CN114054649A - Continuous banding equipment of steel mesh - Google Patents

Abstract

The invention discloses steel mesh continuous edge sealing equipment which comprises an edge sealing belt uncoiler, a steel mesh uncoiler and a coiling machine, wherein an edge sealing host machine is arranged between the edge sealing belt uncoiler and the coiling machine and comprises a base and two side plates, the two side plates are arranged on two sides of the base, the steel mesh uncoiler is arranged at the tops of the two side plates, an edge sealing forming mechanism is arranged on the inner sides of the two side plates and comprises a bending part and a forming part, a first driving mechanism is arranged below the base and connected with the edge sealing forming mechanism through a transmission mechanism, a steel mesh width adjusting mechanism is arranged between the base and one of the side plates, and the edge sealing belt is firstly gradually bent through the bending part and then gradually compressed and formed together with a steel mesh through the forming part to complete edge sealing so that the edge sealing belt is wrapped and compressed on two side edges of the steel mesh. The invention replaces the complex and low-efficiency operation of manual intermittent edge sealing in the prior art, integrates edge sealing belt forming and steel mesh pressing into a whole device, realizes continuous and automatic edge sealing of the steel mesh, and is suitable for the technical field of screen processing equipment.

Description

Continuous banding equipment of steel mesh

Technical Field

The invention belongs to the technical field of silk screen processing equipment, and particularly relates to steel mesh continuous edge sealing equipment.

Background

The steel mesh can be used frequently in daily life and industrial production, for example, a filter screen in a water filter device and a heating steel mesh in electric hot-melt strip production, but the steel mesh is difficult to be applied independently due to the reasons of easy deformation, sharp edge, poor electric conductivity and the like, and can be used after being sealed frequently. The main edge sealing operation at present is as follows: use the bender to process into fixed length V type metal strip with the banding area, place V type metal strip in the steel mesh side by hand, then with the beading machine with V type strip pressfitting on the steel mesh side, the process is manual and discontinuous, receives V type strip and beading machine size restriction, when carrying out the banding to longer steel mesh, manual operation is inconvenient and inefficiency.

Disclosure of Invention

The invention provides a steel mesh continuous edge sealing device which can be used for continuously sealing two sides of coiled steel meshes to produce steel meshes with sealed edges at two sides and is used for solving the problems of complexity and low efficiency of manual intermittent edge sealing in the prior art.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a continuous banding equipment of steel mesh, including banding area decoiler, steel mesh decoiler and rolling machine, be equipped with the banding host computer between banding area decoiler and the rolling machine, the banding host computer includes base and both sides board, the base both sides are located to the both sides board, steel mesh decoiler locates both sides board top, both sides inboard is equipped with banding forming mechanism, banding forming mechanism includes kink and shaping portion, the base below is equipped with a actuating mechanism, a actuating mechanism passes through drive mechanism and links to each other with banding forming mechanism, be equipped with steel mesh width adjustment mechanism between the base rather than one of them curb plate, the banding area that expandes from banding area decoiler at first compresses tightly the shaping through shaping portion together after bending gradually through the kink and with the steel mesh that expandes from steel mesh decoiler and accomplishes the banding, make the banding area cladding compress tightly in steel mesh both sides limit, at last winding rolling through the rolling machine.

Further, the kink includes a plurality of bending roller groups that are used for the banding area to bend the usefulness, the shaping portion includes a plurality of shaping roller groups that are used for banding area and steel mesh to compress tightly the shaping usefulness, a plurality of bending roller groups and a plurality of shaping roller groups are arranged in the inboard of both sides board along the horizontal direction of delivery of steel mesh respectively in proper order, a actuating mechanism passes through drive mechanism and links to each other with a plurality of bending roller groups and a plurality of shaping roller groups, the banding area is at first bent gradually through a plurality of bending roller groups at first and is together compressed tightly the shaping through a plurality of shaping roller groups gradually with the steel mesh and accomplish the banding, make the banding area cladding compress tightly in steel mesh both sides limit.

Further, the bending roller set comprises a first roller set, a second roller set and a third roller set which are sequentially arranged at horizontal intervals along the conveying direction of the edge sealing belt, upper and lower rollers of each roller set are arranged on the inner sides of the two side plates in a rolling mode through bearing assemblies, a plane groove is formed between the two rollers of the first roller set, a 120-degree bending groove is formed between the two rollers of the second roller set, and a 90-degree bending groove is formed between the two rollers of the third roller set.

Further, the shaping running roller group includes along banding area and steel mesh direction of delivery the fourth running roller group, fifth running roller group and the sixth running roller group that the horizontal interval set up in proper order, and two upper and lower running rollers of each running roller group pass through bearing assembly roll and set up in both sides inboard, are constructed 90 degrees shaping grooves between two running rollers of fourth running roller group, are constructed 30 degrees shaping grooves between two running rollers of fifth running roller group, are constructed the shaping and compress tightly the groove between two running rollers of sixth running roller group.

Furthermore, the transmission mechanism comprises a chain transmission mechanism and a gear transmission mechanism, the first driving mechanism is connected with the edge sealing forming mechanism through the chain transmission mechanism, the roller sets of the edge sealing forming mechanism are connected through the chain transmission mechanism, and the upper roller and the lower roller of the same roller set are connected through the gear transmission mechanism.

Further, the first driving mechanism comprises a first motor and a first speed reducer, wherein the first motor is fixedly arranged below the base and is connected with the edge sealing forming mechanism through the first speed reducer and the transmission mechanism.

Further, steel mesh width adjustment mechanism includes second motor and second speed reducer, and the second motor sets firmly on the base and links to each other with a curb plate through second speed reducer warp silk thick stick subassembly and slide rail set spare.

Furthermore, the material of the edge sealing band is metal.

Furthermore, the material of the edge sealing belt is copper, aluminum or steel according to the edge sealing requirement of the steel mesh.

Due to the adoption of the structure, compared with the prior art, the invention has the technical progress that: the first driving mechanism drives the bending part and the forming part of the edge sealing forming mechanism to act through the transmission mechanism, the edge sealing belt is gradually bent by a certain angle through the bending part after being unfolded from the edge sealing belt uncoiler, then the steel mesh unfolded from the steel mesh uncoiler and the edge sealing belt which is bent in advance enter the forming part together to be gradually compressed and formed to finish edge sealing, the edge sealing belt is tightly coated and pressed on two side edges of the steel mesh, two sides of the coiled steel mesh can be continuously sealed, the steel mesh with the edge sealing at two sides is produced, and finally the steel mesh is wound and coiled through the coiling machine.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a view F-F of FIG. 1;

FIG. 3 is a view A-A of FIG. 1;

FIG. 4 is a view B-B of FIG. 1;

FIG. 5 is a view C-C of FIG. 1;

FIG. 6 is a view D-D of FIG. 1;

fig. 7 is a view from E-E in fig. 1.

Labeling components: 1-edge sealing belt uncoiler, 10-edge sealing belt, 2-steel mesh uncoiler, 20-steel mesh, 3-edge sealing host, 31-base, 32-side plate, 33-first driving mechanism, 34-transmission mechanism, 341-gear transmission mechanism, 342-bearing assembly, 35-edge sealing forming mechanism, 351-first roller set, 352-second roller set, 353-third roller set, 354-fourth roller set, 355-fifth roller set, 356-sixth roller set, 36-steel mesh width adjusting mechanism, 361-second motor, 362-second speed reducer, 363-lead screw assembly, 364-slide rail assembly and 4-coiling machine.

Detailed Description

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for purposes of illustration and explanation only and are not intended to limit the present invention.

The invention discloses a steel mesh continuous edge sealing device, which comprises an edge sealing belt uncoiler 1, a steel mesh uncoiler 2 and a coiler 4, wherein an edge sealing host machine 3 is arranged between the edge sealing belt uncoiler 1 and the coiler 4, the edge sealing host machine 3 comprises a base 31 and two side plates 32, the two side plates 32 are arranged at two sides of the base 31, the steel mesh uncoiler 2 is arranged at the top of the two side plates 32, an edge sealing forming mechanism 35 is arranged at the inner sides of the two side plates 32, the edge sealing forming mechanism 35 comprises a bending part and a forming part, a first driving mechanism 33 is arranged below the base 31, the first driving mechanism 33 is connected with the edge sealing forming mechanism 35 through a transmission mechanism 34, a steel mesh width adjusting mechanism 36 is arranged between the base 31 and the one side plate 32, an edge sealing belt 10 which is unfolded from the edge sealing belt uncoiler 1 is firstly gradually bent through the bending part and then is gradually pressed and formed together with a steel mesh 20 which is unfolded from the steel mesh uncoiler 2 through the forming part, the edge sealing belt 10 is tightly coated on two sides of the steel mesh 20, and finally wound and coiled by the coiling machine 4. The transmission mechanism 34 includes a chain transmission mechanism and a gear transmission mechanism 341, the first driving mechanism 33 and the edge sealing and forming mechanism 35 are connected through the chain transmission mechanism, the roller sets of the edge sealing and forming mechanism 35 are connected through the chain transmission mechanism, and the upper and lower rollers of the same roller set are connected through the gear transmission mechanism 341. The first driving mechanism 33 includes a first motor and a first speed reducer electrically connected to the control system, and the first motor is fixedly disposed below the base 31 and connected to the edge sealing and forming mechanism 35 through the first speed reducer via the transmission mechanism 34.

The edge sealing belt uncoiler 1, the steel mesh uncoiler 2, the coiling machine 4 or the cutting machine are auxiliary machines, wherein the edge sealing belt uncoiler 1 and the steel mesh uncoiler 2 are used for supplying raw materials of an edge sealing belt 10 and a steel mesh 20; the winding machine 4 or the cutting machine is used for winding or cutting the finished steel mesh 20 with sealed edges into fixed-length meshes according to different requirements.

The invention has the beneficial effects that: the first driving mechanism 33 drives the bending portion and the forming portion of the edge sealing forming mechanism 35 to move through the transmission mechanism 34, the edge sealing belt 10 is gradually bent by a certain angle through the bending portion after being unfolded from the edge sealing belt uncoiler 1, then the steel mesh 20 unfolded from the steel mesh uncoiler 2 and the edge sealing belt 10 which is bent in advance enter the forming portion together to be gradually compressed and formed to finish edge sealing, the edge sealing belt 10 is enabled to be wrapped and compressed on two side edges of the steel mesh 20, two sides of the coiled steel mesh 20 can be subjected to continuous edge sealing, the steel mesh 20 with edge sealing at two sides is produced, and finally the steel mesh 20 is wound and coiled through the coiling machine 4.

As a preferred embodiment of the present invention, the bending portion includes a plurality of pairs of bending roller sets for bending the edge sealing band 10, the forming portion includes a plurality of pairs of forming roller sets for compacting and forming the edge sealing band 10 and the steel mesh 20, the plurality of pairs of bending roller sets and the plurality of pairs of forming roller sets are sequentially disposed on the inner sides of the two side plates 32 along the horizontal conveying direction of the steel mesh 20, the first driving mechanism 33 is connected to the plurality of pairs of bending roller sets and the plurality of pairs of forming roller sets through the transmission mechanism 34, the edge sealing band 10 is gradually compacted and formed together with the steel mesh 20 through the plurality of pairs of forming roller sets after being gradually bent through the plurality of pairs of bending roller sets, so that the edge sealing band 10 is wrapped and compressed on the two side edges of the steel mesh 20.

As a preferred embodiment of the present invention, as shown in fig. 2 to 4, the bending roller set includes a first roller set 351, a second roller set 352 and a third roller set 353 horizontally arranged in sequence along the conveying direction of the edge banding belt 10, wherein the upper and lower rollers of each roller set are arranged inside the two side plates 32 by rolling through a bearing assembly 342, the rollers of each roller set are configured with notches of different shapes, a flat groove is configured between the two rollers of the first roller set 351, a 120-degree bending groove is configured between the two rollers of the second roller set 352, and a 90-degree bending groove is configured between the two rollers of the third roller set 353. After being unfolded from the edge sealing belt uncoiler 1, the edge sealing belt 10 enters a plane groove of the first roller set 351 to shape the irregular shape of the edge sealing belt 10, then enters a 120-degree bending groove of the second roller set 352 to be bent into 120 degrees, then enters a 90-degree bending groove of the third roller set 353 to be bent into 90 degrees, and is ready for edge sealing of the steel mesh 20 subsequently.

As a preferred embodiment of the present invention, as shown in fig. 5 to 7, the forming roller set includes a fourth roller set 354, a fifth roller set 355 and a sixth roller set 356 which are horizontally arranged at intervals in sequence along the conveying direction of the edge banding belt 10 and the steel mesh 20, the upper and lower rollers of each roller set are arranged inside the two side plates 32 by rolling through a bearing assembly 342, the rollers of each roller set are configured with notches of different shapes, a 90-degree forming groove is configured between the rollers of the fourth roller set 354, a 30-degree forming groove is configured between the rollers of the fifth roller set 355, and a forming pressing groove is configured between the rollers of the sixth roller set 356. After the edge sealing belt 10 bent to 90 degrees comes out from the third roller set 353, the edge sealing belt enters the 90-degree forming groove of the fourth roller set 354 together with the steel mesh 20 unfolded by the steel mesh uncoiler 2, the side edge of the steel mesh 20 is attached to the bottom edge of the 90-degree edge sealing belt 10, the steel mesh 20 and the 90-degree edge sealing belt continue to advance into the fifth roller set 355, the edge sealing belt continues to wrap the edge of the steel mesh 20 in the 30-degree forming groove of the roller set until the edge of the steel mesh 20 is completely wrapped by the edge sealing belt 10 in the forming pressing groove of the roller set after the two enter the sixth roller set 356, and the edge sealing belt is pressed and formed.

As a preferred embodiment of the present invention, the steel mesh width adjusting mechanism 36 includes a second motor 361 and a second speed reducer 362, the second motor 361 is fixed on the base 31 and is connected to the side plate 32 through a screw assembly 363 and a sliding rail assembly 364 by the second speed reducer 362. The second motor 361 drives the screw assembly 363 to rotate through the second speed reducer 362, so that the distance between the side plate 32 and the other side plate 32 is increased or decreased through the slide rail assembly 364, and the width displacement is performed, thereby adjusting the distance between the roller sets arranged in pairs on the two side plates 32, and adapting to the edge sealing requirements of the steel nets 20 with different widths.

In a preferred embodiment of the present invention, the edge sealing tape 10 is made of metal. The material of the edge sealing belt 10 is copper, aluminum or steel according to the edge sealing requirement of the steel mesh 20. The types of the steel mesh 20 capable of performing edge sealing include woven steel mesh 20, steel plate mesh and the like, and the material of the edge sealing strip 10 can be copper, aluminum, steel or the like according to different materials of the steel mesh 20 and the purpose of edge sealing. For example, according to different requirements, the edge sealing effect of the steel mesh 20 is different, and the steel mesh 20 and the edge sealing belt 10 are different: the heating steel mesh 20 for the production of the electric hot melt strip adopts a stainless steel plate mesh, and the edge sealing belt 10 adopts a copper strip; the filter mesh for water filtration adopts a stainless steel woven mesh, and the edge sealing belt 10 adopts a stainless steel belt.

The working principle of the invention is as follows:

through banding area decoiler 1 and steel mesh decoiler 2 with banding area 10, the raw and other materials of steel mesh 20 send into respectively in the banding forming mechanism 35 of banding host computer 3, under the drive of first actuating mechanism 33 and drive mechanism 34, banding area 10 is buckled through the bending roller set of kink, it is the right angle to progressively buckle the shaping, and the shaping roller set through the shaping portion impresses steel mesh 20 in the kink is rolled over in advance into right-angled banding area 10, the running roller of each shaping roller set drives steel mesh 20 and banding area 10 and advances in step, and continue to bend banding area 10, finally with steel mesh 20 pressfitting in the banding area 10 of fifty percent discount, at last rolling or deciding according to the demand.

Compared with the prior art, the invention has the beneficial effects that:

1. the continuous and automatic edge sealing production process of the steel mesh 20 is realized, the efficiency is high, and the edge sealing is firm.

2. Through compatible design, can be suitable for different kinds, different materials, the different sizes of steel mesh 20 and banding area 10.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (9)

1. The utility model provides a continuous banding equipment of steel mesh, includes banding area decoiler (1), steel mesh decoiler (2) and rolling machine (4), its characterized in that: the edge sealing machine is characterized in that an edge sealing host (3) is arranged between the edge sealing belt uncoiler and the coiling machine (4), the edge sealing host (3) comprises a base (31) and two side plates (32), the two side plates (32) are arranged on two sides of the base (31), the steel mesh uncoiler (2) is arranged on the tops of the two side plates (32), an edge sealing forming mechanism (35) is arranged on the inner sides of the two side plates (32), the edge sealing forming mechanism (35) comprises a bent part and a forming part, a first driving mechanism (33) is arranged below the base (31), the first driving mechanism (33) is connected with the edge sealing forming mechanism (35) through a transmission mechanism (34), a steel mesh width adjusting mechanism (36) is arranged between the base (31) and one of the side plates (32), an edge sealing belt (10) which is uncoiled from the edge sealing belt uncoiler (1) is gradually bent through the bent part and then gradually compresses and forms together with a steel mesh (20) which is uncoiled from the steel mesh uncoiler (2) through the forming part to complete edge sealing, the edge sealing belts (10) are tightly coated on two sides of the steel mesh (20), and finally wound and coiled by a coiling machine (4).

2. The continuous edge sealing device for the steel mesh according to claim 1, wherein the bending portion comprises a plurality of pairs of bending roller sets for bending the edge sealing belt (10), the forming portion comprises a plurality of pairs of forming roller sets for compacting and forming the edge sealing belt (10) and the steel mesh (20), the plurality of pairs of bending roller sets and the plurality of pairs of forming roller sets are sequentially arranged on the inner sides of the two side plates (32) along the horizontal conveying direction of the steel mesh (20), the first driving mechanism (33) is connected with the plurality of pairs of bending roller sets and the plurality of pairs of forming roller sets through a transmission mechanism (34), the edge sealing belt (10) is gradually bent through the plurality of pairs of bending roller sets and then gradually compresses and forms with the steel mesh (20) through the plurality of pairs of forming roller sets to complete edge sealing, and the edge sealing belt (10) is wrapped on the two side edges of the compacted steel mesh (20).

3. The continuous edge banding apparatus of claim 2, wherein: the bending roller set comprises a first roller set (351), a second roller set (352) and a third roller set (353) which are sequentially arranged at a horizontal interval along the conveying direction of the edge sealing belt (10), upper and lower rollers of each roller set are arranged on the inner sides of two side plates (32) in a rolling mode through bearing assemblies (342), a plane groove is formed between the two rollers of the first roller set (351), a 120-degree bending groove is formed between the two rollers of the second roller set (352), and a 90-degree bending groove is formed between the two rollers of the third roller set (353).

4. The continuous edge banding apparatus of claim 2, wherein: the forming roller set comprises a fourth roller set (354), a fifth roller set (355) and a sixth roller set (356) which are sequentially arranged at horizontal intervals along the conveying direction of the edge sealing belt (10) and the steel mesh (20), wherein the upper roller set and the lower roller set of each roller set are arranged on the inner sides of two side plates (32) in a rolling mode through bearing assemblies (342), a 90-degree forming groove is formed between the two rollers of the fourth roller set (354), a 30-degree forming groove is formed between the two rollers of the fifth roller set (355), and a forming pressing groove is formed between the two rollers of the sixth roller set (356).

5. The continuous edge banding apparatus of claim 3 or 4, wherein: the transmission mechanism (34) comprises a chain transmission mechanism and a gear transmission mechanism (341), the first driving mechanism (33) is connected with the edge sealing forming mechanism (35) through the chain transmission mechanism, all roller sets of the edge sealing forming mechanism (35) are connected through the chain transmission mechanism, and an upper roller and a lower roller between the same roller set are connected through the gear transmission mechanism (341).

6. The continuous edge banding apparatus of claim 1, wherein: the first driving mechanism (33) comprises a first motor and a first speed reducer, and the first motor is fixedly arranged below the base (31) and is connected with the edge sealing forming mechanism (35) through the first speed reducer via a transmission mechanism (34).

7. The continuous edge banding apparatus of claim 1, wherein: the steel mesh width adjusting mechanism (36) comprises a second motor (361) and a second speed reducer (362), wherein the second motor (361) is fixedly arranged on the base (31) and is connected with a side plate (32) through the second speed reducer (362) via a screw rod assembly (363) and a sliding rail assembly (364).

8. The continuous edge banding apparatus of claim 1, wherein: the edge sealing belt (10) is made of metal.

9. The continuous edge banding apparatus of claim 1, wherein: the material of the edge sealing belt (10) is copper, aluminum or steel according to the edge sealing requirement of the steel mesh (20).

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