CN213646632U - Cutting workbench - Google Patents

Abstract

The utility model belongs to the technical field of processing equipment, a cutting workbench is disclosed, including workstation main part and dross removal mechanism, the workstation main part can support and wait to cut the piece and cut, be provided with the slag storage chamber of collecting the waste residue that cuts the piece and produce in the workstation main part, be provided with the dust removal wind channel on the lateral wall of slag storage chamber, divide into a plurality of compartments along the first direction in the slag storage chamber, each compartment all is provided with the air intake that is linked together with the dust removal wind channel, the air intake is linked together through air door selectivity and compartment, when the air door is opened, when air intake and compartment are linked together, the smoke and dust that produces during the cutting just can be clear away through the dust removal wind channel through this air intake; the deslagging device can enter each chamber along the first direction to discharge waste residues in each chamber, and the workbench can realize automatic deslagging through the deslagging device, so that the time for cleaning the waste residues during machine shutdown is reduced, and the deslagging efficiency is improved.

Description

Cutting workbench

Technical Field

The utility model relates to a processing equipment technical field especially relates to a cutting table.

Background

With the continuous progress of the industrial society, the processing technology is also rapidly developed. The cutting machine is a common machining device, when cutting operation is carried out, parts needing to be processed are firstly fixed on a cutting workbench, then the cutting machine is used for cutting, so that waste residues and smoke dust can be generated in the cutting process, and the waste residues can cause adverse effects on operators, environment and equipment if the waste residues cannot be cleaned in time.

In order to solve the problems, the cutting workbench is provided with a slag collecting device and a dust removing device so as to collect waste slag into a hopper for uniform treatment and remove dust from the cutting workbench through an air duct. However, the smoke and dust that produces when present workstation is to the cutting is clear away and is not thorough, and when arranging the sediment to the hopper moreover, need shut down the cutting machine earlier, uses hoisting apparatus to hoist the operation respectively to material frame and hopper again to lift the hopper and hang out the workstation, empty the waste residue, this kind of slagging-off mode is not only the process loaded down with trivial details but also waste time and energy, and work efficiency is lower.

Therefore, it is desirable to design a cutting table to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cutting table to thoroughly clear away the smoke and dust that produces when cutting, and realize the automatic discharge of waste residue, promote slagging-off efficiency.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a cutting table, include:

the cutting machine comprises a workbench main body, a cutting machine main body and a cutting machine, wherein the workbench main body can support a to-be-cut piece to be cut, a slag storage chamber for collecting waste slag generated by cutting the to-be-cut piece is arranged in the workbench main body, a dust removal air channel is arranged on the side wall of the slag storage chamber, the slag storage chamber is internally divided into a plurality of chambers along a first direction, each chamber is provided with an air inlet communicated with the dust removal air channel, and the air inlets are selectively communicated with the chambers through air doors; and

and the deslagging device can enter each compartment along the first direction so as to discharge waste slag in each compartment.

The cutting workbench comprises a workbench main body and a deslagging device, wherein the workbench main body can support a to-be-cut part to be cut, a slag storage chamber for collecting waste slag generated by cutting the to-be-cut part is arranged in the workbench main body, a dedusting air channel is arranged on the side wall of the slag storage chamber, the slag storage chamber is divided into a plurality of chambers along a first direction, each chamber is provided with an air inlet communicated with the dedusting air channel, the air inlets are selectively communicated with the chambers through air doors, and when the air doors are opened and the air inlets are communicated with the chambers, smoke and dust generated during cutting can be removed through the air inlets through the dedusting air channels; the deslagging device can enter each chamber along the first direction to discharge waste residues in each chamber, and the workbench can realize automatic deslagging through the deslagging device, so that the time for cleaning the waste residues during machine shutdown is reduced, and the deslagging efficiency is improved.

Preferably, a plurality of partition plates are arranged in the slag storage chamber at intervals along the first direction, the partition plates divide the slag storage chamber into a plurality of chambers, and the partition plates are rotatably arranged in the slag storage chamber.

The slag storage chamber can be divided into a plurality of chambers by the plurality of partition plates arranged at intervals in the first direction in the slag storage chamber, when a cutting machine performs cutting operation on a workpiece to be cut, waste slag can fall into the corresponding chambers, and meanwhile, dust removal operation can be performed only by opening air doors in the chambers, so that energy is saved; the partition board is rotatably connected with the slag storage chamber so that the slag removing device can discharge the waste slag out of the slag storage chamber.

Preferably, an inlet and an outlet are respectively arranged at two ends of the slag storage chamber along the first direction, and the slag removing device can enter the slag storage chamber from the inlet and pass through the partition plates so as to discharge the waste slag from the outlet.

The edge of storage sediment room the both ends of first direction are provided with import and export respectively, and dross removal mechanism can enter into the storage sediment indoor and through each baffle in order to discharge the waste residue by the export by the import for dross removal mechanism's motion is comparatively convenient.

Preferably, the air outlet of the dust removal air duct is communicated with the purification device.

The air outlet of the dust removal air duct is communicated with a purification device, and the purification device can filter the exhausted smoke dust to prevent pollution.

Preferably, the deslagging device comprises:

the slag shoveling vehicle moves along the first direction to enter or exit the slag storage chamber; and

and the material pushing plate is arranged at the head part of the slag shoveling vehicle.

The slag removing device comprises a slag shoveling vehicle and a material pushing plate arranged at the head of the slag shoveling vehicle, the slag shoveling vehicle moves along the first direction to enter or exit the slag storage chamber, and waste slag is pushed and shoveled out of the slag storage chamber through the material pushing plate at the head of the slag shoveling vehicle.

Preferably, the material pushing plate is rotatably connected with the slag shoveling vehicle, and a first supporting piece is arranged on the slag shoveling vehicle and located on the lower side of the material pushing plate and used for supporting the material pushing plate, so that the material pushing plate and the horizontal plane form an included angle.

The pushing plate is rotatably connected with the slag shoveling vehicle, a first supporting piece is arranged on the lower side of the slag shoveling vehicle, and the first supporting piece is used for supporting the pushing plate to enable the pushing plate to form an included angle with the horizontal plane, so that the pushing plate is convenient for pushing waste slag out of the slag storage chamber.

Preferably, the slag shoveling vehicle is further provided with a second support member, and the second support member comprises:

the main body is arranged on the slag shoveling vehicle and extends along the first direction; and

the supporting part, the both ends of main part all are provided with the supporting part, the one end of supporting part with the main part links to each other, the other end of supporting part is crooked downward and is formed the arc.

The supporting part of the second supporting part arranged on the slag shoveling vehicle can jack up the partition plate when the slag shoveling vehicle enters or exits the slag storage chamber, so that the slag shoveling vehicle enters or exits the slag storage chamber.

Preferably, the cutting table further comprises:

the driving assembly can drive the slag shoveling vehicle to move along the first direction so as to discharge the waste residues out of the slag storage chamber.

The slag removing device also comprises a driving assembly which can drive the slag shoveling vehicle to move along the first direction so that the slag shoveling vehicle discharges the waste slag out of the slag storage chamber.

Preferably, the driving assembly includes:

the transmission part is arranged in the slag storage chamber and is in transmission connection with the slag shoveling vehicle; and

and the power part is in transmission connection with the transmission part and drives the transmission part to move so as to drive the slag shoveling vehicle to move.

The driving assembly comprises a transmission part and a power part, the transmission part is arranged in the slag storage chamber, and the transmission part is in transmission connection with the slag shoveling vehicle and can transmit driving force to the slag shoveling vehicle; the power part is in transmission connection with the transmission part and drives the transmission part to move so as to drive the slag shoveling vehicle to move along a first direction and enable the slag shoveling vehicle to enter or exit the slag storage chamber so as to discharge waste slag out of the slag storage chamber.

Preferably, the table main body further includes:

and the material frame is arranged at the top of the slag storage chamber and used for supporting the to-be-cut piece, and the waste slag falls into each compartment of the slag storage chamber through the material frame.

The material frame arranged at the top of the slag storage chamber can support the workpiece to be cut, and can enable the cut waste slag to fall into each chamber of the slag storage chamber through the material frame, so that the waste slag is uniformly treated.

The utility model has the advantages that:

the utility model provides a cutting workbench, including workstation main part and dross removal mechanism, the workstation main part can support and wait to cut the piece and cut, be provided with the slag storage chamber of collecting the waste residue that the piece that waits to cut produced in the workstation main part, be provided with the dust removal wind channel on the lateral wall of slag storage chamber, divide into a plurality of compartments along the first direction in the slag storage chamber, each compartment all is provided with the air intake that is linked together with the dust removal wind channel, the air intake is linked together through air door selectivity and compartment, when the air door is opened, the air intake is linked together with the compartment, the smoke and dust that produces during the cutting just can be cleared away through the dust removal wind channel through this air intake; the deslagging device can enter each chamber along the first direction to discharge waste residues in each chamber, and the workbench can realize automatic deslagging through the deslagging device, so that the time for cleaning the waste residues during machine shutdown is reduced, and the deslagging efficiency is improved.

Drawings

Fig. 1 is a schematic view of a cutting table provided by the present invention;

FIG. 2 is a schematic view of a hidden portion of the cutting table provided by the present invention;

fig. 3 is a schematic view of a retaining wall of a table main body of a cutting table according to the present invention;

fig. 4 is a first schematic view of a slag shoveling vehicle of the cutting workbench according to the present invention;

fig. 5 is a schematic view two of the slag shoveling vehicle of the cutting workbench provided by the utility model.

In the figure:

1. a table main body; 2. a deslagging device; 3. a material rack;

11. a slag storage chamber; 12. a dust removal air duct; 13. a guide rail; 14. a chain cage; 21. a slag shoveling vehicle; 22. a material pushing plate; 23. a drive assembly;

111. a partition plate; 112. an inlet; 113. an outlet; 121. an air inlet; 122. an air outlet; 123. a damper; 211. a first support member; 212. a second support member; 231. a transmission section; 232. a power section; 233. a wheel;

2121. a support portion.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

The embodiment provides a cutting workbench, which is suitable for a gantry type plasma cutting machine, a flame cutting machine, a laser cutting machine and the like, is used for supporting a workpiece to be cut, and can collect waste residues generated during cutting. As shown in fig. 1-3, the cutting workbench comprises a workbench main body 1 and a deslagging device 2, the workbench main body 1 can support a workpiece to be cut for cutting, a slag storage chamber 11 for collecting waste slag generated by cutting the workpiece to be cut is arranged in the workbench main body 1, a dedusting air duct 12 is arranged on the side wall of the slag storage chamber 11, the slag storage chamber 11 is divided into a plurality of chambers along a first direction (the direction indicated by an arrow a in fig. 2), each chamber is provided with an air inlet 121 communicated with the dedusting air duct 12, the air inlet 121 is selectively communicated with the chambers through an air door 123, and when the air door 123 is opened and the air inlet 121 is communicated with the chambers, smoke generated during cutting can be removed through the air inlet 121 and the dedusting air duct 12; dross removal mechanism 2 can follow each room of first direction entering to discharge the indoor waste residue of each room, this workstation can realize automatic row's sediment through dross removal mechanism 2, has reduced the time that the machine shut down the clearance waste residue, has promoted slag removal efficiency.

Specifically, the slag storage chamber 11 of the workbench body 1 comprises two parallel retaining walls arranged at intervals, one end of the slag storage chamber 11 forms an inlet 112, the other end forms an outlet 113, and the top of the slag storage chamber is open. The inside of barricade is provided with dust removal wind channel 12, be provided with a plurality of baffles 111 along the first direction between two barricades, a plurality of baffles 111 divide slag storage chamber 11 into a plurality of rooms, the dust removal wind channel 12 that every room corresponds all is provided with air intake 121, air door 123 is installed to air intake 121 position department, the air outlet 122 and the purifier in dust removal wind channel 12 are linked together, this purifier can carry out filtration treatment with the smoke and dust via dust removal wind channel 12 exhaust, prevent pollution. When the cutting machine is used for cutting a workpiece to be cut, waste residues generated by cutting can fall into the chamber corresponding to the workpiece to be cut, and meanwhile, dust removal operation can be performed only by opening the air door 123 in the chamber, so that energy is saved.

As shown in fig. 2, the air door 123 of the air inlet 121 of each compartment is provided with an air cylinder or an oil cylinder corresponding thereto to control the opening or closing of the air door 123, and certainly, the air door 123 is not limited to the above opening or closing manner, and the opening or closing of the air door 123 may also be controlled by a steering engine on a hinge where the air door 123 is hinged to the base.

As shown in fig. 1, the workbench main body 1 further comprises a material frame 3, the material frame 3 is arranged at the top of the slag storage chamber 11, the material frame 3 is of a grid structure, the material frame not only can play a role of supporting a workpiece to be cut, but also can fall into the slag storage chamber 11 through the grid structure when cutting the workpiece, so that the waste slag can be uniformly processed. Preferably, the material rack 3 comprises a plurality of grid bars arranged in parallel at intervals and a support plate for supporting the grid bars.

As shown in FIG. 2, the inlet 112 and the outlet 113 of the slag storage chamber 11 are both provided with a partition 111, and the partition 111 at the positions of the inlet 112 and the outlet 113 of the slag storage chamber 11 and the partition 111 inside the slag storage chamber 11 are both rotatably provided.

Specifically, the top of slag storage chamber 11 is provided with many supporting beams, and the supporting beam sets up along perpendicular to first direction, all rotates on every supporting beam to be provided with a baffle 111, and baffle 111 can rotate around a supporting beam for dross removal mechanism 2 can jack-up baffle 111 when getting into or withdraw from in the slag storage chamber 11, and makes baffle 111 overturn, so that dross removal mechanism 2 passes through, in order to discharge the waste residue by export 113.

When the deslagging device 2 of the cutting workbench does not work, the deslagging device 2 is positioned outside the inlet 112 of the slag storage chamber 11, and the deslagging device is an initial position; and returns to the initial position when the deslagging device 2 finishes deslagging.

As shown in fig. 4, the slag removing device 2 includes a slag shoveling cart 21 and a material pushing plate 22 disposed at the head of the slag shoveling cart 21, the slag shoveling cart 21 moves in a first direction to enter or exit the slag storage chamber 11, and the slag is pushed out of the slag storage chamber 11 by the material pushing plate 22 at the head thereof.

Specifically, a guide rail 13 is provided on the inner wall of the retaining wall, the guide rail 13 extends in a first direction, and a slag scraper 21 is supported on the guide rail 13 and is movable in the length direction of the guide rail 13. Further, wheels 233 are respectively provided at both ends of the slag shovel 21, and the wheels 233 can be in rolling contact with the corresponding guide rails 13 to move the slag shovel 21 in the first direction.

The cutting table further comprises a drive assembly 23, and the drive assembly 23 can drive the slag shoveling vehicle 21 to move along a first direction so that the slag shoveling vehicle 21 discharges the waste slag out of the slag storage chamber 11.

The driving assembly 23 comprises a transmission part 231 and a power part 232, the transmission part 231 is arranged in the slag storage chamber 11, and the transmission part 231 is in transmission connection with the slag shoveling vehicle 21 and can transmit driving force to the slag shoveling vehicle 21; the power unit 232 is in transmission connection with the transmission unit 231 and drives the transmission unit 231 to move so as to drive the slag shoveling cart 21 to move along a first direction, so that the slag shoveling cart enters or exits the slag storage chamber 11, and the waste slag is discharged out of the slag storage chamber 11.

In this embodiment, the transmission parts 231 are provided in two sets and located on the inner walls of the two sets of retaining walls, specifically, the power part 232 is a motor, the transmission part 231 includes a sprocket assembly rotatably provided with the inner walls of the retaining walls and a chain sleeved on the sprocket assembly (as shown in fig. 1 and 2), and two ends of the slag shoveling cart 21 are connected to the chain respectively; the sprocket assembly includes a drive sprocket and a driven sprocket, the output of the motor is connected to the drive sprocket to drive the drive sprocket to rotate, and the drive sprocket rotates to rotate the chain and the driven sprocket to move the slag shoveling vehicle 21. The slag shoveling car 21 pushes the slag out of the slag storage chamber 11 by the forward rotation of the driving sprocket, and the slag shoveling car 21 returns to the initial position by the reverse rotation of the driving sprocket.

In this embodiment, one motor is provided, and at this time, the driving sprockets of the two sets of transmission parts 231 are connected through the connecting shaft, that is, one motor drives the two sets of transmission parts 231 to move simultaneously, so that the two sets of transmission parts 231 drive the slag shoveling vehicle 21 to enter or exit the slag storage chamber 11; in addition, the motor can be provided with two sets of driving parts 231 respectively, so that the slag shoveling vehicle 21 can be driven more flexibly.

Of course, the driving part 231 and the power part 232 are not limited to the above driving and transmission mechanisms, and a motor may be directly provided on the wheel 233 of the slag shoveling vehicle 21 to move the same, as long as the slag shoveling vehicle 21 can move in the first direction to enter or exit the slag storage chamber 11.

In order to prevent the waste slag from falling on the chain to block the chain during cutting, a chain cover 14 (shown in fig. 3) is arranged on the retaining wall, and the chain cover 14 can cover the chain to prevent the waste slag from blocking the chain, so that the chain can normally drive the slag shoveling vehicle 21.

Preferably, the pushing plate 22 is rotatably connected to the slag shoveling cart 21, a first supporting member 211 (as shown in fig. 5) is disposed on the slag shoveling cart 21 and located at a lower side of the pushing plate 22, the first supporting member 211 is configured to support the pushing plate 22, so that the pushing plate 22 forms an included angle with a horizontal plane, so that the pushing plate 22 is convenient for pushing the waste slag out of the slag storage chamber 11, it should be mentioned that the pushing plate 22 can be attached to the ground to push the fine waste slag out of the slag storage chamber 11, and when the slag shoveling cart 21 exits from the slag storage chamber 11 and returns to the initial position, because the pushing plate 22 is rotatably connected to the slag shoveling cart 21, a small amount of residual waste slag in the pushing process cannot be brought back by the slag shoveling cart 21, thereby avoiding the waste slag accumulation in the initial region.

In order to facilitate the slag shoveling cart 21 to enter or exit the slag storage chamber 11, the slag shoveling cart 21 is further provided with a second support 212, and the second support 212 can jack up the partition plate 111 when the slag shoveling cart 21 enters or exits the slag storage chamber 11, so as to facilitate the slag shoveling cart 21 to enter or exit the slag storage chamber 11. Preferably, the second supporting member 212 includes a main body, two ends of the main body are provided with supporting portions 2121, one end of each supporting portion 2121 is connected to the main body, and the other end of each supporting portion 2121 is bent downward to form an arc, that is, the supporting portions 2121 are arc-shaped rods (as shown in fig. 2 and 4), and when the slag shoveling cart 21 enters or exits the slag storage chamber 11, the arc-shaped rods can jack up the partition plate 111, so that the slag shoveling cart 21 can shovel waste slag in each chamber and can retreat to the initial position, and in this embodiment, the arc-shaped rods have a plurality of shapes and are all arranged at the top of the slag shoveling cart 21.

When the cutting machine is used for cutting a to-be-cut piece on the material frame 3, firstly, the air door 123 in the chamber corresponding to the current cutting position of the to-be-cut piece is opened, then cutting is carried out, waste residues generated by cutting fall into the chamber of the residue storage chamber 11 through the material frame 3, smoke generated by cutting enters the dust removal air duct 12 through the air inlet 121, and then the smoke is thoroughly removed through the purification device connected with the air outlet 122; the cutting finishes, the starter motor, and make its corotation, motor drive sprocket rotates in order to drive the chain and rotates, so that the shovel sediment car 21 gets into each room of storage slag chamber 11 along the first direction in proper order, at this moment, a plurality of arc poles at shovel sediment car 21 top will jack up a plurality of baffles 111 in the storage slag chamber 11 in proper order, so that the shovel sediment car 21 can get into storage slag chamber 11, and simultaneously, the scraping wings 22 who rotates with shovel sediment car 21 and be connected can laminate ground well, and push away tiny waste residue through export 113 and go out storage slag chamber 11.

The slagging-off finishes, make the motor reversal, the shovel sediment car 21 withdraws from the sediment room 11, at this moment, a plurality of arc poles at shovel sediment car 21 top jack-up a plurality of baffles 111 in the sediment room 11 again in proper order to make the shovel sediment car 21 get back to initial position, simultaneously, because scraping wings 22 rotates with shovel sediment car 21 to be connected, a little residual waste residue can not be taken back by shovel sediment car 21 in the shovel process, avoided piling up of initial region waste residue, close motor and air door 123 at last, the slagging-off operation is accomplished to the cutting table.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Numerous obvious variations, rearrangements and substitutions will now occur to those skilled in the art without departing from the scope of the invention. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A cutting table, comprising:

the cutting machine comprises a workbench main body (1) capable of supporting a to-be-cut piece to be cut, wherein a slag storage chamber (11) for collecting waste slag generated by cutting the to-be-cut piece is arranged in the workbench main body (1), a dust removal air channel (12) is arranged on the side wall of the slag storage chamber (11), the slag storage chamber (11) is internally divided into a plurality of chambers along a first direction, each chamber is provided with an air inlet (121) communicated with the dust removal air channel (12), and the air inlets (121) are selectively communicated with the chambers through air doors (123); and

and the deslagging device (2) can enter each compartment along the first direction so as to discharge waste slag in each compartment.

2. The cutting table according to claim 1, wherein a plurality of partition plates (111) are arranged at intervals along the first direction in the slag storage chamber (11), the partition plates (111) divide the slag storage chamber (11) into a plurality of chambers, and the partition plates (111) are rotatably arranged in the slag storage chamber (11).

3. The cutting table according to claim 2, characterized in that an inlet (112) and an outlet (113) are respectively arranged at two ends of the slag storage chamber (11) along the first direction, and the slag removing device (2) can enter the slag storage chamber (11) from the inlet (112) and pass through the partition plates (111) so as to discharge the slag from the outlet (113).

4. Cutting table according to claim 1, characterized in that the air outlet (122) of the dust duct (12) is in communication with a purification device.

5. Cutting table according to claim 2, characterized in that the deslagging device (2) comprises:

a slag shoveling car (21) moving in the first direction to enter or exit the slag storage chamber (11); and

the material pushing plate (22) is arranged at the head of the slag shoveling vehicle (21).

6. The cutting workbench according to claim 5, wherein the pushing plate (22) is rotatably connected with the slag shoveling cart (21), and a first supporting member (211) is arranged on the slag shoveling cart (21) and located at the lower side of the pushing plate (22) and used for supporting the pushing plate (22) so that the pushing plate (22) is arranged at an included angle with the horizontal plane.

7. The cutting table according to claim 5, wherein the slag shoveling cart (21) is further provided with a second support (212), the second support (212) comprising:

the main body is arranged on the slag shoveling vehicle (21) and extends along the first direction; and

the supporting part (2121) is arranged at each of the two ends of the main body, one end of the supporting part (2121) is connected with the main body, and the other end of the supporting part (2121) bends downwards to form an arc shape.

8. The cutting table of claim 5, further comprising:

a drive assembly (23), the drive assembly (23) can drive the slag shoveling vehicle (21) to move along the first direction so as to discharge waste slag out of the slag storage chamber (11).

9. Cutting table according to claim 8, characterized in that said drive assembly (23) comprises:

the transmission part (231) is arranged in the slag storage chamber (11), and the transmission part (231) is in transmission connection with the slag shoveling vehicle (21); and

and the power part (232) is in transmission connection with the transmission part (231) and drives the transmission part (231) to move so as to drive the slag shoveling vehicle (21) to move.

10. Cutting table according to any one of claims 1-9, characterized in that the table body (1) further comprises:

the material frame (3) is arranged at the top of the slag storage chamber (11) and used for supporting the to-be-cut piece, and the waste slag falls into each chamber of the slag storage chamber (11) through the material frame (3).

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