CN211077422U

CN211077422U - Remote sludge conveying device

Info

Publication number: CN211077422U
Application number: CN201921767718.8U
Authority: CN
Inventors: 宋朝阳; 王正伟; 范守华; 宋志刚; 褚东发; 杨燕华
Original assignee: China Tobacco Henan Industrial Co Ltd
Current assignee: China Tobacco Henan Industrial Co Ltd
Priority date: 2019-10-21
Filing date: 2019-10-21
Publication date: 2020-07-24
Anticipated expiration: 2029-10-21

Abstract

The utility model discloses a remote sludge conveying device, including pressure filter main part and mud transmission spare, wherein: the bottom of the filter press main body is provided with a first mud falling interface which is of a truncated cone structure with a wide upper part and a narrow lower part, and the wide-diameter end of the first mud falling interface is communicated with a mud outlet of the filter press main body; the sludge conveying part comprises a conveying pipe body, a driving part and helical blades, a conveying cavity extending horizontally is formed in the conveying pipe body, the helical blades are arranged in the conveying cavity, the central axis of the helical blades coincides with the axis of the conveying cavity, and the driving end of the driving part is connected with the first end of the helical blades to drive the helical blades to rotate. Compared with the prior art, the utility model discloses a set up the produced mud of pressure filter main part is carried to enclosed construction's mud transmission piece, realizes the remote pollution-free transmission of mud.

Description

Remote sludge conveying device

Technical Field

The utility model relates to a sludge treatment technical field, especially a remote sludge conveying device.

Background

A sewage station is built in cigarette enterprises, sludge generated by a filter press of the sewage station directly falls into a small cart, is manually pushed to a fixed storage point, consumes a large amount of manpower, and is transported away by an automobile for treatment; the sludge is conveyed to a fixed storage point through the conveying belt, but the conveying belt conveys the sludge, the sludge easily falls on the ground, and the odor of the sludge is greatly volatilized to indoor air to influence the environment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a remote sludge conveying device to solve the technical problem among the prior art.

The utility model provides a remote sludge conveying device, including pressure filter main part and mud transmission spare, wherein:

the bottom of the filter press main body is provided with a first mud falling interface which is of a truncated cone structure with a wide upper part and a narrow lower part, and the wide-diameter end of the first mud falling interface is communicated with a mud outlet of the filter press main body;

the sludge conveying piece comprises a conveying pipe body, a driving piece and a spiral blade, a conveying cavity extending horizontally begins in the conveying pipe body, the spiral blade is arranged in the conveying cavity, the central axis of the spiral blade is overlapped with the axis of the conveying cavity, the driving end of the driving piece is connected with the first end of the spiral blade to drive the spiral blade to rotate, and the second end of the spiral blade is rotatably connected to the side wall of the conveying cavity through a bearing;

the top of the transmission pipe body is provided with a second mud falling interface which is of a truncated cone structure with a wide upper part and a narrow lower part, the wide diameter end of the second mud falling interface is wrapped on the narrow diameter end of the first mud falling interface, and the narrow diameter end of the second mud falling interface is communicated with the feeding port of the transmission pipe body;

the bottom of transmission body is equipped with the third and falls the mud interface, the third falls the mud interface and is wide truncated cone structure narrow down, the third fall the wide footpath end of mud interface with the discharge gate intercommunication of transmission body.

As above remote sludge conveying device, wherein, the preferred still including baffle, extension spring and travel switch, the baffle articulate in the wide footpath end of mud interface is fallen to the second, the baffle deviate from the one end of first mud interface that falls with the extension spring is connected, the other end of extension spring with the inner wall connection of mud interface is fallen to the second, so that the baffle seals when the first position the wide footpath end of mud interface is fallen to the second, travel switch with driving piece signal connection, when the baffle rotates to the second position, the last contact of travel switch with the baffle butt, travel switch signals gives the driving piece is in order to drive helical blade rotates.

In the above remote sludge conveying apparatus, preferably, the driving member is a driving motor, the driving motor is fixed on the outer wall surface of the conveying pipe body, and an output shaft of the driving motor penetrates through the wall surface of the conveying pipe body and is connected to the helical blade.

The remote sludge conveying device as described above, wherein preferably, the transmission pipe body is formed by covering an upper casing and a lower casing, the bottom wall of the upper casing is turned outwards and horizontally to form an upper flange, the top wall of the lower casing is turned outwards and horizontally to form a lower flange, and the corresponding positions of the upper flange and the lower flange are provided with fixing through holes.

The remote sludge conveying device is preferably configured such that the bottom of the conveying pipe body is provided with a retractable support.

In the above remote sludge conveying apparatus, preferably, a plurality of sludge conveying members are provided, a discharge port of the sludge conveying member at the front end of the conveying path corresponds to a feed port of the adjacent sludge conveying member at the rear end of the conveying path, and two adjacent sludge conveying members are arranged at a predetermined angle.

The remote sludge conveying device is characterized in that the sludge conveying pieces are arranged at two positions, and the two adjacent sludge conveying pieces are arranged at 90 degrees.

Compared with the prior art, the utility model discloses a set up the produced mud of pressure filter main part is carried to enclosed construction's mud transmission piece, and the mud that the pressure filter main part produced falls into the first mud interface that falls through a mud mouth, then during mud falls into the second mud interface that falls of transmission body, and then gets into the recess of the helical blade in the transmission cavity, the drive end of driving piece with helical blade connects in order to drive helical blade rotates, and helical blade's outside has the housing of transmission body to do the protection, and the transmission body can prevent that mud from dropping ground and reducing the smell and volatilizing to the air to play the safety protection effect. The driving piece work in-process drives helical blade constantly at the transport cavity internal rotation simultaneously, helical blade's center has the axle except the top of being connected with the output of driving piece, middle main part all does not have the axle, helical blade has certain width and thickness, and helical blade is just like the screw thread like this or like the drill bit of electric drill to iron fillings from drilling output the same, and the continuous mud of in the recess of helical blade is impeld backward at rotatory in-process, and mud falls the mud interface from the third at last and falls the mud storage point. Realize the long-distance pollution-free transmission of the sludge.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a plan view of the present invention.

Description of reference numerals: 1-a filter press main body, 2-a sludge transmission piece, 3-a first sludge falling interface, 4-a transmission pipe body, 5-a helical blade, 6-a transmission cavity, 7-a second sludge falling interface, 8-a third sludge falling interface, 9-a baffle, 10-a tension spring, 11-a travel switch, 12-a driving motor, 13-an upper shell, 14-a lower shell, 15-an upper flanging, 16-a lower flanging, 17-a fixed through hole and 18-a support body.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1 and 2, the embodiment of the present invention provides a remote sludge conveying device, which comprises a filter press main body 1 and a sludge transmission member 2, wherein:

the bottom of pressure filter main part 1 is equipped with the first mud interface 3 that falls, the first mud interface 3 that falls is the truncated cone structure of narrow down wide, the first wide footpath end that falls mud interface 3 with the mud outlet intercommunication of pressure filter main part 1 to receive the mud that falls from mud outlet, the first mud interface 3 that falls is Y shape structure, can avoid mud spill, the polluted environment in transportation process like this.

The sludge transfer member 2 comprises a transfer pipe body 4, a driving member and a helical blade 5, wherein the transfer pipe body 4 is in a transverse cylindrical structure, one end of the transfer pipe body 4 receives sludge from the filter press main body 1 and transfers the sludge to a sludge storage point, and sludge transfer in the period is surrounded by a cylinder body of the transfer pipe body 4, so that sludge odor and splash pollution are isolated.

A conveying cavity 6 extending horizontally is formed in the conveying pipe body 4, the helical blade 5 is arranged in the conveying cavity 6, the central axis of the helical blade 5 is overlapped with the axis of the conveying cavity 6, a groove for carrying and conveying sludge is formed between the outer wall surface of the helical blade 5 and the inner wall surface of the conveying cavity 6, the driving end of the driving piece is connected with the first end of the helical blade 5 to drive the helical blade 5 to rotate, and the second end of the helical blade 5 is rotatably connected to the side wall of the conveying cavity 6 through a bearing (not shown); the driving part drives the helical blade 5 to rotate continuously in the conveying cavity 6 in the working process of the driving part, the center of the helical blade 5 is provided with a shaft except the top end connected with the output end of the driving part, the middle main body part is not provided with a shaft, the helical blade 5 has certain width and thickness, thus the helical blade 5 outputs iron chips from a drill hole just like a thread or a drill bit of an electric drill, and the helical blade 5 continuously pushes mud in the groove backwards in the rotating process.

A second mud dropping interface 7 is arranged at the top of the transmission pipe body 4, the second mud dropping interface 7 is of a truncated cone structure with a wide upper part and a narrow lower part, the wide diameter end of the second mud dropping interface 7 is wrapped on the narrow diameter end of the first mud dropping interface 3, and the narrow diameter end of the second mud dropping interface 7 is communicated with the feeding port of the transmission pipe body 4; the second sludge falling interface 7 is of a Y-shaped structure, so that the sludge can be prevented from splashing in the conveying process and polluting the environment.

The bottom of transmission body 4 is equipped with the third and falls mud interface 8, the third falls mud interface 8 and is wide truncated cone structure narrow down, the third fall the mud interface 8 the wide footpath end with the discharge gate intercommunication of transmission body 4. The third sludge falling interface 8 is of a Y-shaped structure, so that the sludge can be prevented from splashing in the conveying process and polluting the environment.

Above-mentioned embodiment carries the produced mud of pressure filter main part 1 through the mud transmission piece 2 that sets up the enclosed construction, and the mud that pressure filter main part 1 produced falls into first mud interface 3 that falls through a mud mouth, then during mud falls into mud interface 7 of the second of transmission body 4, and then gets into the recess of helical blade 5 in the transport cavity 6, the drive end of driving piece with helical blade 5 is connected in order to drive helical blade 5 rotates, and helical blade 5's outside has the housing of transmission body 4 to do the protection, and transmission body 4 can prevent that mud from dropping ground and reduce the smell and volatilize to the air in to play the safety protection effect. Drive helical blade 5 constantly at 6 internal rotations of transport cavity at the driving piece course of work simultaneously, helical blade 5's center has the axle except the top of being connected with the output of driving piece, middle main part all does not have the axle, helical blade 5 has certain width and thickness, helical blade 5 is just like the screw thread or like the drill bit of electric drill is the iron fillings from drilling output like this, helical blade 5 is continuous in rotatory process impels the mud in the recess backward, mud falls mud from the third at mud storage point that falls 8 interface at last. Realize the long-distance pollution-free transmission of the sludge.

Further, still including baffle 9, extension spring 10 and travel switch 11, baffle 9 articulate in the second falls the wide footpath end of mud interface 7, the deviation of baffle 9 the first one end that falls mud interface 3 with extension spring 10 is connected, the other end of extension spring 10 with the second falls the interior wall connection of mud interface 7, so that baffle 9 seals when the first position the second falls the wide footpath end of mud interface 7, travel switch 11 with driving piece signal connection, when baffle 9 rotates to the second position, contact on the travel switch 11 with baffle 9 butt, travel switch 11 sends the signal and gives the driving piece is in order to drive helical blade 5 rotates.

Under the normal state, when the pressure filter does not produce mud, namely when baffle 9 is in the first position of rotatory stroke, extension spring 10 is in the natural state, baffle 9 has sealed second mud interface 7 that falls, baffle 9 breaks away from with the contact of travel switch 11, and the driving piece does not receive the signal this moment, does not operate, and mud that the pressure filter of sewage station produced falls to second mud interface 7 from first mud interface 3 that falls, pushes away baffle 9, and extension spring 10 is elongated at this moment and accumulates elastic restoring force, and when baffle 9 was rotated to the second position, contact on the travel switch 11 with baffle 9 butt, travel switch 11 sends the signal and gives the driving piece in order to drive helical blade 5 rotates. The contact can stretch out and draw back in the travel switch 11, and when the sludge amount is large, the baffle 9 pushes the contact to move towards the travel switch 11, so that the baffle 9 can be opened completely. When the compressor does not produce sludge, the elastic restoring force of the tension spring 10 is released, the baffle plate 9 is pulled back to the initial state, and the baffle plate 9 closes the second sludge falling interface 7 again.

Further, the driving part is a driving motor 12, the driving motor 12 is fixed on the outer wall surface of the transmission pipe body 4, and an output shaft of the driving motor 12 penetrates through the wall surface of the transmission pipe body 4 and then is connected with the helical blade 5. Driving motor 12 and travel switch 11 signal connection, travel switch 11 output signal gives driving motor 12, drives helical blade 5 constantly rotatory simultaneously at driving motor 12 constantly rotatory in-process, and helical blade 5 constantly impels the mud in the recess backward at rotatory in-process, and mud falls at the mud storage point from the terminal third of transmission body 4 interface 8 of mud that falls at last.

Further, the transmission pipe 4 is formed by covering an upper shell 13 and a lower shell 14, the bottom wall of the upper shell 13 is turned outwards and horizontally to form an upper flange 15, the top wall of the lower shell 14 is turned outwards and horizontally to form a lower flange 16, and fixing through holes 17 are formed in corresponding positions of the upper flange 15 and the lower flange 16.

The bolt pieces penetrate through the upper flanging 15 and the lower flanging 16 and are uniformly distributed with a plurality of fixing through holes 17 to combine the upper shell 13 and the lower shell 14 into a whole, so that the transmission pipe body 4 is convenient to open, and the inner helical blade 5 and the conveying cavity 6 are washed or maintained.

Further, the bottom of the conveying pipe body 4 is provided with a telescopic supporting body 18. The conveying pipe body 4 is supported on the ground by the supporting body 18, the height of the supporting body 18 is adjusted according to the required height of the conveying pipe body 4, and the supporting body 18 plays a role in reinforcing and stabilizing the conveying pipe body 4.

Further, if the sludge storage point is far away from the filter press, even if an obstacle exists between the sludge storage point and the filter press, the sludge cannot be conveyed in a straight line, and two or more sludge conveying pieces 2 can be adopted to convey the sludge to the storage point in a relay manner. Specifically, the sludge conveying pieces 2 are provided with a plurality of sludge conveying pieces, a discharge port of the sludge conveying piece 2 at the front end of the conveying path corresponds to a feed port of the adjacent sludge conveying piece 2 at the rear end of the conveying path, and the two adjacent sludge conveying pieces 2 are arranged at a set angle. In this embodiment, two sludge conveying pieces 2 are provided, and two adjacent sludge conveying pieces 2 are arranged at 90 degrees.

The structure, features and effects of the present invention have been described in detail above according to the embodiment shown in the drawings, and the above description is only the preferred embodiment of the present invention, but the present invention is not limited to the implementation scope shown in the drawings, and all changes made according to the idea of the present invention or equivalent embodiments modified to the same changes should be considered within the protection scope of the present invention when not exceeding the spirit covered by the description and drawings.

Claims

1. The remote sludge conveying device is characterized by comprising a filter press main body and a sludge transmission piece, wherein:

2. The remote sludge conveying device according to claim 1, further comprising a baffle plate, a tension spring and a travel switch, wherein the baffle plate is hinged to the wide-diameter end of the second sludge falling port, one end of the baffle plate, which is away from the first sludge falling port, is connected with the tension spring, the other end of the tension spring is connected with the inner wall of the second sludge falling port, so that the baffle plate closes the wide-diameter end of the second sludge falling port when in the first position, the travel switch is in signal connection with the driving member, when the baffle plate rotates to the second position, a contact on the travel switch is abutted to the baffle plate, and the travel switch sends a signal to the driving member to drive the helical blade to rotate.

3. The remote sludge conveying device as claimed in claim 1, wherein the driving member is a driving motor fixed on the outer wall surface of the conveying pipe body, and an output shaft of the driving motor is connected with the helical blade after passing through the wall surface of the conveying pipe body.

4. The remote sludge conveying device as claimed in claim 1, wherein the transmission pipe body is formed by covering an upper shell and a lower shell, the bottom wall of the upper shell is folded outwards and horizontally to form an upper flange, the top wall of the lower shell is folded outwards and horizontally to form a lower flange, and fixing through holes are formed in corresponding positions of the upper flange and the lower flange.

5. The remote sludge conveying apparatus according to claim 1, wherein the bottom of the conveying pipe body is provided with a telescopic support body.

6. The remote sludge conveying device according to claim 1, wherein a plurality of sludge conveying members are provided, the discharge port of the sludge conveying member at the front end of the conveying path corresponds to the feed port of the adjacent sludge conveying member at the rear end of the conveying path, and the adjacent sludge conveying members are arranged at a predetermined angle.

7. The remote sludge conveying apparatus according to claim 6, wherein two sludge conveying members are provided, and two adjacent sludge conveying members are arranged at 90 degrees.