CN216372832U

CN216372832U - Suction plate device of bridge cutting machine

Info

Publication number: CN216372832U
Application number: CN202122563644.XU
Authority: CN
Inventors: 谭斌; 赖传宏; 徐杰
Original assignee: Quanzhou Rock Intelligent Technology Co ltd
Current assignee: Quanzhou Rock Intelligent Technology Co ltd
Priority date: 2021-10-25
Filing date: 2021-10-25
Publication date: 2022-04-26
Anticipated expiration: 2031-10-25

Abstract

The utility model provides a board suction device of a bridge cutting machine, which comprises a tool rest, a vacuum chuck, a vacuumizing machine, a driver and a proximity switch, wherein the vacuumizing machine is connected with the vacuum chuck through a hose so that the vacuum chuck can generate negative pressure to suck a board, the driver is arranged on the tool rest, the vacuum chuck is arranged on the driver so as to be driven by the driver to move up and down, and the proximity switch is arranged on the vacuum chuck so as to sense whether the vacuum chuck is in contact with a large stone board or not. The proximity switch is adopted to sense the distance between the vacuum chuck and the large stone plate, the cost is low, the sensing is sensitive, when the proximity switch senses that the vacuum chuck contacts the large stone plate, the driving cylinder is controlled to stop feeding, the large stone plate cannot be extruded, the requirement on the installation environment is low, and the use is convenient.

Description

Suction plate device of bridge cutting machine

Technical Field

The utility model relates to the technical field of suction plate devices, in particular to a suction plate device of a bridge cutting machine.

Background

The stone material is as a high-grade architectural decoration material wide application in indoor outer decoration design, in curtain decoration and the public facilities construction, the stone material is put into use and all will be cut into certain size earlier usually, the panel cutting machine is the machinery commonly used for cutting panel, place the panel of preliminary cutting on the workstation of panel cutting machine, the cutter on the panel cutting machine is cut panel according to customer's demand again, in the cutting operation, need carry panel to the cutting bench above cutting bed and cut, after cutting, still will carry panel down, artifical transport is consuming time power, the suction disc device is generally adopted now. The existing suction plate device usually adopts a vacuum switch to control the up-and-down movement of the suction plate device, the specific process is that after the suction plate is contacted with the stone material, the suction plate starts to generate vacuum which is sensed by the vacuum switch, the vacuum switch controls the suction plate device to stop feeding in a feedback manner, but the vacuum switch is expensive and high in installation environment requirement, and the suction plate device stops moving after being contacted, so that scratches are left on the stone material easily.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects, the utility model provides the suction plate device of the bridge cutting machine, which can accurately sense the distance between the suction disc and the large stone plate, so that the suction disc is prevented from being excessively close to the large stone plate to generate scratches, and the large stone plate is extruded to cause the large stone plate to break, and has simple structure and stable performance.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides a bridge cutting machine suction disc device, includes knife rest, vacuum chuck, evacuation machine, driver and proximity switch, the evacuation machine passes through the hose and is connected so that vacuum chuck produces the negative pressure and adsorbs panel with vacuum chuck, the driver sets up on the knife rest, vacuum chuck sets up so that reciprocate by the driver drive on the driver, proximity switch sets up on vacuum chuck with the response vacuum chuck whether with the big board contact of stone material.

Furthermore, in order to stably suck the large stone plate, two vacuum chucks are ensured to be in contact with the large stone plate at the same time, and the two vacuum chucks are in contact with each other at two points, so that the adsorption area of the plate suction device in contact with the large stone plate is increased, and the adsorption force is improved; the vacuum chuck and the drivers are respectively provided with two groups, mounting seats are arranged on two sides of the knife rest, the two groups of drivers are respectively mounted on the mounting seats on the two sides of the knife rest, and each mounting seat comprises a vertical plate vertically mounted on the knife rest, a horizontal plate horizontally extending outwards from the lower end of the vertical plate and a reinforcing plate connected between the vertical plate and the front side and the rear side of the horizontal plate;

the driver is for driving actuating cylinder, the upper end of vertical board is equipped with the cylinder mounting panel that the level set up, the upper end that drives actuating cylinder is connected with the cylinder mounting panel, and the lower extreme that drives actuating cylinder is connected with vacuum chuck in order to drive vacuum chuck up-and-down motion.

Furthermore, in order to stably guide the stone slab to move up and down and simplify the structure, a guide rail structure adopted by the traditional slab suction device is abandoned, and the lifting precision of a driving cylinder is ensured, so that the stone slab is stably sucked; the suction plate device of the bridge cutting machine further comprises a guide mechanism, the guide mechanism comprises a guide post, an upper triangular plate and a lower triangular plate, the upper triangular plate is arranged between the cylinder mounting plate and the horizontal plate, and the lower triangular plate is fixedly mounted on the upper side surface of the vacuum chuck;

the horizontal plate is provided with a through hole, the driving cylinder is movably connected with the lower triangular plate after penetrating through the through hole, the guide columns are three, the three guide columns are respectively arranged between three corners of the upper triangular plate and the lower triangular plate, the upper ends of the guide columns are connected with the upper triangular plate, the lower ends of the guide columns movably penetrate through the horizontal plate and then are connected with the lower triangular plate to stably guide the vacuum chuck to move up and down, and the horizontal plate is provided with a guide sleeve for guiding the guide columns to move up and down.

Further, in order to form an adsorption surface on the lower side surface of the large stone plate, a vacuum layer is formed between the vacuum chuck and the large stone plate, so that the large stone plate is stably sucked; the vacuum sucker is provided with a plurality of vacuum suction holes, the vacuum suction holes are connected with a vacuum extractor through a hose, and the lower side surface of the vacuum sucker is also provided with a plurality of annular grooves.

Further, in order to install a proximity switch, the distance between the vacuum chuck and the stone large plate is accurately sensed; and two mounting holes for mounting the proximity switch are formed in the outer side of the vacuum chuck.

Compared with the prior art, the utility model has the following advantages:

(1) the proximity switch is adopted, so that the cost is low, the induction is sensitive, when the proximity switch senses that the vacuum sucker contacts the large stone plate, the driving cylinder is controlled to stop feeding, the large stone plate cannot be extruded, the requirement on the installation environment is low, and the use is convenient;

(2) the guide mechanism adopts three guide posts to guide the vacuum chuck to move up and down in a triangular distribution manner, and compared with the traditional suction plate device which adopts a structure that two guide posts are matched with guide rails to guide, the guide mechanism has a simpler structure, is more stable in guide of the triangular structure, can ensure that the vacuum chuck can stably move up and down, stably suck large stone plates, and further ensures the stability due to the arrangement of the guide sleeve.

Drawings

The utility model will be further illustrated with reference to the following examples with reference to the accompanying drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a partial block diagram of the present invention;

fig. 4 is a schematic structural diagram of the vacuum chuck.

In the figure: 1-a tool rest; 2-vacuum chuck; 201-vacuum suction hole; 202-an annular groove; 3-a driver; 4-a proximity switch; 5-mounting a base; 6-cylinder mounting plate; 7-a guide post; 8-upper set square; 9-lower set square; 10-a guide sleeve.

Detailed Description

The utility model is described in detail below with reference to the drawings and specific examples:

the specific embodiment is as follows: as shown in fig. 1 to 4, the present embodiment provides a suction plate device for a bridge cutting machine, which includes a tool post 1, a vacuum chuck 2, a vacuum extractor, a driver 3, and a proximity switch 4, wherein the vacuum extractor is connected to the vacuum chuck 2 through a hose so that the vacuum chuck 2 generates a negative pressure to adsorb a plate material, the driver 3 is disposed on the tool post 1, the vacuum chuck 2 is disposed on the driver 3 so as to be driven by the driver 3 to move up and down, and the proximity switch 4 is disposed on the vacuum chuck 2 so as to sense whether the vacuum chuck 2 is in contact with a large stone plate.

In the embodiment, in order to stably suck the large stone plate, two vacuum chucks 2 are ensured to be in contact with the large stone plate at the same time, and the two vacuum chucks are in contact with each other at two points, so that the adsorption area of the plate sucking device in contact with the large stone plate is increased, and the adsorption force is improved; the vacuum chucks 2 and the drivers 3 are respectively provided with two groups, mounting seats 5 are arranged on two sides of the tool rest 1, the two groups of drivers 3 are respectively mounted on the mounting seats 5 on two sides of the tool rest 1, and each mounting seat 5 comprises a vertical plate vertically mounted on the tool rest 1, a horizontal plate horizontally extending from the lower end of the vertical plate and a reinforcing plate connected between the vertical plate and the front side and the rear side of the horizontal plate;

the driver 3 is for driving actuating cylinder, the upper end of vertical board is equipped with the cylinder mounting panel 6 that the level set up, driving actuating cylinder's upper end and cylinder mounting panel 6 and being connected, driving actuating cylinder's lower extreme and vacuum chuck 2 and being connected in order to drive 2 up-and-down motion of vacuum chuck.

In the embodiment, in order to stably guide the stone slab to move up and down and simplify the structure, a guide rail structure adopted by the traditional slab suction device is abandoned, and the lifting precision of a driving cylinder is ensured, so that the stone slab is stably sucked; the suction plate device of the bridge cutting machine further comprises a guide mechanism, the guide mechanism comprises a guide post 7, an upper triangular plate 8 and a lower triangular plate 9, the upper triangular plate 8 is arranged between the cylinder mounting plate 6 and the horizontal plate, and the lower triangular plate 9 is fixedly mounted on the upper side surface of the vacuum chuck 2;

be equipped with the through-hole on the horizontal plate, it is connected with lower set square 9 to drive actuating cylinder activity after passing the through-hole, guide post 7 has three, and three guide post 7 are located respectively between the three angle of set square 8 and lower set square 9, and the upper end and the last set square 8 of guide post 7 are connected, and the lower extreme activity of guide post 7 is connected with lower set square 9 after passing the horizontal plate and reciprocates with stable direction vacuum chuck 2, be equipped with the uide bushing 10 that is used for the up-and-down motion of guide post 7 on the horizontal plate.

In the embodiment, in order to form an adsorption surface on the lower side surface of the large stone plate, a vacuum layer is formed between the vacuum chuck 2 and the large stone plate, so that the large stone plate is stably sucked; vacuum chuck 2 is last to be equipped with a plurality of vacuum and to inhale hole 201, vacuum inhales hole 201 and is connected with the evacuation machine through the hose, and vacuum chuck 2's downside still is equipped with a plurality of annular groove 202.

In the embodiment, in order to install the proximity switch 4, the distance between the vacuum chuck 2 and the large stone plate is accurately sensed; two mounting holes for mounting the proximity switch 4 are formed in the outer side of the vacuum chuck 2.

The proximity switch 4 is adopted to sense the space between the vacuum chuck 2 and the large stone plate, compared with the traditional suction plate device which adopts the vacuum switch as a sensor, the vacuum suction plate device has the problems of high price, easy scratching of the large stone plate and the like, the proximity switch 4 is adopted, the cost is low, the sensing is sensitive, when the proximity switch 4 senses that the vacuum chuck 2 contacts the large stone plate, the driving cylinder is controlled to stop feeding, the large stone plate cannot be extruded, the requirement on the installation environment is low, and the use is convenient; guiding mechanism adopts three guide posts 7 to be that triangular distribution direction vacuum chuck 2 reciprocates, compares in the structure that traditional suction disc device adopted two guide posts 7 cooperation guide rail direction, and the structure is simpler to the triangular structure direction is more stable, can guarantee that vacuum chuck 2 steadily reciprocates, stably sucks the big board of stone material, and the setting of uide bushing 10 further guarantees stability.

During the use, drive actuating cylinder drive vacuum chuck 2 and move down and be close to the big board of stone material, sense the big board of vacuum chuck 2 contact stone material when proximity switch 4, control drives actuating cylinder and stops to feed downwards, and the evacuation machine begins work, forms the vacuum layer between big board of stone material and vacuum chuck 2, adsorbs the big board of stone material on vacuum chuck 2 through the negative pressure.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the utility model, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the specification and the drawings of the present invention, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a bridge cutter suction disc device which characterized in that: including knife rest, vacuum chuck, evacuation machine, driver and proximity switch, the evacuation machine passes through the hose and is connected so that vacuum chuck produces the negative pressure and adsorbs panel with vacuum chuck, the driver sets up on the knife rest, vacuum chuck sets up so that reciprocate by the driver drive on the driver, proximity switch sets up on vacuum chuck with the response vacuum chuck whether with the big board contact of stone material.

2. The suction plate device of the bridge cutting machine according to claim 1, characterized in that: the vacuum chuck and the drivers are respectively provided with two groups, mounting seats are arranged on two sides of the knife rest, the two groups of drivers are respectively mounted on the mounting seats on the two sides of the knife rest, and each mounting seat comprises a vertical plate vertically mounted on the knife rest, a horizontal plate horizontally extending outwards from the lower end of the vertical plate and a reinforcing plate connected between the vertical plate and the front side and the rear side of the horizontal plate;

3. The suction plate device of the bridge cutting machine according to claim 2, wherein: the suction plate device of the bridge cutting machine further comprises a guide mechanism, the guide mechanism comprises a guide post, an upper triangular plate and a lower triangular plate, the upper triangular plate is arranged between the cylinder mounting plate and the horizontal plate, and the lower triangular plate is fixedly mounted on the upper side surface of the vacuum chuck;

4. The suction plate device of the bridge cutting machine according to claim 1, characterized in that: the vacuum sucker is provided with a plurality of vacuum suction holes, the vacuum suction holes are connected with a vacuum extractor through a hose, and the lower side surface of the vacuum sucker is also provided with a plurality of annular grooves.

5. The suction plate device of the bridge cutting machine according to claim 1, characterized in that: and two mounting holes for mounting the proximity switch are formed in the outer side of the vacuum chuck.