CN216104231U - Stainless steel mesh belt conveyor - Google Patents

Abstract

The utility model relates to a stainless steel mesh belt conveyor, which belongs to the technical field of conveying devices and comprises two groups of supporting frames arranged at intervals and a mesh belt bearing plate arranged between the two groups of supporting frames, wherein the mesh belt bearing plate is provided with a plurality of supporting frames at intervals along the length direction of the supporting frames, guide rails are arranged at intervals on the upper side of the mesh belt bearing plate, a conveying plate chain is arranged on the upper side of each guide rail, and a driving assembly for controlling the conveying plate chain to move is arranged at one end of each supporting frame; a first interval exists between the guide rail and the support frame; and a cleaning device for cleaning the conveying plate chain is arranged on the support frame and positioned at the lower side of the conveying plate chain. Through adopting above-mentioned technical scheme, be difficult to accumulate the defective material in conveying plate chain transportation process, and wash the defective material on the conveying plate chain easily.

Description

Stainless steel mesh belt conveyor

Technical Field

The utility model belongs to the technical field of conveying devices, and particularly relates to a stainless steel mesh belt conveyor.

Background

In the mechanized development process of making wine in traditional trade, it is one of them most common mode to adopt stainless steel mesh belt to carry among each link material transportation process, but among the present stainless steel mesh belt project organization, have in the material transportation process in both sides gyro wheel and in the chain upper and lower guide rail and the chain reverse side residual material of piling up easily, though carry out some rows and wash, chain reverse side and surrounding material can obtain the clearance of certain degree, but there are a large amount of aggregates in conveyer belt upper and lower guide rail and the support frame, because of chain structural design defect, the material is difficult to the clean up, there is the infectious microbe risk in the use of going round and round, cause very big influence to the wine quality, influence equipment availability factor and life simultaneously.

SUMMERY OF THE UTILITY MODEL

In view of the problems in the prior art, an object of the present invention is to provide a stainless steel mesh belt conveyor, which is not easy to accumulate the residue during the conveying process of the conveyor plate chain and is easy to clean the residue on the conveyor plate chain.

In order to achieve the above object of the present invention, the present invention provides a technical solution as follows:

a stainless steel mesh belt conveyor comprises two groups of support frames arranged at intervals and a mesh belt bearing plate arranged between the two groups of support frames, wherein a plurality of mesh belt bearing plates are arranged at intervals along the length direction of the support frames, guide rails are arranged at intervals on the upper sides of the mesh belt bearing plates, a conveying plate chain is arranged on the upper sides of the guide rails, and a driving assembly for controlling the conveying plate chain to move is arranged at one end of each support frame; a first interval exists between the guide rail and the support frame; and a cleaning device for cleaning the conveying plate chain is arranged on the support frame and positioned at the lower side of the conveying plate chain.

Preferably, the conveying plate chain comprises support shafts arranged at intervals and chain plates rotatably connected between the adjacent support shafts, and chains are arranged at two ends of each support shaft; the chain comprises idler wheels sleeved at two ends of the supporting shaft, and a chain sheet is arranged between every two adjacent idler wheels; a second interval exists between the chain and the two ends of the chain plate; the driving assembly drives the chain to move.

Preferably, the mesh belt bearing plate comprises an upper bearing plate and a lower bearing plate, the guide rail comprises an upper guide rail and a lower guide rail, the upper guide rail is positioned on the upper bearing plate, and the lower guide rail is arranged on the lower bearing plate; the conveying plate chain can be abutted to the upper-layer guide rail or the lower-layer guide rail in the moving process, the upper-layer guide rail and/or the upper side of the lower-layer guide rail are/is arranged on the limiting plate, and the limiting plate is used for limiting the chain.

Preferably, the first interval distance is 40mm-60 mm; and/or the second separation distance is 20-30 mm.

Preferably, one end of the supporting frame in the length direction is provided with a scraper for scraping materials on the upper side of the conveying plate chain.

Preferably, the lower guide rail comprises two sections which are arranged at intervals, and the cleaning device is arranged between the lower guide rails; the cleaning device comprises a water receiving bucket, a cleaning assembly and a blowing assembly are arranged on the inner side of the water receiving bucket, the cleaning assembly and the blowing assembly are arranged at intervals in the horizontal direction, and supporting wheels are arranged on the lower guide rail and close to the two sides of the water receiving bucket respectively.

Preferably, the cleaning assembly comprises a first cleaning pipe and a second cleaning pipe which are arranged in parallel, first nozzles are arranged on the first cleaning pipe at intervals along the length direction, second nozzles are arranged on the second cleaning pipe at intervals along the length direction, and the water outlet ends of the first nozzles and the second nozzles face one side between the first cleaning pipe and the second cleaning pipe respectively; the water inlet ends of the first cleaning pipe and the second cleaning pipe penetrate through the side wall of the water receiving hopper, a water supply structure is arranged on the outer side of the water receiving hopper, and a water return opening is formed in the bottom of the water receiving hopper.

Preferably, the blowing assembly comprises a first air knife and a second air knife which are arranged in parallel, and air outlets of the first air knife and the second air knife are respectively positioned at one side close to each other; the first air knife, the second air knife, the first cleaning pipe and the second cleaning pipe are arranged in parallel; one end of the first air knife and one end of the second air knife are provided with fixed rods, and the other ends of the first air knife and the second air knife are provided with air inlets; the fixed rod is detachably connected with the water receiving hopper, and the air inlet is connected with a fan.

Preferably, the driving assembly comprises a driving motor and a chain wheel arranged on an output shaft of the driving motor, and the chain wheel is meshed with the chain.

The utility model provides a stainless steel mesh belt conveyor which is supported by a conveying plate chain on the upper side of a guide rail, and the conveying plate chain conveys materials. In the process of conveying materials, materials are prevented from being left between the roller and the support frame in the conveying process due to the first interval arranged between the support frame and the guide rail. Through setting up the second interval between link joint and gyro wheel, can be effective, quick when wasing the conveying plate chain wash forward, the reverse residual material of plate chain.

Drawings

FIG. 1 is a schematic structural view of a stainless steel mesh belt conveyor according to the present invention;

FIG. 2 is a schematic view of a protruded guide rail in a stainless steel mesh belt conveyor of the present invention;

FIG. 3 is a front view of a stainless steel mesh belt conveyor of the present invention;

FIG. 4 is a partial schematic view of a protruded rail in a stainless steel mesh belt conveyor of the present invention;

FIG. 5 is a schematic view of a protruded conveyor plate chain in a stainless steel mesh belt conveyor of the present invention;

FIG. 6 is a schematic view of a protrusion driving assembly in a stainless steel mesh belt conveyor according to the present invention;

FIG. 7 is a top view of the protruding cleaning means in the stainless steel mesh belt conveyor of the present invention;

FIG. 8 is a schematic view of a protruded water receiving hopper in a stainless steel mesh belt conveyor of the present invention;

FIG. 9 is a schematic view of a second air knife protruding from a stainless steel mesh belt conveyor according to the present invention;

FIG. 10 is a schematic view showing the cleaning of a protruded plate link in a stainless steel mesh belt conveyor according to the present invention.

Reference numbers in the figures:

100. a support frame;

200. a mesh belt bearing plate; 210. an upper bearing plate; 220. a lower bearing plate;

300. a guide rail; 310. a first interval; 320. an upper side guide rail; 330. a lower guide rail; 340. a limiting plate;

400. a conveyor chain; 410. a support shaft; 420. a chain plate; 430. a chain; 431. a roller; 432. a chain sheet; 433. a second interval;

500. a drive assembly; 510. a drive motor; 520. a sprocket;

600. a cleaning device; 610. a water receiving hopper; 611. a water return port; 620. cleaning the assembly; 621. a first cleaning pipe; 622. a second cleaning pipe; 623. a first nozzle; 624. a second nozzle; 630. a blowing assembly; 631. a first air knife; 632. a second air knife; 633. fixing the rod; 634. an air inlet; 640. a support wheel; 700. a scraper.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

The utility model provides a stainless steel mesh belt conveyor, which comprises two groups of supporting frames 100 arranged at intervals and a mesh belt bearing plate 200 arranged between the two groups of supporting frames 100, wherein the mesh belt bearing plate 200 is arranged at intervals along the length direction of the supporting frames 100, guide rails 300 are arranged at intervals on the upper side of the mesh belt bearing plate 200, a conveying plate chain 400 is arranged on the upper side of the guide rails 300, and a driving assembly 500 for controlling the conveying plate chain 400 to move is arranged at one end of each supporting frame 100; a cleaning device 600 for cleaning the conveyor chain 400 is provided on the support frame 100 and below the conveyor chain 400. When the material cleaning device is used, materials to be conveyed are placed on the conveying plate chain 400, the conveying plate chain 400 is driven to be driven through the driving assembly 500, materials on the upper side of the conveying plate chain are conveyed in the driving process, and the conveying plate chain 400 after the materials are conveyed can be cleaned through the cleaning device 600.

A first space 310 exists between the guide rail 300 and the support frame 100; wherein the distance of the first interval 310 may be set to 40mm-60 mm; through the first interval 310, the remnant on the conveyer chain 400 can be cleaned and washed conveniently during the use process.

The conveying plate chain 400 comprises support shafts 410 arranged at intervals and chain plates 420 rotatably connected between the adjacent support shafts 410, wherein chains 430 are arranged at two ends of the support shafts 410; the chain 430 comprises rollers 431 sleeved at two ends of the supporting shaft 410, and a chain sheet 432 is arranged between every two adjacent rollers 431; a second space 433 exists between the chain 430 and both ends of the link plate 420. Wherein the distance of the second interval 433 is 20-30 mm. Through the second interval 433 that sets up, in carrying the material, be difficult to the residual material between link joint 420 and gyro wheel 431, conveniently wash the plate link chain simultaneously.

The driving assembly 500 moves the chain 430. The driving assembly 500 includes a driving motor 510 and a sprocket 520 provided on an output shaft of the driving motor 510, the sprocket 520 being engaged with the chain 430.

The mesh belt bearing plate 200 comprises an upper bearing plate 210 and a lower bearing plate 220, the guide rail 300 comprises an upper side guide rail 320 and a lower side guide rail 330, the upper side guide rail 320 is positioned on the upper bearing plate 210, and the lower side guide rail 330 is arranged on the lower bearing plate 220; the conveying plate chain 400 can abut against the upper-layer guide rail 300 or the lower-layer guide rail 300 in the moving process, the upper side of the upper-layer guide rail 300 and/or the lower-layer guide rail 300 is arranged on the limiting plate 340, and the limiting plate 340 limits the chain 430.

A scraper 700 for scraping the material on the upper side of the conveyor chain 400 is provided at one end of the support frame 100 in the longitudinal direction. During transport, as material is conveyed to the end, it is scraped off of the conveyor chain 400 by the scraper 700.

The lower guide rail 300 comprises two sections which are arranged at intervals, and a cleaning device 600 is arranged between the two sections of the lower guide rail 300; cleaning device 600 is including receiving water bucket 610, and the inboard of receiving water bucket 610 is provided with cleaning assembly 620 and subassembly 630 of blowing, and cleaning assembly 620 and subassembly 630 of blowing set up along the horizontal direction interval, and the both sides that just are close to receiving water bucket 610 on lower floor's guide rail 300 set up supporting wheel 640 respectively, and wherein, supporting wheel 640 connects chain 430.

The cleaning assembly 620 comprises a first cleaning pipe 621 and a second cleaning pipe 622 which are arranged in parallel, wherein first nozzles 623 are arranged on the first cleaning pipe 621 at intervals along the length direction, second nozzles 624 are arranged on the second cleaning pipe 622 at intervals along the length direction, and the water outlet ends of the first nozzles 623 and the second nozzles 624 respectively face to one side between the first cleaning pipe 621 and the second cleaning pipe 622; the water inlet ends of the first cleaning pipe 621 and the second cleaning pipe 622 penetrate through the side wall of the water receiving bucket 610, the outer side of the water receiving bucket 610 is provided with a water supply structure, and the bottom of the water receiving bucket 610 is provided with a water return port 611.

The blowing assembly 630 includes a first air knife 631 and a second air knife 632 which are arranged in parallel, and air outlets of the first air knife 631 and the second air knife 632 are respectively located at one side close to each other; the first air knife 631, the second air knife 632, the first cleaning pipe 621 and the second cleaning pipe 622 are arranged in parallel; one end of the first air knife 631 and the second air knife 632 is provided with a fixing rod 633, and the other end is provided with an air inlet 634; the fixing rod 633 is detachably connected with the water receiving hopper 610, and the air inlet 634 is connected with a fan.

When the material cleaning device is used, materials to be conveyed are placed on the upper side of the conveying plate chain 400 to be conveyed, the materials are scraped from the conveying plate chain 400 through the scraping plate 700, material residues are bonded on the conveying plate chain 400 after the conveying plate chain 400 is separated from the materials, the conveying plate chain 400 is continuously conveyed, and after the materials pass through the water receiving hopper 610, the materials are cleaned on the inner side of the water receiving hopper 610.

The present invention provides a stainless steel mesh belt conveyor, which is supported by a conveyor plate chain 400 provided on the upper side of a guide rail 300, and the conveyor plate chain 400 conveys materials. During the transportation of the material, the material is prevented from remaining between the roller 431 and the supporting frame 100 during the transportation due to the first space 310 between the supporting frame 100 and the guide rail 300. Through the second interval 433 arranged between the chain plate 420 and the roller 431, residual materials in the forward direction and the reverse direction of the chain plate can be effectively and quickly cleaned when the conveying chain plate 400 is cleaned.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "front", "rear", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" 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 should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may include, for example, a fixed connection, a detachable connection, an integral connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection via an intermediate medium, and a communication between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The embodiments and features of the embodiments of the present invention may be combined with each other without conflict.

The above-mentioned embodiments only express the embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. A stainless steel mesh belt conveyor is characterized in that: comprises two groups of supporting frames (100) arranged at intervals and a mesh belt bearing plate (200) arranged between the two groups of supporting frames (100), wherein a plurality of mesh belt bearing plates (200) are arranged at intervals along the length direction of the supporting frames (100), guide rails (300) are arranged at intervals on the upper side of the mesh belt bearing plate (200),

a conveying plate chain (400) is arranged on the upper side of the guide rail (300), and a driving assembly (500) for controlling the conveying plate chain (400) to move is arranged at one end of the supporting frame (100);

a first space (310) exists between the guide rail (300) and the support frame (100);

and a cleaning device (600) for cleaning the conveying plate chain (400) is arranged on the support frame (100) and positioned at the lower side of the conveying plate chain (400).

2. The stainless steel mesh belt conveyor of claim 1, wherein: the conveying plate chain (400) comprises a plurality of supporting shafts (410) arranged at intervals and chain plates (420) rotatably connected between the adjacent supporting shafts (410), and chains (430) are arranged at two ends of the supporting shafts (410);

the chain (430) comprises rollers (431) sleeved at two ends of the supporting shaft (410), and a chain sheet (432) is arranged between every two adjacent rollers (431);

a second spacing (433) exists between the chain (430) and both ends of the link plate (420);

the driving assembly (500) drives the chain (430) to move.

3. The stainless steel mesh belt conveyor of claim 1, wherein: the mesh belt bearing plate (200) comprises an upper bearing plate (210) and a lower bearing plate (220), the guide rail (300) comprises an upper side guide rail (320) and a lower side guide rail (330), the upper side guide rail (320) is positioned on the upper bearing plate (210), and the lower side guide rail (330) is arranged on the lower bearing plate (220);

the conveying plate chain (400) can abut against the upper-layer guide rail (300) or the lower-layer guide rail (300) in the moving process, the upper-layer guide rail (300) and/or the upper side of the lower-layer guide rail (300) are arranged on the limiting plate (340), and the limiting plate (340) is used for limiting the chain (430).

4. The stainless steel mesh belt conveyor of claim 1, wherein: the distance of the first interval (310) is 40mm-60 mm; and/or the distance of the second spacing (433) is 20-30 mm.

5. The stainless steel mesh belt conveyor of claim 1, wherein: and one end of the supporting frame (100) in the length direction is provided with a scraper (700) for scraping materials on the upper side of the conveying plate chain (400).

6. The stainless steel mesh belt conveyor of claim 1, wherein: the lower guide rail (300) comprises two sections which are arranged at intervals, and the cleaning device (600) is arranged between the lower guide rails (300);

cleaning device (600) is including connecing water bucket (610), the inboard that connects water bucket (610) is provided with washs subassembly (620) and subassembly (630) of blowing, wash subassembly (620) and subassembly (630) of blowing set up along the horizontal direction interval, just be close to on lower floor's guide rail (300) connect the both sides of water bucket (610) to be provided with supporting wheel (640) respectively.

7. The stainless steel mesh belt conveyor of claim 1, wherein: the cleaning assembly (620) comprises a first cleaning pipe (621) and a second cleaning pipe (622) which are arranged in parallel, first nozzles (623) are arranged on the first cleaning pipe (621) at intervals along the length direction, second nozzles (624) are arranged on the second cleaning pipe (622) at intervals along the length direction, and the water outlet ends of the first nozzles (623) and the second nozzles (624) respectively face one side between the first cleaning pipe (621) and the second cleaning pipe (622); the water inlet ends of the first cleaning pipe (621) and the second cleaning pipe (622) penetrate through the side wall of the water receiving bucket (610), a water supply structure is arranged on the outer side of the water receiving bucket, and a water return opening (611) is formed in the bottom of the water receiving bucket (610).

8. The stainless steel mesh belt conveyor of claim 1, wherein: the air blowing assembly (630) comprises a first air knife (631) and a second air knife (632) which are arranged in parallel, and air outlets of the first air knife (631) and the second air knife (632) are respectively positioned on one side close to each other;

the first air knife (631), the second air knife (632), the first cleaning pipe (621) and the second cleaning pipe (622) are arranged in parallel;

one end of the first air knife (631) and one end of the second air knife (632) are provided with fixing rods (633), and the other ends of the first air knife and the second air knife are provided with air inlets (634);

the fixed rod (633) is detachably connected with the water receiving hopper (610), and the air inlet (634) is connected with a fan.

9. The stainless steel mesh belt conveyor of claim 1, wherein: the driving assembly (500) comprises a driving motor (510) and a chain wheel (520) arranged on an output shaft of the driving motor (510), wherein the chain wheel (520) is meshed with the chain (430).

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