CN213856106U

CN213856106U - Multi-rope traction warehouse cleaning machine

Info

Publication number: CN213856106U
Application number: CN202022282083.1U
Authority: CN
Inventors: 刘红生; 宁庆涛; 廖承龙
Original assignee: Huaqiao University
Current assignee: Huaqiao University
Priority date: 2020-10-14
Filing date: 2020-10-14
Publication date: 2021-08-03
Anticipated expiration: 2030-10-14

Abstract

The utility model discloses a multi-rope traction warehouse cleaning machine, wherein a plurality of tractors simultaneously control the traction ropes corresponding to each tractor to adjust the circumferential position of a cantilever beam in a warehouse, and further adjust the circumferential position of a cleaning head in the warehouse; simultaneously, this clear storehouse machine hangs receiving and releasing of rope in order to adjust the height of cleaning head in the storehouse through hoist engine control cleaning head, because the end of cantilever beam supports through many traction rope, make the cantilever beam, the weight of cleaning head all bears through many traction rope, can know the cantilever beam according to lever principle and need not to bear or bear the weight of cleaning head rarely, can guarantee that the cantilever beam can clean the operation for a long time and can not be because bear risks such as the fracture takes place for the oversize, the important can increase the cantilever beam by a wide margin under the prerequisite of guaranteeing normal use, reduce cantilever beam external diameter and wall thickness by a wide margin, can make the cleaner adapt to the cement storehouse of the bigger radius scope and clean, can reduce clear storehouse machine weight by a wide margin simultaneously.

Description

Multi-rope traction warehouse cleaning machine

Technical Field

The utility model belongs to the technical field of cement industry mechanical equipment, especially, relate to a clear storehouse of machine is pull to many ropes.

Background

The cement is a powdery hydraulic inorganic cementing material, which is added with water and stirred into slurry, can be hardened in the air or in water better, and can firmly cement sand, stone and other materials together, thus being one of important building materials. Cement plants generally store cement in a cement warehouse, cement is hardened on the inner wall of the cement warehouse due to the reasons of water leakage, climate influence, temperature difference between the inside and the outside of the cement warehouse, and as time increases, cement boards on the inner wall of the cement warehouse are continuously thickened, so that the volume of the cement warehouse is reduced, finally, the cement cannot flow out, the production is stopped due to material breakage, and the production efficiency of the cement is greatly influenced.

Aiming at the problem, the conventional method adopts manual cleaning, but cleaning caking is not thorough, the risk is great, casualty accidents often occur due to cleaning of a cement silo, and the cost are extremely high. The existing mechanical warehouse cleaning equipment has the disadvantages that the weight is overlarge, the weight of the equipment reaches about 3 tons, the equipment is difficult to disassemble, and a single part is overweight, so that great inconvenience is brought to transportation between different places of the mechanical warehouse cleaning equipment and transportation, installation and use from the ground to the top of a cement warehouse, and the use cost is overhigh. Therefore, the multi-rope traction warehouse cleaning machine is provided and designed, so that the weight of mechanical warehouse cleaning equipment is reduced greatly, meanwhile, the transportation of the equipment among different places, the transportation from the ground to the top of a cement warehouse, the installation, the use and the like are simplified greatly, and the cost can be reduced greatly.

SUMMERY OF THE UTILITY MODEL

The utility model provides a clear storehouse of machine of many ropes traction, it has overcome the not enough that the background art exists. The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a clear storehouse of multi-rope traction machine, is applicable to cement storehouse or other powder storehouse, and it includes rope drive mechanism, rotation supporting mechanism, hoist engine and cleaning head, wherein:

the rope traction mechanism comprises at least three tractors which are arranged at the top ends of a cement warehouse or other powder storehouses, and each tractor is provided with a corresponding traction rope;

the rotary supporting mechanism comprises a supporting frame, a vertical arm beam and a cantilever beam, the supporting frame is rotatably installed at the top end of the cement silo, the vertical arm beam is connected with the supporting frame, the cantilever beam is connected with the vertical arm beam, and each traction rope is connected with the tail end of the cantilever beam;

the winch is arranged on the support frame and rotates along with the rotation of the support frame, and is provided with a cleaning head suspension rope;

the support frame is provided with a first pulley, the vertical arm beam is provided with a second pulley, the tail end of the cantilever beam is provided with a third pulley, and the cleaning head suspension rope sequentially rounds the first pulley, the second pulley and the third pulley and then is connected with the cleaning head;

the winch can control the retraction of the suspension rope of the cleaning head to adjust the height of the cleaning head in the warehouse, and each tractor can control the retraction of the corresponding traction rope to adjust the circumferential position of the cantilever beam in the warehouse so as to adjust the circumferential position of the cleaning head in the warehouse.

In a preferred embodiment: the three tractors are evenly arranged in the circumferential direction of the cement silo at intervals, the cantilever beam and the vertical arm beam are vertically arranged, one end of the vertical arm beam is connected with the support frame, the other end of the vertical arm beam is connected with the transverse arm beam, the vertical arm beam is located at the center of the tractors, the tail end of the cantilever beam is provided with a connecting portion, and each traction rope is connected with the connecting portion.

In a preferred embodiment: the cantilever beam is suspended by at least two traction ropes close to the cantilever beam, and other traction ropes far away from the cantilever beam are in a loose and unstressed state.

In a preferred embodiment: the rotary supporting mechanism further comprises a hollow bearing seat, the bearing seat is installed at the top end of the cement silo, the supporting frame is connected with the bearing seat, and the vertical arm beam penetrates through the bearing seat and then is connected with the supporting frame.

In a preferred embodiment: the cleaning head comprises a cleaning head cover, a cleaning motor and a chain, the cleaning head cover is connected with a cleaning head suspension rope, the cleaning motor is installed in the cleaning head cover, the chain is located outside the cleaning head cover and connected with the cleaning motor, and the chain rotates at a high speed under the driving of the cleaning motor to knock a cement block.

In a preferred embodiment: the cleaning motor is a hydraulic motor, the warehouse cleaning machine further comprises a hydraulic mechanism, the hydraulic mechanism comprises a hydraulic station and a first hydraulic pipe, the hydraulic station is installed at the top end of the cement warehouse, one end of the first hydraulic pipe is connected with the hydraulic station, and the other end of the first hydraulic pipe is connected with the cleaning motor after bypassing the winch.

In a preferred embodiment: the winch further comprises a hydraulic winch motor, the hydraulic mechanism further comprises a second hydraulic pipe, one end of the second hydraulic pipe is connected with the hydraulic station, and the other end of the second hydraulic pipe is connected with the hydraulic winch motor.

In a preferred embodiment: the hydraulic cleaning machine also comprises a main control cabinet, and the main control cabinet is connected with each tractor, the hydraulic hoisting motor and the cleaning motor.

Compared with the background technology, the technical scheme has the following advantages:

1. the warehouse cleaning machine adopts three or more than three tractors to simultaneously control the corresponding traction ropes so as to adjust the circumferential position of the cantilever beam in the warehouse and further adjust the circumferential position of the cleaning head in the warehouse; meanwhile, the warehouse cleaning machine controls the retraction and the release of the hanging rope of the cleaning head through the winch so as to adjust the height of the cleaning head in the warehouse, because the cantilever beam is supported by the plurality of traction ropes, the weights of the cantilever beam and the cleaning head are all loaded by the plurality of traction ropes, according to the lever principle, the cantilever beam does not need to bear the weight of the cleaning head or bears little weight, can ensure that the cantilever beam can be cleaned for a long time without the risk of fracture and the like caused by overlarge bearing, and importantly, the cantilever beam can be greatly increased and the outer diameter and the wall thickness of the cantilever beam can be greatly reduced on the premise of ensuring normal use, so that the sweeper can adapt to the cleaning of a cement silo with a larger radius range, meanwhile, the weight of the warehouse cleaning machine can be greatly reduced, the warehouse cleaning machine is convenient to transport among different places, transport from the ground to the top of a cement warehouse, install and use, and the manufacturing cost of the cleaning machine can be greatly reduced. And the cleaning head suspension rope sequentially winds around the first pulley, the second pulley and the third pulley and then is connected with the cleaning head, so that the cleaning head suspension rope is stable and not wound, and the cleaning head suspension rope and the cantilever beam are enabled to rotate synchronously.

2. The vertical beam is positioned at the center of the tractors, so that the cleaning head can rotate around the center of the cement silo under the action of the cantilever beam, and the whole inner wall of the cement silo can be cleaned by the cleaning head; the tail ends of the traction ropes are connected with the tail end connecting part of the cantilever beam, so that the traction ropes are located at the same position of the cantilever beam relative to a cantilever beam suspension point, and a plurality of tractors are controlled better.

3. The cantilever beam is hung through at least two traction ropes close to the cantilever beam, and other traction ropes far away from the cantilever beam are in a loose and unstressed state, so that the cantilever beam can be ensured to rotate under the action of the traction ropes.

4. The bearing seat can ensure the smooth rotation of the support frame.

5. The cleaning head adopts a chain to rotate at a high speed under the driving of the cleaning motor so as to beat cement agglomerates, vibration is generated in the beating process so as to lead the cement agglomerates to fall off, the cleaning is finally finished, and the mud and ash on the inner wall of the cement silo can also be knocked off together in the beating process, so that the ash cleaning step is omitted.

6. The cleaning motor adopts a hydraulic motor and is connected with the hydraulic station through a first hydraulic pipe, so that the power output of the cleaning motor can be ensured, and the cruising ability is strong.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic top view of a multi-rope drawing warehouse cleaning machine according to a preferred embodiment.

Fig. 2 is a schematic cross-sectional view of a multi-rope drawing warehouse cleaning machine according to a preferred embodiment.

Detailed Description

In the claims, the specification and the drawings, unless otherwise expressly limited, the terms "first," "second," or "third," etc. are used for distinguishing between different elements and not for describing a particular sequence.

In the claims, the specification and the drawings, unless otherwise expressly limited, to the extent that directional terms such as "center", "lateral", "longitudinal", "horizontal", "vertical", "top", "bottom", "inner", "outer", "upper", "lower", "front", "rear", "left", "right", "clockwise", "counterclockwise" and the like are used, the positional or orientational relationships illustrated in the drawings are based on the positional and orientational relationships illustrated in the drawings and are merely for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element so referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore should not be construed as limiting the scope of the present invention in any way.

In the claims, the description and the drawings of the present application, unless otherwise expressly limited, the terms "fixedly connected" and "fixedly connected" should be understood in a broad sense, i.e., any connection without displacement relationship or relative rotation relationship between the two, i.e., including non-detachable fixed connection, integrated connection and fixed connection by other devices or elements.

In the claims, the specification and drawings of the present invention, the terms "including", "having" and their variants, if used, are intended to be inclusive and not limiting.

Referring to fig. 1-2, a preferred embodiment of a multi-rope-traction warehouse cleaning machine, which is suitable for a cement warehouse 3 or other powder warehouse, includes a rope traction mechanism, a rotation support mechanism, a winch, and a cleaning head 40. In this embodiment, the cement silo 3 is cylindrical.

The rope traction mechanism comprises at least three tractors which are all arranged at the top end of the cement silo 3 or other powder silos, and each tractor is provided with a traction rope. In this embodiment, three tractors are provided, namely a first tractor 10, a second tractor 21 and a third tractor 1, and the first, second and

third tractors

10, 21 and 1 are equipped with a first traction rope 11, a second traction rope 22 and a third traction rope 12, respectively. As shown in fig. 2, the first tractor 10, the second tractor 21, and the third tractor 1 are located on the top outer end surface of the silo 3. The tractor can be set to four, five, six, etc., or even a plurality of tractors according to the requirement, but not limited to this.

In this embodiment, the first tractor 10, the second tractor 21 and the third tractor 1 are arranged at equal intervals along the circumferential direction of the cement silo 3, that is, every two tractors are spaced by 120 degrees, and the three tractors are located on the same circumference. And a first rope opening, a second rope opening and a third rope opening are respectively arranged below the first tractor 10, the second tractor 21 and the third tractor 1, the first traction rope 11 passes through the first rope opening to be connected with the cantilever beam, the second traction rope 22 passes through the second rope opening to be connected with the cantilever beam, and the third traction rope 12 passes through the third rope opening to be connected with the cantilever beam. Preferably, a first rope length sensor 37, a second rope length sensor and a third rope length sensor are provided at the first rope opening, the second rope opening and the third rope opening, respectively, to sense the rope lengths paid out by the first traction rope 11, the second traction rope 22 and the third traction rope 12, respectively.

The rotary supporting mechanism comprises a supporting frame 38, a vertical arm beam 30 and a cantilever beam 31, the supporting frame 38 is rotatably installed at the top end of the cement silo 3, the vertical arm beam 30 is connected with the supporting frame 38, the cantilever beam 31 is connected with the vertical arm beam 30, and the first traction rope 11, the second traction rope 22 and the third traction rope 12 are all connected with the tail end of the cantilever beam 31; the three tractors control the retraction of the corresponding traction ropes to adjust the circumferential position of the cantilever beam 31 in the warehouse and further adjust the circumferential position of the cleaning head 40 in the warehouse.

The cantilever beam 31 and the vertical arm beam 30 are vertically arranged, one end of the vertical arm beam 30 is connected with the support frame 38, the other end of the vertical arm beam 30 is connected with the cantilever beam 31, the vertical arm beam 30 is located at the center of the three tractors, the cantilever beam 31 is provided with a connecting part 23, and the first traction rope 11, the second traction rope 22 and the third traction rope 12 are all connected with the connecting part 23. The vertical arm beam 30 and the cantilever beam 31 can be fixedly connected or hinged and arranged according to requirements. In this embodiment, the rotary support mechanism further includes a hollow bearing seat 29, the bearing seat 29 is installed at the top end of the cement silo 3, the support frame 38 is connected with the bearing seat 29, and the vertical arm beam 30 passes through the bearing seat 29 and then is connected with the support frame 38. As shown in fig. 2, the vertical arm beam 30 is connected to the support frame 38 by a support seat 28, and the support seat 28 is also located in the bearing seat 29. Preferably, a circumferential rotation angle sensor 25 is provided on the support frame 38 to sense a rotation angle of the support frame 38 in the circumferential direction.

In this embodiment, the cantilever beam 31 is applied with force by two traction ropes close to the cantilever beam 31, and the other traction rope far from the cantilever beam 31 is in a relaxed and unstressed state, and the specific traction process will be described in detail later.

The winch 39 is installed on the supporting frame 38 and rotates along with the rotation of the supporting frame 38, and is provided with a cleaning head hanging rope 17, and the cleaning head hanging rope 17 is movably wound on the cantilever beam and is connected with the cleaning head 40. The winch 39 can control the retraction of the cleaning head suspension rope 17 to adjust the height of the cleaning head 40 in the warehouse.

In this embodiment, the supporting frame 38 is provided with a first pulley 19, the vertical arm beam 30 is provided with a second pulley 20, the tail end of the cantilever beam 31 is provided with a third pulley 24, and the cleaning head suspension rope 17 sequentially rounds the first pulley 19, the second pulley 20 and the third pulley 24 and then is connected with the cleaning head 40. As shown in fig. 2, the first pulley 19 is located above the boom beam 30.

In this embodiment, the cleaning head 40 includes a cleaning head cover 32, a cleaning motor 33, a chain connecting disc 34 and a chain 35, the cleaning head cover 32 is connected to the cleaning head hanging rope 17, the cleaning motor 33 is installed in the cleaning head cover 32, the chain 35 and the chain connecting disc 34 are both located outside the cleaning head cover 32, the chain 35 is connected to the cleaning motor 33 through a chain connecting disc 34, and the chain connecting disc 34 is driven by the cleaning motor 33 to rotate at a high speed to drive the chain 35 to rotate at a high speed to strike the cement lumps 36.

In this embodiment, the cleaning motor 33 is a hydraulic motor, the warehouse cleaning machine further includes a hydraulic mechanism, the hydraulic mechanism includes a hydraulic station 4 and a first hydraulic pipe, the hydraulic station 4 is installed at the top end of the cement warehouse 3, the first hydraulic pipe is divided into two sections, the first section of the first hydraulic pipe 14 is connected with the hydraulic station 4 and the winch 39, and the second section of the first hydraulic pipe 18 is connected with the winch 39 and the cleaning motor 33. As shown in fig. 2, the winding process of the second section of the first hydraulic pipe 18 is the same as the winding process of the cleaning head suspension rope 17, and the second section of the first hydraulic pipe is wound around the winding machine 39, passes through the first pulley 19, the second pulley 20, and the third pulley 24 in this order, and is connected to the cleaning motor 33.

In this embodiment, the winding machine 39 further includes a hydraulic winding motor 5, the hydraulic mechanism further includes a second hydraulic pipe 6, one end of the second hydraulic pipe 6 is connected to the hydraulic station 4, and the other end is connected to the hydraulic winding motor 5. As shown in fig. 2, the winding machine 39 further includes a reel 26 and a reel holder 27, the reel holder 27 is fixed to the supporting frame 38, the reel 26 is mounted on the reel holder 27, and the cleaning head suspension rope 17 and the second hydraulic pipe 18 are wound on the reel 26. Preferably, a rotation angle sensor 16 is provided on the reel 26 to sense the rotation angle of the reel 26.

In this embodiment, the warehouse cleaning machine further includes a main control cabinet 8, the main control cabinet 8 is connected to the first tractor 10, the second tractor 21, the third tractor 1, the hydraulic hoisting motor 5, and the cleaning motor 33, and the main control cabinet 8 is also in signal connection with the rotation angle sensor 16, the circumferential rotation angle sensor 25, the first rope length sensor 37, the second rope length sensor, and the third rope length sensor. Specifically, a main control cabinet 8 and a first tractor 10, the main control cabinet 8 and a second tractor 21, and the main control cabinet 8 and a third tractor 1 are respectively connected through a first control line 9, a second control line 15 and a third control line 2; the main control cabinet 8 and the winch 39, the main control cabinet 8 and the hydraulic station 4 are respectively connected through a fourth control line 13 and a fifth control line 7.

The specific working process of the warehouse cleaning machine is as follows:

as shown in fig. 1, the initial position of the cantilever beam 31 is defined as the position, the main control cabinet 8 controls the three tractors to move, firstly, the cleaning head cleans along the clockwise rotation direction, then, the cleaning head cleans along the counterclockwise rotation direction, and drives the cantilever beam 31, the supporting frame 38 and the winch 39 to rotate synchronously, specifically:

in the process of clockwise rotation by 0-60 degrees, the first traction machine 10 controls the first traction rope 11 to be retracted, the second traction machine 21 controls the second traction rope 22 to be released, and the third traction machine 1 controls the third traction rope 12 to be in a loose and unstressed state;

in the process of clockwise rotation by 60-180 degrees, the third traction machine 1 controls the retraction of a third traction rope 12, the second traction machine 21 controls the release of a second traction rope 22, and the first traction machine 10 controls the first traction rope 11 to be in a loose and unstressed state;

in the process of clockwise rotating for 180 degrees and 300 degrees, the first traction machine 10 controls the first traction rope 11 to be retracted, the third traction machine 1 controls the third traction rope 12 to be released, and the second traction machine 21 controls the second traction rope 22 to be in a loose and unstressed state;

in the process of clockwise rotation of 300-360 degrees, the first traction machine 10 controls the release of the first traction rope 11, the second traction machine 21 controls the retraction of the second traction rope 22, and the third traction machine 1 controls the third traction rope 12 to be in a loose and unstressed state; at this time, one rotation is completed;

then, the cleaning head 40 is rotated counterclockwise, which is the reverse of the above-described steps, and thus is rotated back and forth, so that the cleaning position in the magazine can be adjusted.

The winding machine 39 can control the winding and unwinding of the cleaning head suspension rope 17 by the rotation of the winding hydraulic motor 5 to drive the reel 26 to rotate, so as to adjust the height of the cleaning head 40 in the warehouse. The cleaning head suspension rope 17 is simultaneously retracted and retracted while the second-stage first hydraulic pipe 18 is simultaneously retracted and retracted.

The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited by this description, and all equivalent changes and modifications made within the scope and the specification of the present invention should be covered by the present invention.

Claims

1. The utility model provides a clear storehouse of multi-rope traction machine, is applicable to cement storehouse or other powder storehouse, its characterized in that: it includes rope drive mechanism, rotation support mechanism, hoist engine and cleaning head, wherein:

2. The multi-rope traction warehouse cleaning machine according to claim 1, characterized in that: the three tractors are evenly arranged in the circumferential direction of the cement silo at intervals, the cantilever beam and the vertical arm beam are vertically arranged, one end of the vertical arm beam is connected with the support frame, the other end of the vertical arm beam is connected with the transverse arm beam, the vertical arm beam is located at the center of the tractors, the tail end of the cantilever beam is provided with a connecting portion, and each traction rope is connected with the connecting portion.

3. The multi-rope traction warehouse cleaning machine according to claim 2, characterized in that: the cantilever beam is suspended by at least two traction ropes close to the cantilever beam, and other traction ropes far away from the cantilever beam are in a loose and unstressed state.

4. The multi-rope traction warehouse cleaning machine according to claim 3, characterized in that: the rotary supporting mechanism further comprises a hollow bearing seat, the bearing seat is installed at the top end of the cement silo, the supporting frame is connected with the bearing seat, and the vertical arm beam penetrates through the bearing seat and then is connected with the supporting frame.

5. The multi-rope traction warehouse cleaning machine according to claim 2, characterized in that: the cleaning head comprises a cleaning head cover, a cleaning motor and a chain, the cleaning head cover is connected with a cleaning head suspension rope, the cleaning motor is installed in the cleaning head cover, the chain is located outside the cleaning head cover and connected with the cleaning motor, and the chain rotates at a high speed under the driving of the cleaning motor to knock a cement block.

6. The multi-rope traction warehouse cleaning machine according to claim 5, characterized in that: the cleaning motor is a hydraulic motor, the warehouse cleaning machine further comprises a hydraulic mechanism, the hydraulic mechanism comprises a hydraulic station and a first hydraulic pipe, the hydraulic station is installed at the top end of the cement warehouse, one end of the first hydraulic pipe is connected with the hydraulic station, and the other end of the first hydraulic pipe is connected with the cleaning motor after bypassing the winch.

7. The multi-rope traction warehouse cleaning machine according to claim 6, characterized in that: the winch further comprises a hydraulic winch motor, the hydraulic mechanism further comprises a second hydraulic pipe, one end of the second hydraulic pipe is connected with the hydraulic station, and the other end of the second hydraulic pipe is connected with the hydraulic winch motor.

8. The multi-rope traction warehouse cleaning machine according to claim 7, characterized in that: the hydraulic cleaning machine also comprises a main control cabinet, and the main control cabinet is connected with each tractor, the hydraulic hoisting motor and the cleaning motor.