CN219523314U - Belt scraping device for layered cutting of conveying belt - Google Patents

Abstract

The utility model discloses a layered cutting and belt scraping device for a conveyor belt, which belongs to the technical field of conveyor belts, wherein the conveyor belt is of an M-layer structure, and M is a natural number greater than 1; the utility model is characterized in that the conveyor belt layered cutting belt scraping device comprises: a frame; the frame comprises an upper layer installation framework and a lower layer installation framework; the Y-axis guide rail is arranged on the upper-layer installation framework; a Y-axis sliding block is arranged on the Y-axis guide rail; an X-axis guide rail mounted on the Y-axis slide block; an X-axis sliding block is arranged on the X-axis guide rail; the cutting tool assembly and the belt scraping pliers are arranged on the X-axis sliding block; a support beam mounted on the lower mounting frame; and the supporting plate is positioned between the supporting beam and the lower mounting framework. This adaptation can realize the function of taking off the area to quick perpendicular layering cutting, slope layering cutting, layering of conveyer belt.

Description

Belt scraping device for layered cutting of conveying belt

Technical Field

The utility model belongs to the technical field of conveying belts, and particularly relates to a layered cutting belt scraping device for a conveying belt.

Background

The conveying belt, called conveying belt, is one kind of composite rubber, fiber and metal product for conveying material or composite plastic and fabric product. The conveyer belt is widely applied to occasions with shorter conveying distance and smaller conveying capacity in industries such as cement, coking, metallurgy, chemical industry, steel and the like.

At present, most of conveying belts are of multi-layer structures, and in the using process of the conveying belts, the conveying belts are sometimes broken partially, so that the safe use of the conveying belts is affected, damaged parts are needed to be cut off at the moment, then the qualified conveying belts are glued, namely two ends of two sections of qualified conveying belts are glued, so that an annular conveying belt is formed, or the ends of the two conveying belts are glued, so that the length of the conveying belt is increased; in the process of cementing, the conveyer belt needs to be pretreated firstly, specifically: firstly, a construction dimension line is drawn on a conveying belt, wherein the construction dimension line comprises a datum line, a central line, a cutting line, an edge adhesive cutting line and a core adhesive notch line, and the step position is formed. Then, starting to strip the belt joint layer by layer from top to bottom, because the traditional technology adopts a manual operation mode, the cutter depth cannot be accurately mastered when the belt is cut by the cutter for strip joint, the next canvas layer cannot be easily scratched, and the joint strength can be affected by the scratch. The prior art generally adopts vertical steps, because the angle of each cutting can not be ensured, the interfaces are not matched, and the joint strength is reduced.

Disclosure of Invention

The utility model provides a layered cutting and belt scraping device for a conveyor belt, which aims to solve the technical problems in the prior art, can quickly realize the layered cutting and belt scraping functions of the conveyor belt, and simultaneously realize the technical aim of adjustable cutting angle.

The utility model aims to provide a layered cutting and belt scraping device for a conveying belt, wherein the conveying belt is of an M-layer structure, and M is a natural number greater than 1; the conveying belt layered cutting and belt scraping device comprises:

a frame; the frame comprises an upper layer installation framework and a lower layer installation framework;

the Y-axis guide rail is arranged on the upper-layer installation framework; a Y-axis sliding block is arranged on the Y-axis guide rail;

an X-axis guide rail mounted on the Y-axis slide block; an X-axis sliding block is arranged on the X-axis guide rail;

the cutting tool assembly and the belt scraping pliers are arranged on the X-axis sliding block;

a support beam mounted on the lower mounting frame;

and the supporting plate is positioned between the supporting beam and the lower mounting framework.

Preferably, the cutting tool assembly comprises a base fixedly connected with the X-axis sliding block, and a tool is mounted on the base.

Preferably, the tool is connected to the base by a rotation mechanism.

Preferably, the rotating mechanism comprises two bulges fixedly connected with the base, the two bulges are provided with shaft holes positioned on the same straight line, the base is provided with two guide rings with semicircular slide ways, the two semicircular slide ways and the shaft holes are in coaxial relation, and the semicircular slide ways are provided with locking elements.

Preferably, the cutter comprises a strip-shaped carrier, two coaxial shaft lugs are arranged on two sides of the carrier, the shaft lugs are located in the shaft holes, locking holes matched with locking elements are formed on two sides of the carrier, a first rectangular slideway and a second rectangular slideway are formed in the carrier, a first protruding portion is formed in the inner side of the upper edge of the first rectangular slideway, a cutter magazine is arranged at the bottom of the first rectangular slideway, the width of the cutter magazine is equal to that of the first rectangular slideway, a second rectangular slideway is formed in the upper surface of the cutter magazine, a third rectangular slideway is formed in the bottom of the second rectangular slideway, a second protruding portion is arranged in the inner side of the upper edge of the second rectangular slideway, and a cutter blade is located in the third rectangular slideway and is provided with a gland; the width of the gland is equal to that of the second rectangular slideway; the gland is provided with a strip-shaped third through hole corresponding to the first through hole; the second through hole is provided with a locking element, and the long-strip-shaped third through hole is provided with a first bolt.

Preferably, the side wall of the gland is provided with a recess which is matched with the second protruding part.

Preferably, the belt scraping pliers comprise a base fixedly connected with the X-axis sliding block, and a mechanical claw and an air cylinder driving the mechanical claw to act are arranged on the base.

Preferably, the gripper is connected to the base by a rotation mechanism.

Preferably, the rotating mechanism comprises two bulges fixedly connected with the base, the two bulges are provided with shaft holes positioned on the same straight line, and the mechanical claw comprises a first mechanical clamp and a second mechanical clamp; the first mechanical pliers comprise a rotating arm and a first clamping arm, shaft lugs connected with shaft holes are arranged on two sides of the upper end of the rotating arm, the second mechanical pliers comprise a second clamping arm, the first clamping arm and the second clamping arm are of arc-shaped structures, a supporting arm is arranged on the outer side wall of the second clamping arm, the lower end of the rotating arm is fixedly connected with the upper end of the first clamping arm, the second clamping arm is fixedly connected with the supporting arm, and the upper end of the second clamping arm is connected with the lower end of the rotating arm or the upper end of the first clamping arm through a pin shaft; the side wall of the rotating arm is connected with the supporting arm through an air cylinder.

Preferably, the rotating arm and the first clamping arm are of an integrated structure, and the second clamping arm and the supporting arm are of an integrated structure.

The utility model has the advantages and positive effects that:

according to the layered cutting and belt scraping device for the conveyor belt, disclosed by the utility model, the cutting tool assembly and the belt scraping pliers can be rapidly moved to the cutting and belt scraping positions by utilizing the matched movement of the X-axis sliding block and the Y-axis sliding block, and the cutting and belt scraping processes are rapidly realized by utilizing the cutting tool assembly and the belt scraping pliers; meanwhile, the labor intensity of workers is reduced;

the cutting tool assembly can realize the angle adjusting function, so that an inclined plane can be cut, and compared with a vertical plane, the inclined plane has larger area and is firmer in bonding;

after the angle and the height of the cutter are adjusted, the precision of each time of cutting can be ensured, and the lower canvas is not damaged;

the utility model can realize the rapid tape stripping process by using the tape stripping pliers.

Drawings

FIG. 1 is a first structural assembly view of a preferred embodiment of the present utility model;

FIG. 2 is a block diagram of a cutting tool assembly in accordance with a preferred embodiment of the present utility model;

FIG. 3 is a block diagram of a carrier in a preferred embodiment of the utility model;

FIG. 4 is a block diagram of a press cover in a preferred embodiment of the present utility model;

FIG. 5 is a block diagram of a blade in a preferred embodiment of the present utility model;

FIG. 6 is a diagram showing the assembly relationship among the tool magazine, the blade and the gland according to the preferred embodiment of the present utility model;

FIG. 7 is a block diagram of a magazine tool in a preferred embodiment of the present utility model;

FIG. 8 is a cross-sectional view of a carrier in a preferred embodiment of the utility model;

FIG. 9 is a cross-sectional view of a tool magazine in a preferred embodiment of the utility model;

FIG. 10 is a second structural assembly view of the preferred embodiment of the present utility model;

FIG. 11 is a block diagram of a belt scraping pliers in a preferred embodiment of the utility model.

Detailed Description

In order to make the above-mentioned objects, control system of design and advantages of the present utility model more apparent, the present utility model will be further described in detail with reference to the following examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The conveying belt is of an M-layer structure, and M is a natural number greater than 1;

as shown in fig. 1 to 11, the technical scheme of the present utility model is as follows:

a conveyor belt layered cutting belt scraper comprising:

a frame 1; the frame 1 comprises an upper layer installation framework and a lower layer installation framework; the upper layer installation framework and the lower layer installation framework are respectively rectangular frame structures, and are connected through vertical beams;

the Y-axis guide rail 3 is arranged on the upper-layer installation framework; a Y-axis sliding block is arranged on the Y-axis guide rail;

an X-axis guide rail 2 which is arranged on the Y-axis sliding block; an X-axis sliding block is arranged on the X-axis guide rail;

a cutting tool assembly 4 and a belt scraping clamp 8 which are arranged on the X-axis sliding block; when the X-axis sliding block is one, the cutting tool assembly 4 and the belt scraping pliers 8 are installed or are replaced, namely when the cutting tool assembly 4 is installed, the belt scraping pliers 8 need to be disassembled, otherwise, when the belt scraping pliers 8 are installed, the cutting tool assembly 4 needs to be disassembled; when the X-axis sliding blocks are multiple, the cutting tool assembly 4 and the belt scraping pliers 8 can be arranged on different sliding blocks; the plurality of x sliding blocks can drive the plurality of cutters and the plurality of belt scraping pliers to work simultaneously;

a support beam 5 mounted on the lower mounting frame; the supporting beam 5 is connected with the lower layer installation framework through bolts;

a support plate 7 located between the support beam 6 and the underlying mounting frame. In this embodiment, the support plate 7 is selected from a wood plate, which can prevent the blade from being damaged, i.e. the blade is cut onto the wood head without damage;

in order to achieve any adjustment of the tool angle, the above preferred embodiment is based on:

the cutting tool assembly 4 comprises a base 4-1 fixedly connected with the X-axis sliding block, and a tool is installed on the base 4-1. The cutter is connected with the base 4-1 through a rotating mechanism.

The rotating mechanism is shown in fig. 2, and comprises two bulges 4-3 fixedly connected with a base 4-1, shaft holes positioned on the same straight line are formed in the two bulges 4-3, two guide rings 4-2 with semicircular slide ways are arranged on the base 4-1, the two semicircular slide ways and the shaft holes are in coaxial relation, and locking elements 4-8 are arranged at the semicircular slide ways; the locking elements 4-8 may be bolts or screws;

the cutter comprises a strip-shaped carrier 4-5, two coaxial shaft lugs 4-4 are arranged on two sides of the carrier, the shaft lugs are located in the shaft holes, locking holes matched with locking elements are formed on two sides of the carrier, the carrier is provided with a strip-shaped first through hole 4-5-3 and a strip-shaped second through hole 4-5-4, a first rectangular slideway 4-10 is formed on the upper surface of the carrier, a first protruding part 4-11 is arranged on the inner side of the upper edge of the first rectangular slideway, a tool magazine 4-16 is arranged at the bottom of the first rectangular slideway, the width of the tool magazine 4-16 is equal to the width of the first rectangular slideway, a second rectangular slideway 4-13 is formed on the upper surface of the tool magazine, a third rectangular slideway 4-12 is formed at the bottom of the second rectangular slideway, a long round connecting hole 4-16-1 is formed at the bottom of the third rectangular slideway 4-12, a second protruding part 4-14 is formed on the inner side of the upper edge of the second rectangular slideway, a tool magazine 4-16 is arranged on the inner side of the upper edge of the second rectangular slideway, a tool magazine 4-13 is provided with a round through hole 4-9 is formed in the second rectangular slideway, and the tool magazine 4-9 is located in the second rectangular slideway; the width of the gland is equal to that of the second rectangular slideway; the gland is provided with a strip-shaped third through hole 4-9-2 corresponding to the first through hole; the second through hole is provided with a locking element, and the locking element can be a bolt or a screw; a first bolt 4-7 is arranged at the position of the strip-shaped third through hole.

The side wall of the gland is provided with a concave part 4-9-1 matched with the second convex part.

The belt scraping pliers 8 comprise a base 8-1 fixedly connected with an X-axis sliding block, and a mechanical claw and an air cylinder 8-6 driving the mechanical claw to act are arranged on the base 8-1.

The gripper comprises a connection to the base 8-1 by means of a rotation mechanism.

The rotating mechanism comprises two bulges fixedly connected with the base 8-1, shaft holes positioned on the same straight line are formed in the two bulges, and the mechanical claw comprises a first mechanical clamp and a second mechanical clamp; the first mechanical pliers comprise a rotating arm and a first clamping arm, shaft lugs connected with shaft holes are arranged on two sides of the upper end of the rotating arm, the second mechanical pliers comprise a second clamping arm, the first clamping arm and the second clamping arm are of arc-shaped structures, a supporting arm is arranged on the outer side wall of the second clamping arm, the lower end of the rotating arm is fixedly connected with the upper end of the first clamping arm, the second clamping arm is fixedly connected with the supporting arm, and the upper end of the second clamping arm is connected with the lower end of the rotating arm or the upper end of the first clamping arm through a pin shaft 8-3; the side wall of the rotating arm is connected with the supporting arm through a cylinder 8-6.

The rotating arm and the first clamping arm are of an integrated structure, and the second clamping arm and the supporting arm are of an integrated structure.

The assembly process of the preferred embodiment described above:

the blade is arranged in a tool magazine, two rectangular slide ways are arranged in the tool magazine, and the blade is arranged in a third rectangular slide way 4-12;

installing a gland in the second rectangular slideway 4-13; the concave part 4-9-1 of the gland is matched with the second convex part 4-14 of the tool magazine;

installing a tool magazine on the carrier 4-5, and installing the tool magazine in the first rectangular slideway 4-10 of the carrier 4-5;

the first bolt 4-7 sequentially passes through the long-strip-shaped third through hole 4-9-2 on the pressing cover, the round hole on the blade, the connecting hole 4-16-1 on the tool magazine, the second through hole 4-5-4 on the carrier 4-5 from top to bottom, and finally is connected with the nut.

The second bolt 4-15 passes through the first through hole 4-5-3 from bottom to top so as to fasten the tool magazine; forming a cutter assembly;

the X-axis movement mechanism comprises an X-axis guide rail 2, an X-axis sliding block and a power mechanism for driving the X-axis sliding block to move, wherein two ends of the X-axis guide rail 2 are fixedly connected with an upper layer installation framework, the Y-axis movement mechanism comprises a Y-axis guide rail 3, a Y-axis sliding block and a power mechanism for driving the Y-axis sliding block to move, and the X-axis movement mechanism and the Y-axis movement mechanism can select ball screws; the fastening sleeve is arranged between the two ends of the Y-axis guide rail 3 and the upper layer installation framework, the fastening sleeve is provided with the fastening screw or the fastening bolt, when the Y-axis guide rail is used, the fastening screw or the fastening bolt is released firstly, then the X-axis sliding block drives the Y-axis guide rail 3 to move in the X-axis direction, after the Y-axis guide rail 3 moves in place, the fastening screw or the fastening bolt is screwed, and then the Y-axis guide rail 3 is fixed, so that the stability of operation can be kept when the belt is cut or pulled out, and the effect of cutting and pulling out the belt is improved. The sliding block of the Y-axis ball screw drives the cutting tool assembly 4 and the belt scraping pliers 8 to move; the lower surface of lower floor's installation skeleton and conveyer belt contact, and conveyer belt below installs backup pad 7, and backup pad 7's effect is the damage takes place for preventing that the cutter from cutting hard thing. Two supporting beams are arranged below the supporting plate 7, locking screws or fastening bolts are arranged at two ends of the supporting beams, and the locking screws or the fastening bolts penetrate through the supporting plate 7 and then are connected with the lower-layer installation framework; the supporting plate 7 is used for providing clamping force to fix the positions of the frame, the wood plate and the conveying belt.

The specific working steps are as follows:

firstly, feeding: the supporting plates 7 are lapped on the two supporting beams 6, the conveying belt 5 is arranged on the supporting plates 7, and the supporting plates 7 and the conveying belt 5 are clamped on the lower surface of the lower-layer installation framework through locking screws or fastening bolts;

secondly, adjusting the Y-axis guide rail 3 to a first cutting position through an X-axis sliding block, and then fixing two ends of the Y-axis guide rail 3; the X-axis movement mechanism and the Y-axis movement mechanism in the present embodiment are preferably lead screws;

thirdly, controlling the Y-axis sliding block to advance to one end of the Y-axis guide rail 3; then installing a cutter assembly, and installing the cutter assembly on the Y-axis sliding block; drawing cutting lines on a conveying belt or arranging scale marks on an upper mounting framework, and adjusting the angle and the height of a blade according to the position and the cutting depth of a first cutting line; the angle is realized by a guide ring 4-2 of a semicircular slideway, a carrier 4-5 and a locking element 4-8; the height adjustment is carried out by utilizing the depth of the blade penetrating into the tool magazine; principle of blade height adjustment: the size of the blade extending out of the tool magazine is mainly determined by the thickness of the belt to be cut, and in general, the larger the cutting thickness is, the larger the size of the blade extending out of the tool magazine is, and conversely, the smaller the size of the blade extending out of the tool magazine is; however, because the thickness of the blade is smaller, if the blade extends out of the tool magazine too long, the blade is easy to deform in the process of being stressed, and a larger cutting error can be generated at the moment, so that the size of the blade extending out of the tool magazine needs to be controlled within a reasonable range, such as about one centimeter; the specific process of blade height adjustment includes: the first mode is to release the second bolt 4-15, pull or insert the tool magazine from the carrier, and lock the second bolt 4-15 after the height is adjusted in place; the second mode is to release the first bolt 4-7, so that the blade can be pulled out of or inserted into the tool magazine, and the first bolt 4-7 is locked after the height is adjusted in place;

driving a Y-axis sliding block to linearly move along the Y-axis guide rail 3, wherein the Y-axis sliding block drives the cutter assembly to move in the moving process, and the first layer of the conveying belt is cut in the moving process; the Y-axis sliding block stops after reaching the other end along the Y-axis guide rail 3;

fifthly, manually operating the cutter combination body, and adjusting the height of the cutter blade;

sixthly, releasing the fastening sleeves at the two ends of the X-axis guide rail, and adjusting the angle and the height of the blade according to the position and the cutting depth of the second cutting line;

seventh, adjusting the Y-axis guide rail 3 to a second cutting position through the X-axis sliding block, and then fixing two ends of the Y-axis guide rail 3;

eighth step, the Y-axis sliding block is driven to move linearly along the Y-axis guide rail 3, the Y-axis sliding block drives the cutter combination body to move in the moving process, and the second layer of the conveying belt is cut in the moving process;

ninth, manually operating the cutter assembly to adjust the height of the blade;

a tenth step, sequentially cycling the sixth step to the ninth step until cutting of all target layers is completed;

eleventh step, dismantling the cutter combination body, and replacing the belt scraping pliers;

a twelfth step, before the belt is taken off, driving the Y-axis sliding block to advance to one end of the Y-axis guide rail, and contracting the air cylinder, wherein the belt taking clamp is in an open state at the moment, a worker manually tears a belt taking head from the side wall of the conveying belt, then inserts the belt taking head into the belt taking clamp, and the air cylinder stretches out to grasp the belt taking head; the belt scraping head can be a first cutting layer, a plurality of cutting layers or all cutting layers;

and thirteenth step, driving the Y-axis sliding block to linearly move, wherein the Y-axis sliding block drives the belt scraping pliers to move in the moving process, and the cutting layer to which the clamped belt scraping head belongs is scraped out from the conveying belt in the moving process.

When the X-axis sliding blocks are multiple, in the third step, the belt scraping pliers can be installed at the same time, namely, some sliding blocks are provided with cutter assemblies, and some sliding blocks are provided with belt scraping pliers; thereby realizing simultaneous cutting and stripping.

The foregoing description is only of the preferred embodiments of the present utility model, and is not intended to limit the utility model in any way, but any simple modification, equivalent variation and modification of the above embodiments according to the technical principles of the present utility model are within the scope of the technical solutions of the present utility model.

Claims (10)

1. The utility model provides a conveyor belt layering cutting takes off belt device, the conveyor belt is M layer structure, M is the natural number that is greater than 1; the utility model is characterized in that the conveyor belt layered cutting belt scraping device comprises:

a frame (1); the frame (1) comprises an upper layer installation framework and a lower layer installation framework;

a Y-axis guide rail (3) arranged on the upper layer installation framework; a Y-axis sliding block is arranged on the Y-axis guide rail;

an X-axis guide rail (2) arranged on the Y-axis sliding block; an X-axis sliding block is arranged on the X-axis guide rail;

a cutting tool assembly (4) and a belt scraping clamp (8) which are arranged on the X-axis sliding block;

a support beam (6) mounted on the lower mounting frame;

and a supporting plate (7) positioned between the supporting beam (6) and the lower mounting framework.

2. The conveyor belt layered cutting and stripping device according to claim 1, characterized in that the cutting tool assembly (4) comprises a base (4-1) fixedly connected with an X-axis slide, on which base (4-1) a tool is mounted.

3. The conveyor belt layered cutting and raking device according to claim 2, characterized in that the cutter is connected with the base (4-1) by a rotating mechanism.

4. A conveyor belt layered cutting and raking device according to claim 3, characterized in that the rotating mechanism comprises two protrusions (4-3) fixedly connected with the base (4-1), the two protrusions (4-3) are provided with shaft holes on the same straight line, the base (4-1) is provided with two guide rings (4-2) with semicircular slide ways, the two semicircular slide ways and the shaft holes are in coaxial relation, and the semicircular slide ways are provided with locking elements (4-8).

5. The layered cutting and raking device for the conveyor belt according to claim 4, characterized in that the cutter comprises a strip-shaped carrier (4-5), two coaxial shaft lugs (4-4) are arranged on two sides of the carrier, the shaft lugs are positioned in the shaft holes, locking holes matched with locking elements are arranged on two sides of the carrier, the carrier is provided with a strip-shaped first through hole and a strip-shaped second through hole, a first rectangular slideway is arranged on the upper surface of the carrier, a first protruding part is arranged on the inner side of the upper edge of the first rectangular slideway, a tool magazine is arranged at the bottom of the first rectangular slideway, the width of the tool magazine is equal to the width of the first rectangular slideway, a second rectangular slideway is arranged on the upper surface of the tool magazine, a third rectangular slideway is arranged at the bottom of the second rectangular slideway, a second protruding part is arranged on the inner side of the upper edge of the second rectangular slideway, the blade (4-6) is positioned in the third rectangular slideway, and a gland (4-9) is arranged in the second rectangular slideway; the width of the gland is equal to that of the second rectangular slideway; the gland is provided with a strip-shaped third through hole (4-9-2) corresponding to the first through hole; the second through hole is provided with a locking element, and the long-strip-shaped third through hole is provided with a first bolt (4-7).

6. The conveyor belt layered cutting and stripping device according to claim 5, characterized in that the side wall of the gland is provided with a recess (4-9-1) cooperating with the second protrusion.

7. The belt scraping device for layered cutting of conveyor belts according to claim 1, characterized in that the belt scraping pliers (8) comprise a base (8-1) fixedly connected with an X-axis sliding block, and a mechanical claw and a cylinder (8-6) for driving the mechanical claw to act are arranged on the base (8-1).

8. The conveyor belt layered cutting and stripping device according to claim 7, characterized in that the gripper is connected with the base (8-1) by means of a rotating mechanism.

9. The layered cutting and belt scraping device of the conveyor belt according to claim 8, characterized in that the rotating mechanism comprises two protrusions fixedly connected with the base (8-1), shaft holes positioned on the same straight line are formed on the two protrusions, and the mechanical claw comprises a first mechanical clamp and a second mechanical clamp; the first mechanical pliers comprise a rotating arm and a first clamping arm, shaft lugs connected with shaft holes are arranged on two sides of the upper end of the rotating arm, the second mechanical pliers comprise a second clamping arm, the first clamping arm and the second clamping arm are of arc-shaped structures, a supporting arm is arranged on the outer side wall of the second clamping arm, the lower end of the rotating arm is fixedly connected with the upper end of the first clamping arm, the second clamping arm is fixedly connected with the supporting arm, and the upper end of the second clamping arm is connected with the lower end of the rotating arm or the upper end of the first clamping arm through a pin shaft (8-3); the side wall of the rotating arm is connected with the supporting arm through an air cylinder (8-6).

10. The conveyor belt layered cutting and stripping device according to claim 9, characterized in that the rotating arm and the first clamping arm are of an integrated structure, and the second clamping arm and the supporting arm are of an integrated structure.