CN209851035U

CN209851035U - Cutting device is used in wall materials production

Info

Publication number: CN209851035U
Application number: CN201920674757.7U
Authority: CN
Inventors: 蔡茂华
Original assignee: Shenzhen Hongsheng Light Wall Material Co Ltd
Current assignee: Shenzhen Hongsheng Light Wall Material Co Ltd
Priority date: 2019-05-10
Filing date: 2019-05-10
Publication date: 2019-12-27
Anticipated expiration: 2029-05-10

Abstract

The utility model relates to a cutting device for producing wall materials, which relates to the technical field of wall material production, and comprises a transverse cutting mechanism in turn, wherein the transverse cutting mechanism comprises a transverse cutting frame, and transverse shredding threads for transversely cutting wall material blanks are arranged on the transverse cutting frame; the longitudinal cutting mechanism comprises a longitudinal cutting frame, and longitudinal cutting threads for longitudinally cutting the wall body material blank are arranged on the longitudinal cutting frame; and the supplement cutting mechanism comprises a supplement cutting frame, and supplement cutting threads for horizontally supplementing and cutting the wall body material blank are arranged on the supplement cutting frame. According to the designed cutting device, the wall body material blank is missed to be cut due to broken wires in the transverse cutting mechanism, and the blank can be subjected to transverse complementary cutting through the subsequent complementary cutting mechanism, so that the wall body material with the required shape and specification can be obtained.

Description

Cutting device is used in wall materials production

Technical Field

The utility model belongs to the technical field of the wall material production technique and specifically relates to indicate wall material production to use cutting device.

Background

In the existing production process of wall materials, a large-size wall material blank is generally integrally formed, and then the formed wall material blank is cut according to actual needs. However, in the existing cutting devices, the transverse cutting is usually a transverse cutting wire, and the die car drives the blank to advance on the track and is cut by the fixed transverse cutting wire. However, in actual cutting, one corresponding cross-cutting wire is usually easily broken, so that some parts of the wall material blank are not cut and connected together, and the wall material with the expected shape and specification cannot be obtained.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the wall material blank body part which is missed to be cut due to the cutting off of the transverse cutting threads is subjected to supplementary cutting to obtain the wall material with the required shape and specification.

Therefore, the utility model discloses a cutting device is used in wall materials production, this cutting device includes in proper order

The transverse cutting mechanism comprises a transverse cutting frame, and transverse cutting threads for transversely cutting the wall body material blank are arranged on the transverse cutting frame;

the longitudinal cutting mechanism comprises a longitudinal cutting frame, and longitudinal cutting threads for longitudinally cutting the wall body material blank are arranged on the longitudinal cutting frame; and

and the supplement cutting mechanism comprises a supplement cutting frame, and supplement cutting threads for horizontally supplementing and cutting the wall body material blank are arranged on the supplement cutting frame.

In a further scheme, the transverse cutting frame is fixedly arranged, one end of the transverse cutting wire is fixed on the transverse cutting frame, the other end of the transverse cutting wire is connected with a shaft of a cylinder, and the cylinder is fixedly arranged and can adjust the tightness of the transverse cutting wire by controlling the expansion and contraction of the shaft of the cylinder;

the number of the transverse cutting wires is at least two, each transverse cutting wire is located on different horizontal planes, and the planes where the transverse cutting wires are located descend in a stepped mode along the direction from the transverse cutting mechanism to the complementary cutting mechanism.

In a further scheme, one end of the longitudinal cutting wire is fixedly connected with the longitudinal cutting frame, the other end of the longitudinal cutting wire is connected with a shaft of an air cylinder, and the air cylinder is fixedly arranged and can adjust the tightness of the longitudinal cutting wire by controlling the expansion and contraction of the air cylinder shaft;

the number of the longitudinal cutting wires is at least two, the longitudinal cutting wires are arranged on the same horizontal plane in parallel and are uniformly distributed along the horizontal direction, and the longitudinal cutting wires can longitudinally cut along with the longitudinal reciprocating movement of the longitudinal cutting frame.

In a further scheme, the longitudinal cutting frame is connected with a driving mechanism, and the driving mechanism drives the longitudinal cutting frame to reciprocate along the longitudinal direction.

In a further scheme, the supplementing and cutting frame comprises a first cylinder and a second cylinder, the first cylinder and the second cylinder are parallel to each other and are respectively and longitudinally arranged, one end of the supplementing and cutting wire is connected to the first cylinder, the other end of the supplementing and cutting wire is connected to the second cylinder, and the supplementing and cutting wire is perpendicular to the first cylinder/the second cylinder.

In a further scheme, be equipped with first mounting bracket on the first cylinder, be equipped with the cylinder on the first mounting bracket, cylinder hub connection in mend the elasticity that shreds one end and accessible control cylinder axle adjusted the benefit and shreds.

In a further scheme, a second mounting frame is arranged on the second column body, a screw is connected to the second mounting frame in a threaded mode, and the other end of the supplementing wire is connected to the screw in a winding mode.

In a further scheme, wire clamping grooves are distributed on the surface of the first cylinder and/or the second cylinder from the bottom end to the top end of the first cylinder and/or the second cylinder, and each wire clamping groove extends along the circumferential direction of the first cylinder and/or the second cylinder respectively.

In a further aspect, the first cylinder and/or the second cylinder surface is provided with a scale to determine the location at which the make-up wire is disposed.

In a further scheme, the first column body and/or the second column body comprises an inner core rod and an outer layer sleeve which are longitudinally arranged, the outer layer sleeve is integrally sleeved on the inner core rod, an external thread is arranged on the surface of the inner core rod, which is close to the bottom end part, and the external thread is in threaded connection with an adjusting ring for longitudinally adjusting the position of the outer layer sleeve.

The utility model discloses cutting device is used in wall body material production in the scheme is including crosscut mechanism, slitting mechanism and benefit cutting mechanism in proper order, and this kind of cutting device of design has the broken filament and leaks to cut the wall body material body at crosscut mechanism and be, then the accessible is mended cutting mechanism and is carried out horizontal benefit to the body and cut to obtain the wall body material of required shape and specification.

Drawings

The following detailed description of the specific structure of the present invention with reference to the accompanying drawings

FIG. 1 is a schematic view of a cutting apparatus for producing wall materials;

FIG. 2 is a schematic view of a complementary cutting mechanism of a cutting device for producing wall materials;

fig. 3 is a production schematic diagram of the cutting device for producing the wall material.

The drawing comprises a 10-rail, a 20-transverse cutting mechanism, a 21-transverse cutting frame, a 22-transverse cutting wire, a 30-longitudinal cutting mechanism, a 31-longitudinal cutting frame, a 32-longitudinal cutting wire, a 40-complementary cutting mechanism, a 41-complementary cutting frame, a 411-first cylinder, a 4111-inner mandrel, a 4112-outer layer sleeve, a 4113-adjusting ring, a 412-scale, a 413-first mounting frame, a 414-clamping groove, a 415-second cylinder, a 416-second mounting frame, a 417-screw, a 42-complementary cutting wire, a 43-air cylinder, a 431-shaft, a 50-mold vehicle and a 60-blank body.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

With reference to fig. 1, 2 and 3, in an embodiment, a cutting device for wall material production is disclosed, which may be installed and used on a track 10 on a wall material production line, and along the direction of advance of a mold vehicle on the track 10, the cutting device includes a cutting device in turn

The transverse cutting mechanism 20, the transverse cutting mechanism 20 includes a transverse cutting frame 21, a transverse cutting wire 22 for transversely cutting the wall body material blank is arranged on the transverse cutting frame 21, namely the transverse cutting mechanism 20 utilizes the transverse cutting wire 22 arranged thereon to transversely cut the wall body material blank on the mold car on the production line track 10;

the longitudinal cutting mechanism 30, the longitudinal cutting mechanism 30 includes the longitudinal cutting frame 31, there is longitudinal shredding 32 used for cutting the wall body material body longitudinally on the longitudinal cutting frame 31, namely after the above-mentioned horizontal cutting, the wall body material body cut advances to the longitudinal cutting mechanism 30 along the orbit 10, then utilize the longitudinal shredding 32 on the longitudinal cutting mechanism 30 to carry on the longitudinal cutting to the wall body material body; and

the repair cutting mechanism 40, the repair cutting mechanism 40 includes a repair cutting frame 41, and the repair cutting frame 41 is provided with a repair cutting thread for horizontally and complementarily cutting the wall body material blank, so that the wall body material blank which is successively transversely and longitudinally cut can be transversely and complementarily cut through the repair cutting thread on the repair cutting mechanism 40 to make up for the missed cutting part of the transverse cutting.

In a specific embodiment, the transverse cutting frame 21 is fixedly arranged, one end of the transverse cutting wire 22 is fixed on the transverse cutting frame 21, the other end of the transverse cutting wire 22 is connected with a shaft of an air cylinder, and the air cylinder is fixedly arranged and can adjust the tightness of the transverse cutting wire 22 by controlling the expansion and contraction of the shaft of the air cylinder. The number of the transverse cutting wires 22 is at least two, each transverse cutting wire 22 is positioned on different horizontal planes, and the plane where the transverse cutting wires 22 are positioned descends in a step mode along the direction from the transverse cutting mechanism 20 to the complementary cutting mechanism 40. That is, the entire transverse cutting mechanism 20 is relatively fixed without actively cutting the wall body material blank on the rail, and the mold vehicle on the rail drives the wall body material blank to move forward along the rail, so that the wall body material blank is transversely cut by the transverse cutting wire 22 when passing through the transverse cutting mechanism 20. The connection and adjustment of the transverse cutting threads 22 are realized by directly connecting one end of the transverse cutting frame 21 and connecting the other end of the transverse cutting frame with the shaft of the air cylinder, so that the tightness of the transverse cutting threads 22 can be further adjusted by controlling the extension and retraction of the shaft of the air cylinder, and the device is simple and efficient.

In one embodiment, one end of the longitudinal cutting wire 32 is fixedly connected to the longitudinal cutting frame 31, the other end of the longitudinal cutting wire 32 is connected to a shaft of an air cylinder, and the air cylinder is fixedly arranged and can adjust the tightness of the longitudinal cutting wire 32 by controlling the extension and contraction of the air cylinder shaft. The number of the longitudinal cutting threads 32 is at least two, each longitudinal cutting thread 32 is arranged on the same horizontal plane in parallel and is uniformly arranged along the horizontal direction, and the longitudinal cutting threads 32 can longitudinally cut along with the longitudinal reciprocating movement of the longitudinal cutting frame 31. That is, after the transverse cutting is completed, the mold vehicle can further move forward along the rail with the wall body material blank, and at the longitudinal cutting mechanism 30, the mold vehicle can be kept still, and the longitudinal cutting wire 32 is driven by the longitudinal cutting frame 31 to move up and down to cut the wall body material blank. In order to enable the longitudinal cutting frame 31 to drive the longitudinal cutting wire 32 to move up and down, the longitudinal cutting frame 31 is naturally connected with a corresponding driving mechanism, and the driving mechanism is used for driving the longitudinal cutting frame 31 to move back and forth along the longitudinal direction. As for the specific driving mechanism, the prior art can be fully utilized to realize the specific driving mechanism, such as conventional motor driving, cylinder driving and the like, and the up-and-down reciprocating movement of a structure can be easily realized, so that the detailed description is omitted.

Referring to fig. 3, in an embodiment, the supplement-cutting frame 41 includes a first cylinder 411 and a second cylinder 415, the first cylinder 411 and the second cylinder 415 are parallel to each other and are respectively disposed longitudinally, one end of the supplement-cutting wire is connected to the first cylinder 411, the other end of the supplement-cutting wire is connected to the second cylinder 415, and the supplement-cutting wire is perpendicular to the first cylinder 411/the second cylinder 415. Because the supplement cutting wire is used for performing transverse supplement cutting on the wall body material blank, the supplement cutting wire is necessarily required to be horizontally cut. Meanwhile, the complementary cutting mechanism 40 can also be kept stationary as a whole like the transverse cutting mechanism 20, and the die car drives the wall body material blank to move through the complementary cutting mechanism 40, so that the complementary cutting of the wall body material blank is realized.

In a specific embodiment, a first mounting frame 413 is disposed on the first column 411, and an air cylinder is disposed on the first mounting frame 413, and is pivotally connected to one end of the filament supplementing wire, and the tightness of the filament supplementing wire can be adjusted by controlling the extension and retraction of the air cylinder. And a second mounting frame is arranged on the second column 415, a screw is connected to the second mounting frame through a thread, and the other end of the supplement wire is wound and connected to the screw. One end of the supplementing wire is tightly fixed by winding on the screw, and can be conveniently detached. Since the supplement cutting wires are arranged to supplement cutting of the missed cutting parts during transverse cutting, and the horizontal supplement cutting planes of the blanks are different at different times, the height and the position of the transverse cutting wires 22 need to be conveniently adjusted, and the supplement cutting wires are preferably arranged in a connection mode convenient to detach and remount no matter one end of the air cylinder or one end of the screw.

In a specific embodiment, from the bottom end to the top end of the first cylinder 411 and/or the second cylinder 415, wire clamping grooves 414 are distributed on the surface of the first cylinder 411 and/or the second cylinder 415, and each wire clamping groove 414 extends along the circumferential direction of the first cylinder and/or the second cylinder 415 respectively. Considering that when the die vehicle drives the green body to move forward to pass through the repair cutting mechanism 40, the green body is in contact with the repair cutting wire and forms a certain thrust, and under the thrust, the repair cutting wire possibly slides locally and is no longer positioned on a preset plane, so that the corresponding missed cutting part of the green body cannot be accurately repaired and cut. And the wire drawing groove can effectively prevent the sliding of the connecting parts at the two ends of the supplementing and cutting wire, so that the supplementing and cutting wire can accurately supplement and cut the missed cutting part.

Referring again to fig. 3, in one embodiment, a scale 412 is provided on the surface of the first cylinder 411 and/or the second cylinder 415 to determine the position where the supplement thread is disposed. The specific setting of the scale 412 may be that the complementary cutting mechanism 40 is adjusted, and then the scale of the scale 412 is set by measuring the height from a certain reference point on the complementary cutting mechanism 40 to the horizontal reference plane. In the production process, the height of the supplementing and cutting threads needs to be adjusted according to the missed cutting part, so that the corresponding supplementing and cutting threads correspond to the positions of the cut transverse cutting threads 22. The number of the supplementing and cutting threads is naturally not less than the number of the corresponding transverse cutting threads 22 which are cut off, and in most cases, one transverse cutting thread 22 is cut off, so that one supplementing and cutting thread needs to be correspondingly arranged at the supplementing and cutting position. Of course, the number of the supplement cutting threads is larger than that of the cut transverse cutting threads 22, and the supplement cutting threads are equivalent to that the supplement cutting threads can be used for carrying out secondary transverse cutting on the transversely cut blank body part. No new cutting seams are generated for the blank body.

Referring to fig. 3 again, in an embodiment, the first cylinder 411 and/or the second cylinder 415 include an inner core rod 4111 and an outer layer sleeve 4112 arranged longitudinally, the outer layer sleeve 4112 is integrally sleeved on the inner core rod 4111, an external thread is provided on a surface of the inner core rod 4111 near the bottom end, and the external thread is threadedly connected with an adjusting ring 4113 for longitudinally adjusting the position of the outer layer sleeve 4112. Thus, the position of the outer jacket 4112 itself can be adjusted longitudinally by rotating the adjustment ring 4113 to raise or lower the outer jacket.

It should be noted that the first … … and the second … … are only names for distinction and do not represent any difference in the degree of importance and the position of the two. Here, the upper, lower, left, right, front, and rear represent only relative positions thereof and do not represent absolute positions thereof. The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims

1. Cutting device is used in wall material production, its characterized in that: in turn comprises

2. The cutting device for producing the wall material according to claim 1, wherein the transverse cutting frame is fixedly arranged, one end of the transverse cutting wire is fixed on the transverse cutting frame, the other end of the transverse cutting wire is connected with a shaft of a cylinder, and the cylinder is fixedly arranged and can adjust the tightness of the transverse cutting wire by controlling the expansion and contraction of the shaft of the cylinder;

3. The cutting device for producing the wall material according to claim 1, wherein one end of the longitudinal cutting wire is fixedly connected with the longitudinal cutting frame, the other end of the longitudinal cutting wire is connected with a shaft of a cylinder, and the cylinder is fixedly arranged and can adjust the tightness of the longitudinal cutting wire by controlling the expansion and contraction of the shaft of the cylinder;

4. The cutting device for producing the wall material according to claim 3, wherein the longitudinal cutting frame is connected with a driving mechanism, and the driving mechanism drives the longitudinal cutting frame to reciprocate along the longitudinal direction.

5. The cutting device for producing the wall material according to any one of claims 1 to 4, wherein the cutting frame comprises a first cylinder and a second cylinder, the first cylinder and the second cylinder are parallel to each other and are respectively arranged longitudinally, one end of the cutting supplement wire is connected to the first cylinder, the other end of the cutting supplement wire is connected to the second cylinder, and the cutting supplement wire is perpendicular to the first cylinder/the second cylinder.

6. The cutting device for producing the wall material according to claim 5, wherein the first cylinder is provided with a first mounting frame, the first mounting frame is provided with a cylinder, and the cylinder is connected to one end of the filament supplementing wire through a shaft and can adjust the tightness of the filament supplementing wire by controlling the expansion and contraction of the cylinder shaft.

7. The cutting device for producing the wall material is characterized in that a second mounting frame is arranged on the second column body, a screw is connected to the second mounting frame in a threaded mode, and the other end of the supplement wire is wound and connected to the screw.

8. The cutting device for producing the wall material according to claim 7, wherein wire clamping grooves are distributed on the surface of the first cylinder and/or the second cylinder from the bottom end to the top end of the first cylinder and/or the second cylinder, and each wire clamping groove extends along the circumferential direction of the first cylinder and/or the second cylinder respectively.

9. The cutting device for producing wall materials according to any one of claims 6 to 8, wherein the surface of the first cylinder and/or the second cylinder is provided with a scale to determine the position where the supplement thread is disposed.

10. The cutting device for producing the wall material according to claim 9, wherein the first cylinder and/or the second cylinder comprises an inner core rod and an outer layer sleeve which are longitudinally arranged, the outer layer sleeve is integrally sleeved on the inner core rod, an external thread is arranged on the surface of the inner core rod close to the bottom end part, and the external thread is in threaded connection with an adjusting ring for longitudinally adjusting the position of the outer layer sleeve.