CN217045564U - Vacuum adsorption mechanism for numerical control cutting machine - Google Patents

Abstract

The utility model discloses a vacuum adsorption mechanism for numerical control cutting machine, remove the box including an mounting plate, a fixed box, two first removal boxes and two seconds, all be equipped with a plurality of vacuum chuck on fixed box, two first removal boxes and two second removal boxes, mounting plate lateral wall fixedly connected with places the board, be equipped with the guiding mechanism that is used for adjusting two first removal boxes and two second removal box positions on the mounting plate. The utility model discloses guiding mechanism and actuating mechanism have been set up to can remove the position of box with the second according to the size adjustment first removal box of waiting to cut the material, and then enlarge the application scope of device, reduce the manufacturing cost of device, set up drive mechanism in addition, make a driving motor can drive first double-threaded rod and rotate with the second double-threaded rod, need not additionally add other drive arrangement, and then reduced the manufacturing cost of device.

Description

Vacuum adsorption mechanism for numerical control cutting machine

Technical Field

The utility model relates to a numerical control cutter technical field especially relates to a vacuum adsorption mechanism for numerical control cutter.

Background

The mechanical equipment for automatically cutting the material by the numerical control cutting machine can cut plates, cloth, steel pipes and the like, and compared with a manual cutting mode, the mechanical equipment has the advantages of high cutting speed, short production period, high product quality, labor saving, labor intensity reduction and the like.

The vacuum adsorption mechanism for the existing numerical control cutting machine vacuumizes the gas storage device through the vacuuming device, and materials to be cut are adsorbed to the working surface of the machine tool through the vacuum chuck, but the vacuum chuck of the vacuum adsorption mechanism for the existing numerical control cutting machine is fixedly arranged, the distance cannot be adjusted according to the size of the materials, the materials can be adsorbed to different materials only through a mode of adding a large number of vacuum chucks, but the production cost of the device is greatly increased along with the increase of a large number of vacuum chucks, and therefore, the vacuum adsorption mechanism for the numerical control cutting machine is required to be designed to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a vacuum adsorption mechanism for a numerical control cutting machine.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a vacuum adsorption mechanism for a numerical control cutting machine comprises an installation bottom plate, a fixed box, two first movable boxes and two second movable boxes, wherein a plurality of vacuum suckers are arranged on the fixed box, the two first movable boxes and the two second movable boxes respectively, a placing plate is fixedly connected to the side wall of the installation bottom plate, an adjusting mechanism for adjusting the positions of the two first movable boxes and the two second movable boxes is arranged on the installation bottom plate, the adjusting mechanism comprises two side plates fixedly connected to the upper end of the installation bottom plate, the side walls of the two side plates are rotatably connected with a first double-head threaded rod and a second double-head threaded rod, sliding plates are fixedly connected to the side walls of the two first movable boxes and the two second movable boxes respectively, one end of the first double-head threaded rod, which is close to the placing plate, penetrates through the side walls of the sliding plates on the two first movable boxes, one end of the second double-head threaded rod, which is close to the placing plate, penetrates through the side walls of the sliding plates on the two second movable boxes, the placing plate is provided with a driving mechanism for driving the first double-threaded rod and the second double-threaded rod to rotate.

Preferably, the driving mechanism comprises a driving motor fixedly connected to the upper end of the placing plate, an output shaft of the driving motor is fixedly connected with a rotating shaft, a rotating cylinder is sleeved on the side wall of the rotating shaft, and the side wall of the rotating cylinder is connected with the first double-head threaded rod and the second double-head threaded rod through a transmission mechanism.

Preferably, drive mechanism includes the third gear of fixed connection at the rotation section of thick bamboo lateral wall, first double-end threaded rod and second double-end threaded rod lateral wall are first gear of fixedly connected with and second gear respectively, first gear and second gear homoenergetic and first preferred, it is connected with the mounting panel to rotate a section of thick bamboo lateral wall, is close to two electric putter of driving motor's curb plate lateral wall fixedly connected with, electric putter's output and mounting panel lateral wall fixed connection.

Preferably, a limiting rod is arranged in the rotating cylinder, and one end, far away from the rotating cylinder, of the limiting rod is rotatably connected with the side wall of the adjacent side plate.

Preferably, a plurality of sliding grooves are formed in the upper end of the mounting bottom plate, two moving plates are fixedly connected to the lower ends of the first moving box and the two second moving boxes, two pulley assemblies are mounted at the lower ends of the moving plates, and vacuum tubes communicated with the inner parts of the fixed boxes, the two first moving boxes and the two second moving boxes are arranged on the fixed boxes.

The utility model discloses in, following beneficial effect has:

1. the device is provided with an adjusting mechanism and a driving mechanism, a driving motor is started, an electric push rod is started during the period, the two first moving boxes and the second moving boxes sequentially move in opposite directions, a driving shaft rotates reversely, the two second moving boxes and the two first moving boxes sequentially move in opposite directions, so that the positions of the first moving boxes and the second moving boxes can be adjusted according to the size of a material to be cut, the application range of the device is further expanded, material adsorption is not required to be carried out through a large number of additional vacuum chucks, and the production cost of the device is reduced;

2. this device has set up drive mechanism, starts two electric putter, and electric putter's output drives the mounting panel and moves right, and third gear and second gear engagement, otherwise, electric putter output moves left, and third gear and first gear engagement for a driving motor can drive first double-threaded rod and second double-threaded rod and rotate, need not additionally add other drive arrangement, and then has reduced the manufacturing cost of device.

Drawings

Fig. 1 is a schematic structural view of a vacuum adsorption mechanism for a numerical control cutting machine according to the present invention;

FIG. 2 is a top view of FIG. 1;

fig. 3 is an enlarged view of a structure of fig. 2.

In the figure: the device comprises an installation bottom plate 1, a fixed box 2, a side plate 3, a first double-threaded rod 4, a placing plate 5, a driving motor 6, a first gear 7, a second gear 8, a sliding groove 9, a moving plate 10, a pulley assembly 11, a first moving box 12, a second moving box 13, a vacuum tube 14, a sliding plate 15, a second double-threaded rod 16, a rotating shaft 17, a rotating cylinder 18, a third gear 19, an installation plate 20, a limiting rod 21 and an electric push rod 22.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a vacuum adsorption mechanism for a numerical control cutting machine, including an installation base plate 1, a fixed box 2, two first removal boxes 12 and two second removal boxes 13, all be equipped with a plurality of vacuum chuck on fixed box 2, two first removal boxes 12 and two second removal boxes 13, installation base plate 1 lateral wall fixedly connected with places board 5, all be equipped with vacuum tube 14 rather than inside intercommunication on fixed box 2, two first removal boxes 12 and two second removal boxes 13, vacuum tube 14 communicates with outside vacuum pumping equipment, be equipped with the vacuum solenoid valve on vacuum tube 14, outside vacuum pumping equipment is prior art to the evacuation of fixed box 2, two first removal boxes 12 and two second removal boxes 13, so do not do too much to describe again.

The mounting base plate 1 is provided with an adjusting mechanism for adjusting the positions of the two first movable boxes 12 and the two second movable boxes 13, the adjusting mechanism comprises two side plates 3 fixedly connected to the upper end of the mounting base plate 1, the side walls of the two side plates 3 are rotatably connected with a first double-head threaded rod 4 and a second double-head threaded rod 16, the side walls of the two first movable boxes 12 and the two second movable boxes 13 are both fixedly connected with sliding plates 15, one end of the first double-head threaded rod 4, which is close to the placing plate 5, penetrates through the side walls of the sliding plates 15 on the two first movable boxes 12, one end of the second double-head threaded rod 16, which is close to the placing plate 5, penetrates through the side walls of the sliding plates 15 on the two second movable boxes 13, the sliding plates 15 on the two second movable boxes 13 are not in threaded connection with the first double-head threaded rod 4, but are only penetrated by the first double-head threaded rod, and the sliding plates 15 on the first movable boxes 12 are not in threaded connection with the second double-head threaded rod 16 in the same way.

Place and be equipped with on the board 5 and be used for driving first double-thread pole 4 and the 16 pivoted actuating mechanism of second double-thread pole, actuating mechanism includes fixed connection at the driving motor 6 of placing the board 5 upper end, driving motor 6's output shaft fixedly connected with axis of rotation 17, and axis of rotation 17 lateral wall has cup jointed a rotating cylinder 18, and the 18 lateral walls of rotating cylinder pass through drive mechanism and are connected with first double-thread pole 4 and second double-thread pole 16.

The transmission mechanism comprises a third gear 19 fixedly connected to the side wall of the rotating cylinder 18, the side walls of the first double-threaded rod 4 and the second double-threaded rod 16 are respectively and fixedly connected with a first gear 7 and a second gear 8, the first gear 7 and the second gear 8 can be respectively and fixedly connected with a mounting plate 20, the side wall of the rotating cylinder 18 is rotatably connected with a mounting plate 20, two electric push rods 22 are fixedly connected to the side wall of the side plate 3 close to the driving motor 6, the output ends of the electric push rods 22 are fixedly connected with the side wall of the mounting plate 20, the section of the inner ring of the rotating cylinder 18 is rectangular, the section of the part of the rotating shaft 17 is rectangular, and the rotating shaft 17 can still drive the rotating cylinder 18 to rotate after the rotating cylinder 18 moves.

The utility model discloses in, be equipped with gag lever post 21 in the rotation section of thick bamboo 18, gag lever post 21 is kept away from the one end of rotating a section of thick bamboo 18 and is rotated with 3 lateral walls of adjacent curb plate and is connected, and gag lever post 21 partial cross-section is the rectangle for it can only follow gag lever post 21 direction and remove to rotate a section of thick bamboo 18, and then avoids rotating and take place the skew in the 18 motion process of a section of thick bamboo.

The utility model discloses in, a plurality of sliding tray 9 have been seted up to 1 upper end of mounting plate, two first removal boxes 12 and two second remove two movable plates 10 of the equal fixedly connected with of box 13 lower extreme, two loose pulley assembly 11 are installed to movable plate 10 lower extreme, the sliding tray 9 cross-section is cross structure, the 10 cross-sections of movable plate are for invering T shape, sliding tray 9 inner wall carries on spacingly to movable plate 10 lateral wall, make movable plate 10 unable emergence when first double-threaded rod 4 or the 16 rotations of second double-threaded rod rotate, the event can only be followed the removal of sliding tray 9 direction, loose pulley assembly 11 sets up and makes it remove more smoothly.

When in use, the positions of the first movable box 12 and the second movable box 13 can be adjusted according to the size of the material to be cut, and the operation is as follows: the driving motor 6 is started firstly, an output shaft of the driving motor 6 drives the rotating shaft 17 to rotate, the rotating shaft 17 drives the rotating cylinder 18 to drive, the rotating cylinder 18 drives the first double-head threaded rod 4 to rotate through the meshing of the third gear 19 and the second gear 8, and the two first moving boxes 12 move towards opposite directions under the limit of the sliding groove 9 and the moving plate 10;

then two electric push rods 22 are started, the output ends of the electric push rods 22 drive the mounting plate 20 to move rightwards, the third gear 19 is meshed with the second gear 8, the electric push rods 22 are closed to start the driving motor 6, the output shaft of the driving motor 6 drives the rotating shaft 17 to rotate, the rotating shaft 17 drives the rotating cylinder 18, the rotating cylinder 18 is driven by the meshing of the third gear 19 and the second gear 8, the second double-threaded rod 16 rotates, and the two second moving boxes 13 move towards opposite directions under the limit of the sliding groove 9 and the moving plate 10, so that the positions of the two first moving boxes 12 and the second moving boxes 13 are moved, wider materials can be adsorbed, and the application range of the device is expanded;

on the contrary, the driving motor 6 is started, the rotating shaft 17 rotates reversely, the two second moving boxes 13 move oppositely, the electric push rod 22 is restarted, the third gear 19 is meshed with the first gear 7, the driving motor 6 is restarted, the two first moving boxes 12 move oppositely, so that narrower materials can be adsorbed, the application range of the device is further expanded, the materials are not required to be adsorbed by a large number of additionally-arranged vacuum suckers, the production cost of the device is reduced, the electric push rod 22, the first gear 7, the second gear 8 and the third gear 19 are arranged, so that one driving motor 6 can drive the first double-head threaded rod 4 to rotate with the second double-head threaded rod 16, other driving devices are not required to be additionally arranged, and the production cost of the device is reduced.

The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, and according to the technical solution of the present invention and its practical idea, equivalent replacement or change should be covered within the protection scope of the present invention.

Claims (6)

1. A vacuum adsorption mechanism for a numerical control cutting machine comprises a mounting base plate (1), a fixed box (2), two first movable boxes (12) and two second movable boxes (13), and is characterized in that the fixed box (2), the two first movable boxes (12) and the two second movable boxes (13) are respectively provided with a plurality of vacuum suckers, the side wall of the mounting base plate (1) is fixedly connected with a placing plate (5), the mounting base plate (1) is provided with an adjusting mechanism for adjusting the positions of the two first movable boxes (12) and the two second movable boxes (13), the adjusting mechanism comprises two side plates (3) fixedly connected to the upper end of the mounting base plate (1), the side walls of the two side plates (3) are rotatably connected with a first double-head threaded rod (4) and a second double-head threaded rod (16), and the side walls of the two first movable boxes (12) and the two second movable boxes (13) are both fixedly connected with a sliding plate (15), the double-head threaded rod is characterized in that one end, close to the placing plate (5), of the first double-head threaded rod (4) penetrates through the side walls of the sliding plates (15) on the two first moving boxes (12), one end, close to the placing plate (5), of the second double-head threaded rod (16) penetrates through the side walls of the sliding plates (15) on the two second moving boxes (13), and a driving mechanism for driving the first double-head threaded rod (4) and the second double-head threaded rod (16) to rotate is arranged on the placing plate (5).

2. The vacuum adsorption mechanism for the numerical control cutting machine is characterized in that the drive mechanism comprises a drive motor (6) fixedly connected to the upper end of a placing plate (5), an output shaft of the drive motor (6) is fixedly connected with a rotating shaft (17), a rotating cylinder (18) is sleeved on the side wall of the rotating shaft (17), and the side wall of the rotating cylinder (18) is connected with a first double-threaded rod (4) and a second double-threaded rod (16) through a transmission mechanism.

3. The vacuum adsorption mechanism for the numerical control cutting machine is characterized in that the transmission mechanism comprises a third gear (19) fixedly connected to the side wall of the rotating cylinder (18), the side walls of the first double-threaded rod (4) and the second double-threaded rod (16) are respectively fixedly connected with a first gear (7) and a second gear (8), and the first gear (7) and the second gear (8) can be meshed with the third gear (19).

4. The vacuum adsorption mechanism for the numerical control cutting machine is characterized in that a mounting plate (20) is rotatably connected to the side wall of the rotating cylinder (18), two electric push rods (22) are fixedly connected to the side wall of the side plate (3) close to the driving motor (6), and the output ends of the electric push rods (22) are fixedly connected with the side wall of the mounting plate (20).

5. The vacuum adsorption mechanism for the numerical control cutting machine is characterized in that a limiting rod (21) is arranged in the rotating cylinder (18), and one end, far away from the rotating cylinder (18), of the limiting rod (21) is rotatably connected with the side wall of the adjacent side plate (3).

6. The vacuum adsorption mechanism for the numerical control cutting machine according to claim 1, characterized in that a plurality of sliding grooves (9) are formed in the upper end of the mounting base plate (1), two moving plates (10) are fixedly connected to the lower ends of the two first moving boxes (12) and the two second moving boxes (13), two pulley assemblies (11) are mounted on the lower ends of the moving plates (10), and vacuum tubes (14) communicated with the inside of the fixed boxes (2), the two first moving boxes (12) and the two second moving boxes (13) are respectively arranged on the fixed boxes, the two second moving boxes and the two first moving boxes.

Images