CN112707146A

CN112707146A - Conveyer belt apparatus for producing of ability batch production

Info

Publication number: CN112707146A
Application number: CN202011537796.6A
Authority: CN
Inventors: 区宁仪
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-23
Filing date: 2020-12-23
Publication date: 2021-04-27

Abstract

The invention provides a conveyor belt production device capable of realizing batch production, relates to the technical field of assembly lines, and solves the problem that intermittent feeding cannot be realized through the movement linkage of a conveyor belt through structural improvement; can not realize supplementary heat dissipation when just moulding plastics the end back part and conveying, and supplementary heat radiation structure can not realize the problem of organic linkage work with feeding structure. A conveyor belt production device capable of realizing batch production comprises a conveyor belt frame body and a storage box; the conveying belt frame body is provided with a feeding structure, and the feeding structure is provided with a driving structure. The stirring block B is welded on the rotating shaft B, and is in elastic contact with the rear end face of the rectangular plate, and the stirring block B forms a continuous stirring structure of the rectangular plate, so that continuous stirring of the rectangular plate can be realized when the stirring block B rotates along with the rotating shaft B, and then auxiliary heat dissipation of parts can be realized through the reciprocating motion of the rectangular plate.

Description

Conveyer belt apparatus for producing of ability batch production

Technical Field

The invention belongs to the technical field of production lines, and particularly relates to a conveyor belt production device capable of realizing batch production.

Background

The assembly line conveying device is a common means for transferring workpieces between stations and connecting the stations together in sequence.

As in application No.: CN201210270256.5, the invention provides a conveyor belt triggering device for an automatic flow production line, which comprises a conveying device and a plurality of sensing control devices, wherein the conveying device comprises a plurality of conveyor belts, each conveyor belt is correspondingly provided with one sensing control device, so that when a workpiece slides to one conveyor belt, the sensing control devices on the conveyor belts can sense and start the next conveyor belt to rotate, and further drive the workpiece to move forwards, thereby not only saving power cost and manpower, but also improving the working efficiency.

The transfer line similar to the above application currently has the following drawbacks:

one is that although the existing device can realize intermittent feeding, most of the existing devices are driven by an electric element, and the intermittent feeding cannot be realized through the linkage of the movement of a conveyor belt through structural improvement; moreover, can not realize supplementary heat dissipation when just moulding plastics the end after the part and conveying, and supplementary heat radiation structure can not realize organic linkage work with feeding structure.

In view of the above, the present invention provides a conveyor belt manufacturing apparatus capable of mass production, which is developed and improved in view of the existing structure and defects, so as to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a conveyor belt production device capable of mass production, which aims to solve the problems that although the existing device can realize intermittent feeding, most of the existing devices are driven by an electric element, and the existing devices cannot realize intermittent feeding through the movement linkage of a conveyor belt through structural improvement; moreover, can not realize supplementary heat dissipation when just moulding plastics the end after the part and conveying, and supplementary heat radiation structure can not realize the problem of organic linkage work with feeding structure.

The invention relates to a conveyor belt production device capable of realizing batch production, which is realized by the following specific technical means:

a conveyor belt production device capable of realizing batch production comprises a conveyor belt frame body and a storage box; the conveying belt frame body is provided with a feeding structure, the feeding structure is provided with a driving structure, and the driving structure is provided with a heat dissipation structure; the driving structure is also provided with an auxiliary structure; the feeding structure comprises a force receiving arm, and the force receiving arm is welded on the feeding seat; the driving structure comprises a shifting block A, the shifting block A is welded on the rotating shaft A and is in elastic contact with the stressed arm, and the shifting block A forms a continuous shifting structure of the stressed arm; the distance between the storage box outlet and the transmission belt main body is 5cm, the thickness of the material block is 5cm, and the thickness of the feeding seat pushing head is 5 cm.

Furthermore, the conveyor belt frame body comprises supporting legs, a main conveyor belt body, a storage box and a material block, four supporting legs are welded at the bottom of the conveyor belt frame body, and the main conveyor belt body is connected in the conveyor belt frame body in a sliding mode; the conveying belt frame body is fixedly connected with a material storage box through bolts, and material blocks are placed in the material storage box in a rectangular array shape.

Furthermore, the feeding structure comprises two sliding rods A, a stop block, a feeding seat and an elastic piece A, the two sliding rods A are symmetrically welded on the storage box, and the two sliding rods A are of stepped shaft-shaped structures; a stop block is welded on each of the two sliding rods A, and the two sliding rods A are connected with a feeding seat in a sliding manner; an elastic piece A is sleeved on each of the two sliding rods A, and the two elastic pieces A jointly form an elastic reset structure of the feeding seat.

Furthermore, the conveying belt frame body also comprises a tooth row, the tooth row is made of rubber materials, and the tooth row is welded on the top end face of the main body of the conveying belt; the driving structure comprises a rotating seat, a rotating shaft A and a gear A, the rotating seat is welded on the storage box, and the rotating seat is rotatably connected with the rotating shaft A; and a gear A is arranged on the rotating shaft A and is meshed with the gear row.

Further, the heat dissipation structure comprises a rotating shaft B, blades and a gear B, wherein the rotating shaft B is rotatably connected to the rotating seat, the gear B is mounted on the rotating shaft B, and the gear B is meshed with the gear A; the rotating shaft B is welded with blades in a rectangular array shape, and the blades in the rectangular array shape jointly form a heat dissipation type structure of the part.

Furthermore, the auxiliary structure comprises two sliding rods B, rectangular plates and elastic pieces B, the two sliding rods B are symmetrically welded on the rotating seat, and the rectangular plates are connected to the two sliding rods B in a sliding mode; two slide bar B are the step shaft column structure, and all sliding connection has an elastic component B on two slide bar B to two elastic component B have constituteed the elasticity reset structure of rectangular plate jointly.

Furthermore, the heat dissipation structure further comprises a stirring block B, the stirring block B is welded on the rotating shaft B and is in elastic contact with the rear end face of the rectangular plate, and the stirring block B forms a continuous stirring structure of the rectangular plate.

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

through the cooperation setting of conveyer belt support body and feeding structure, can realize intermittent type formula feeding automatically when the drive belt main part removes, specifically as follows: firstly, the rotating seat is welded on the storage box, and the rotating seat is rotatably connected with a rotating shaft A; the rotating shaft A is provided with a gear A which is meshed with the gear row, so that the rotating shaft A can rotate when the transmission belt main body moves; secondly, the shifting block A is welded on the rotating shaft A, and is in elastic contact with the force-bearing arm, and the shifting block A forms a continuous shifting structure of the force-bearing arm, so that the reciprocating motion of the feeding seat is realized, and the intermittent feeding is further realized; thirdly, because of the distance between the storage box outlet and the main body of the transmission belt is 5cm, the thickness of the material block is 5cm, and the thickness of the pushing head of the feeding seat is also 5cm, thereby ensuring the intermittent feeding.

Through the arrangement of the heat dissipation structure and the auxiliary structure, firstly, blades are welded on the rotating shaft B in a rectangular array manner, and the blades welded in the rectangular array manner jointly form the heat dissipation type structure of the part; secondly, the two sliding rods B are of stepped shaft-shaped structures, the two sliding rods B are connected with an elastic piece B in a sliding mode, and the two elastic pieces B jointly form an elastic reset structure of the rectangular plate; the stirring block B is welded on the rotating shaft B, and is in elastic contact with the rear end face of the rectangular plate, and the stirring block B forms a continuous stirring structure of the rectangular plate, so that continuous stirring of the rectangular plate can be realized when the stirring block B rotates along with the rotating shaft B, and then auxiliary heat dissipation of parts can be realized through the reciprocating motion of the rectangular plate.

Drawings

Fig. 1 is a schematic axial view of the present invention.

Fig. 2 is a schematic axial view of the present invention in another direction of fig. 1.

Fig. 3 is an enlarged schematic view of fig. 2 at a.

Fig. 4 is an enlarged schematic view of fig. 2B according to the present invention.

Fig. 5 is an enlarged view of the structure of fig. 2C according to the present invention.

FIG. 6 is a schematic cross-sectional view of a cartridge and feeding structure according to the present invention.

Fig. 7 is an enlarged view of fig. 6D according to the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a conveyor belt frame; 101. supporting legs; 102. a belt body; 103. a tooth row; 104. a storage box; 105. a material block; 2. a feed structure; 201. a slide bar A; 202. a stopper; 203. a feeding seat; 204. an elastic member A; 205. a force-bearing arm; 3. a drive structure; 301. a rotating seat; 302. a rotating shaft A; 303. a gear A; 304. a toggle block A; 4. a heat dissipation structure; 401. a rotating shaft B; 402. a blade; 403. a gear B; 404. a toggle block B; 5. an auxiliary structure; 501. a slide bar B; 502. a rectangular plate; 503. and an elastic member B.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 7:

the invention provides a conveyor belt production device capable of realizing batch production, which comprises a conveyor belt frame body 1 and a storage box 104; the conveying belt frame body 1 is provided with a feeding structure 2, the feeding structure 2 is provided with a driving structure 3, and the driving structure 3 is provided with a heat dissipation structure 4; the driving structure 3 is also provided with an auxiliary structure 5; referring to fig. 2, the feeding structure 2 comprises a force-receiving arm 205, and the force-receiving arm 205 is welded on the feeding base 203; the driving structure 3 comprises a toggle block A304, the toggle block A304 is welded on the rotating shaft A302, the toggle block A304 is in elastic contact with the stress arm 205, and the toggle block A304 forms a continuous toggle structure of the stress arm 205, so that reciprocating motion of the feeding seat 203 is realized, and intermittent feeding is further realized; referring to fig. 6 and 7, the distance between the outlet of the magazine 104 and the belt body 102 is 5cm, the thickness of the slug 105 is 5cm, and the thickness of the pusher of the feed shoe 203 is also 5cm, so that intermittent feeding is ensured.

Referring to fig. 6, the conveyor belt frame body 1 comprises supporting legs 101, a main belt body 102, a storage box 104 and a material block 105, four supporting legs 101 are welded at the bottom of the conveyor belt frame body 1, and the main belt body 102 is slidably connected in the conveyor belt frame body 1; the conveyor belt frame body 1 is fixedly connected with a material storage box 104 through bolts, and material blocks 105 are placed in the material storage box 104 in a rectangular array.

Referring to fig. 2 and 3, the feeding structure 2 includes two sliding rods a201, a stopper 202, a feeding seat 203 and an elastic member a204, the two sliding rods a201 are symmetrically welded on the magazine 104, and both the two sliding rods a201 are stepped shaft-shaped structures; a stop block 202 is welded on each of the two sliding rods A201, and a feeding seat 203 is connected on each of the two sliding rods A201 in a sliding manner; an elastic piece A204 is sleeved on each of the two sliding rods A201, and the two elastic pieces A204 jointly form an elastic reset structure of the feeding seat 203.

Referring to fig. 2 and 4, the belt frame body 1 further includes a tooth row 103, the tooth row 103 is made of rubber, and the tooth row 103 is welded to the top end surface of the belt main body 102; the driving structure 3 comprises a rotating seat 301, a rotating shaft A302 and a gear A303, the rotating seat 301 is welded on the storage box 104, and the rotating seat 301 is rotatably connected with the rotating shaft A302; a gear A303 is mounted on the shaft A302, and the gear A303 meshes with the row of teeth 103, so that rotation of the shaft A302 is achieved when the belt body 102 is moved.

Referring to fig. 2, the heat dissipating structure 4 includes a rotating shaft B401, a blade 402 and a gear B403, the rotating shaft B401 is rotatably connected to the rotating base 301, the gear B403 is mounted on the rotating shaft B401, and the gear B403 is engaged with the gear a 303; blades 402 are welded on the rotating shaft B401 in a rectangular array manner, and the blades 402 welded in the rectangular array manner jointly form a heat dissipation type structure of the part.

Referring to fig. 2 and 5, the auxiliary structure 5 includes two sliding rods B501, a rectangular plate 502 and an elastic member B503, the two sliding rods B501 are symmetrically welded on the rotating base 301, and the rectangular plate 502 is slidably connected to the two sliding rods B501; the two sliding rods B501 are both of a stepped shaft-shaped structure, and the two sliding rods B501 are both connected with an elastic piece B503 in a sliding manner, and the two elastic pieces B503 jointly form an elastic reset structure of the rectangular plate 502.

Referring to fig. 2 and 5, the heat dissipation structure 4 further includes a toggle block B404, the toggle block B404 is welded on the rotating shaft B401, and the toggle block B404 is in elastic contact with the rear end face of the rectangular plate 502, and the toggle block B404 constitutes a continuous toggle structure of the rectangular plate 502, so that when the toggle block B404 rotates along with the rotating shaft B401, continuous toggling of the rectangular plate 502 can be realized, and further, auxiliary heat dissipation of parts can be realized through the reciprocating motion of the rectangular plate 502.

The specific use mode and function of the embodiment are as follows:

when the belt conveyor is used, when the belt conveyor main body 102 moves, the rotating seat 301 is welded on the material storage box 104, and the rotating seat 301 is rotatably connected with a rotating shaft A302; a gear A303 is mounted on the rotating shaft A302, and the gear A303 is meshed with the gear row 103, so that the rotating shaft A302 can rotate when the belt main body 102 moves; secondly, the toggle block A304 is welded on the rotating shaft A302, the toggle block A304 is in elastic contact with the stress arm 205, and the toggle block A304 forms a continuous toggle structure of the stress arm 205, so that the reciprocating motion of the feeding seat 203 is realized, and the intermittent feeding is further realized; thirdly, the distance between the outlet of the storage box 104 and the main belt body 102 is 5cm, the thickness of the material block 105 is 5cm, and the thickness of the pushing head of the feeding seat 203 is 5cm, so that the intermittent feeding can be ensured;

during heat dissipation, firstly, the blades 402 are welded on the rotating shaft B401 in a rectangular array shape, and the blades 402 welded in the rectangular array shape jointly form a heat dissipation type structure of the part; secondly, the two sliding rods B501 are of a stepped shaft-shaped structure, the two sliding rods B501 are connected with an elastic piece B503 in a sliding manner, and the two elastic pieces B503 jointly form an elastic reset structure of the rectangular plate 502; the toggle block B404 is welded on the rotating shaft B401, the toggle block B404 is in elastic contact with the rear end face of the rectangular plate 502, and the toggle block B404 forms a continuous toggle structure of the rectangular plate 502, so that when the toggle block B404 rotates along with the rotating shaft B401, continuous toggle of the rectangular plate 502 can be realized, and further, auxiliary heat dissipation of parts can be realized through reciprocating motion of the rectangular plate 502;

in the use process, firstly, two sliding rods A201 are arranged, the two sliding rods A201 are symmetrically welded on the storage box 104, and the two sliding rods A201 are both in a stepped shaft-shaped structure; a stop block 202 is welded on each of the two sliding rods A201, and a feeding seat 203 is connected on each of the two sliding rods A201 in a sliding manner; an elastic piece A204 is sleeved on each of the two sliding rods A201, and the two elastic pieces A204 jointly form an elastic reset structure of the feeding seat 203; secondly, the tooth row 103 is made of rubber, and the tooth row 103 is welded on the top end surface of the transmission belt main body 102; the driving structure 3 comprises a rotating seat 301, a rotating shaft A302 and a gear A303, the rotating seat 301 is welded on the storage box 104, and the rotating seat 301 is rotatably connected with the rotating shaft A302; a gear A303 is mounted on the rotating shaft A302, and the gear A303 is meshed with the gear row 103, so that the rotating shaft A302 can rotate when the belt main body 102 moves; thirdly, two sliding rods B501 are arranged, the two sliding rods B501 are symmetrically welded on the rotating seat 301, and the two sliding rods B501 are connected with a rectangular plate 502 in a sliding manner; the two sliding rods B501 are both of a stepped shaft-shaped structure, and the two sliding rods B501 are both connected with an elastic piece B503 in a sliding manner, and the two elastic pieces B503 jointly form an elastic reset structure of the rectangular plate 502.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a conveyer belt apparatus for producing that can batch production which characterized in that: comprises a conveyor belt frame body (1) and a storage box (104); the conveying belt frame body (1) is provided with a feeding structure (2), the feeding structure (2) is provided with a driving structure (3), and the driving structure (3) is provided with a heat dissipation structure (4); an auxiliary structure (5) is further mounted on the driving structure (3); the feeding structure (2) comprises a force receiving arm (205), and the force receiving arm (205) is welded on the feeding seat (203); the driving structure (3) comprises a toggle block A (304), the toggle block A (304) is welded on the rotating shaft A (302), the toggle block A (304) is in elastic contact with the force receiving arm (205), and the toggle block A (304) forms a continuous toggle structure of the force receiving arm (205); the distance between the outlet of the storage box (104) and the main belt body (102) is 5cm, the thickness of the material block (105) is 5cm, and the thickness of the pushing head of the feeding seat (203) is 5 cm.

2. A mass-producible conveyor belt production apparatus according to claim 1, wherein: the conveying belt frame body (1) comprises supporting legs (101), a conveying belt main body (102), a storage box (104) and a material block (105), four supporting legs (101) are welded at the bottom of the conveying belt frame body (1), and the conveying belt main body (102) is connected in the conveying belt frame body (1) in a sliding mode; the conveying belt frame body (1) is fixedly connected with a material storage box (104) through bolts, and material blocks (105) are placed in the material storage box (104) in a rectangular array shape.

3. A mass-producible conveyor belt production apparatus according to claim 1, wherein: the feeding structure (2) comprises two sliding rods A (201), a stop block (202), a feeding seat (203) and an elastic piece A (204), the two sliding rods A (201) are symmetrically welded on the storage box (104), and the two sliding rods A (201) are of stepped shaft-shaped structures; a stop block (202) is welded on each of the two sliding rods A (201), and a feeding seat (203) is connected on each of the two sliding rods A (201) in a sliding manner; an elastic piece A (204) is sleeved on each of the two sliding rods A (201), and the two elastic pieces A (204) jointly form an elastic reset structure of the feeding seat (203).

4. A mass-producible conveyor belt production apparatus according to claim 1, wherein: the conveying belt frame body (1) further comprises a tooth row (103), the tooth row (103) is made of rubber, and the tooth row (103) is welded to the top end face of the conveying belt main body (102); the driving structure (3) comprises a rotating seat (301), a rotating shaft A (302) and a gear A (303), the rotating seat (301) is welded on the storage box (104), and the rotating seat (301) is rotatably connected with the rotating shaft A (302); and a gear A (303) is installed on the rotating shaft A (302), and the gear A (303) is meshed with the gear row (103).

5. A mass-producible conveyor belt production apparatus according to claim 1, wherein: the heat dissipation structure (4) comprises a rotating shaft B (401), blades (402) and a gear B (403), the rotating shaft B (401) is rotatably connected to the rotating seat (301), the gear B (403) is mounted on the rotating shaft B (401), and the gear B (403) is meshed with the gear A (303); blades (402) are welded on the rotating shaft B (401) in a rectangular array mode, and the blades (402) welded in the rectangular array mode jointly form a heat dissipation type structure of the part.

6. A mass-producible conveyor belt production apparatus according to claim 1, wherein: the auxiliary structure (5) comprises two sliding rods B (501), rectangular plates (502) and elastic pieces B (503), the two sliding rods B (501) are symmetrically welded on the rotating seat (301), and the rectangular plates (502) are connected on the two sliding rods B (501) in a sliding mode; two slide bar B (501) are ladder shaft column structure, and all sliding connection has an elastic component B (503) on two slide bar B (501), and two elastic component B (503) have constituteed the elasticity of rectangular plate (502) jointly and have reset the structure.

7. A mass-producible conveyor belt production apparatus according to claim 1, wherein: the heat dissipation structure (4) further comprises a toggle block B (404), the toggle block B (404) is welded on the rotating shaft B (401), the toggle block B (404) is in elastic contact with the rear end face of the rectangular plate (502), and the toggle block B (404) forms a continuous toggle structure of the rectangular plate (502).