealing screw 53 is arranged in the guide cylinder 52 through threads, and a rubber sealing block 54 in sliding fit with the inner wall of the guide cylinder 52 is rotatably arranged at the end part of the sealing screw 53 in the guide cylinder 52. The vertical section of the shaped frame 51 has a sliding fit in the vertical direction with the bead 55 parallel to the shaped frame 51. The upper horizontal section of the -shaped frame 51 is vertically matched with a lifting frame 56 in a sliding manner, the bottom end of the lifting frame 56 is fixedly connected to the pressing bar 55, and an adjusting screw 57 penetrating through the lifting frame 56 is vertically rotatably arranged on the upper surface of the upper horizontal section of the -shaped frame 51. After the edges of the two color steel plates which are overlapped together are placed into two horizontal sections of the -shaped frame 51, the lifting frame 56 and the pressing bar 55 are driven to descend by rotating the adjusting screw 57 until the pressing bar 55 is attached to the surface of the color steel plates, so that the joint between the upper color steel plates and the vertical section of the -shaped frame 51 is sealed by the pressing bar 55, the air pressure effect can be ensured to be pumped from the gap between the two color steel plates when the sealing screw 53 is rotated, and the two color steel plates are tightly attached together.

The two color steel plates are overlapped together and then placed on the upper surface of the pressure-bearing seat 2, so that the two color steel plates are attached to the surface of the end plate 6 towards the edge of the end plate 6; and the two color plates are positioned in two horizontal sections of the -shaped frame 51 towards the edge of the sealing mechanism 5. The rubber sealing block 54 is driven to move in the guide cylinder 52 by rotating the sealing screw 53, so that the air pressure in the guide cylinder 52 is reduced, and air is pumped from the gap between the two color steel plates by the action of the air pressure, so that the two color steel plates are tightly attached together. The pressing mechanism 9 presses the color steel plates tightly attached together, the color steel plates are pressed into the pressure-bearing groove 3, the color steel plates are attached to the surface of the pressure-bearing groove 3 through the pressing mechanism 9, in the process, the sealing mechanism 5 slides and seals the edges of the two color steel plates all the time, and therefore the two color steel plates are guaranteed to be attached tightly all the time. Finally, the sealing plate 7 is disassembled, and the pressed color steel plate is horizontally pulled out from the through groove of the end plate 6.

The pressing mechanism 9 includes lifting rods 91 located above the pressure-receiving groove 3 and uniformly arranged along the length direction of the pressure-receiving groove 3. The lifting rod 91 vertically penetrates through the horizontal section of the L-shaped frame 8 and is in sliding fit with the horizontal section of the L-shaped frame 8. The top surfaces of the lifting rods 91 are fixedly connected together by a horizontal lifting plate 92. A reset spring 93 sleeved on the lifting rod 91 is fixedly connected between the lifting plate 92 and the horizontal section of the L-shaped frame 8. The lifting rod 91 is horizontally and fixedly provided with a first pressurizing block 94 arranged along the length direction of the pressure-bearing groove 3. The width of the first pressurizing block 94 is smaller than the width of the top of the pressure-receiving groove 3. The side wall of the first pressurizing block 94 facing the sealing mechanism 5 is horizontally slidably fitted with a second pressurizing block 95 in a bar shape. The first pressurizing block 94 is provided therein with a receiving groove 96 in sliding sealing engagement with the second pressurizing block 95. The pressing mechanism 9 further includes a control unit 97 that cooperates with the second pressing block 94. After two color steel plates are stacked and placed on the upper surface of the pressure-bearing seat 2, the lifting plate 92 is pushed to descend by manpower or other existing equipment, the lifting rod 91, the first pressurizing block 94 and the second pressurizing block 95 descend synchronously, and the reset spring 93 is compressed. The first pressurizing block 94 is attached to the surface of the color steel plate in the descending process, and the color steel plate is extruded into the pressure-bearing groove 3 until the color steel plate is attached to the bottom surface of the pressure-bearing groove 3. The second pressurizing block 95 is controlled by the control unit 97 to horizontally move out of the accommodating groove 96, and the color steel plate is pushed to be attached to the side wall of the pressure-bearing groove 3, so that the pressing and shaping of the color steel plate are completed.

A plurality of guide rods 98 which are arranged along the sliding direction of the second pressurizing block 95 are rotatably arranged in the accommodating groove 96 through bearing frames, and two ends of each guide rod 98 are respectively matched with the second pressurizing block 95 through spiral grooves formed in the surface of each guide rod. The inner wall of the accommodating groove 96 is provided with a horizontal groove 99 along the sliding direction thereof, and the second pressurizing block 95 is fixedly provided with a slide block 910 which is in sliding fit with the horizontal groove 99. When the two second pressurizing blocks 95 horizontally move in the accommodating groove 96, the guide rods 98 synchronously rotate, so that the two second pressurizing blocks 95 are ensured to synchronously move, and the two second pressurizing blocks 95 can be ensured to press the side walls of the color steel plates onto the two side walls of the pressure-bearing groove 3. The sliding direction of the second pressurizing block 95 is ensured to be horizontal by the cooperation of the slider 910 and the horizontal groove 99.

The control unit 97 includes a gas pipe 971 connected between the horizontal section of the L-shaped frame 8 and the first pressurizing block 94 and communicating with the accommodation groove 96. The upper surface of the horizontal section of the L-shaped frame 8 is vertically and fixedly provided with a sealing cylinder 972, and the gas pipe 971 is communicated with the inside of the sealing cylinder 972. A sealing post 973 is vertically and slidably engaged in the sealing barrel 972. After the first pressurizing block 94 presses the color steel plate into the pressure-bearing groove 3 so that the color steel plate is attached to the bottom surface of the pressure-bearing groove 3, the sealing column 973 is pressed downwards to squeeze air in the sealing cylinder 972, and the air enters the accommodating groove 96 through the air pipe 971; thereby pushing the second pressurizing block 95 to horizontally move out of the accommodating groove 96 under the action of air pressure, and the second pressurizing block 95 props the color steel plate to the side wall of the pressure-bearing groove 3. After the downward pressure on the lifting plate 92 is released, the rebound force of the return spring 93 drives the lifting rod 91, the first pressurizing block 94 and the second pressurizing block 95 to rise, the second pressurizing block 95 is restored to the accommodating groove 96 under the guiding action of the side wall of the pressure-bearing groove 3, and in the process, the second pressurizing block 95 compresses the color steel plate on the side wall of the pressure-bearing groove 3 from bottom to top along the side wall of the pressure-bearing groove 3, so that the color steel plate is compressed into the shape of the pressure-bearing groove 3. In this process, the sealing mechanism 5 is pulled by the color steel plates to be in a sliding state, and the two color steel plates are closely attached together all the time.

Lifting blocks 974 are fixedly arranged on the top of the sealing columns 973. The upper surface of the horizontal section of the L-shaped frame 8 is vertically rotatably provided with a rotating rod 975 penetrating through the lifting block 974. The surface of the rotating rod 975 is provided with a spiral groove matched with the lifting block 974. A disk 976 is fixedly mounted on the rotating rod 975 so as to coincide with the axis thereof. A plurality of arc-shaped protrusions 977 are uniformly arranged on the circumferential surface of the disc 976 along the circumferential direction thereof. The upper surface of the horizontal section of the L-shaped frame 8 is fixedly provided with a circular ring 978 which coincides with the axis of the circular disc 976. A plurality of grooves 979 are formed in the inner circumferential surface of the circular ring 978. A damping block 9710 is slidably matched in the groove 979, and a damping spring 9711 is fixedly connected between the damping block 9710 and the end face of the groove 979. The sealing column 973 drives the rotating rod 975 and the disc 976 to rotate synchronously when moving up and down, and the disc 976 drives the arc-shaped protrusion 977 to continuously act with the damping block 9710 when rotating, so that the acting force of the damping spring 9711 can block the rotation of the disc 976 and the arc-shaped protrusion 977, and further the lifting block 974 and the sealing column 973 move upwards to slow down, so that the second pressurizing block 95 is prevented from returning to the accommodating groove 96 too fast in the lifting process, and the fact that the second pressurizing block 95 can press and attach a color steel plate on the side wall of the pressure-bearing groove 3 in the lifting process is ensured. The end face of the damping block 9710 located outside the groove 979 is opposite to the arc face, and the curvature of the arc face gradually increases from one side of the damping block 9710 to the other side of the damping block 9710, so that the disc 976 and the arc protrusion 977 are different in blocking effect when rotating in different directions. When the lifting block 974 and the sealing column 973 move downwards, the disc 976 and the arc-shaped protrusion 977 rotate forwards, and the blocking effect is small, so that the second pressurizing block 95 can move the accommodating groove 96 rapidly and effectively; when the lifting block 974 and the sealing column 973 rise, the disc 976 and the arc-shaped protrusion 977 reversely rotate, and the blocking effect is large, so that the second pressurizing block 95 is ensured to be slowly restored into the accommodating groove 96.

As shown in fig. 9, this embodiment further provides a method for forming a color steel rock wool board assembly connection structure, which is completed by adopting the above-mentioned color steel rock wool board assembly connection structure forming device in a matching manner, and specifically includes the following steps:

step one, placing a color steel plate: and (5) superposing the two color steel plates together and placing the two color steel plates on the upper surface of the pressure-bearing seat 2. So that the color steel plate is attached to the surface of the end plate 6 toward the edge of the end plate 6.

Step two, edge sealing: the edge of the two color steel plates facing the sealing mechanism 5 is sealed by the sealing mechanism 5.

Step three, compression molding: two color steel plates which are overlapped together are pressed into the pressure-bearing groove 3 through the pressing mechanism 9, so that the color steel plates are attached to the surface of the pressure-bearing groove 3.

Step four, taking down the color steel plate: and (3) taking the sealing plate 7 off the end plate 6, and horizontally extracting the color steel plates overlapped together in the pressure-bearing groove 3.

And finally, bonding the pressed color steel plate to the end face of the color steel rock wool plate.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a various steel rock wool board assembly connection structure shaping processing equipment which characterized in that: comprises a horizontal bottom plate (1), wherein a pressure bearing seat (2) is fixedly arranged on the upper surface of the bottom plate (1); the upper surface of the pressure-bearing seat (2) is in a horizontal state, and a pressure-bearing groove (3) penetrating through the pressure-bearing seat (2) is horizontally formed in the upper surface of the pressure-bearing seat (2); sliding grooves (4) are symmetrically formed in the upper surface of the pressure-bearing seat (2) and located on two sides of the pressure-bearing groove (3), and sealing mechanisms (5) are horizontally matched with the sliding grooves (4) in a sliding manner along the direction perpendicular to the pressure-bearing groove (3);

the sealing mechanism (5) comprises a -shaped frame (51) which is arranged along the length direction of the pressure-bearing groove (3) and is in sliding fit in the sliding groove (4); a guide cylinder (52) penetrating through the -shaped frame (51) is fixedly arranged on one side, far away from the pressure-bearing groove (3), of the vertical section of the -shaped frame (51), a sealing screw rod (53) is arranged in the guide cylinder (52) through threads, and a rubber sealing block (54) which is in sliding fit with the inner wall of the guide cylinder (52) is rotatably arranged at the end part of the sealing screw rod (53) positioned in the guide cylinder (52);

an end plate (6) is vertically and fixedly arranged on the side wall of the pressure bearing seat (2) corresponding to the port of the pressure bearing groove (3), and a layer of sponge rubber is covered on the surface of the end plate (6); a through groove is formed in the position, corresponding to the port of the pressure-bearing groove (3), of one end plate (6), and a detachable sealing plate (7) is arranged in the through groove; an L-shaped frame (8) is fixedly arranged on the upper surface of the bottom plate (1) corresponding to the pressure-bearing groove (3), and a pressing mechanism (9) is arranged on the L-shaped frame (8);

the pressing mechanism (9) comprises lifting rods (91) which are positioned above the pressure-bearing groove (3) and are uniformly arranged along the length direction of the pressure-bearing groove (3); the lifting rod (91) vertically penetrates through the horizontal section of the L-shaped frame (8) and is in sliding fit with the horizontal section of the L-shaped frame (8); the top surfaces of the lifting rods (91) are fixedly connected together through a horizontal lifting plate (92); a reset spring (93) sleeved on the lifting rod (91) is fixedly connected between the lifting plate (92) and the horizontal section of the L-shaped frame (8); the bottom surface of the lifting rod (91) is horizontally and fixedly provided with a first pressurizing block (94) which is arranged along the length direction of the pressure-bearing groove (3); the width of the first pressurizing block (94) is smaller than the width of the top of the pressure-bearing groove (3); the side wall of the first pressurizing block (94) facing the sealing mechanism (5) is horizontally matched with a strip-shaped second pressurizing block (95) in a sliding way; an accommodating groove (96) which is in sliding sealing fit with the second pressurizing block (95) is formed in the first pressurizing block (94); the pressing mechanism (9) also comprises a control unit (97) matched with the second pressing block (95);

the control unit (97) comprises a gas pipe (971) which is connected between the horizontal section of the L-shaped frame (8) and the first pressurizing block (94) and is communicated with the accommodating groove (96); the upper surface of the horizontal section of the L-shaped frame (8) is vertically and fixedly provided with a sealing cylinder (972), and the gas pipe (971) is communicated with the inside of the sealing cylinder (972); a sealing column (973) is vertically matched in the sealing cylinder (972) in a sliding sealing way;

a plurality of guide rods (98) which are arranged along the sliding direction of the second pressurizing blocks (95) are rotatably arranged in the accommodating grooves (96) through bearing frames, and two ends of each guide rod (98) are respectively matched with the second pressurizing blocks (95) through spiral grooves formed in the surfaces of the guide rods; the inner wall of the accommodating groove (96) is provided with a horizontal groove (99) along the sliding direction, and the second pressurizing block (95) is fixedly provided with a sliding block (910) which is in sliding fit with the horizontal groove (99).

2. The device for forming and processing the color steel rock wool board assembly connection structure according to claim 1, wherein the device comprises the following components: the vertical section of the -shaped frame (51) is in sliding fit with a pressing bar (55) parallel to the -shaped frame (51) along the vertical direction; the upper horizontal section of the -shaped frame (51) is vertically matched with a lifting frame (56) in a sliding manner, the bottom end of the lifting frame (56) is fixedly connected to the pressing bar (55), and an adjusting screw (57) penetrating through the lifting frame (56) is vertically rotatably arranged on the upper surface of the upper horizontal section of the -shaped frame (51).

3. The device for forming and processing the color steel rock wool board assembly connection structure according to claim 1, wherein the device comprises the following components: and a ventilation groove (71) is formed in the sealing plate (7) in a penetrating manner at a position corresponding to the edge of the pressure-bearing groove (3).

4. The device for forming and processing the color steel rock wool board assembly connection structure according to claim 1, wherein the device comprises the following components: a lifting block (974) is fixedly arranged at the top of the sealing column (973); a rotating rod (975) penetrating through the lifting block (974) is vertically and rotatably arranged on the upper surface of the horizontal section of the L-shaped frame (8); a spiral groove matched with the lifting block (974) is formed on the surface of the rotating rod (975); a disc (976) which is coincident with the axis of the rotating rod (975) is fixedly arranged on the rotating rod; a plurality of arc-shaped bulges (977) are uniformly arranged on the circumferential surface of the disc (976) along the circumferential direction; the upper surface of the horizontal section of the L-shaped frame (8) is fixedly provided with a circular ring (978) which is overlapped with the axis of the disc (976); a plurality of grooves (979) are formed in the inner circumferential surface of the circular ring (978); damping blocks (9710) are slidably matched in the grooves (979), and damping springs (9711) are fixedly connected between the damping blocks (9710) and the end faces of the grooves (979).

5. The device for forming and processing the color steel rock wool board assembly connection structure according to claim 4, wherein: the damping block (9710) is located on the end face and the arc face outside the groove (979), and the curvature of the arc face gradually increases from one side of the damping block (9710) to the other side of the damping block (9710).

6. The device for forming and processing the color steel rock wool board assembly connection structure according to claim 1, wherein the device comprises the following components: the horizontal section of the L-shaped frame (8) is vertically matched with the hinge frames (10) in a sliding manner at two sides of the pressing mechanism (9), and the bottom ends of the hinge frames (10) are horizontally and rotatably provided with press rolls (11) arranged along the length direction of the pressure-bearing grooves (3); the upper surface of the horizontal section of the L-shaped frame (8) is in sliding fit with a limiting frame (12) matched with the hinge frame (10).

7. The method for forming the color steel rock wool board assembly connection structure is characterized by being completed by adopting the device for forming the color steel rock wool board assembly connection structure according to claim 1, and specifically comprises the following steps:

step one, placing a color steel plate: overlapping two color steel plates together and placing the two color steel plates on the upper surface of a pressure-bearing seat (2); the color steel plate is attached to the surface of the end plate (6) towards the edge of the end plate (6);

step two, edge sealing: sealing the edges of the two color steel plates facing the sealing mechanism (5) through the sealing mechanism (5);

step three, compression molding: two color steel plates which are overlapped together are pressed into the pressure-bearing groove (3) through a pressing mechanism (9), so that the color steel plates are attached to the surface of the pressure-bearing groove (3);

step four, taking down the color steel plate: and (3) taking the sealing plate (7) off the end plate (6), and horizontally extracting the color steel plates overlapped together in the pressure-bearing groove (3).

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