CN109159180B

CN109159180B - Surface cutting layering device of belt for transmission equipment

Info

Publication number: CN109159180B
Application number: CN201811245737.4A
Authority: CN
Inventors: 吴钦国; 李雪涛; 顾晓庆; 李发宏; 孙波; 林雅琴; 李山峰; 李绪东
Original assignee: Shandong Iron and Steel Co Ltd
Current assignee: Shandong Iron and Steel Co Ltd
Priority date: 2018-10-24
Filing date: 2018-10-24
Publication date: 2023-10-03
Anticipated expiration: 2038-10-24
Also published as: CN109159180A

Abstract

The application provides a surface cutting layering device of a belt for transmission equipment, which comprises: the frame is used for providing support, the top of the frame is provided with a transverse guide rail and a longitudinal guide rail along the longitudinal direction of the belt for the transmission equipment, and the bottom of the frame is accommodated with the belt for the transmission equipment; the transverse cutter mechanism moves along the transverse guide rail to cut the transverse surface of the belt with preset cutting depth; and the longitudinal cutter mechanism moves along the longitudinal guide rail to cut the longitudinal surface of the belt by a preset cutting depth. According to the technical scheme, the cementing part of the belt can be mechanically cut transversely and longitudinally at one time, so that the cutting quality is high, and the working efficiency is high. The cutting device is simple and quick to assemble and disassemble, and is convenient for carrying out structural adjustment on equipment according to actual needs.

Description

Surface cutting layering device of belt for transmission equipment

Technical Field

The application relates to the technical field of belt processing for industrial transmission, in particular to a belt cutting device for cutting and layering the surface of a belt in the cementing process of the belt for transmission equipment.

Background

At present, a large amount of belts are adopted as transportation means in large-scale industrial production or material transportation, particularly raw material transportation and semi-finished product transportation in metallurgical production, belt equipment is required to run continuously for 24 hours and simultaneously a certain temperature change is required to be endured, so that the quality of the belts, particularly the cementing quality of cementing parts, directly influences the operation rate of the equipment.

According to actual operation needs, cementing the multistage belt to prolong the conveying distance of the belt, usually, manually cutting the cementing part of the belt, cutting the surface layer of the belt downwards from the cementing part according to a certain depth and a certain width during cutting, then lifting the cut part by a tool, cutting the whole cementing part into a plurality of strips, and then coating glue for bonding.

However, in actual operation, the bonding quality of the bonding part is unstable due to large manual operation error, so that the service life of the belt is influenced.

Disclosure of Invention

The application provides a cutting device for a belt for conveying equipment, which is used for cutting a belt cementing part in the process of belt cementing so as to realize mechanized cutting in the process of belt cementing.

The technical scheme of the application is as follows: a surface cutting delamination apparatus for a belt for a conveyor, comprising: a frame providing support, wherein the top of the frame is provided with a transverse guide rail and a longitudinal guide rail along the longitudinal direction of the belt for the transmission equipment, and the bottom of the frame accommodates the belt for the transmission equipment; the transverse cutter mechanism moves along the transverse guide rail to cut the transverse surface of the belt with preset cutting depth; and the longitudinal cutter mechanism moves along the longitudinal guide rail to cut the longitudinal surface of the belt by a preset cutting depth.

In the surface cutting delamination apparatus as described above, preferably, the frame includes a base and connection plates vertically connected to both ends of the base, respectively; the transverse guide rail and the longitudinal guide rail are respectively arranged at the top of the connecting plate, the transverse guide rail is arranged along the length direction of the base, and the longitudinal guide rail is arranged along the width direction of the base.

In the surface cutting delamination apparatus as described above, preferably, the lateral rail is located at one side of the longitudinal rail, and the lateral rail is disposed along one side of the frame.

In the surface cutting delamination apparatus as described above, preferably, the lateral cutter mechanism comprises: the device comprises a transverse cutter, a transverse pushing handle and a cutter box used for fixing the transverse cutter, wherein the transverse pushing handle and the cutter box are arranged up and down and are connected up and down through a first adjusting part, and the first adjusting part is used for adjusting the distance between the cutter box and the bottom of the frame so as to further adjust the cutting depth of the transverse cutter on the surface of a belt.

In the surface cutting layering device as described above, preferably, the cutter box has a rectangular structure, a groove is provided at the bottom of the cutter box along the length direction of the cutter box, screw through holes are provided at both ends of the groove, screw rods are provided in the groove, the screw rods are fixed in the groove through the screw through holes, the mounting end of the transverse cutter is provided on the screw rods, and the transverse cutter moves along the length direction of the screw rods along with the rotation of the screw rods.

In the surface cutting delamination apparatus as described above, preferably, the bottom of the cartridge is further provided with a receiving opening for receiving the lateral cutter, the receiving opening being spaced from the recess.

In the surface cutting delamination apparatus as described above, it is preferable that the surface cutting delamination apparatus further includes a guide member including a guide cylinder provided on the cartridge and a guide rod fixed on the lateral push handle, which are disposed in up-down alignment, a lower end of the guide rod being inserted into the guide cylinder to define a moving direction of the cartridge.

In the surface cutting delamination apparatus as described above, preferably, the longitudinal cutter mechanism includes: the device comprises a longitudinal cutter, a longitudinal pushing handle, a cutter plate for mounting the longitudinal cutter and a connecting rod; the longitudinal pushing handle and the knife board are arranged up and down, and the connecting rod is arranged between the longitudinal pushing handle and the knife board in a vertically moving way; the longitudinal pushing handle is connected with the cutter plate up and down through a second adjusting component, and the second adjusting component is used for adjusting the distance between the cutter plate and the longitudinal pushing handle, so that the cutting depth of the longitudinal cutter on the surface of the belt is adjusted.

In the surface cutting layering device as described above, preferably, the longitudinal cutters include a plurality of long mounting through holes for mounting the longitudinal cutters are correspondingly and uniformly arranged on the cutter plate at intervals, a moving rod consistent with the length direction of the long mounting through holes is arranged in the long mounting through holes, and the longitudinal cutters are slidingly arranged on the moving rod; the longitudinal pushing handle is provided with a supporting plate parallel to the knife board, and the supporting plate is correspondingly provided with a plurality of long through holes for the upper ends of the connecting rods to pass through.

In the surface cutting delamination apparatus as described above, preferably, the blade is composed of a plurality of blade units connected end to end in sequence, and adjacent two blade units are connected by a connecting groove provided in one blade unit and a connecting flange provided in the other blade unit.

The technical scheme provided by the application has the technical effects that:

1) Can carry out horizontal and vertical mechanized cutting with the glued position of belt once only, the cutting quality is high, work efficiency is high.

2) The cutting device is simple and quick to assemble and disassemble, and is convenient for carrying out structural adjustment on equipment according to actual needs.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application. Wherein:

fig. 1 is a schematic perspective view of a surface cutting layering device for a belt for a transmission device according to an embodiment of the present application;

fig. 2 is a schematic perspective view of a longitudinal cutter mechanism according to an embodiment of the present application;

fig. 3 is a schematic perspective view of a knife board according to an embodiment of the present application;

fig. 4 is a schematic perspective view of a transverse cutter mechanism according to an embodiment of the present application; the method comprises the steps of carrying out a first treatment on the surface of the

Fig. 5 is a schematic perspective view of a knife box and a guide cylinder according to an embodiment of the present application;

fig. 6 is a schematic perspective view of a transverse pushing handle and a guide rod according to an embodiment of the present application.

Reference numerals:

1 frame, 11 base, 12 connecting plate, 13 roof, 2 longitudinal guide, 3 transverse guide, 4 transverse cutter mechanism, 41 guide cylinder, 42 knife box, 43 transverse cutter, 44 placement opening, 45 spiral screw, 46 guide bar, 47 transverse pushing handle, 48 first adjusting component, 481 rotating handle, 49 groove, 5 longitudinal cutter mechanism, 51 longitudinal cutter, 52 longitudinal cutter, 53 knife board, 531 connecting flange, 532 connecting groove, 533 moving bar, 534 long mounting through hole, 535 fixing through hole, 54 connecting rod, 55 longitudinal pushing handle, 56 supporting plate, 561 long through hole, 57 sliding block, 58 second adjusting component.

Detailed Description

The application will be described in detail below with reference to the drawings in connection with embodiments. The examples are provided by way of explanation of the application and not limitation of the application. Indeed, it will be apparent to those skilled in the art that modifications and variations can be made in the present application without departing from the scope or spirit of the application. For example, features illustrated or described as part of one embodiment can be used on another embodiment to yield still a further embodiment. Accordingly, it is intended that the present application encompass such modifications and variations as fall within the scope of the appended claims and their equivalents.

The embodiment of the application provides a surface cutting layering device for a belt for transmission equipment, which is shown in figures 1-6 and comprises: a frame 1, a transverse cutter mechanism 4 and a longitudinal cutter mechanism 5. The frame 1 is used for providing support, a transverse guide 3 and a longitudinal guide 2 are arranged at the top of the frame 1 along the longitudinal direction of the belt for the transmission device, and the belt for the transmission device is accommodated at the bottom of the frame 1. The transverse cutter mechanism 4 is used for moving along the transverse guide rail 3 to cut the transverse surface of the belt by a preset cutting depth. The longitudinal cutter mechanism 5 is used for cutting the longitudinal surface of the belt along the longitudinal guide rail 2 to a preset cutting depth.

According to the surface cutting layering device provided by the application, the surface of the belt cementing part is transversely and longitudinally cut according to the preset depth by using the transverse cutter mechanism 4 and the longitudinal cutter mechanism 5, so that the mechanized operation of cutting the belt cementing part in the belt cementing process is realized, the cutting quality and efficiency are ensured, and the service life of the belt is prolonged.

In one embodiment of the application, the frame comprises a base 11 and a connection plate 12. The two ends of the base 11 are vertically connected with the connecting plates 12, so that a frame with a rectangular cross section can be formed, in fig. 1, the left end of the base 11 is vertically connected with the connecting plates 12, and the right end of the base 11 is vertically connected with the connecting plates 12. The transverse guide rail 3 and the longitudinal guide rail 2 are respectively arranged on the top of the connecting plate 12, the extending direction of the guide rail of the transverse guide rail 3 is consistent with the length direction of the frame 1, and the extending direction of the guide rail of the longitudinal guide rail 2 is consistent with the width direction of the frame 1. The height of the transverse rail 2 and the longitudinal rail 3 may be the same, which facilitates the installation.

At this time, the belt to be cut is located on the base 11, the transverse cutter mechanism 4 and the longitudinal cutter mechanism 5 fixed on the connecting plate 12 are located above the belt, the structure of the frame 1 is not only favorable for positioning the belt in the cutting process, but also directly fixes the cutting direction, and the transverse direction and the longitudinal direction of the cutter cutting can be fixed by combining the two, so that the cutting quality and efficiency are ensured. In order to improve the stability of the frame, a top plate 13 is arranged above the base 11 and is bridged on the two connecting plates 12, a working window is formed in the top plate 13, and the transverse cutter mechanism 4 and the longitudinal cutter mechanism 5 are arranged on the top plate 13 and are positioned at the working window.

In one embodiment of the application, the transverse rail 3 is located on one side of the longitudinal rail 2, the transverse rail 3 bridging the tops of the two connection plates 12.

Because the belt to be glued is firstly cut, the belt is required to be layered after being cut transversely and longitudinally respectively and then is bonded, the inner space of the frame 1 is fully utilized, the width of the belt cut is the moving distance of the transverse cutter mechanism 4, the length of the belt cut is the moving distance of the longitudinal cutter mechanism 5, the utilization rate of the cutting device is further improved, and meanwhile smooth conversion between transverse cutting and longitudinal cutting in the cutting process is facilitated. That is, according to the surface cutting delamination apparatus, after the completion of the longitudinal cutting, the longitudinal cutter mechanism 5 is adjusted to move upward so that the longitudinal cutter thereof is separated from the surface of the belt, and then the transverse cutting is performed immediately thereafter, thereby improving the cutting efficiency, and the conversion can be completed without spending unnecessary time and process steps between the longitudinal cutting and the transverse cutting.

In one embodiment of the present application, the lateral cutter mechanism 4 comprises: a transverse cutter 43, a transverse push handle 47 and a cutter box 42 for fixing the transverse cutter 43. The transverse pushing handle 47 is annular, such as rectangular or square, so that the pushing force can be firmly transmitted, the transverse pushing handle and the cutter box 42 are vertically arranged, the cutter box 42 and the cutter box are vertically connected through the first adjusting part 48, the first adjusting part 48 is used for adjusting the distance between the cutter box 42 and the transverse pushing handle 47, and then the distance between the cutter box 42 and the bottom of the frame 1 is adjusted, and therefore the cutting depth of the transverse cutter on the surface of the belt is adjusted, and the preset cutting depth is achieved. For simplicity and ease of operation, the first adjustment member 48 includes: the rotary handle 481 and the adjusting screw rod, one end of the adjusting screw rod penetrates through the bottom of the transverse pushing handle 47 and extends into the space enclosed by the transverse pushing handle 47, a transverse through hole is arranged at one end of the adjusting screw rod, the middle part of the rotary handle 481 is positioned in the through hole, the adjusting screw rod is rotatably arranged at the bottom of the transverse pushing handle 48, and the lower end of the adjusting screw rod is rotatably connected with the cutter box 2. The lateral push handle 47 is movably arranged on the lateral guide rail 3.

In one embodiment of the present application, the cutter box 42 has a rectangular structure, a groove 49 is formed at the bottom of the cutter box along the length direction of the cutter box, screw holes are formed at two ends of the groove 49, screw rods 45 are formed in the groove, the screw rods 45 are fixed in the groove 49 through the screw holes, the mounting ends of the transverse cutters 43 are arranged on the screw rods 45, and the transverse cutters 43 move in the groove 49 along the length direction of the screw rods 45 along with the rotation of the screw rods 45.

The mounting end of the transverse cutter 43 can be provided with an internal thread through hole, and is directly sleeved on the screw 45, and the transverse cutter 43 moves linearly on the screw 45 in the process of rotating the screw 45, so that the distance between the transverse cutter 43 and one end of the cutter box 42 is changed, and the transverse cutter 43 can be called a movable transverse cutter. When a plurality of lateral cutters 43 are provided at intervals on the screw 45, the interval between adjacent two lateral cutters 43 can be changed by the rotation of the screw 45.

Because the belt to be glued needs a plurality of cuts when being cut, the cutting intervals are set according to specific needs, a plurality of transverse cutters 43 need to be arranged, and meanwhile, the intervals among the transverse cutters 43 can be adjusted and set according to specific needs. In order to facilitate adjustment of the distance between the two transverse cutters 43, a receiving opening 44 is provided at one end of the cutter case 2, a space is provided between the receiving opening 44 and the recess 49, the transverse cutters 43 are mounted in the receiving opening 44, and the transverse cutters 43 provided in the receiving opening 44 are not movable with respect to the transverse cutters 43 on the bolt screw 45, and thus may be called fixed transverse cutters.

In one embodiment of the present application, the present application further comprises a guide member, which includes a guide cylinder 41 provided on the cartridge 42 and a guide rod 46 provided on the lateral push handle 47, both of which are aligned up and down, the lower end of the guide rod 46 is inserted into the guide cylinder 41 to define the up and down movement direction of the cartridge 42, so that the depth of the lateral cutter 43 and the belt surface on the cartridge 42 can be precisely adjusted.

Since the lateral cutter mechanism 4 has a narrow width, the lateral push handle 47 and the lower blade cartridge 42 are connected substantially only by the first adjusting member 48, but the first adjusting member 48 needs to be rotated when adjusting, and the rotation causes the blade cartridge 42 and the lateral push handle 47 to be not always kept in a vertically horizontally aligned state, and therefore, a guide member is provided therebetween, by which the positional relationship between the lateral push handle 47 and the blade cartridge 42 can be fixed.

In one embodiment of the present application, the longitudinal cutter mechanism 5 comprises: longitudinal cutters 51/52, a longitudinal push handle 55, a blade plate 53 for mounting the longitudinal cutters, and a connecting rod 54. The longitudinal pushing handle 55 and the knife board 53 are arranged up and down, the connecting rod 54 is arranged between the longitudinal pushing handle 55 and the knife board 53 in a vertically moving way, the upper end of the connecting rod 54 is connected with the longitudinal pushing handle 55, and the lower end of the connecting rod is connected with the upper end of a longitudinal cutter fixed on the knife board 53; the second adjusting component 58 is located between the longitudinal pushing handle 55 and the blade plate 53, and is used for adjusting the distance between the blade plate 53 and the longitudinal pushing handle 55, so as to adjust the cutting depth of the longitudinal cutter on the surface of the belt. The structure of the second adjusting member 58 may be different from or identical to the structure of the first adjusting member 48, and when identical, the structure will not be described in detail herein. The lower end of the rotary handle is rotatably connected with the blade, and the upper end thereof penetrates the support plate 56 and is spirally connected with the support plate 56, and the distance between the longitudinal pushing handle 55 and the blade 53 is rotatably adjusted. The longitudinal pushing handle 55 is movably provided on the longitudinal rail 2.

In one embodiment of the application, the longitudinal cutters comprise a plurality of long mounting through holes 534 for mounting the longitudinal cutters are correspondingly and uniformly arranged on the cutter plates at intervals, a movable rod 532 consistent with the length direction of the long mounting through holes 534 is arranged in the long mounting through holes 534, and the longitudinal cutters are arranged on the movable rod 532 in a sliding manner; the longitudinal pushing handle 55 is provided with a supporting plate 56 parallel to the knife plate 53, the supporting plate 56 is correspondingly provided with a plurality of long through holes 561 for passing through the upper ends of the connecting rods 54, and the positions of the long through holes 561 are opposite to the positions of the long mounting through holes 534, so that the longitudinal cutters can slide along the moving rods 533, and the positions of the longitudinal cutters relative to the belt are convenient to adjust, and the longitudinal cutters are called movable longitudinal cutters, such as the longitudinal cutters shown by a symbol 51 in fig. 2. The longitudinal cutter mechanism 5 can also be arranged movably on the longitudinal rail 2 by means of a support plate 56. In order to make the longitudinal movement of the connection rod 54 more accurate and convenient, a slider 57 is slidably provided in the long through hole 561, the slider 57 including: a base plate covering the long through holes 561 and a protrusion formed to extend downward from the bottom surface of the base plate, the protrusion being located in the long through holes 561, the upper end of the connection rod 54 being movably passed through the protrusion and the base plate.

In order to facilitate the adjustment of the interval between the plurality of longitudinal cutters, a fixing through hole 535 is provided between adjacent two long mounting through holes 534 on the cutter plate 53 for mounting the longitudinal cutters, and the position of the longitudinal cutters is not adjustable, thus called fixed longitudinal cutters, such as the longitudinal cutters shown by reference numeral 52 in fig. 2.

In one embodiment of the present application, for convenience of installation, disassembly and maintenance, the blade 53 is composed of a plurality of blade units connected end to end in sequence, and two adjacent blade units are connected by a connection groove 532 provided in one blade unit and a connection flange 531 provided in the other blade unit.

In summary, the technical effects brought by the technical scheme provided by the application are as follows:

The above is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and variations of the present application will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims

1. A surface cutting delamination apparatus for a belt for a conveyor, comprising:

a frame providing support, wherein the top of the frame is provided with a transverse guide rail and a longitudinal guide rail along the longitudinal direction of the belt for the transmission equipment, and the bottom of the frame accommodates the belt for the transmission equipment;

the transverse cutter mechanism moves along the transverse guide rail to cut the transverse surface of the belt with preset cutting depth; and

a longitudinal cutter mechanism which moves along the longitudinal guide rail to cut the longitudinal surface of the belt with preset cutting depth;

the transverse cutter mechanism comprises: the device comprises a transverse cutter, a transverse pushing handle and a cutter box for fixing the transverse cutter, wherein the transverse pushing handle and the cutter box are arranged up and down and are connected up and down through a first adjusting part, and the first adjusting part is used for adjusting the distance between the cutter box and the bottom of the frame so as to adjust the cutting depth of the transverse cutter on the surface of a belt;

the cutter box is of a rectangular structure, a groove is formed in the bottom of the cutter box along the length direction of the cutter box, spiral through holes are formed in two ends of the groove, a spiral screw rod is arranged in the groove, the spiral screw rod is fixed in the groove through the spiral through holes, the mounting end of the transverse cutter is arranged on the spiral screw rod, and the transverse cutter moves along the length direction of the spiral screw rod along with the rotation of the spiral screw rod;

the longitudinal cutter mechanism comprises: the device comprises a longitudinal cutter, a longitudinal pushing handle, a cutter plate for mounting the longitudinal cutter and a connecting rod;

the longitudinal pushing handle and the knife board are arranged up and down, and the connecting rod is arranged between the longitudinal pushing handle and the knife board in a vertically moving way;

the longitudinal pushing handle is connected with the cutter plate up and down through a second adjusting component, and the second adjusting component is used for adjusting the distance between the cutter plate and the longitudinal pushing handle so as to adjust the cutting depth of the longitudinal cutter on the surface of the belt;

the longitudinal cutters comprise a plurality of long mounting through holes for mounting the longitudinal cutters are correspondingly and uniformly arranged on the cutter plates at intervals, moving rods consistent with the length direction of the long mounting through holes are arranged in the long mounting through holes, and the longitudinal cutters are arranged on the moving rods in a sliding mode;

the longitudinal pushing handle is provided with a supporting plate parallel to the knife board, and the supporting plate is correspondingly provided with a plurality of long through holes for the upper ends of the connecting rods to pass through.

2. The surface cutting delamination apparatus according to claim 1, wherein,

the frame comprises a base and a connecting plate, and the two ends of the base are respectively and vertically connected with the connecting plate;

the transverse guide rail and the longitudinal guide rail are respectively arranged at the top of the connecting plate, the transverse guide rail is arranged along the length direction of the base, and the longitudinal guide rail is arranged along the width direction of the base.

3. The surface cutting delamination apparatus according to claim 2, wherein,

the transverse guide rail is positioned at one side of the longitudinal guide rail and is bridged on the connecting plate connected with the base.

4. The surface cutting delamination apparatus of claim 1 wherein the bottom of the cartridge is further provided with a receiving opening for receiving the transverse cutter, the receiving opening being spaced from the recess.

5. The surface cutting delamination apparatus according to claim 1, wherein,

the cutter box comprises a cutter box body, a transverse pushing handle and a guide part, wherein the cutter box body is provided with a cutter box body, the cutter box body is provided with a transverse pushing handle, the cutter box body is provided with a cutter box body, the cutter box body is provided with a cutter box, the cutter box body is provided with a transverse pushing handle, the cutter box body is provided with a cutter box, the cutter box body is provided with a guide cylinder, the cutter box is provided with a guide rod, the cutter box is provided with a transverse pushing handle, the cutter box is provided with a guide rod, the lower end of the guide rod is inserted into the guide cylinder, and the movement direction of the cutter box is limited.

6. The surface cutting delamination apparatus according to claim 1, wherein the blade is composed of a plurality of blade units connected end to end in sequence, and adjacent two blade units are connected by a connecting groove provided in one blade unit and a connecting flange provided in the other blade unit.