CN210415022U

CN210415022U - Multi-blade saw cutting device for glass magnesium board production

Info

Publication number: CN210415022U
Application number: CN201920815304.1U
Authority: CN
Inventors: 熊军; 鲁深
Original assignee: HUBEI QINGYANG GREEN BUILDING MATERIAL CO Ltd
Current assignee: HUBEI QINGYANG GREEN BUILDING MATERIAL CO Ltd
Priority date: 2019-05-31
Filing date: 2019-05-31
Publication date: 2020-04-28
Anticipated expiration: 2029-05-31

Abstract

A multi-blade saw cutting device for producing a glass magnesium board comprises an operation table top, wherein a door frame is arranged in the middle of the top surface of the operation table top, a plurality of saw blade groups are arranged in the door frame, and feeding rollers are arranged on the operation table top at two ends of the door frame; a plurality of groups of vertical sliding grooves are symmetrically formed in two side walls of the portal frame, first sliding blocks capable of moving along the vertical direction are arranged in the vertical sliding grooves, a single saw blade group is arranged on a saw blade shaft, and two ends of the saw blade shaft are arranged on the two first sliding blocks of the same group of vertical sliding grooves; every group vertical chute corresponds a song saw bit group, and the saw bit quantity on every saw bit group is inequality. By adopting the structure, the size of the cut product can be adjusted according to actual production requirements, so that the purposes of improving the cutting efficiency and the cutting precision are achieved.

Description

Multi-blade saw cutting device for glass magnesium board production

Technical Field

The utility model relates to a glass magnesium board production field, especially a multiple blade saw cutting device for glass magnesium board production puts.

Background

The magnesium oxide board is a new type of non-inflammable decoration material made up by using ternary system of magnesium oxide, magnesium chloride and water, and adding modifying agent through compounding and compounding. The fireproof waterproof fireproof paint is processed by adopting a special production process, has the characteristics of fire resistance, water resistance, no odor, no toxicity, no freezing, no corrosion, no cracking, no change, no combustion, high strength, light weight, convenient construction, long service life and the like, and has composite special performance in similar products all over the country.

The cutting need be carried out to the glass magnesium board after the drawing of patterns, with the finished board of the required plate thickness of output, current cutting generally relies on the multiple blade saw to cut, current multiple blade saw is because saw bit quantity is the same, the product size of output is because fixed after the drawing of patterns, therefore the glass magnesium board size after the cutting also is fixed, when the glass magnesium board finished product of the different thickness size of needs, the operation of cutting repeatedly need carry out, and need the manual work to carry out the location of glass magnesium board among the cutting process repeatedly, not only lead to cutting inefficiency and the cutting precision also can't guarantee.

Disclosure of Invention

The utility model aims to solve the technical problem that a multiple blade saw cutting device for production of glass magnesium board is provided, it can be according to the actual production demand, carries out the regulation of the product size who cuts out to reach the purpose that improves cutting efficiency and cutting accuracy.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a multi-blade saw cutting device for producing a glass magnesium board comprises an operation table top, wherein a door frame is arranged in the middle of the top surface of the operation table top, a plurality of saw blade groups are arranged in the door frame, and feeding rollers are arranged on the operation table top at two ends of the door frame;

a plurality of groups of vertical sliding grooves are symmetrically formed in two side walls of the portal frame, first sliding blocks capable of moving along the vertical direction are arranged in the vertical sliding grooves, a single saw blade group is arranged on a saw blade shaft, and two ends of the saw blade shaft are arranged on the two first sliding blocks of the same group of vertical sliding grooves;

every group vertical chute corresponds a song saw bit group, and the saw bit quantity on every saw bit group is inequality.

In an optimized scheme, a plurality of strip-shaped holes are formed in the operation table top below the door frame, the number of the strip-shaped holes is the same as that of the saw blades of the saw blade group with the largest number in the plurality of saw blade groups, and the strip-shaped holes and the saw blades are arranged on the same vertical surface in a one-to-one correspondence mode.

In the preferred scheme, the bottom of the operation table surface in the area where the strip-shaped hole is located is provided with a slag collecting hopper.

In a preferable scheme, a supporting plate is arranged on the outer side of one side wall of the door frame, a plurality of driving motors with the same number as the saw blade groups are arranged on the supporting plate, one ends of saw blade shafts close to the driving motors penetrate through the first sliding block, and the saw blade shaft parts penetrating through the first sliding block are in transmission connection with driving motor shafts of the driving motors through a first transmission belt.

In the preferred scheme, the portal still be equipped with the horizontal spout with the bar hole one-to-one on the outer wall of one side lateral wall that is close to driving motor, be equipped with the second slider in the horizontal spout, be equipped with the tensioning axle on the second slider, first drive belt is walked around the tensioning axle and is set up, is equipped with the spring between second slider and the horizontal spout one end wall.

In a preferable scheme, a supporting plate is also arranged on the outer side of the other side wall of the gantry, a plurality of threaded rods with the same number as the saw blade groups are arranged on the supporting plate, the first sliding blocks on the side wall of the side extend out of the side wall of the gantry, the threaded rods are vertical and penetrate through the first sliding blocks positioned outside the side wall of the gantry, and the threaded rods are in threaded connection with the first sliding blocks;

the upper end of the threaded rod extends to the height of the top surface of the portal frame, a plurality of lifting motors with the same number as the threaded rods are arranged on the top surface of the portal frame, and rotating shafts of the lifting motors are connected with the parts, located above the height of the top surface of the portal frame, of the threaded rods through second transmission belts.

In the preferred scheme, the top of the portal frame is provided with a lifting motor support, the lifting motor is arranged on the lifting motor support, and a rotating shaft of the lifting motor vertically penetrates through the lifting motor support downwards.

The utility model provides a multiple blade saw cutting device for production of glass magnesium board through adopting above-mentioned structure, has following beneficial effect:

(1) different saw blade groups are selected according to production requirements, the glass magnesium board with fixed size can be cut into finished products with different thicknesses, repeated cutting is not needed, and cutting efficiency is effectively improved;

(2) powder waste generated by cutting can be recycled through the slag collecting hopper, so that dust flying in a production workshop is avoided;

(3) the tensioning shaft can guarantee that the saw blade group is in the lifting process, and the first transmission belt always keeps the tensioning state, so that the transmission efficiency of the driving motor is guaranteed, and the condition that the first transmission belt falls off is avoided.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is the schematic view of the internal structure of the door frame of the present invention.

Fig. 3 is the schematic diagram of the structure of the strip-shaped hole of the present invention.

Fig. 4 is another schematic structural diagram of the strip-shaped hole of the present invention.

Fig. 5 is a schematic structural view of a driving portion of the saw blade assembly of the present invention.

Fig. 6 is a schematic sectional view of the driving portion of the saw blade assembly of the present invention when not in operation.

Fig. 7 is a schematic sectional view of a driving portion of the saw blade assembly according to the present invention.

In the figure: the automatic feeding device comprises a working table board 1, a gantry 2, a feeding roller 3, a strip-shaped hole 4, a vertical sliding chute 5, a first sliding block 6, a saw blade shaft 7, a saw blade group 8, a slag collecting hopper 9, a driving motor 10, a driving motor shaft 11, a first transmission belt 12, a transverse sliding chute 13, a second sliding block 14, a tensioning shaft 15, a spring 16, a supporting plate 17, a threaded rod 18, a bearing 19, a lifting motor 20, a second transmission belt 21 and a lifting motor support 22.

Detailed Description

As shown in fig. 1-7, a multi-blade saw cutting device for producing a glass magnesium board comprises a working table top 1, wherein a gantry 2 is arranged in the middle of the top surface of the working table top 1, a plurality of saw blade groups 8 are arranged in the gantry 2, and feed rollers 3 are arranged on the working table tops 1 at two ends of the gantry 2;

a plurality of groups of vertical sliding grooves 5 are symmetrically arranged on two side walls of the portal 2, first sliding blocks 6 capable of moving along the vertical direction are arranged in the vertical sliding grooves 5, a single saw blade group 8 is arranged on a saw blade shaft 7, and two ends of the saw blade shaft 7 are arranged on the two first sliding blocks 6 of the same group of vertical sliding grooves 5;

each group of vertical sliding grooves 5 corresponds to a saw blade group 8, and the number of saw blades on each saw blade group 8 is different.

In the preferred scheme, the operation table board 1 below the portal 2 is provided with a plurality of strip-shaped holes 4, the number of the strip-shaped holes 4 is the same as that of the saw blade group 8 with the largest number in the plurality of saw blade groups 8, and the strip-shaped holes and the saw blades are arranged on the same vertical surface in a one-to-one correspondence manner.

In the preferred scheme, a slag collecting hopper 9 is arranged at the bottom of the operation table surface 1 in the area where the strip-shaped hole 4 is located.

In a preferable scheme, a supporting plate 17 is arranged on the outer side of one side wall of the door frame 2, a plurality of driving motors 10 with the same number as that of the groups of the saw blade groups 8 are arranged on the supporting plate 17, one end of the saw blade shaft 7 close to the driving motors 10 is arranged through the first sliding block 6, and the part of the saw blade shaft 7 penetrating through the first sliding block 6 is in transmission connection with a driving motor shaft 11 of the driving motors 10 through a first transmission belt 12.

In the preferred scheme, the outer wall of the side wall of the gantry 2 close to the driving motor 10 is further provided with a transverse sliding groove 13 corresponding to the strip-shaped holes 4 one to one, a second sliding block 14 is arranged in the transverse sliding groove 13, a tensioning shaft 15 is arranged on the second sliding block 14, the first transmission belt 12 is arranged by winding the tensioning shaft 15, and a spring 16 is arranged between the second sliding block 14 and the end wall of one end of the transverse sliding groove 13.

In a preferable scheme, a supporting plate 17 is also arranged on the outer side of the other side wall of the gantry 2, a plurality of threaded rods 18 with the same number as that of the groups of saw blade groups 8 are arranged on the supporting plate 17, the first sliding blocks 6 on the side wall of the gantry 2 extend out of the side wall of the gantry 2, the threaded rods 18 are vertical and penetrate through the first sliding blocks 6 positioned outside the side wall of the gantry 2, and the threaded rods 18 are in threaded connection with the first sliding blocks 6;

the upper end of the threaded rod 18 extends to a position higher than the height of the top surface of the gantry 2, a plurality of lifting motors 20 with the same number as the threaded rod 18 are arranged on the top surface of the gantry 2, and a rotating shaft of each lifting motor 20 is connected with a part, located higher than the height of the top surface of the gantry 2, of the threaded rod 18 through a second transmission belt 21.

In the preferred scheme, a lifting motor support 22 is arranged at the top of the gantry 2, the lifting motor 20 is arranged on the lifting motor support 22, and a rotating shaft of the lifting motor 20 vertically and downwardly penetrates through the lifting motor support 22.

In the preferred scheme, the strip-shaped holes 4 are of a strip-shaped hole structure with a rectangular cross section, or of a strip-shaped hole structure with a triangular cross section, and when the strip-shaped holes are of a triangular cross section, powder generated by cutting can fall down better and cannot be accumulated on the operation table top.

The principle of the device is as follows:

the glass magnesium board to be cut after demoulding is placed at one end of the operation table board 1, the glass magnesium board moves towards the door frame 2 under the action of the feed roller 3, the saw blade group 8 with the proper number of saw blades is selected, the saw blade group 8 is driven to lift by controlling the corresponding lifting motor 20, the cutting of the glass magnesium board is realized, and the cut finished glass magnesium board is output from the other end of the operation table board 1.

Claims

1. A multi-blade saw cutting device for producing a glass magnesium board comprises a working table top (1), and is characterized in that: a gantry (2) is arranged in the middle of the top surface of the operation table top (1), a plurality of saw blade groups (8) are arranged in the gantry (2), and feeding rollers (3) are arranged on the operation table top (1) at two ends of the gantry (2);

a plurality of groups of vertical sliding grooves (5) are symmetrically arranged on two side walls of the portal frame (2), first sliding blocks (6) capable of moving along the vertical direction are arranged in the vertical sliding grooves (5), a single saw blade group (8) is arranged on a saw blade shaft (7), and two ends of the saw blade shaft (7) are arranged on the two first sliding blocks (6) of the same group of vertical sliding grooves (5);

every group vertical chute (5) corresponds a song saw blade group (8), and the saw bit quantity on every saw blade group (8) is inequality.

2. The multi-blade saw cutting device for producing the magnesium oxide board as claimed in claim 1, wherein: the operation mesa (1) of portal (2) below on be equipped with a plurality of bar holes (4), bar hole (4) quantity is the same with the saw bit quantity of the most saw bit group (8) in a plurality of saw bit group (8), and sets up on same vertical face with a plurality of saw bit one-to-one.

3. The multi-blade saw cutting device for producing the magnesium oxide board is characterized in that: the bottom of the operation table surface (1) of the area where the strip-shaped hole (4) is located is provided with a slag collecting hopper (9).

4. The multi-blade saw cutting device for producing the magnesium oxide board as claimed in claim 1, wherein: the outer side of one side wall of the door frame (2) is provided with a supporting plate (17), the supporting plate (17) is provided with a plurality of driving motors (10) with the number being the same as that of the saw blade groups (8), one ends of the saw blade shafts (7) close to the driving motors (10) penetrate through the first sliding block (6), and the parts of the saw blade shafts (7) penetrating through the first sliding block (6) are in transmission connection with driving motor shafts (11) of the driving motors (10) through a first transmission belt (12).

5. The multi-blade saw cutting device for producing the magnesium oxide board is characterized in that: portal (2) still be equipped with horizontal spout (13) with bar hole (4) one-to-one on the outer wall of the one side lateral wall that is close to driving motor (10), be equipped with second slider (14) in horizontal spout (13), be equipped with tensioning axle (15) on second slider (14), tensioning axle (15) setting is walked around in first drive belt (12), is equipped with spring (16) between second slider (14) and horizontal spout (13) one end wall.

6. The multi-blade saw cutting device for producing the magnesium oxide board is characterized in that: the outer side of the other side wall of the gantry (2) is also provided with a supporting plate (17), the supporting plate (17) is provided with a plurality of threaded rods (18) with the number identical to that of the groups of the saw blade groups (8), the first sliding block (6) on the side wall of the side extends out of the side wall of the gantry (2), the threaded rods (18) are vertical and penetrate through the first sliding block (6) positioned out of the side wall of the gantry (2), and the threaded rods (18) are in threaded connection with the first sliding block (6);

the upper end of the threaded rod (18) extends to a position above the height of the top surface of the portal frame (2), a plurality of lifting motors (20) with the same number as the threaded rods (18) are arranged on the top surface of the portal frame (2), and rotating shafts of the lifting motors (20) are connected with the part, located above the height of the top surface of the portal frame (2), of the threaded rod (18) through second transmission belts (21).

7. The multi-blade saw cutting device for producing the magnesium oxide board is characterized in that: the top of the gantry (2) is provided with a lifting motor support (22), the lifting motor (20) is arranged on the lifting motor support (22), and a rotating shaft of the lifting motor (20) vertically penetrates through the lifting motor support (22) downwards.