CN109773529B

CN109773529B - Adjustable fixed splicing device for plate processing and use method thereof

Info

Publication number: CN109773529B
Application number: CN201910198921.6A
Authority: CN
Inventors: 陈宗益
Original assignee: Individual
Current assignee: Yang Songmei
Priority date: 2019-03-15
Filing date: 2019-03-15
Publication date: 2020-05-12
Anticipated expiration: 2039-03-15
Also published as: CN109773529A

Abstract

The invention discloses an adjustable fixed splicing device for processing plates and a using method thereof, wherein the adjustable fixed splicing device comprises a bottom plate, two clamping mechanisms and a plate body, wherein the top of the bottom plate is connected with the two clamping mechanisms, and the clamping mechanisms fix the plate body; two first sliding rails are symmetrically arranged on two sides of the top of the bottom plate and are in sliding connection with a first sliding block arranged on the clamping mechanism; the clamping mechanism consists of a cross beam, a lifting mechanism, a first sliding block, a first air cylinder, a first extrusion plate, a first clamping plate, a second bolt hole, a first movable connecting block, an F clamp, a cushion block, a fourth air cylinder, a second slide rail, a second movable connecting block, a fifth air cylinder, an extrusion rod, a fixed block, an ejector rod and an L-shaped connecting plate, wherein the first sliding block is fixedly connected with the bottoms of the lifting mechanism and the sliding mechanism.

Description

Adjustable fixed splicing device for plate processing and use method thereof

Technical Field

The invention relates to the technical field of plate processing, in particular to an adjustable fixed splicing device for plate processing and a using method thereof.

Background

The first of the boards is a solid wood board for carpentry, which is used as a material for building home furnishing or other living facilities, and with the development of the times, the definition of the boards is very wide nowadays, and the boards need to be spliced in the process of processing the boards, and the boards are necessarily fixed when the boards are processed, so the boards need to be fixed before the processing, and therefore, the demand for a fixed splicing device for processing the boards is increasing.

In general, the splicing of the plates is performed through manual measurement and then fixed splicing, so that the splicing is troublesome and the deviation is easy to occur; at present, a plurality of plate fixing and splicing devices are also provided, but the existing fixing and splicing devices are not convenient to adjust, are not suitable for fixing and splicing plates with different broad bands, and are low in plate fixing efficiency, inaccurate in fixing and inconvenient to operate, so that the adjustable fixing and splicing device for plate processing and the use method thereof are provided aiming at the problems.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide an adjustable fixed splicing device for plate processing and a using method thereof, which can solve the technical problems of manual measurement, fixed splicing, inconvenience in adjustment of the conventional fixed splicing device, unsuitability for fixed splicing of plates with different broad bands, low plate fixing efficiency, inaccuracy in fixing and inconvenience in operation.

The purpose of the invention can be realized by the following technical scheme:

an adjustable fixed splicing device for processing plates comprises a bottom plate, two clamping mechanisms and a plate body, wherein the top of the bottom plate is connected with the two clamping mechanisms; two first sliding rails are symmetrically arranged on two sides of the top of the bottom plate and are in sliding connection with a first sliding block arranged on the clamping mechanism;

the clamping mechanism consists of a cross beam, a lifting mechanism, a first sliding block, a first air cylinder, a first extrusion plate, a first clamping plate, a second bolt hole, a first movable connecting block, an F clamp, a second air cylinder, an L-shaped connecting block, a first fastening bolt, a sliding mechanism, a fixing plate, a second fastening bolt, a second sliding block, a third air cylinder, a second clamping plate, a second extrusion plate, a piston rod, a cushion block, a fourth air cylinder, a second sliding rail, a second movable connecting block, a fifth air cylinder, an extrusion rod, a fixing block, an ejector rod and an L-shaped connecting plate, wherein the bottom of the lifting mechanism and the bottom of the sliding mechanism are fixedly connected with the first sliding block, one side of the sliding mechanism is fixedly connected with the L-shaped connecting block, the first fastening bolt penetrates through the L-shaped connecting block, one side of the lifting mechanism and the sliding mechanism is fixedly connected with the first air cylinder through the fixing plate, and the top end of a telescopic, the cross beam is arranged at the tops of the lifting mechanism and the sliding mechanism, wherein the cross beam is a concave plate, second bolt holes are uniformly formed in two sides of the cross beam, two fifth cylinders are symmetrically arranged on one side of the cross beam, an extrusion rod is fixedly connected to the bottom of each fifth cylinder, a second slide rail is arranged on the cross beam, two second slide blocks are connected onto the second slide rail in a sliding mode, L-shaped connecting plates are arranged on two sides of each of the two second slide blocks, a second fastening bolt penetrates through the L-shaped connecting plates, the second fastening bolt and the second bolt holes are matched members, and a first movable connecting block and a second movable connecting block are arranged at the tops of the two second slide blocks; the orientation of first removal connecting block and second removal connecting block is opposite, one side of first removal connecting block is passed through F and is pressed from both sides and be connected with first splint, one side of second removal connecting block is passed through F and is pressed from both sides and be connected with the second splint, just F press from both sides and the equal swing joint of first removal connecting block and second removal connecting block.

As a further scheme of the invention: elevating system includes first backup pad, first spout, lead screw, servo motor, second spout, third slider and supporting connection board, first spout has been seted up to one side of first backup pad, the inside of first spout is provided with servo motor, fixedly connected with lead screw on servo motor's the output shaft, the lead screw passes the third slider and is connected with the transmission of first backup pad, one side fixedly connected with supporting connection board of third slider, just the second spout sliding connection that the both sides and the first backup pad both sides of third slider were seted up, supporting connection board's top and crossbeam are connected.

As a further scheme of the invention: the sliding mechanism comprises a second supporting plate, a third sliding groove, a fourth sliding block and a supporting rod, the third sliding groove is formed in one side of the second supporting plate, the fourth sliding block is connected to the inside of the third sliding groove in a sliding mode, the supporting rod is fixedly connected to the top of the fourth sliding block, and the supporting rod penetrates through the third sliding groove and is connected with the cross beam.

As a further scheme of the invention: the bottom of bottom plate is provided with four universal auto-lock gyro wheels, just the top center department of bottom plate is provided with the backing plate, two stoppers are installed to the top symmetry of bottom plate.

As a further scheme of the invention: one side of the second clamping plate is fixedly connected with a third cylinder, the top end of a telescopic rod of the third cylinder is fixedly connected with a cushion block, one side of the cushion block is fixedly connected with a fourth cylinder, and the top end of a piston rod of the fourth cylinder is fixedly connected with a second extrusion plate.

As a further scheme of the invention: the F clamp is fixedly connected with a second cylinder, a telescopic rod of the second cylinder is fixedly connected with a fixed block, and one end of the bottom of the fixed block is fixedly connected with an ejector rod.

As a further scheme of the invention: first bolt holes are uniformly formed in one side of the first sliding rail, and the first sliding rail and the first fastening bolts are matched components.

A use method of an adjustable fixed splicing device for plate processing comprises the following steps:

the method comprises the following steps: firstly, moving a clamping mechanism to a position parallel to a limiting block, locking the clamping mechanism by using a first fastening bolt, putting down a first clamping plate, and abutting one side of a first plate body against the first clamping plate and abutting one end of the first plate body against the limiting block;

step two: the servo motor works to drive the screw rod to rotate, so that the third slide block is driven to slide, the support connecting plate is driven to ascend and descend, the support rod can ascend and descend through the fourth slide block, and the cross beam is driven to ascend and descend to adjust the height; then adjusting the distance between the first movable connecting block and the second movable connecting block, and locking the first movable connecting block and the second movable connecting block through a second fastening bolt;

step three: putting down a second clamping plate, inserting a second plate body and a third plate body into two ends of the first plate body, driving a first extrusion plate to extrude and fix the second plate body and the third plate body through a first cylinder, driving a ejector rod to extrude and fix the top of the first plate body through a fixed block by the second cylinder, and driving an extrusion rod to extrude and fix the tops of the second plate body and the third plate body respectively by a fifth cylinder; finally, the third cylinder drives the fourth cylinder through the cushion block so that the inside of the fourth cylinder extrudes and fixes the second plate body and the third plate body, and the fourth cylinder drives the second extrusion plate through the piston rod so as to extrude and fix the first plate body and the second plate body and the inner edges of the tops of the first plate body and the third plate body;

step four: repeating the above operation to fix the second plate body, the third plate body and the fourth plate body.

The invention has the beneficial effects that:

1. the two clamping mechanisms slide on the first slide rail through the first slide block and are matched with a first bolt hole formed in the first slide rail through the first fastening bolt for use, so that the horizontal positions of the two clamping mechanisms are convenient to adjust, and the use is more convenient;

2. the cross beam is arranged at the tops of the lifting mechanism and the sliding mechanism, the servo motor works to drive the screw rod to rotate so as to drive the third sliding block to slide in the first sliding groove, the two sides of the third sliding block are in sliding connection with the second sliding grooves formed in the two sides of the first supporting plate so as to ensure the sliding stability of the third sliding block, the supporting connecting plate is connected with the third sliding block so as to drive the supporting connecting plate to ascend and descend, meanwhile, the supporting rod can ascend and descend through the fourth sliding block to keep the balance of the ascending and descending, so that the cross beam is driven to ascend and descend, the height is convenient to adjust, and the lifting mechanism is suitable for;

3. the first movable connecting block and the second movable connecting block are respectively provided with two groups, slide on the second slide rail through the second slide block, and are fixedly locked through the second fastening bolt on the second slide block and the second bolt holes arranged on two sides of the second slide rail, so that the positions of the first movable connecting block and the second movable connecting block can be conveniently adjusted and are conveniently fixed for use; the first movable connecting block and the second movable connecting block are connected with the first clamping plate and the second clamping plate through the F-shaped clamps, so that the first clamping plate and the second clamping plate can be conveniently folded and put down, the use is convenient, the operation is simple, and the plate body is fixed through the first clamping plate and the second clamping plate;

4. the first air cylinder drives the first extrusion plate to extrude and fix the second plate body and the third plate body, then the second air cylinder drives the ejector rod to extrude and fix the top of the first plate body through the fixing block, and meanwhile, the fifth air cylinder drives the extrusion rod to extrude and fix the tops of the second plate body and the third plate body respectively; finally, the third cylinder drives the fourth cylinder through the cushion block so as to extrude and fix the second plate body and the third plate body internally, and the fourth cylinder drives the second extrusion plate through the piston rod so as to extrude and fix the first plate body and the second plate body and the inner edges of the tops of the first plate body and the third plate body, so that the use and the fixation are convenient, the complicated size measurement work is avoided, and the production efficiency is improved; meanwhile, the overall size and the size consistency of the product structure are ensured.

Drawings

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

Fig. 1 is a schematic view of the overall structure of the fixed splicing device.

Fig. 2 is a schematic overall side view of the fixed splicing device.

Fig. 3 is a schematic front view of a clamping mechanism in the fixing and splicing device.

Fig. 4 is a schematic view of the back side structure of the clamping mechanism in the fixing and splicing apparatus.

Fig. 5 is a schematic view of the structure of the second cylinder region in the fixing-splicing apparatus.

Fig. 6 is a schematic view showing the overall structure of the clamping mechanism in the fixing and splicing apparatus.

Fig. 7 is a schematic structural view of a lifting mechanism in the fixed splicing device.

Fig. 8 is a schematic view of the structure of the sliding mechanism in the fixing and splicing apparatus.

In the figure: 1. a base plate; 11. a first bolt hole; 12. a first slide rail; 13. a base plate; 14. a limiting block; 15. a universal self-locking roller; 2. a clamping mechanism; 21. a cross beam; 22. a lifting mechanism; 23. a first slider; 24. a first cylinder; 25. a first squeeze plate; 26. a first splint; 27. a second bolt hole; 28. a first mobile connecting block; 29. f, clamping; 210. a second cylinder; 211. an L-shaped connecting block; 212. a first fastening bolt; 213. a sliding mechanism; 214. a fixing plate; 215. a second fastening bolt; 216. a second slider; 217. a third cylinder; 218. a second splint; 219. a second compression plate; 220. a piston rod; 221. cushion blocks; 222. a fourth cylinder; 223. a second slide rail; 224. a second mobile connecting block; 225. a fifth cylinder; 226. an extrusion stem; 227. a fixed block; 228. a top rod; 229. an L-shaped connecting plate; 2201. a first support plate; 2202. a first chute; 2203. a screw rod; 2204. a servo motor; 2205. a second chute; 2206. a third slider; 2207. supporting the connecting plate; 2131. a second support plate; 2132. a third chute; 2133. a fourth slider; 2134. a support bar; 3. the panel body.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, an adjustable fixed splicing device for processing plates comprises a bottom plate 1, two clamping mechanisms 2 and a plate body 3, wherein the top of the bottom plate 1 is connected with the two clamping mechanisms 2, and the plate body 3 is fixed by the clamping mechanisms 2; two first sliding rails 12 are symmetrically arranged on two sides of the top of the bottom plate 1, and the first sliding rails 12 are in sliding connection with a first sliding block 23 arranged on the clamping mechanism 2; the clamping mechanism 2 is composed of a cross beam 21, a lifting mechanism 22, a first sliding block 23, a first air cylinder 24, a first extrusion plate 25, a first clamping plate 26, a second bolt hole 27, a first movable connecting block 28, an F clamp 29, a second air cylinder 210, an L-shaped connecting block 211, a first fastening bolt 212, a sliding mechanism 213, a fixing plate 214, a second fastening bolt 215, a second sliding block 216, a third air cylinder 217, a second clamping plate 218, a second extrusion plate 219, a piston rod 220, a cushion block 221, a fourth air cylinder 222, a second sliding rail 223, a second movable connecting block 224, a fifth air cylinder 225, an extrusion rod 226, a fixing block 227, a top rod 228 and an L-shaped connecting plate 229, wherein the bottom parts of the lifting mechanism 22 and the sliding mechanism 213 are fixedly connected with the first sliding block 23, one side of the sliding mechanism 213 is fixedly connected with the L-shaped connecting block 211, the first fastening bolt 212 penetrates through the L-shaped connecting block 211, one side parts of the lifting mechanism 22 and the sliding mechanism 213 are fixedly connected, the top end of the telescopic rod of the first cylinder 24 is fixedly connected with a first extrusion plate 25, the cross beam 21 is installed at the tops of the lifting mechanism 22 and the sliding mechanism 213, wherein the cross beam 21 is a concave plate, the two sides of the cross beam 21 are uniformly provided with second bolt holes 27, one side of the cross beam 21 is symmetrically provided with two fifth cylinders 225, the bottom of the fifth cylinders 225 is fixedly connected with an extrusion rod 226, the cross beam 21 is provided with a second slide rail 223, the second slide rail 223 is slidably connected with two second sliders 216, the two sides of the two second sliders 216 are both provided with L-shaped connecting plates 229, the second fastening bolts 215 penetrate through the L-shaped connecting plates 229, the second fastening bolts 215 and the second bolt holes 27 are matched members, and the tops of the two second sliders 216 are both provided with a first movable connecting block 28 and a second movable connecting block 224; the first movable connecting block 28 and the second movable connecting block 224 are oppositely oriented, one side of the first movable connecting block 28 is connected with the first clamping plate 26 through an F clamp 29, one side of the second movable connecting block 224 is connected with the second clamping plate 218 through the F clamp 29, and the F clamp 29 is movably connected with the first movable connecting block 28 and the second movable connecting block 224, so that the F clamp can rotate; four universal self-locking rollers 15 are arranged at the bottom of the bottom plate 1 to facilitate movement of equipment, a backing plate 13 is arranged at the center of the top of the bottom plate 1, and two limiting blocks 14 are symmetrically arranged at the top of the bottom plate 1 to facilitate fixing of the plate body 3; a third cylinder 217 is fixedly connected to one side of the second clamping plate 218, a cushion block 221 is fixedly connected to the top end of an expansion link of the third cylinder 217, a fourth cylinder 222 is fixedly connected to one side of the cushion block 221, a second extrusion plate 219 is fixedly connected to the top end of a piston rod 220 of the fourth cylinder 222, so that the third cylinder 217 drives the fourth cylinder 222 through the cushion block 221 to extrude and fix the second plate body 3 and the third plate body 3, and the fourth cylinder 222 drives the second extrusion plate 219 through the piston rod 220 to extrude and fix the first plate body 3 and the second plate body 3 and the inner edges of the tops of the first plate body 3 and the third plate body 3; the second cylinder 210 is fixedly connected to the F clamp 29, the fixing block 227 is fixedly connected to the telescopic rod of the second cylinder 210, and the ejector rod 228 is fixedly connected to one end of the bottom of the fixing block 227, so that the second cylinder 210 can drive the ejector rod 228 to extrude and fix the top of the plate body 3 through the fixing block 227; first bolt holes 11 are uniformly formed in one side of a first slide rail 12, and the first fastening bolts 212 are matched members, so that the position of the sliding mechanism 213 can be conveniently adjusted and locked.

Referring to fig. 7 and 8, the lifting mechanism 22 includes a first supporting plate 2201, a first chute 2202, a screw 2203, a servo motor 2204, a second chute 2205, a third slider 2206 and a supporting connecting plate 2207, the first chute 2202 is disposed on one side of the first supporting plate 2201, the servo motor 2204 is disposed inside the first chute 2202, the screw 2203 is fixedly connected to an output shaft of the servo motor 2204, the screw 2203 penetrates through the third slider 2206 to be in transmission connection with the first supporting plate 2201, the supporting connecting plate 2207 is fixedly connected to one side of the third slider 2206, two sides of the third slider 2206 are in sliding connection with the second chute 2205 disposed on two sides of the first supporting plate 2201, a top of the supporting connecting plate 2207 is connected with the beam 21, the sliding mechanism 213 includes a second supporting plate 2131, a third chute 2132, a fourth slider 2133 and a supporting rod 2134, one side of the second supporting plate 2131 is disposed with a third chute 2132, the top of the fourth sliding block 2133 is fixedly connected with a supporting rod 2134, and the supporting rod 2134 penetrates through the third sliding groove 2132 to be connected with the cross beam 21; the servo motor 2204 works to drive the screw rod 2203 to rotate, so that the third sliding block 2206 is driven to slide, the supporting connecting plate 2207 is driven to ascend and descend, the supporting rod 2134 also ascends and descends through the fourth sliding block 2133 to keep balance, and the cross beam 21 is driven to ascend and descend to adjust the height.

the method comprises the following steps: firstly, moving a clamping mechanism 2 to a position parallel to the limiting block 14, locking the clamping mechanism by using a first fastening bolt 212, putting down a first clamping plate 26, and abutting one side of a first plate body 3 against the first clamping plate 26 and abutting one end of the first plate body against the limiting block 14;

step two: the servo motor 2204 works to drive the screw rod 2203 to rotate, so that the third sliding block 2206 is driven to slide, the supporting connecting plate 2207 is driven to ascend and descend, the supporting rod 2134 also ascends and descends through the fourth sliding block 2133, the cross beam 21 is driven to ascend and descend, and the height is adjusted; then adjusting the distance between the first movable connecting block 28 and the second movable connecting block 224 and locking by the second fastening bolt 215;

step three: the second clamping plate 218 is put down, the second plate body 3 and the third plate body 3 are inserted into two ends of the first plate body 3, the first air cylinder 24 drives the first extrusion plate 25 to extrude and fix the second plate body 3 and the third plate body 3, the second air cylinder 210 drives the ejector rod 228 to extrude and fix the top of the first plate body 3 through the fixing block 227, and meanwhile, the fifth air cylinder 225 drives the extrusion rod 226 to extrude and fix the tops of the second plate body 3 and the third plate body 3 respectively; finally, the third cylinder 217 drives the fourth cylinder 222 through the cushion block 221 so as to extrude and fix the second plate body 3 and the third plate body 3 inside, and the fourth cylinder 222 drives the second extrusion plate 219 through the piston rod 220 so as to extrude and fix the first plate body 3 and the second plate body 3 and the inner edges of the tops of the first plate body 3 and the third plate body 3;

step four: the above operation is repeated to fix the second plate body 3, the third plate body 3, and the fourth plate body 3.

The working principle of the invention is as follows:

1. the two clamping mechanisms 2 slide on the first slide rail 12 through the first slide block 23, and are matched with a first bolt hole 11 formed in the first slide rail 12 through a first fastening bolt 212, so that the horizontal positions of the two clamping mechanisms 2 are adjusted;

2. the beam 21 is installed on the tops of the lifting mechanism 22 and the sliding mechanism 213, the servo motor 2204 works to drive the screw rod 2203 to rotate, so that the third slider 2206 is driven to slide in the first sliding groove 2202, the two sides of the third slider 2206 are in sliding connection with the second sliding grooves 2205 formed in the two sides of the first supporting plate 2201 to ensure the sliding stability of the third slider 2206, the supporting connecting plate 2207 is connected with the third slider 2206 to drive the supporting connecting plate 2207 to ascend and descend, meanwhile, the supporting rod 2134 can ascend and descend through the fourth slider 2133 to keep the balance of ascending and descending, so that the beam 21 is driven to ascend and descend, the height adjustment is facilitated, and the device is suitable for plates with different heights;

3. the first movable connecting block 28 and the second movable connecting block 224 are provided with two groups, and both the two groups slide on the second slide rail 223 through the second slide block 216, and the first movable connecting block 28 and the second movable connecting block 224 are fixedly locked through the cooperation of the second fastening bolt 215 on the second slide block 216 and the second bolt holes 27 formed in the two sides of the second slide rail 223, so that the positions of the first movable connecting block 28 and the second movable connecting block 224 can be conveniently adjusted, and the fixed use is convenient; the first movable connecting block 28 and the second movable connecting block 224 are connected with the first clamping plate 26 and the second clamping plate 218 through an F clamp 29, so that the first clamping plate 26 and the second clamping plate 218 can be conveniently folded and unfolded, and the plate body 3 is fixed through the first clamping plate 26 and the second clamping plate 218;

4. the first air cylinder 24 drives the first extrusion plate 25 to extrude and fix the second plate body 3 and the third plate body 3, then the second air cylinder 210 drives the ejector rod 228 to extrude and fix the top of the first plate body 3 through the fixing block 227, and meanwhile, the fifth air cylinder 225 drives the extrusion rod 226 to extrude and fix the tops of the second plate body 3 and the third plate body 3 respectively; finally, the third cylinder 217 drives the fourth cylinder 222 through the cushion block 221, so that the second plate body 3 and the third plate body 3 are extruded and fixed inside, and the fourth cylinder 222 drives the second extrusion plate 219 through the piston rod 220 to extrude and fix the first plate body 3 and the second plate body 3 and the inner edges of the tops of the first plate body 3 and the third plate body 3, so that the use is convenient, the fixation is convenient, the complicated size measurement work is avoided, and the production efficiency is improved; meanwhile, the overall size and the size consistency of the product structure are ensured.

When the invention is used, firstly, the clamping mechanism 2 is moved to a position parallel to the limiting block 14, the first fastening bolt 212 is used for locking, the first clamping plate 26 is put down, then one side of the first plate body 3 is abutted against the first clamping plate 26, and one end of the first plate body is abutted against the limiting block 14; the servo motor 2204 works to drive the screw rod 2203 to rotate, so that the third sliding block 2206 is driven to slide, the supporting connecting plate 2207 is driven to ascend and descend, the supporting rod 2134 also ascends and descends through the fourth sliding block 2133, the cross beam 21 is driven to ascend and descend, and the height is adjusted; then adjusting the positions of the first movable connecting block 28 and the second movable connecting block 224 and locking by the second fastening bolt 215; the second clamping plate 218 is put down, the second plate body 3 and the third plate body 3 are inserted into two ends of the first plate body 3, the first air cylinder 24 drives the first extrusion plate 25 to extrude and fix the second plate body 3 and the third plate body 3, the second air cylinder 210 drives the ejector rod 228 to extrude and fix the top of the first plate body 3 through the fixing block 227, and meanwhile, the fifth air cylinder 225 drives the extrusion rod 226 to extrude and fix the tops of the second plate body 3 and the third plate body 3 respectively; finally, the third cylinder 217 drives the fourth cylinder 222 through the cushion block 221 so as to extrude and fix the second plate body 3 and the third plate body 3 inside, and the fourth cylinder 222 drives the second extrusion plate 219 through the piston rod 220 so as to extrude and fix the first plate body 3 and the second plate body 3 and the inner edges of the tops of the first plate body 3 and the third plate body 3; the above operation is repeated to fix the second plate body 3, the third plate body 3, and the fourth plate body 3.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims

1. An adjustable fixed splicing device for plate processing comprises a bottom plate (1), clamping mechanisms (2) and a plate body (3), and is characterized in that the top of the bottom plate (1) is connected with the two clamping mechanisms (2), and the plate body (3) is fixed by the clamping mechanisms (2); two first sliding rails (12) are symmetrically arranged on two sides of the top of the bottom plate (1), and the first sliding rails (12) are in sliding connection with first sliding blocks (23) arranged on the clamping mechanism (2);

the clamping mechanism (2) consists of a cross beam (21), a lifting mechanism (22), a first sliding block (23), a first air cylinder (24), a first extrusion plate (25), a first clamping plate (26), a second bolt hole (27), a first movable connecting block (28), an F clamp (29), a second air cylinder (210), an L-shaped connecting block (211), a first fastening bolt (212), a sliding mechanism (213), a fixing plate (214), a second fastening bolt (215), a second sliding block (216), a third air cylinder (217), a second clamping plate (218), a second extrusion plate (219), a piston rod (220), a cushion block (221), a fourth air cylinder (222), a second sliding rail (223), a second movable connecting block (224), a fifth air cylinder (225), an extrusion rod (226), a fixing block (227), a push rod (228) and an L-shaped connecting plate (229), wherein the first sliding block (23) is fixedly connected to the bottoms of the lifting mechanism (22) and the sliding mechanism (213), one side of the sliding mechanism (213) is fixedly connected with an L-shaped connecting block (211), a first fastening bolt (212) penetrates through the L-shaped connecting block (211), one side of the lifting mechanism (22) and one side of the sliding mechanism (213) are fixedly connected with a first air cylinder (24) through a fixing plate (214), the top end of a telescopic rod of the first air cylinder (24) is fixedly connected with a first extrusion plate (25), the cross beam (21) is installed at the tops of the lifting mechanism (22) and the sliding mechanism (213), wherein the cross beam (21) is a concave plate, second bolt holes (27) are uniformly formed in two sides of the cross beam (21), two fifth air cylinders (225) are symmetrically installed on one side of the cross beam (21), the bottom of each fifth air cylinder (225) is fixedly connected with an extrusion rod (226), a second sliding rail (223) is arranged on the cross beam (21), and two second sliding blocks (216) are slidably connected on the second sliding rail (223), two sides of each of the two second sliding blocks (216) are respectively provided with an L-shaped connecting plate (229), a second fastening bolt (215) penetrates through the L-shaped connecting plates (229), the second fastening bolt (215) and a second bolt hole (27) are matched components, and the tops of the two second sliding blocks (216) are respectively provided with a first movable connecting block (28) and a second movable connecting block (224); the first movable connecting block (28) and the second movable connecting block (224) are oppositely oriented, one side of the first movable connecting block (28) is connected with the first clamping plate (26) through an F clamp (29), one side of the second movable connecting block (224) is connected with the second clamping plate (218) through the F clamp (29), and the F clamp (29) is movably connected with the first movable connecting block (28) and the second movable connecting block (224).

2. The adjustable fixed splicing device for plate processing according to claim 1, wherein the lifting mechanism (22) comprises a first supporting plate (2201), a first chute (2202), a screw rod (2203), a servo motor (2204), a second chute (2205), a third slider (2206) and a supporting connection plate (2207), the first chute (2202) is formed in one side of the first supporting plate (2201), the servo motor (2204) is arranged inside the first chute (2202), the screw rod (2203) is fixedly connected to an output shaft of the servo motor (2204), the screw rod (2203) penetrates through a third slider (2206) to be connected with the first supporting plate (2201) in a transmission manner, the supporting connection plate (2207) is fixedly connected to one side of the third slider (2206), and two sides of the third slider (2206) are slidably connected with the second chute (2205) formed in two sides of the first supporting plate (2201), the top of the support connecting plate (2207) is connected with a cross beam (21).

3. The adjustable fixed splicing device for board processing according to claim 1, wherein the sliding mechanism (213) comprises a second supporting plate (2131), a third sliding groove (2132), a fourth sliding block (2133) and a supporting rod (2134), the third sliding groove (2132) is formed in one side of the second supporting plate (2131), the fourth sliding block (2133) is connected to the inside of the third sliding groove (2132) in a sliding manner, the supporting rod (2134) is fixedly connected to the top of the fourth sliding block (2133), and the supporting rod (2134) penetrates through the third sliding groove (2132) to be connected with the cross beam (21).

4. The adjustable fixed splicing device for processing plates as claimed in claim 1, wherein four universal self-locking rollers (15) are arranged at the bottom of the bottom plate (1), a backing plate (13) is arranged at the center of the top of the bottom plate (1), and two limiting blocks (14) are symmetrically arranged at the top of the bottom plate (1).

5. The adjustable fixed splicing device for processing plates as claimed in claim 1, wherein a third cylinder (217) is fixedly connected to one side of the second clamping plate (218), a cushion block (221) is fixedly connected to the top end of an expansion link of the third cylinder (217), a fourth cylinder (222) is fixedly connected to one side of the cushion block (221), and a second extrusion plate (219) is fixedly connected to the top end of a piston rod (220) of the fourth cylinder (222).

6. The adjustable fixed splicing device for processing plates as claimed in claim 1, wherein a second cylinder (210) is fixedly connected to the F clamp (29), a fixed block (227) is fixedly connected to an expansion link of the second cylinder (210), and an ejector rod (228) is fixedly connected to one end of the bottom of the fixed block (227).

7. The adjustable fixed splicing device for processing plates as claimed in claim 1, wherein one side of the first slide rail (12) is uniformly provided with first bolt holes (11), and the first bolt holes and the first fastening bolts (212) are matched members.

8. The use method of the adjustable fixed splicing device for processing the plates is characterized by comprising the following steps:

the method comprises the following steps: firstly, moving a clamping mechanism (2) to a position parallel to a limiting block (14), locking the clamping mechanism by using a first fastening bolt (212), putting down a first clamping plate (26), abutting one side of a first plate body (3) against the first clamping plate (26), and abutting one end of the first plate body against the limiting block (14);

step two: the servo motor (2204) works to drive the screw rod (2203) to rotate, so that the third sliding block (2206) is driven to slide, the supporting connecting plate (2207) is driven to ascend and descend, the supporting rod (2134) also ascends and descends through the fourth sliding block (2133), and the cross beam (21) is driven to ascend and descend to adjust the height; then adjusting the distance between the first movable connecting block (28) and the second movable connecting block (224) and locking the first movable connecting block and the second movable connecting block through a second fastening bolt (215);

step three: putting down a second clamping plate (218), inserting a second plate body (3) and a third plate body (3) into two ends of the first plate body (3), driving a first extrusion plate (25) to extrude and fix the second plate body (3) and the third plate body (3) through a first air cylinder (24), driving an ejector rod (228) to extrude and fix the top of the first plate body (3) through a fixing block (227) by a second air cylinder (210), and driving an extrusion rod (226) by a fifth air cylinder (225) to extrude and fix the tops of the second plate body (3) and the third plate body (3) respectively; finally, the third cylinder (217) drives the fourth cylinder (222) through the cushion block (221) so as to extrude and fix the second plate body (3) and the third plate body (3) inside, and the fourth cylinder (222) drives the second extrusion plate (219) through the piston rod (220) to extrude and fix the first plate body (3), the second plate body (3) and the inner edges of the tops of the first plate body (3) and the third plate body (3);

step four: repeating the operation to fix the second plate body (3), the third plate body (3) and the fourth plate body (3).