CN109048369B

CN109048369B - Water bed structure

Info

Publication number: CN109048369B
Application number: CN201811069645.5A
Authority: CN
Inventors: 陈卫波; 蔡威斌; 黄元勋; 林捷; 朱琳; 张斌; 张俊
Original assignee: ZHEJIANG SHENGDA STEEL TOWER CO Ltd
Current assignee: ZHEJIANG SHENGDA STEEL TOWER CO Ltd
Priority date: 2016-12-02
Filing date: 2017-03-15
Publication date: 2020-07-17
Anticipated expiration: 2037-03-15
Also published as: CN109227137B; CN109048369A; CN107052807B; CN107052807A; CN109227137A

Abstract

The application discloses a water bed structure, which comprises at least two water bed bodies arranged side by side, wherein each water bed body comprises a water storage tank, a fence arranged in the water storage tank and a flat plate arranged at the top of the fence, a gap is formed between the flat plate and the water storage tank, and a plurality of supporting bars are arranged on the flat plate and used for supporting a plate to be processed; a water pipe for communicating the two water storage tanks is arranged between the two adjacent water bed bodies, and a water delivery pump is arranged on the water pipe. This application is through setting up a plurality of water bed bodies for when compound cutting machine processes the board of treating on one of them water bed body, other water bed bodies can carry out material handling and scarfing cinder work, and machining efficiency can be improved greatly to the structure of many water bed bodies. The water pipe that has two aqua storage tanks of intercommunication between two adjacent water bed bodies, the water pipe can be taken out the water in one of them aqua storage tank to on another water bed body to the water bed body that is carried water can reach processing liquid level height.

Description

Water bed structure

The application is a divisional application with application date of 2017, 03, 15 and application number of 201710152923.2 and the name of 'water bed structure of composite cutting machine'.

Technical Field

The invention relates to a composite cutting machine, in particular to a water bed structure of the composite cutting machine.

Background

The composite cutting machine can realize the work such as gas cutting, steel seal and drilling, and the water bed of current composite cutting machine is a holistic water bed, and after the work of composite cutting machine was accomplished, during the clearance residue, it was all dried to need put the liquid of water bed, hoists the fence again, just can the scarfing cinder, and is consuming time long and step loaded down with trivial details, and composite cutting machine must stop work during the scarfing cinder in addition, greatly reduced machining efficiency.

Disclosure of Invention

The invention aims at the problems and provides a water bed structure. The problem of current water bed structure machining efficiency lower is solved.

The technical scheme adopted by the invention is as follows:

a water bed structure comprises at least two water bed bodies which are arranged side by side, wherein each water bed body comprises a water storage tank, a fence and a flat plate, the fence is arranged in the water storage tank, the flat plate is arranged at the top of the fence, a gap is formed between the flat plate and the water storage tank, a plurality of support bars are arranged on the flat plate, and the support bars are used for supporting a plate to be processed; a water pipe for communicating the two water storage tanks is arranged between the two adjacent water bed bodies, and a water delivery pump is arranged on the water pipe.

Through setting up a plurality of water bed bodies for when compound cutting machine processes on one of them water bed body and treats the processing board, other water bed bodies can carry out material handling and scarfing cinder work, and the structure of many water bed bodies can improve machining efficiency greatly. Have the water pipe of two aqua storage tanks of intercommunication between two adjacent water bed bodies, the water pipe can be taken out the water in one of them aqua storage tank to on another water bed body to the water bed body that is carried water can reach processing liquid level height, and is taken out the water bed body of water, can carry out material handling and scarfing cinder work, and through this kind of structural design, hydroenergy in the aqua storage tank can be cyclic utilization reciprocal. Set up the fence in the aqua storage tank, place a flat board on the fence, set up like this and can make things convenient for the scarfing cinder, need not all empting the water in the aqua storage tank, have the clearance between flat board and the aqua storage tank and can guarantee that water can spill over from the clearance. The design of support bar for there is certain distance between treating processing board and the flat board, prevents to cut the flat board, can carry out drilling and beat the embossed seal process simultaneously.

Furthermore, the support bars are metal square tubes, and the metal square tubes are welded on the flat plates.

Further, the supporting strips are wooden supporting strips.

Further, the supporting bars are provided with counter bores, and the supporting bars are fixed on the flat plate through fasteners matched with the counter bores.

Wooden support bar makes when operations such as drilling, even cut the support bar and also can not have any influence, can set up the fastener in the lower part through the counter sink, and the fastener can be fixed wooden support bar on the flat board, prevents that the support bar from removing.

Furthermore, the inner side wall of the water storage tank is provided with a liquid level sensor, the water bed structure further comprises a controller for controlling the water delivery pump to work, and the controller receives signals transmitted by the liquid level sensor and controls the water delivery pump to work according to the signals.

Furthermore, one end of the water pipe extending into the water storage tank is provided with a filter, and the water pipe is positioned in the middle or the lower part of the water storage tank.

The filter is arranged to protect the water pipe and the water delivery pump, so that the water pipe and the water delivery pump are prevented from being blocked by waste residues.

Further, a plurality of water pipes are arranged between two adjacent water bed bodies, and a water delivery pump is installed on each water pipe.

The arrangement of the plurality of water pipes can increase the speed of pumping away water, and the water in the water storage tank can be quickly conveyed.

Further, the water delivery pump is a bidirectional pump.

Further, the water bed body has two.

Further, the bottom of the water bed body is provided with a plurality of adjustable foot pads.

The position of the water bed body can be adjusted through the adjustable foot pad, and reliable processing is guaranteed.

The invention has the beneficial effects that: through setting up a plurality of water bed bodies for when compound cutting machine processes on one of them water bed body and treats the processing board, other water bed bodies can carry out material handling and scarfing cinder work, and the structure of many water bed bodies can improve machining efficiency greatly. Have the water pipe of two aqua storage tanks of intercommunication between two adjacent water bed bodies, the water pipe can be taken out the water in one of them aqua storage tank to on another water bed body to the water bed body that is carried water can reach processing liquid level height, and is taken out the water bed body of water, can carry out material handling and scarfing cinder work, and through this kind of structural design, hydroenergy in the aqua storage tank can be cyclic utilization reciprocal. Set up the fence in the aqua storage tank, place a flat board on the fence, set up like this and can make things convenient for the scarfing cinder, need not all empting the water in the aqua storage tank, have the clearance between flat board and the aqua storage tank and can guarantee that water can spill over from the clearance. The design of support bar for there is certain distance between treating processing board and the flat board, prevents to cut the flat board, can carry out drilling and beat the embossed seal process simultaneously.

Description of the drawings:

FIG. 1 is a top view of a water bed structure of the compound cutting machine;

fig. 2 is a sectional view a-a in fig. 1.

The figures are numbered:

1. a water bed body; 2. a water storage tank; 3. the foot pad can be adjusted; 4. a fence; 5. a flat plate; 6. a supporting strip; 7. a plate to be processed; 8. a water pipe; 9. a water delivery pump.

The specific implementation mode is as follows:

the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 and 2, a water bed structure of a compound cutting machine comprises at least two water bed bodies 1 arranged side by side, each water bed body 1 comprises a water storage tank 2, a fence 4 arranged in the water storage tank 2 and a flat plate 5 arranged at the top of the fence 4, a gap is formed between the flat plate 5 and the water storage tank 2, a plurality of support bars 6 are arranged on the flat plate 5, and the support bars 6 are used for supporting a plate 7 to be processed; a water pipe 8 for communicating the two water storage tanks 2 is arranged between the two adjacent water bed bodies 1, and a water delivery pump 9 is arranged on the water pipe 8.

Through setting up a plurality of water bed bodies 1 for when compound cutting machine processes on one of them water bed body 1 and treats processing board 7, other water bed bodies 1 can carry out material handling and scarfing cinder work, and machining efficiency can be improved greatly to the structure of many water bed bodies 1. Have the water pipe 8 of two aqua storage tanks 2 of intercommunication between two adjacent water bed bodies 1, water pipe 8 can be taken out the water in one of them aqua storage tank 2 to another water bed body 1 on to the water bed body 1 that is carried water can reach the processing liquid level height, and is taken out the water bed body 1 of water, can carry out material handling and scarfing cinder work, and through this kind of structural design, hydroenergy in the aqua storage tank 2 can reciprocating cyclic utilization. Set up fence 4 in aqua storage tank 2, place a flat board 5 on fence 4, set up like this and can make things convenient for the scarfing cinder, need not be with the whole emptions of water in the aqua storage tank 2, have the clearance between flat board 5 and the aqua storage tank 2 and can guarantee that water can spill over from the clearance. The design of support bar 6 for there is certain distance between waiting to process board 7 and dull and stereotyped 5, prevents to cut dull and stereotyped 5, can carry out drilling and stamp the process simultaneously.

In this embodiment, the supporting bar 6 is a metal square tube, and the metal square tube is welded on the flat plate 5.

In other embodiments, the supporting strip 6 may also be a wooden supporting strip 6. The brace 6 now has counter-sunk holes and the brace 6 is secured to the plate 5 by fasteners cooperating with the counter-sunk holes. Wooden support bar 6 makes when operation such as drilling, even cut support bar 6 and can not have any influence, can set up the fastener in the lower part through the counter sink, and the fastener can be fixed wooden support bar 6 on dull and stereotyped 5, prevents that support bar 6 from removing.

In this embodiment, the inner side wall of the water storage tank 2 is provided with a liquid level sensor, the water bed structure further comprises a controller for controlling the operation of the water delivery pump 9, and the controller receives a signal transmitted by the liquid level sensor and controls the operation of the water delivery pump 9 according to the signal.

In this embodiment, a filter is disposed at one end of the water pipe 8 extending into the water storage tank 2, and the water pipe 8 is located at the middle or lower portion of the water storage tank 2. The filter is arranged to protect the water pipe 8 and the water delivery pump 9, so that the water pipe 8 and the water delivery pump 9 are prevented from being blocked by waste residues.

In this embodiment, a water pipe 8 is provided between two adjacent water bed bodies 1, in other embodiments, a plurality of water pipes 8 may be further provided, and a water delivery pump 9 is installed on each water pipe 8. The arrangement of the plurality of water pipes 8 can increase the speed of pumping away water, and the water in the water storage tank 2 can be quickly conveyed.

In this embodiment, the water delivery pump 9 is a two-way pump, the number of the water bed body 1 is two, and the bottom of the water bed body 1 is provided with a plurality of adjustable foot pads 3. The position of the water bed body 1 can be adjusted through the adjustable foot pad 3, and reliable processing is guaranteed.

The working process of the water bed structure of the composite cutting machine of the embodiment is as follows:

1. when the water bed is not in use, the liquid in the 2 water bed bodies is about 2/3, and the two water bed bodies are named as a water bed body A and a water bed body B respectively.

2. When the processing is ready to be started, the water delivery pump starts to operate, and liquid in the water bed body B is pumped into the water bed body A.

3. And when the liquid exceeds the surface of the plate to be processed, controlling the water delivery pump to stop working.

4. The composite cutting machine begins to process the plate to be processed, including gas cutting, steel seal punching, drilling and the like.

5. After the machining is finished, the cantilever of the composite cutting machine moves to the position above the water bed body B.

6. The water delivery pump works to pump the liquid in the water bed body A back to the water bed body B, and the liquid level of the water bed body A is lowered. The processed work piece or excess material is carried away.

7. When the liquid level is lowered below the flat plate, the slag on the flat plate can be cleaned, and the slag is formed into mud just after the liquid level is lowered, so that the slag is easy to directly shovel off.

8. Meanwhile, the water delivery pump continues to pump the liquid of the water bed body A into the water bed body B, and when the liquid exceeds the surface of the plate to be processed, the water delivery pump is controlled to stop working, and the mechanism corresponding to the cantilever starts to process the plate to be processed.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and all equivalent structural changes made by using the contents of the present specification and the drawings can be directly or indirectly applied to other related technical fields and are included in the scope of the present invention.

Claims

1. A water bed structure is characterized by comprising two water bed bodies which are arranged side by side, wherein each water bed body comprises a water storage tank, a fence and a flat plate, the fence is arranged in the water storage tank, the flat plate is arranged at the top of the fence, a gap is formed between the flat plate and the water storage tank, and a plurality of support bars are arranged on the flat plate and are used for supporting a plate to be processed; a water pipe communicated with the two water storage tanks is arranged between the two adjacent water bed bodies, and a water delivery pump is arranged on the water pipe;

the water bed structure is used for the composite cutting machine, and the using method of the water bed structure comprises the following steps:

when the water bed does not work, liquid in the 2 water bed bodies is at 2/3, and the two water bed bodies are respectively a water bed body A and a water bed body B; when the processing is ready to start, the water delivery pump starts to operate, and liquid in the water bed body B is pumped into the water bed body A;

when the liquid exceeds the surface of the plate to be processed, controlling the water delivery pump to stop working;

the composite cutting machine is used for processing a plate to be processed on the water bed body A;

after the machining is finished, a cantilever of the composite cutting machine moves to the position above the water bed body B; the water delivery pump works to pump the liquid in the water bed body A back into the water bed body B, the liquid level of the water bed body A is lowered below the flat plate, the processed workpiece or redundant materials are conveyed away, and slag on the flat plate is cleaned;

and the water delivery pump continues to pump the liquid of the water bed body A into the water bed body B, and when the liquid of the water bed body B exceeds the surface of the plate to be processed, the water delivery pump is controlled to stop working, and the composite cutting machine processes the plate to be processed on the water bed body B.

2. The water bed structure of claim 1 wherein said support bars are square metal tubes welded to flat plates.

3. The water bed structure of claim 1 wherein said support bars are wooden support bars.

4. The water bed structure of claim 3 wherein said brace bar has counter-sunk holes and is secured to the plate by fasteners engaging the counter-sunk holes.

5. The water bed structure of claim 1 wherein the interior side walls of said reservoir have a level sensor, the water bed structure further comprising a controller for controlling the operation of the water transfer pump, said controller receiving signals from the level sensor and controlling the operation of the water transfer pump in response thereto.

6. A water bed structure as claimed in claim 1 wherein the end of the pipe extending into the reservoir is provided with a filter and the pipe is located in the middle or lower part of the reservoir.

7. The water bed structure of claim 1 wherein a plurality of water pipes are provided between two adjacent water bed bodies, each water pipe being provided with a water delivery pump.

8. A water bed structure as claimed in claim 5 or 7 wherein said water transfer pump is a bi-directional pump.

9. The water bed structure as claimed in claim 1, wherein there are two of said water bed bodies.

10. The water bed structure as claimed in claim 1, wherein the bottom of the water bed body has a plurality of adjustable foot pads.