CN110549460A - Energy-saving insulation board edge sealing equipment - Google Patents

Abstract

The invention discloses an energy-saving insulation board edge sealing device which comprises a low-side box body, wherein an up-and-down penetrating cavity is arranged in the low-side box body, a transmission connecting shaft is rotatably arranged between the left end wall and the right end wall of the cavity, a driving motor is fixedly arranged on the left end surface of the low-side box body and is in power connection with the transmission connecting shaft, a movable connecting plate is arranged on the outer surface of the transmission connecting shaft in a threaded fit connection manner, and an alignment transition device capable of adjusting the height and playing an alignment role on a plate is arranged on the upper end surfaces of the movable connecting plate and the low-side box body. So as to improve the edge sealing effect of the plate.

Description

Energy-saving insulation board edge sealing equipment

Technical Field

The invention relates to the technical field of energy-saving insulation boards, in particular to an edge sealing device for an energy-saving insulation board.

Background

The energy-saving heat-insulating board is bonded by adopting a multi-layer composite board to form an integrated structure, then the edge sealing is carried out on the board to form a complete energy-saving heat-insulating board convenient for personnel to use, in the actual construction and processing process, the energy-saving heat-insulating board needs to be cut according to the specified size according to different size areas, but the multi-layer structure in the energy-saving heat-insulating board is exposed after cutting, the actual use of the board is influenced to a great extent, the cut energy-saving heat-insulating board cannot be efficiently sealed in time, the practicability of the energy-saving heat-insulating board can be influenced, the service life of the energy-saving heat-insulating board can be reduced, the energy-saving heat-insulating board needs to be frequently disassembled by personnel, the labor burden of the personnel is increased to a great extent, the working efficiency of the personnel is reduced, for example, the thickness is different, and it is very inconvenient when carrying out the banding, very big reduction energy-conserving heated board's banding function.

Disclosure of Invention

The invention aims to solve the technical problem of providing an energy-saving insulation board edge sealing device which can solve the problems in the prior art.

The invention is realized by the following technical scheme: the invention discloses an energy-saving insulation board edge sealing device which comprises a low-side box body, wherein an accommodating cavity penetrating up and down is arranged in the low-side box body, a transmission connecting shaft is rotatably arranged between the left end wall and the right end wall of the accommodating cavity, a driving motor is fixedly arranged on the left end face of the low-side box body and is in power connection with the transmission connecting shaft, a moving connecting plate is arranged on the outer surface of the transmission connecting shaft in a threaded fit connection mode, an alignment transition device capable of adjusting the height of the moving connecting plate and playing an alignment role on a plate is arranged on the upper end faces of the moving connecting plate and the low-side box body, and a turnover device for turning and clamping.

In a further technical scheme, the aligning transition device comprises a top motor fixedly arranged on the upper end surfaces of the low-side box body and the movable connecting plate, a transmission box body is fixedly arranged on the upper side of the low-side box body, a penetrating cavity penetrating through the transmission box body from left to right is arranged in the transmission box body, the top motor is fixed with the lower end surface of the transmission box body, a motor transmission shaft is arranged in the top motor in a power connection way, the motor transmission shaft is connected with the upper end wall of the penetration cavity in a rotating fit manner, guide shafts which are symmetrical left and right are fixedly arranged between the upper end wall and the lower end wall of the penetration cavity, an internal thread lifting block is arranged in the penetrating cavity in a sliding manner, the internal thread lifting block is in threaded fit connection with the motor transmission shaft, the utility model discloses a device for adjusting the alignment of panel and equipment structure, including internal thread elevator piece, transmission box body and guide shaft, the internal thread elevator piece up end sets firmly bilateral symmetry's guide shaft, the gliding running through of guide shaft transmission box body upwards extends, the guide shaft up end sets firmly the adjustment subassembly that can adjust panel and equipment structure and align.

According to the technical scheme, the adjusting assembly comprises a top box body fixed with the guide shaft, an open-ended open sliding cavity is formed in the top box body, a driving motor is fixedly arranged in the rear end wall of the open sliding cavity, a rotating external threaded shaft in rotating fit with the end wall of the open sliding cavity is arranged in the driving motor in a power connection mode, a moving adjusting block is arranged on the outer surface of the rotating external threaded shaft in a threaded fit connection mode, the moving adjusting block is in sliding fit with the open sliding cavity in a connecting mode, and a protruding structure aligned with the plate is arranged on the upper end face of the moving adjusting block.

According to a further technical scheme, the protruding structure comprises an alignment block which is fixedly connected with the movable adjusting block in a threaded fit mode, and the alignment block is of a convex structure.

According to the technical scheme, the turnover device comprises a rear side box body fixed to the rear end face of the low side box body, an inner penetrating cavity penetrating through the rear side box body from top to bottom is formed in the rear side box body, a turnover clamping assembly for clamping the plate is arranged on the upper end face of the rear side box body, a driving assembly located in the inner penetrating cavity and enabling the turnover clamping assembly to work is arranged on the lower side of the turnover clamping assembly, and an elastic buffering assembly located on the rear side of the turnover clamping assembly and used for offsetting and buffering the plate is arranged on the upper end face of the low side box body.

According to the further technical scheme, the overturning and clamping assembly comprises a support fixed to the upper end face of the rear side box body, an overhead box is arranged in the support in a rotating mode, and an elastic structure for elastically clamping the plate is arranged in the overhead box.

According to the technical scheme, the elastic structure comprises a guide rod fixedly arranged between the left end wall and the right end wall of the inner cavity, symmetrical sliding clamping blocks are arranged on the outer surface of the guide rod in a sliding mode, a connecting spring is elastically arranged between the sliding clamping blocks and the end walls of the inner cavity, an open clamping matching cavity is formed in each sliding clamping block, and an energy-saving insulation board is fixedly arranged in each clamping matching cavity in a clamping mode.

further technical scheme, drive assembly including set firmly in the connection cylinder of rear side box rear end face, power connection is provided with the catch bar in connecting the cylinder, the terminal surface has set firmly protruding pole before the catch bar, protruding pole internal rotation be provided with the rotation connecting rod, interior cavity end wall that pierces through has set firmly perpendicular pole, perpendicular pole internal rotation be provided with the swing side lever, the connecting rod internal rotation be provided with connect the round bar, connect the round bar with swing side lever normal running fit is connected, the terminal surface sets firmly the drum of symmetry around connecting the round bar, the drum with terminal surface offsets under the overhead case.

According to a further technical scheme, the elastic buffer assembly comprises a top side installation box fixed with the upper end face of the low side box body, spring installation cavities which are symmetrical up and down and are provided with openings are formed in the top side installation box, ejector rods are arranged in the spring installation cavities in a sliding mode, connecting springs are elastically arranged between the ejector rods and the end walls of the spring installation cavities, a side arrangement plate is fixedly arranged on the front end face of each ejector rod, and the side arrangement plate is connected with the low side box body in a sliding fit mode.

The invention has the beneficial effects that: when the device works, firstly, a plate is placed in the card-installing matching cavity, the sliding clamping block enables the sliding clamping block to sufficiently clamp the plate under the action of the connecting spring, then the connecting cylinder drives the push rod to move after working and drives the protruding rod to move and drive the rotating connecting rod and the swinging side rod to rotate, the connecting round rod and the cylinder gradually swing the top-arranged box upwards to enable the plate to be abutted against the side-arranged plate, and because the plates with different thicknesses are abutted against the side-arranged plate to different degrees after being vertically placed, the plate is firmly clamped between the side-arranged plate and the top-arranged box under the action of the side-arranged plate, the push rod and the connecting spring, the plate is completely vertically placed, the vertical placement can improve the edge sealing effect of the plate, and the plate can be stably and vertically placed when the edge sealing is carried out, the edge sealing effect of the plate is reduced by preventing the plate from inclining, the edge sealing operation needs to be carried out on the plate at the moment, the height of the alignment block is required to be adjusted to be consistent with that of the energy-saving heat-insulation plate so as to facilitate the edge sealing equipment to carry out the edge sealing in advance, the top motor drives the motor transmission shaft to rotate after working, the motor transmission shaft drives the internal thread lifting block to move up and down after rotating, the internal thread lifting block drives the guide shaft to move up and down, the guide shaft drives the sliding clamping block to move up and down, meanwhile, the driving motor drives the external thread rotating shaft to rotate after working, the moving adjustment block slides in the opening sliding cavity, the alignment block and the plate are in a state of being right opposite to each other, and the alignment block and the plate, so that the edge sealing equipment carries out edge sealing in advance and can make the edge sealing effect of the plate improved.

The equipment provided by the invention is simple in structure, and the equipment realizes that the active adjustment of the internal adjustment structure of the equipment is realized by adopting the alignment transition device and the turnover device, so that the plates are fully clamped and fixed by the internal related structure of the equipment, the plates are conveniently placed in the equipment and vertically placed, and the plate edge sealing equipment in the external space can perform efficient pre-edge sealing on the plates, so that the edge sealing effect of the plates is improved.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the internal overall structure of an edge sealing device for an energy-saving insulation board of the invention;

FIG. 2 is a schematic view of the direction A in FIG. 1;

FIG. 3 is a schematic view of the direction B in FIG. 1;

FIG. 4 is a schematic view of FIG. 3 taken along direction C;

In the figure, a clamping and matching cavity 101, a sliding clamping block 102, an inner cavity 103, a connecting spring 104, a guide rod 105, a moving connecting plate 106, an overhead box 107, a bracket 108, a containing cavity 111, a transmission connecting shaft 112, a low-side box 113, a driving motor 115, a top motor 116, a penetrating cavity 117, a motor transmission shaft 118, a guide shaft 119, a top box 120, a moving adjusting block 121, an energy-saving heat-insulating plate 123, a transmission box 124, an aligning block 125, a rotating external thread shaft 126, an opening sliding cavity 127, an internal thread lifting block 128, a connecting cylinder 201, a rear-side box 202, a pushing rod 203, a protruding rod 204, a rotating connecting rod 205, a swinging side rod 206, a vertical rod 207, a top-side mounting box 208, a spring mounting cavity 209, a connecting spring 210, a pushing rod 211, a side plate 212, a cylinder 213, a connecting round rod 214, an inner penetrating.

Detailed Description

As shown in fig. 1 to 4, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the edge sealing device for the energy-saving heat-insulation board comprises a low-side box body 113, wherein a vertically-penetrating cavity 111 is arranged in the low-side box body 113, a transmission connecting shaft 112 is rotatably arranged between the left end wall and the right end wall of the cavity 111, a driving motor 115 is fixedly arranged on the left end surface of the low-side box body 113, the driving motor 115 is in power connection with the transmission connecting shaft 112, a moving connecting plate 106 is arranged on the outer surface of the transmission connecting shaft 112 in a threaded fit connection mode, an alignment transition device capable of adjusting the height and playing an alignment role on the board is arranged on the upper end surfaces of the moving connecting plate 106 and the low-side box body 113, and an overturning device for overturning and clamping the board to seal the board conveniently is arranged on the upper side of the low-side box body 113.

Advantageously, the alignment transition device comprises a top motor 116 fixedly arranged on the upper end surfaces of the low-side box 113 and the movable connecting plate 106, a transmission box 124 is fixedly arranged on the upper side of the low-side box 113, a penetrating cavity 117 penetrating through the transmission box 124 from left to right is arranged in the transmission box 124, the top motor 116 is fixedly arranged on the lower end surface of the transmission box 124, a motor transmission shaft 118 is arranged in the top motor 116 in a power connection manner, the motor transmission shaft 118 is connected with the upper end wall of the penetrating cavity 117 in a rotating fit manner, guide shafts 119 symmetrical from left to right are fixedly arranged between the upper end wall and the lower end wall of the penetrating cavity 117, an internal thread lifting block 128 is arranged in the penetrating cavity 117 in a sliding manner, the internal thread lifting block 128 is connected with the motor transmission shaft 118 in a threaded fit manner, a guide shaft 119 symmetrical from left to right is fixedly arranged on the upper end surface of the internal, the up end of guide shaft 119 sets firmly the adjustment subassembly that can adjust panel and equipment structure and align.

Beneficially, the adjusting assembly includes a top box 120 fixed to the guide shaft 119, an open sliding cavity 127 is provided in the top box 120, a driving motor 301 is fixedly provided in a rear end wall of the open sliding cavity 127, a rotating external threaded shaft 126 connected with the end wall of the open sliding cavity 127 in a rotating fit manner is provided in the driving motor 301 in a power connection manner, a moving adjusting block 121 is provided on an outer surface of the rotating external threaded shaft 126 in a threaded fit manner, the moving adjusting block 121 is connected with the open sliding cavity 127 in a sliding fit manner, and a protruding structure aligned with the plate is provided on an upper end surface of the moving adjusting block 121.

advantageously, the protruding structure comprises an alignment block 125 fixed in threaded fit connection with the movement adjustment block 121, and the alignment block 125 is of a convex structure.

Advantageously, the turnover device includes a rear box 202 fixed to the rear end surface of the low-side box 113, an inner through cavity 215 penetrating up and down is provided in the rear box 202, an turnover card installing assembly for installing and clamping the plate is provided on the upper end surface of the rear box 202, a driving assembly located in the inner through cavity 215 and enabling the turnover card installing assembly to operate is provided on the lower side of the turnover card installing assembly, and an elastic buffer assembly located behind the turnover card installing assembly and used for offsetting and buffering the plate is provided on the upper end surface of the low-side box 113.

Advantageously, the flip-chip assembly comprises a bracket 108 fixed to the upper end surface of the rear case 202, wherein an overhead case 107 is rotatably disposed in the bracket 108, and a resilient structure for resiliently clamping the plate material is disposed in the overhead case 107.

Beneficially, the elastic structure includes a guide rod 105 fixedly arranged between left and right end walls of the inner cavity 103, symmetrical sliding clamping blocks 102 are arranged on the outer surface of the guide rod 105 in a sliding manner, a connecting spring 104 is elastically arranged between the sliding clamping blocks 102 and the end walls of the inner cavity 103, an open mounting and clamping matching cavity 101 is arranged in the sliding clamping block 102, and an energy-saving heat insulation board 123 is fixedly arranged in the mounting and clamping matching cavity 101.

Beneficially, the driving assembly includes a connecting cylinder 201 fixedly disposed on the rear end surface of the rear box 202, a push rod 203 is disposed in the connecting cylinder 201 in a power connection manner, a protruding rod 204 is fixedly disposed on the front end surface of the push rod 203, a rotating link 205 is rotatably disposed in the protruding rod 204, a vertical rod 207 is fixedly disposed on the end wall of the inner penetrating cavity 215, a swinging side rod 206 is rotatably disposed in the vertical rod 207, a connecting round rod 214 is rotatably disposed in the rotating link 205, the connecting round rod 214 is rotatably and cooperatively connected with the swinging side rod 206, symmetrical cylinders 213 are fixedly disposed on the front end surface and the rear end surface of the connecting round rod 214, and the cylinders 213 abut against the lower end surface of the overhead box 107.

Advantageously, the elastic buffer assembly comprises a top side installation box 208 fixed to the upper end face of the low side box 113, a vertically symmetrical and open spring installation cavity 209 is arranged in the top side installation box 208, an ejector rod 211 is slidably arranged in the spring installation cavity 209, a connecting spring 210 is elastically arranged between the ejector rod 211 and the end wall of the spring installation cavity 209, a side plate 212 is fixedly arranged on the front end face of the ejector rod 211, and the side plate 212 is connected with the low side box 113 in a sliding fit manner.

In the initial state, the above-described devices, assemblies and structures are in a deactivated state, the apparatus is required to align and install the sheets, and then the sheet edge sealing apparatus is required to efficiently seal the edges of the sheets, the sheets are required to be installed in the apparatus before the apparatus is operated, and the overhead box 107 is in a horizontal state in the initial state.

When the equipment works, firstly, a plate is placed in the card-installing matching cavity 101, the sliding clamping block 102 enables the sliding clamping block 102 to sufficiently clamp the plate under the action of the connecting spring 104, then the connecting cylinder 201 works to drive the pushing rod 203 to move and drive the protruding rod 204 to move and drive the rotating connecting rod 205 and the swinging side rod 206 to rotate, the connecting round rod 214 and the cylinder 213 gradually swing the overhead box 107 upwards to enable the plate to be abutted against the side placing plate 212, and because the plates with different thicknesses are abutted against the side placing plate 212 to different degrees after being vertically placed, the plate is firmly clamped between the side placing plate 212 and the overhead box 107 under the action of the side placing plate 212, the pushing rod 211 and the connecting spring 210, and the plate is completely vertically placed, the vertical placement can improve the edge sealing effect of the plate, and the plate can be stably and vertically placed when the edge sealing is performed, so that the edge sealing effect of the plate is prevented from being reduced due to the inclination, at the moment, the edge sealing operation needs to be performed on the plate, the height of the alignment block 125 and the height of the energy-saving insulation board 123 need to be adjusted to be consistent, so that the edge sealing equipment performs the edge sealing in advance, so as to improve the edge sealing effect, the top motor 116 drives the motor transmission shaft 118 to rotate after working, the motor transmission shaft 118 drives the internal thread lifting block 128 to move up and down, the internal thread lifting block 128 drives the guide shaft 119 to move up and down, the guide shaft 119 drives the sliding clamping block 102 to move up and down, meanwhile, the driving motor 301 drives the external thread shaft 126 to rotate after working, and the moving adjusting block 121 slides in the opening sliding cavity, the alignment block 125 is aligned with the plate, and at this time, the alignment block 125 is aligned with the plate, so that the edge sealing device performs edge sealing in advance and the edge sealing effect of the plate can be improved.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (9)

1. The utility model provides an energy-conserving heated board banding equipment, includes the low side box, be provided with the appearance chamber that runs through from top to bottom in the low side box, the pivoted is provided with the transmission connecting axle about the appearance chamber between the end wall, low side box left end face has set firmly driving motor, driving motor with transmission connecting axle power is connected, transmission connecting axle surface screw-thread fit connects and is provided with the removal connecting plate, it is provided with the alignment transition device that can adjust the height and play the alignment effect to panel to remove connecting plate and low side box up end, low side box upside is provided with and overturns the dress card with realizing panel and is convenient for carry out the turning device of banding.

2. The edge sealing equipment for the energy-saving heat-insulation boards according to claim 1, which is characterized in that: the alignment transition device comprises a top motor fixedly arranged on the upper end surfaces of the low-side box body and the movable connecting plate, a transmission box body is fixedly arranged on the upper side of the low-side box body, a penetrating cavity penetrating through the transmission box body from left to right is arranged in the transmission box body, the top motor is fixed with the lower end surface of the transmission box body, a motor transmission shaft is arranged in the top motor in a power connection way, the motor transmission shaft is connected with the upper end wall of the penetration cavity in a rotating fit manner, guide shafts which are symmetrical left and right are fixedly arranged between the upper end wall and the lower end wall of the penetration cavity, an internal thread lifting block is arranged in the penetrating cavity in a sliding manner, the internal thread lifting block is in threaded fit connection with the motor transmission shaft, the utility model discloses a device for adjusting the alignment of panel and equipment structure, including internal thread elevator piece, transmission box body and guide shaft, the internal thread elevator piece up end sets firmly bilateral symmetry's guide shaft, the gliding running through of guide shaft transmission box body upwards extends, the guide shaft up end sets firmly the adjustment subassembly that can adjust panel and equipment structure and align.

3. The edge sealing device for the energy-saving heat-insulation board according to claim 2, characterized in that: the adjusting assembly comprises a top box body fixed with the guide shaft, an open-ended open sliding cavity is formed in the top box body, a driving motor is fixedly arranged in the rear end wall of the open sliding cavity, a rotating external threaded shaft in running fit with the end wall of the open sliding cavity is arranged in the driving motor in a power connection mode, a moving adjusting block is arranged on the outer surface of the rotating external threaded shaft in a threaded fit connection mode, the moving adjusting block is in sliding fit with the open sliding cavity in a connection mode, and a protruding structure aligned with the plate is arranged on the upper end face of the moving adjusting block.

4. The edge sealing equipment for the energy-saving heat-insulation boards according to claim 3, wherein: the protruding structure comprises an alignment block which is fixedly connected with the movable adjusting block in a threaded fit mode, and the alignment block is of a convex structure.

5. The edge sealing device for the energy-saving heat-insulating board according to claim 1, wherein the turnover device comprises a rear side box body fixed to the rear end face of the low side box body, an inner penetrating cavity penetrating up and down is formed in the rear side box body, a turnover clamping assembly for clamping the board is arranged on the upper end face of the rear side box body, a driving assembly located in the inner penetrating cavity and enabling the turnover clamping assembly to work is arranged on the lower side of the turnover clamping assembly, and an elastic buffering assembly located on the rear side of the turnover clamping assembly and used for offsetting and buffering the board is arranged on the upper end face of the low side box body.

6. The edge sealing equipment for the energy-saving heat-insulation boards according to claim 5, wherein: the turnover clamping assembly comprises a support fixed to the upper end face of the rear side box body, an overhead box is arranged in the support in a rotating mode, and an elastic structure for elastically clamping the plate is arranged in the overhead box.

7. the edge sealing equipment for the energy-saving heat-insulation boards according to claim 6, wherein: the elastic structure comprises a guide rod fixedly arranged between the left end wall and the right end wall of the inner cavity, symmetrical sliding clamping blocks are arranged on the outer surface of the guide rod in a sliding mode, a connecting spring is elastically arranged between the sliding clamping blocks and the end walls of the inner cavity, an opening clamping matching cavity is formed in each sliding clamping block, and an energy-saving insulation board is fixedly arranged in each clamping matching cavity.

8. The edge sealing equipment for the energy-saving heat-insulation boards according to claim 5, wherein: the drive assembly including set firmly in the connection cylinder of rear side box rear end face, it is provided with the catch bar to connect the interior power connection of cylinder, the terminal surface has set firmly protruding pole before the catch bar, protruding pole internal rotation be provided with the rotation connecting rod, interior penetrating cavity end wall has set firmly perpendicular pole, perpendicular pole internal rotation be provided with the swing side lever, the connecting rod internal rotation be provided with connect the round bar, connect the round bar with swing side lever normal running fit is connected, the terminal surface has set firmly the drum of symmetry around connecting the round bar, the drum with terminal surface offsets under the overhead case.

9. The edge sealing equipment for the energy-saving heat-insulation boards according to claim 5, wherein: the elastic buffer assembly comprises a top side installation box fixed with the upper end face of the low side box body, a spring installation cavity which is symmetrical up and down and is provided with an opening is arranged in the top side installation box, an ejector rod is arranged in the spring installation cavity in a sliding mode, a connecting spring is elastically arranged between the ejector rod and the end wall of the spring installation cavity, a side plate is fixedly arranged on the front end face of the ejector rod, and the side plate is connected with the low side box body in a sliding fit mode.