CN116605584A

CN116605584A - Fabric core PU high-strength conveyer belt

Info

Publication number: CN116605584A
Application number: CN202310563717.6A
Authority: CN
Inventors: 张之华; 黄玉清; 邵建峰
Original assignee: Jiangsu Xinlianda System Belt Technology Co ltd
Current assignee: Jiangsu Xinlianda System Belt Technology Co ltd
Priority date: 2023-05-18
Filing date: 2023-05-18
Publication date: 2023-08-18
Anticipated expiration: 2043-05-18
Also published as: CN116605584B

Abstract

The invention relates to the field of conveying belts, and discloses a fabric core PU high-strength conveying belt, which comprises a conveying belt, wherein the conveying belt comprises a reinforcing belt and a chain belt, the conveying belt is sequentially provided with a fabric core layer and a PU layer from inside to outside, and the reinforcing belt comprises a connecting layer; according to the invention, the fabric core layer in the conveyer belt is in press fit connection with the connecting grooves of the outer connecting block fans of the connecting layer in the reinforcing belt through the dense abutting blocks, and is integrally formed through the rubber adhesive, so that the contact surface between the fabric core layer and the connecting layer in the reinforcing belt is increased, the connection stability of the fabric core layer and the connecting layer in the conveyer belt is improved, the chain belts in the reinforcing belt are connected through the chain blocks, the first connecting blocks and the second connecting blocks, and are positioned through the positioning pins in a penetrating way, the connecting layer in the reinforcing belt is firmly connected with the net-shaped chain belts, the stability of the structural layer is higher, and the tight connection between the fabric core layer in the conveyer belt and the chain belts in the reinforcing belt is realized, so that the connection stability of the structural layer in the conveyer belt is improved.

Description

Fabric core PU high-strength conveyer belt

Technical Field

The invention relates to the technical field of conveying belts, in particular to a fabric core PU high-strength conveying belt.

Background

The fabric core conveyer belt is designed for conveying various special performance articles under different areas and environment conditions, and mainly comprises a cold-resistant, oil-resistant, heat-resistant, high-temperature-resistant and chemical corrosion-resistant conveyer belt matched with the conveyer belt, and can be suitable for conveying various bulk materials such as grain foods, chemical products and the like under different conditions in different areas and under different cold and hot conditions.

In the prior art, the fabric core conveyer belt is mostly formed by laminating a plurality of structural layers, and the inner surface and the outer surface of the conveyer belt are different in friction force when in use, so that after the conveyer belt is used for a period of time, the single structural layer is loosened, the stability of the structural layer is poor, the service life is short, and periodic replacement is needed.

Disclosure of Invention

The invention aims to provide a fabric core PU high-strength conveyer belt, which solves the problems that the stability of the structural layer of the existing fabric core conveyer belt is poor, the single structural layer is easy to relax, the service life is short and the existing fabric core conveyer belt needs to be replaced periodically.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a fabric core PU conveyer belt that excels in, includes the conveyer belt, the conveyer belt includes strengthening belt, chain belt, the conveyer belt has set gradually fabric sandwich layer, PU layer from interior to exterior, the strengthening belt includes the articulamentum, the articulamentum with fabric sandwich layer zonulae occludens, the chain belt includes chain piece and first connecting block, second connecting block and the locating pin that the symmetry set up, is located on the same straight line chain piece, first connecting block, second connecting block one side both ends have run through respectively and have offered the perforation, the peripheral both ends of chain piece rotate respectively and are connected with the locating collar, the peripheral both ends of first connecting block rotate respectively and are connected with locating collar, fixed collar, be located on the same straight line the locating collar with fixed collar through-connection has the locating pin, equidistant integrated into one piece of connecting layer lateral surface, equidistant integrated into one piece of fabric sandwich layer medial surface has the supporting piece.

Preferably, the engagement blocks are provided with engagement grooves at equal intervals on one side of the periphery, and the engagement grooves are of tooth-shaped structures.

Preferably, the fabric core layer is mutually pressed and connected with the connecting grooves in the connecting block at the periphery of the connecting block through the abutting block.

Preferably, the chain blocks are in a V-shaped structure, and one ends of the chain blocks positioned on the same horizontal line extend into an opening at one end of each adjacent chain block.

Preferably, the first connecting block and the second connecting block are both in a U-shaped structure, and one ends of the first connecting block and the second connecting block located on the same horizontal line extend into openings at one ends of the adjacent first connecting block and second connecting block.

Preferably, one end of the chain block located on the same vertical line is in mutual plugging and clamping with the fixed collar at one end of the first connecting block through the positioning collar.

Preferably, one end of the first connecting block located on the same vertical line is in mutual plugging and clamping with one end of the second connecting block through a positioning collar and a fixing collar.

Preferably, the fabric core layer and the connecting layer are integrally formed through a rubber adhesive.

Preferably, the periphery of the chain belt is integrally formed by wrapping a connecting layer, and the periphery of the reinforcing belt is integrally formed by wrapping a conveying belt.

Preferably, the joints at the two ends of the chain belt are integrally formed through the PU layer in a hinged mode.

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

according to the invention, the fabric core layer in the conveyer belt is in press fit connection with the connecting grooves of the outer connecting block fan of the connecting layer in the reinforcing belt through the dense abutting blocks, and is integrally formed through the rubber adhesive, so that the contact surface between the fabric core layer and the connecting layer in the reinforcing belt is increased, the connection stability of the fabric core layer and the connecting layer in the conveyer belt is improved, the chain belts in the reinforcing belt are connected through the chain blocks, the first connecting blocks and the second connecting blocks, and are positioned through the positioning pins in a penetrating way, the connecting layer in the reinforcing belt is tightly connected with the net-shaped chain belts, the stability of the structural layer is higher, the tight connection between the fabric core layer in the conveyer belt and the chain belts in the reinforcing belt is realized, and the problems that the structural layer stability of the conventional fabric core conveyer belt is poor, the single structural layer is easy to relax, the service life is shorter, and periodic replacement is required are solved.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic side sectional view of the present invention;

FIG. 3 is a schematic view of a high-strength layer structure according to the present invention;

FIG. 4 is a schematic diagram of an assembled structure of a chain block and a connecting block in the present invention;

FIG. 5 is a schematic view of a partial enlarged structure at A in FIG. 2;

fig. 6 is a schematic view of the internal structure of the conveyor belt according to the present invention.

In the figure: 1. a conveyor belt; 2. a reinforcing tape; 3. a chain belt; 4. a joint block; 5. abutting blocks; 101. a PU layer; 102. a fabric core layer; 201. a connection layer; 301. chain blocks; 302. a first connection block; 303. a second connection block; 304. perforating; 305. positioning the lantern ring; 306. a fixed collar; 307. a positioning pin; 401. and a connection groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which some, but not all embodiments of the invention are shown.

Referring to fig. 1-5, the present invention provides a technical solution: the fabric core PU high-strength conveyer belt comprises a conveyer belt 1, wherein the conveyer belt 1 comprises a reinforcing belt 2 and a chain belt 3, the conveyer belt 1 is sequentially provided with a fabric core layer 102 and a PU layer 101 from inside to outside, the reinforcing belt 2 comprises a connecting layer 201, the connecting layer 201 is tightly connected with the fabric core layer 102, and the chain belt 3 comprises symmetrically arranged chain blocks 301, a first connecting block 302, a second connecting block 303 and a positioning pin 307;

the two ends of one side of the chain block 301, the first connecting block 302 and the second connecting block 303 which are positioned on the same straight line are respectively provided with through holes 304 in a penetrating way, the two ends of the periphery of the chain block 301 are respectively connected with positioning lantern rings 305 in a rotating way, the two ends of the periphery of the first connecting block 302 are respectively connected with positioning lantern rings 305 and fixing lantern rings 306 in a rotating way, the positioning lantern rings 305 and the fixing lantern rings 306 which are positioned on the same straight line are respectively connected with positioning pins 307 in a penetrating way, the outer side surface of the connecting layer 201 is integrally formed with a connecting block 4 at equal intervals, and the inner side surface of the fabric core layer 102 is integrally formed with a supporting block 5 at equal intervals;

the fabric core layer 102 in the conveyer belt 1 is in press fit connection with the peripheral joint blocks 4 and the joint grooves 401 of the connecting layer 201 in the reinforcing belt 2 through the dense abutting blocks 5 and is integrally formed through the rubber adhesive, so that the contact surface between the fabric core layer 102 and the connecting layer 201 in the reinforcing belt 2 is increased, the connection stability of the fabric core layer 102 in the conveyer belt 1 and the connecting layer 201 is improved, the chain belts 3 in the reinforcing belt 2 are connected through the chain blocks 301, the first connecting blocks 302 and the second connecting blocks 303 and are positioned through the positioning pins 307 in a penetrating way, the connecting layer 201 in the reinforcing belt 2 is tightly connected with the net-shaped chain belts 3, the stability of the structural layer is high, the fabric core layer 102 in the conveyer belt 1 is tightly connected with the chain belts 3 in the reinforcing belt 2, and the connection stability of the structural layer in the conveyer belt 1 is improved.

Wherein, link up piece 4 peripheral one side equidistant and offered link up groove 401, link up groove 401 is the profile of tooth structure, fabric sandwich layer 102 is through supporting piece 5 and link up the mutual pressfitting of link up groove 401 in piece 4 in the peripheral link up piece of link up layer 201, fabric sandwich layer 102 in conveyer belt 1 is through intensive supporting piece 5 and the link up piece 4 fan link up groove 401 pressfitting of link up layer 201 in the enhancement zone 2 to through rubber adhesive integrated into one piece, realized that the contact surface increases between fabric sandwich layer 102 and the link up layer 201 in the enhancement zone 2, improved the fabric sandwich layer 102 in the conveyer belt 1 and link up layer 201 connection stability.

The chain blocks 301 are in V-shaped structures, one ends of the chain blocks 301 located on the same horizontal line extend into openings at one end of the adjacent chain blocks 301, the first connecting blocks 302 and the second connecting blocks 303 are in U-shaped structures, one ends of the first connecting blocks 302 and the second connecting blocks 303 located on the same horizontal line extend into openings at one end of the adjacent first connecting blocks 302 and one end of the second connecting blocks 303, one ends of the chain blocks 301 located on the same vertical line are mutually inserted and clamped with one end fixing collar 306 of the first connecting blocks 302 through positioning collars 305, one ends of the first connecting blocks 302 located on the same vertical line are mutually inserted and clamped with one end fixing collar 306 of the second connecting blocks 303 through the positioning collars 305, the first connecting blocks 302 and the second connecting blocks 303 are connected among the chain belts 3 in the reinforcing belt 2, and the connecting layers 201 in the reinforcing belt 2 are fixedly connected with the net-shaped chain belts 3 through positioning pins 307 in a penetrating mode, and the stability of the structural layers is high.

The fabric core layer 102 and the connecting layer 201 are integrally formed through rubber adhesives, the fabric core layer 102 in the conveying belt 1 is in press fit connection with the connecting grooves 401 of the connecting layer 201 in the reinforcing belt 2 through the dense abutting blocks 5, and the contact surface between the fabric core layer 102 and the connecting layer 201 in the reinforcing belt 2 is increased through the rubber adhesives, so that the connection stability of the fabric core layer 102 and the connecting layer 201 in the conveying belt 1 is improved.

The periphery of the chain belt 3 is integrally formed by wrapping the connecting layer 201, the periphery of the reinforcing belt 2 is integrally formed by wrapping the conveying belt 1, and the joint parts of the two ends of the chain belt 3 are integrally formed by hinging the PU layer 101, so that the tight connection between the fabric core layer 102 in the conveying belt 1 and the chain belt 3 in the reinforcing belt 2 is realized, and the connection stability of the structural layer in the conveying belt 1 is improved.

Working principle: when the connecting device is used, firstly, the fabric core layer 102 in the conveying belt 1 is in press fit connection with the connecting grooves 401 of the peripheral connecting blocks 4 of the connecting layer 201 in the reinforcing belt 2 through the dense abutting blocks 5, and the connecting layers 201 in the conveying belt 2 are integrally formed through rubber adhesives, so that the contact surface between the fabric core layer 102 and the connecting layers 201 in the conveying belt 1 is increased, the connection stability of the fabric core layer 102 and the connecting layers 201 in the conveying belt 1 is improved, secondly, the chain belts 3 in the conveying belt 2 are connected through the chain blocks 301, the first connecting blocks 302 and the second connecting blocks 303, and are in penetrating connection and positioning through the positioning pins 307, the connecting layers 201 in the reinforcing belt 2 are firmly connected with the net-shaped chain belts 3, the stability of the structural layers is high, and the fabric core layer 102 in the conveying belt 1 is tightly connected with the chain belts 3 in the reinforcing belt 2, so that the connection stability of the structural layers in the conveying belt 1 is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes and modifications may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Fabric core PU conveyer belt that excels in, including conveyer belt (1), its characterized in that: the conveyer belt (1) includes reinforcing belt (2), chain belt (3), conveyer belt (1) has set gradually fabric sandwich layer (102), PU layer (101) from interior to exterior, reinforcing belt (2) include tie-in layer (201), tie-in layer (201) with fabric sandwich layer (102) zonulae occludens, chain belt (3) are including chain piece (301) and first connecting block (302), second connecting block (303) and locating pin (307) that the symmetry set up, are located on the same straight line link piece (301), first connecting block (302), second connecting block (303) one side both ends have run through respectively and have offered perforation (304), the peripheral both ends of link piece (301) rotate respectively and are connected with location lantern ring (305), fixed lantern ring (306) are connected with in the rotation respectively at first connecting block (302) peripheral both ends, are located on the same straight line location lantern ring (305) with fixed lantern ring (306) through connection has locating pin (307), equidistant integrated into one piece (4) of joint in the tie-in layer (201), fabric sandwich layer (102) take shape equidistant integrated into one piece (5).

2. The fabric core PU high strength conveyor belt of claim 1, wherein: the connecting block (4) is characterized in that connecting grooves (401) are formed in one side of the periphery of the connecting block at equal intervals, and the connecting grooves (401) are of tooth-shaped structures.

3. The fabric core PU high strength conveyor belt of claim 2, wherein: the fabric core layer (102) is connected with the connecting grooves (401) in the peripheral connecting block (4) of the connecting layer (201) in a pressing mode through the abutting blocks (5).

4. A fabric core PU high strength conveyor belt according to claim 3, wherein: the chain blocks (301) are of V-shaped structures, and one ends of the chain blocks (301) located on the same horizontal line extend into openings at one ends of the adjacent chain blocks (301).

5. The fabric core PU high strength conveyor belt of claim 4, wherein: the first connecting block (302) and the second connecting block (303) are of U-shaped structures, and one ends of the first connecting block (302) and the second connecting block (303) which are positioned on the same horizontal line extend into openings at one ends of the adjacent first connecting block (302) and second connecting block (303).

6. The fabric core PU high strength conveyor belt of claim 5, wherein: one end of the chain block (301) positioned on the same vertical line is mutually inserted and clamped with a fixed collar (306) at one end of the first connecting block (302) through a positioning collar (305).

7. The fabric core PU high strength conveyor belt of claim 6, wherein: one end of the first connecting block (302) positioned on the same vertical line is mutually spliced and clamped with one end fixing collar (306) of the second connecting block (303) through a positioning collar (305).

8. The fabric core PU high strength conveyor belt of claim 7, wherein: the fabric core layer (102) and the connecting layer (201) are integrally formed through rubber adhesive.

9. The fabric core PU high strength conveyor belt of claim 8, wherein: the periphery of the chain belt (3) is wrapped and integrally formed through the connecting layer (201), and the periphery of the reinforcing belt (2) is wrapped and integrally formed through the conveying belt (1).

10. The fabric core PU high strength conveyor belt of claim 9, wherein: the joints at the two ends of the chain belt (3) are integrally formed through the hinging of the PU layer (101).