CN218619251U - Anti-blocking device of pipe chain conveyor - Google Patents

Abstract

The utility model discloses anti-blocking technical field specifically is a pipe chain conveyor anti-blocking device, including charge-in port, charge-in port is inside to be equipped with rather than rotate to be connected prevent stifled loose device, and prevent that the top of preventing stifled loose device extends the storage portion on charge-in port's inboard upper portion, and the bottom is located charge-in port's discharge end department, prevents stifled loose device and passes through pulley drive and be connected with outside drive arrangement. The top that will prevent stifled loose device extends the storage portion on the inboard upper portion of feed port, the bottom is located the discharge end department of feed port, when preventing stifled loose device and move under drive arrangement's drive, can be located the material of storage portion and carry to the discharge end department of feed port, prevent stifled loose device and rotate the continuous material of disturbing of in-process, make it be difficult to the pile up state of remain stable, and make "empty drum" enlarge to be difficult to support the weight of accumulational material, thereby collapse, rotate by preventing stifled loose device again and stabilize the transported substance material.

Description

Anti-blocking device of pipe chain conveyor

Technical Field

The utility model relates to an anti-blocking technical field specifically is a pipe chain conveyor anti-blocking device.

Background

The pipe chain conveyor is a continuous conveying device for conveying powder, small granular, small block and other bulk materials, can be horizontally, obliquely and vertically combined for conveying, and can better realize smooth conveying of the materials under common conditions. However, when the water content of the conveyed materials is high and the fluidity of the materials is extremely poor, the conventional pipe chain conveyor is easy to block, and the use is further influenced.

The patent publication No. CN213294101U is an anti-blocking pipe chain conveyor, and in order to solve the blocking problem of the pipe chain conveyor, a reciprocating chain is utilized to drive a stirring part, so that materials are loosened, and the materials are prevented from being accumulated at a feeding hole. However, the anti-blocking and loosening device only depends on the reciprocating shifting piece to send the materials at the material inlet to the conveying pipe machine body, the materials at the material inlet cannot be loosened and are easy to accumulate at the material inlet, and the communicated part of the anti-blocking and loosening device and the conveying pipe machine body forms 'hollowing', so that the blocking problem still exists.

Disclosure of Invention

The utility model aims at overcoming current stifled loose device of preventing to have the hollowing easily at loose in-process, and then lead to blockking up the technical problem that still exists, provide a pipe chain conveyor anti-blocking device, the device blocks up loose effectual advantage.

The utility model provides a pipe chain conveyer anti-blocking device, includes feed port, the inside anti-blocking loose device that is connected rather than rotating that is equipped with of feed port, just the top of preventing blocking loose device extends the storage portion on feed port's inboard upper portion, the bottom is located feed port's discharge end department, prevent blocking loose device and pass through pulley drive and be connected with outside drive arrangement, in order to realize prevent blocking loose device and be in act in the feed port.

Preferably, prevent stifled loose device from the bottom up and stretch including being located in proper order first loose portion, driving medium, the loose portion of second and the top of feed port's discharge end department straightens the loose portion of third of storage portion, just first loose portion, driving medium, the loose portion of second and the loose portion of third connect gradually.

Preferably, the first loosening part comprises a plurality of first disturbing plates distributed in an annular part, the first disturbing plates are located in the middle and protrude towards the inner side of the feeding port to form a first protruding part, the bottom ends of the first disturbing plates are connected with the top surface of the first limiting ring, and the top ends of the first disturbing plates are connected with the bottom surface of the transmission member.

Preferably, the transmission part is an annular plate body, the upper surface and the lower surface of the transmission part are rotatably connected with the feeding port, a plurality of discharge holes are annularly distributed on a surface body positioned on the inner side of the feeding port, and the outer side edge of the discharge hole extends to the outer side of the feeding port and is connected with the belt wheel.

Preferably, the second loosening portion comprises a plurality of second disturbing plates distributed in an annular portion, the second disturbing plates are located in the middle and protrude towards the inner side of the feeding port to form a second protruding portion, the bottom ends of the second disturbing plates are connected with the top surface of the transmission member, and the top ends of the second disturbing plates are connected with the bottom surface of the second limiting ring.

Preferably, the third loosening part comprises a plurality of third disturbing plates which are annularly arranged, and the bottom ends of the third disturbing plates are rotatably connected with the top surface of the second limiting ring.

Preferably, the upper portion of the third disturbance plate is bent to form a certain included angle with the lower portion.

Preferably, the bending directions of the upper parts of the adjacent third perturbation plates are opposite.

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

in this application, the top that will prevent stifled loose device extends the storage portion on the inboard upper portion of feedstock port, the bottom is located feedstock port's discharge end department, when preventing stifled loose device and when acting under drive arrangement's drive, can be located the material of storage portion and carry to feedstock port's discharge end department, prevent stifled loose device and rotate the continuous material of disturbing of in-process, make it be difficult to the stable state of piling up, and make "empty drum" enlarge to being difficult to support the weight of accumulational material, thereby collapse, rotate by preventing stifled loose device again and stabilize the transported substance material.

Drawings

Fig. 1 is a front view of an anti-blocking device of a pipe chain conveyor according to an embodiment of the invention;

FIG. 2 isbase:Sub>A cross-sectional view taken at A-A of FIG. 1;

fig. 3 is a bottom view of an anti-blocking device of a pipe chain conveyor according to an embodiment of the invention;

FIG. 4 is a cross-sectional view taken at B-B of FIG. 3;

fig. 5 is a schematic overall structure diagram of an anti-blocking and loosening device in an anti-blocking device of a pipe chain conveyor according to an embodiment of the invention;

fig. 6 is a side view of an anti-blocking device for a pipe chain conveyor according to an embodiment of the invention.

In the figure: 1. a feed port; 2. an anti-blocking loosening device; 21. a first loose part; 211. a first disturbance plate; 212. a first projecting portion; 213. a first limit ring; 22. a transmission member; 23. a second loose part; 231. a second disturbance plate; 232. a second projection; 233. a second stop collar; 24. a third loose part; 241. a third disturbance plate; 25. a discharge hole; 26. a pulley; 3. and a storing part.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the present invention is not limited to the specific embodiments of the present disclosure.

In an embodiment of the present disclosure, with reference to the accompanying drawings, an anti-blocking device for a pipe chain conveyor may include: feed port 1, prevent stifled loose device 2 and storage portion 3. Wherein, 1 inside being equipped with rather than rotating the stifled loose device 2 of preventing of being connected of charge-in port, and the top of preventing stifled loose device 2 extends the storage portion 3 on the inboard upper portion of charge-in port 1, and the bottom is located the discharge end department of charge-in port 1, prevents stifled loose device 2 and is connected with outside drive arrangement through band pulley drive mechanism to realize preventing stifled loose device 2 and move in charge-in port 1. It is specific, the material firstly gets into storage portion 3, again by inlet port 1 to the inside pay-off of conveyer, and the higher material of water content may just appear piling up in storage portion 3 in transportation process, for this reason, in this application, the top that will prevent stifled loose device 2 extends storage portion 3 on inlet port 1's inboard upper portion, the bottom is located inlet port 1's discharge end department, when preventing stifled loose device 2 and move under drive arrangement's drive, can be located the material of storage portion 3 and carry to inlet port 1's discharge end department, prevent stifled loose device 2 and rotate the continuous disturbance to the material of in-process, make it be difficult to keep stable heap state, and make "empty drum" enlarge to the weight that is difficult to support accumulational material, thereby collapse, rotate stable transport material by preventing stifled loose device 2 again.

In order to further explain the structure of the anti-block and anti-loosening device 2, so that the technical scheme of the application can be fully understood by the technical personnel in the field. In this embodiment, prevent stifled loose device 2 from the bottom up and include first loose portion 21, driving medium 22, the loose portion 23 of second and the third loose portion 24 of top straightening storage portion 3 that are located the discharge end department of charge port 1 in proper order, and first loose portion 21, driving medium 22, the loose portion 23 of second and third loose portion 24 connect gradually. Specifically, the first loose part 21 and the second loose part 23 mainly disturb the material inside the feed port 1 and are spaced apart from the inner wall of the feed port 1 so as to interfere therewith. The material of the loose portion 24 of third to the hookup location department of feedstock port 1 and storage portion 3 carries out the disturbance for in the material is changeed and is got into feedstock port 1, the loose portion 24 of third can also make "empty drum" enlarge to being difficult to support the weight of accumulational material in addition, thereby collapse, avoid the material to pile up and can not fall down at stifled loose device 2. The transmission member 22 is in transmission connection with a driving device and is used for driving the first loosening part 21, the second loosening part 23 and the third loosening part 24 to move so as to disturb the material.

In this embodiment, in order to make the first loosening portion 21 better disturb the material at the discharge end of the feeding port 1, the first loosening portion 21 includes a plurality of first disturbing plates 211 distributed as annular portions, the first disturbing plates 211 are located at the middle positions and protrude towards the inner side of the feeding port 1 to form a first protruding portion 212, the bottom ends of the first disturbing plates 211 are connected to the top surface of the first limiting ring 213, and the top ends of the first disturbing plates are connected to the bottom surface of the transmission member 22. Specifically, the transmission member 22 drives the first disturbing plate 211 to rotate, and the first protruding portion 212 located at the middle portion of the first disturbing plate sweeps a larger cross section when rotating, so as to disturb more materials, and to enable the materials to move downwards better. Preferably, the first disturbance plate 211 is obliquely disposed so as to push the material to flow downward. The first limiting ring 213 is provided to stabilize the posture of the first disturbance plate 211 and enhance the overall structural strength of the first loosening portion 21, so as to stably push the material.

In this embodiment, the driving member 22 is an annular plate, the upper and lower surfaces of which are rotatably connected to the feeding port 1, the feeding port 1 above the driving member is fixed by an additional support frame, a plurality of discharge holes 25 are annularly distributed on the surface body located inside the feeding port 1, and the outer side edge of the discharge hole extends to the outer side of the feeding port 1 and is connected to the belt pulley 26. The transmission member 22 is rotatably connected to the feeding port 1, so that the first loosening portion 21, the second loosening portion 23 and the third loosening portion 24 can be synchronously moved under the driving of the driving device. The discharge opening 25 is arranged to avoid material being intercepted by the transmission member 22. The pulley 26 is provided to facilitate the driving connection of the transmission member 22 to the drive.

In this embodiment, the second loosening portion 23 includes a plurality of second disturbance plates 231 distributed in a ring shape, the second disturbance plates 231 are located at the middle position and all protrude towards the inner side of the feeding port 1 to form a second protrusion 232, the bottom ends of the second disturbance plates 231 are all connected with the top surface of the transmission member 22, and the top ends of the second disturbance plates are all connected with the bottom surface of the second limiting ring 233. Specifically, the driving member 22 drives the second disturbing plate 231 to rotate, and the second protruding portion 232 located at the middle portion thereof sweeps a larger cross section during rotation, so as to disturb more materials, and to enable the materials to move downward better. Preferably, the second projection 232 is obliquely disposed so as to push the material to flow downward. The second limiting ring 233 is provided to stabilize the posture of the second disturbance plate 231 and enhance the overall structural strength of the second loosening portion 23, so as to stably push the material.

In this embodiment, the third loosening portion 24 includes a plurality of third disturbing plates 241 arranged in a ring shape, and the bottom ends of the third disturbing plates 241 are rotatably connected to the top surface of the second stopper ring 233. Specifically, when the transmission member 22 drives the third disturbing plate 241 to rotate, the third disturbing plate 241 disturbs the material at the connection position between the feeding port 1 and the material storage portion 3, so that the material is more likely to enter the feeding port 1. Preferably, the third interference plate 241 has an upper portion bent to form an angle with a lower portion. Because the internal diameter of storage portion 3 is greater than the inside internal diameter of feedstock port 1, for the disturbance material that the third disturbance board 241 that makes to be arranged in storage portion 3 can be better, so buckle its upper portion, and the kink is parallel with the transition position of being connected of storage portion 3 and feedstock port 1. Further, in order to increase the disturbance range of the third disturbance plate 241, it is preferable that the bending directions of the upper portions of the adjacent third disturbance plates 241 are opposite.

The utility model provides a technical scheme, the top that will prevent stifled loose device 2 extends the storage portion 3 on the inboard upper portion of inlet port 1, the bottom is located the discharge end department of inlet port 1, when preventing stifled loose device 2 when the drive of drive arrangement moves down, can be with the material that is located in storage portion 3 to the discharge end department of inlet port 1 carry, prevent stifled loose device 2 rotating the continuous material of in-process and disturbing, make it be difficult to the stable state of piling up, and make "empty drum" enlarge to the weight that is difficult to support accumulational material, thereby collapse, rotate stable transported substance material by preventing stifled loose device 2 again.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes, without departing from the technical spirit of the present invention, and any simple modification, equivalent change and change made to the above embodiments according to the technical spirit of the present invention still belong to the protection scope of the technical spirit of the present invention.

Claims (8)

1. The utility model provides a pipe chain conveyor anti-blocking device, a serial communication port, including inlet port (1), inlet port (1) inside is equipped with rather than rotate and is connected prevents stifled loose device (2), just the top of preventing stifled loose device (2) extends storage portion (3) on the inboard upper portion of inlet port (1), the bottom is located the discharge end department of inlet port (1), prevent stifled loose device (2) and be connected with outside drive arrangement through belt pulley drive mechanism, in order to realize prevent stifled loose device (2) and be in act in inlet port (1).

2. The pipe chain conveyor anti-blocking device according to claim 1, wherein the anti-blocking and loosening device (2) sequentially comprises a first loosening part (21), a transmission part (22), a second loosening part (23) and a third loosening part (24) which are located at the discharge end of the feed port (1) from bottom to top and are straightened at the top end of the storage part (3), and the first loosening part (21), the transmission part (22), the second loosening part (23) and the third loosening part (24) are sequentially connected.

3. The pipe chain conveyor blockage preventing device according to claim 2, wherein the first loose part (21) comprises a plurality of first disturbance plates (211) distributed in an annular part, the first disturbance plates (211) are arranged in the middle and protrude towards the inner side of the feeding port (1) to form a first protruding part (212), the bottom ends of the first disturbance plates (211) are connected with the top surface of the first limiting ring (213), and the top ends of the first disturbance plates are connected with the bottom surface of the transmission part (22).

4. The pipe chain conveyor anti-blocking device according to claim 2, wherein the transmission member (22) is an annular plate body, the upper surface and the lower surface of the annular plate body are rotatably connected with the feeding port (1), a plurality of discharge holes (25) are annularly distributed on a surface body positioned on the inner side of the feeding port (1), and the outer side edge of the discharge hole extends to the outer side of the feeding port (1) and is connected with a belt wheel (26).

5. The anti-blocking device for the pipe chain conveyor according to claim 2, wherein the second loose part (23) comprises a plurality of second disturbance plates (231) distributed in an annular part, the second disturbance plates (231) are arranged at the middle position and protrude towards the inner side of the feed port (1) to form a second protruding part (232), the bottom ends of the second disturbance plates (231) are connected with the top surface of the transmission member (22), and the top ends of the second disturbance plates are connected with the bottom surface of the second limiting ring (233).

6. The anti-blocking device for the pipe chain conveyor according to claim 5, wherein the third loosening part (24) comprises a plurality of third disturbing plates (241) which are annularly arranged, and the bottom ends of the third disturbing plates (241) are rotatably connected with the top surface of the second limiting ring (233).

7. The anti-blocking device of the pipe chain conveyor according to claim 6, wherein the upper part of the third disturbing plate (241) is bent to form an included angle with the lower part.

8. The anti-blocking device of the pipe chain conveyor according to claim 7, wherein the bending directions of the upper parts of the adjacent third disturbing plates (241) are opposite.

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