CN110524726B

CN110524726B - Fitment is with heat preservation wall drilling equipment

Info

Publication number: CN110524726B
Application number: CN201910841020.4A
Authority: CN
Inventors: 叶梦
Original assignee: Zhejiang Leen Engineering Design Consulting Co Ltd
Current assignee: Zhejiang Leen Engineering Design Consulting Co ltd
Priority date: 2019-09-06
Filing date: 2019-09-06
Publication date: 2020-07-24
Anticipated expiration: 2039-09-06
Also published as: CN110524726A; JP2021041690A

Abstract

The invention discloses a heat preservation wall drilling device for decoration, which comprises a handle, wherein a switch capable of controlling a device to start running is fixed on the left end surface of the handle, a fixed block is fixed at the upper end of the handle, a driving cavity is arranged in the fixed block, a driving mechanism for driving the driving device to run is arranged in the driving cavity, a moving cavity with a left opening and a lower end wall communicated with the external space is arranged in the lower end wall of the driving cavity, a dust collecting mechanism is arranged in the moving cavity, the driving cavity is communicated with the moving cavity through a through cavity, the collecting mechanism comprises a moving block and a moving spring which is connected with the moving block and the right end wall of the moving cavity, the device can be when carrying out drilling work to the heated board, not only filters the collection to the floater that produces when drilling, also can collect the big quality rubbish that the drilling produced to guarantee operational environment.

Description

Fitment is with heat preservation wall drilling equipment

Technical Field

The invention relates to the field of drilling, in particular to thermal insulation wall drilling equipment for decoration.

Background

Objects need to be hung or installed on the heat insulation plate, holes need to be drilled on the heat insulation plate, a large amount of floating objects and large-mass impurities can be generated along with the rotation of the drill point during drilling, the working environment is influenced, and therefore the working of workers is influenced;

at present, most of work is during drilling, has the gauze mask to this prevents the intake of the floater of air, and the floater that floats in the air still can influence work, and the impurity of big quality can fall to the ground under the effect of dead weight, needs the workman to clean and clear away.

Disclosure of Invention

The invention aims to solve the technical problem of providing heat-insulating wall drilling equipment for decoration, solving the problems of influence of floaters generated by drilling on the working environment and the like, and ensuring the working environment of workers.

The invention is realized by the following technical scheme.

The invention relates to a heat-insulating wall drilling device for decoration, which comprises a handle, wherein a switch capable of controlling a device to start to operate is fixed on the left end surface of the handle, a fixed block is fixed at the upper end of the handle, a driving cavity is arranged in the fixed block, a driving mechanism for driving the device to operate is arranged in the driving cavity, and a moving cavity with an opening towards the left and a lower end wall communicated with an external space is arranged in the lower end wall of the driving cavity;

a collecting mechanism for collecting dust is arranged in the moving cavity, the driving cavity is communicated with the moving cavity through a through cavity, the collecting mechanism comprises a moving block and a moving spring for connecting the moving block and the right end wall of the moving cavity, a limiting groove with an upward opening is arranged in the moving block, a sliding cavity with a leftward opening is arranged in the right end wall of the through cavity, a rope is fixed at the right end of the moving block, a sliding spring is fixed on the right end wall of the sliding cavity, sliding grooves which are communicated with the sliding cavity and have leftward openings are arranged in the front end wall and the rear end wall of the sliding cavity, a sliding block is arranged in the sliding cavity, the left end of the sliding block is positioned in the through cavity, the front end and the rear end of the sliding block are respectively positioned in the sliding grooves on the front side and the rear side, the left end of the sliding spring is fixedly connected with the sliding block, and the right end of the rope penetrates through the, a trapezoidal block with the upper end positioned in the through cavity is arranged in the limiting groove, a supporting rod with the upper end positioned in the driving cavity is fixed at the upper end of the trapezoidal block, a spring plate is fixed at the upper end of the supporting rod, a connecting spring connected with the upper end wall of the driving cavity is fixed at the upper end of the spring plate, a moving plate is fixed at the left end face of the moving block, and a containing cavity penetrating through the upper end wall and the lower end wall of the moving plate is arranged in the moving plate;

the through cavity left end wall is internally provided with a rotating mechanism capable of adsorbing floating dust, the driving cavity is also internally provided with a control mechanism for controlling the spring plate to move up and down, when the device is required to be used for drilling, the switch is pressed manually to control the driving mechanism to work so as to start drilling, and meanwhile, the rotating mechanism and the control mechanism run, the rotating mechanism starts to adsorb floating dust, so that the dust is prevented from scattering during drilling, and the working environment is influenced.

Further, the driving mechanism comprises a motor fixed in the right end wall of the driving cavity, the left end of the motor is in power connection with a driving shaft, the left end of the motor is located in the driving cavity, a round cavity is formed in the fixed block and is penetrated through by the left end wall of the driving cavity, a rotating plate is arranged in the round cavity, the center right end face of the rotating plate is fixedly connected with the left end of the driving shaft, a rotating block is fixed on the center left end face of the rotating plate, the left end of the rotating block is located in the external space, a threaded groove with a left opening is formed in the left end of the rotating block, a drill bit is connected to the inner thread of the threaded groove, the left end of the drill bit is.

Furthermore, the collecting mechanism further comprises two supporting blocks fixed on the lower end face of the fixed block, moving grooves communicated with the external space and with front and rear end walls communicated with the external space are formed in the supporting blocks, a collecting block is arranged between the two supporting blocks, a collecting cavity with an upward opening is formed in the collecting block, and supporting plates with one ends located in the moving grooves are fixed at the left end and the right end of the collecting block.

Furthermore, the rotating mechanism comprises a rotating cavity, the left end wall of the rotating cavity is provided with an air inlet pipeline which inclines upwards leftwards and is communicated with the external space, the left end wall of the rotating cavity is also fixedly provided with two fixed plates, the front end and the rear end of each fixed plate are fixedly connected with the front end surface and the rear end surface of the rotating cavity respectively, a filter screen plate is fixedly connected between the two fixed plates, the front end and the rear end of each filter screen plate are fixedly connected with the front end surface and the rear end surface of the rotating cavity respectively, the lower end surface of the lower side of each fixed plate is fixedly provided with a limiting block, the left side of each limiting block is provided with a translation block which is in sliding connection with the lower side of the fixed plate and a translation spring which is connected with the translation block and the left end wall of the rotating cavity, an upper end wall of each translation block penetrates through the lower side of the fixed plate, the second belt pulley with connect through the belt between the first belt pulley, still sliding connection has the rope winding wheel in the axis of rotation, the rope winding wheel lower extreme be fixed with the lower extreme with translation piece right-hand member fixed connection's chain, it is equipped with intercommunication external space with to rotate the discharge pipe in chamber to rotate the chamber rear end wall.

Furthermore, the control mechanism comprises a centrifugal wheel fixed at the left end of the driving shaft, twelve ejection cavities communicated with the driving cavity are arranged in the centrifugal wheel, the ejection cavity is internally provided with an ejection block and an ejection spring which is connected with the ejection block and the end wall of the ejection block, the lower end wall of the driving cavity is provided with a supporting groove with an upward opening, the supporting groove is internally provided with a lifting block with the upper end positioned in the driving cavity and a supporting spring for connecting the lifting block and the lower end wall of the supporting groove, a translation cavity with a right opening is arranged in the upper end of the lifting block, a trapezoidal rod with the right end positioned in the driving cavity and a telescopic spring for connecting the trapezoidal rod and the left end wall of the translation cavity are arranged in the translation cavity, the centrifugal wheel is characterized in that a cam in sliding connection with the driving shaft is arranged on the right side of the centrifugal wheel, the upper end of the cam is in contact with the spring plate, and a limiting hole with a leftward opening is formed in the lower end of the cam.

Furthermore, the elastic force of the sliding spring is far smaller than that of the moving spring, the moving spring and the expansion spring are in a compressed state in an initial state, and the sliding spring is in a normal tension state.

Further, the friction force between the rotating shaft and the rope winding wheel is enough to enable the rotating shaft to drive the rope winding wheel to rotate, and the friction force between the driving shaft and the cam is enough to enable the driving cavity to drive the cam to rotate.

Furthermore, the elastic force of the supporting spring is far greater than that of the extension spring, and the elastic force of the supporting spring is far less than that of the connecting spring.

Further, when the centrifugal wheel rotates, the ejection block is subjected to centrifugal force to drive the lifting block to descend, and the supporting spring is compressed.

The invention has the beneficial effects that: the device simple structure, the simple operation, the device can be when carrying out drilling operation to the heated board, and the floater that not only produces when drilling filters and collects, also can collect the big quality rubbish that drilling produced to guarantee operational environment.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a left-view enlarged schematic view of a centrifugal wheel according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 1 according to an embodiment of the present invention;

fig. 4 is an enlarged schematic view of the structure at B in fig. 1 according to the embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The heat preservation wall drilling device for decoration described with reference to fig. 1-4 includes a handle 10, a switch 11 for controlling the device to start operating is fixed on the left end face of the handle 10, a fixed block 12 is fixed on the upper end of the handle 10, a driving chamber 19 is provided in the fixed block 12, a driving mechanism 73 for driving the device to operate is provided in the driving chamber 19, a moving chamber 20 with a left opening and a lower end wall communicating with the external space is provided in the lower end wall of the driving chamber 19, a collecting mechanism 74 for collecting dust is provided in the moving chamber 20, the driving chamber 19 and the moving chamber 20 are communicated through a through chamber 21, the collecting mechanism 74 includes a moving block 24 and a moving spring 41 connecting the moving block 24 and the right end wall of the moving chamber 20, a limiting groove 23 with an upward opening is provided in the moving block 24, a sliding chamber 15 with a left opening is provided in the right end wall of the through chamber 21, a rope 13 is fixed at the right end of the moving block 24, a sliding spring 14 is fixed on the right end wall of the sliding cavity 15, sliding grooves 75 which are communicated with the sliding cavity 15 and have openings communicated with the through cavity 21 leftwards are arranged in the front end wall and the rear end wall of the sliding cavity 15, sliding blocks 16 which are positioned in the through cavity 21 at the left end and have front ends and rear ends respectively positioned in the front side and the rear side of the sliding grooves 75 are arranged in the sliding cavity 15, the left end of the sliding spring 14 is fixedly connected with the sliding blocks 16, the right end of the rope 13 penetrates through the moving cavity 20, the right end wall of the sliding cavity 15 and the upper and lower end surfaces of the sliding blocks 16 and is fixedly connected with the right end wall of the sliding cavity 15 again, a trapezoidal block 22 with the upper end positioned in the through cavity 21 is arranged in the limiting groove 23, a support rod 29 with the upper end positioned in the driving cavity 19 is, the upper end of the spring plate 43 is fixedly provided with a connecting spring 42 connected with the upper end wall of the driving cavity 19, the left end face of the moving block 24 is fixedly provided with a moving plate 34, a containing cavity 33 penetrating through the upper end wall and the lower end wall of the moving plate 34 is arranged in the moving plate 34, a rotating mechanism 71 capable of adsorbing floating dust is arranged in the left end wall of the penetrating cavity 21, a control mechanism 72 for controlling the vertical movement of the spring plate 43 is further arranged in the driving cavity 19, when the device is required to be used for drilling, the switch 11 is manually pressed to control the driving mechanism 73 to work, so that drilling is started, meanwhile, the rotating mechanism 71 and the control mechanism 72 run, the rotating mechanism 71 starts to adsorb floating dust, and dust is prevented from flying during drilling to affect the working environment.

Advantageously, the driving mechanism 73 includes a motor 17 fixed in the right end wall of the driving cavity 19, the left end of the motor 17 is in power connection with the driving shaft 18 with the left end located in the driving cavity 19, a circular cavity 56 penetrated by the left end wall of the driving cavity 19 is arranged in the fixed block 12, a rotating plate 40 with a central right end surface fixedly connected with the left end of the driving shaft 18 is arranged in the circular cavity 56, a rotating block 36 with the left end located in the external space is fixed on the central left end surface of the rotating plate 40, a threaded groove 37 with a left opening is arranged at the left end of the rotating block 36, a drill bit 38 with the left end located in the external space is in threaded connection with the threaded groove 37, and a first belt pulley 39 is fixed at the right end of the rotating block 36.

Advantageously, the collecting mechanism 74 further comprises two supporting blocks 25 fixed on the lower end surface of the fixed block 12, a moving groove 26 communicating with the external space and communicating with the external space through the front and rear end walls is arranged in the supporting blocks 25, a collecting block 28 is arranged between the two supporting blocks 25, a collecting cavity 32 with an upward opening is arranged in the collecting block 28, and supporting plates 27 with one ends located in the moving groove 26 are fixed on the left and right ends of the collecting block 28.

Beneficially, the rotating mechanism 71 includes a rotating cavity 65, the left end wall of the rotating cavity 65 is provided with an air inlet duct 35 which is inclined upwards to the left and is communicated with the external space, the left end wall of the rotating cavity 65 is further fixed with two fixing plates 64, the front end and the rear end of which are fixedly connected with the front end face and the rear end face of the rotating cavity 65 respectively, a filter screen plate 62, the front end and the rear end of which are fixedly connected with the front end face and the rear end face of the rotating cavity 65 respectively, is fixed between the two fixing plates 64, the lower end face of the lower fixing plate 64 is fixed with a limiting block 58, the left side of the limiting block 58 is provided with a translation block 60 which is slidably connected with the lower fixing plate 64 and a translation spring 61 which connects the translation block 60 with the left end wall of the rotating cavity 65, a discharge cavity 59, the upper end wall of which penetrates through the, rotate chamber 65 right-hand member wall and rotate and be connected with axis of rotation 54, be fixed with turbine 57 and second belt pulley 51 on the axis of rotation 54, second belt pulley 51 with connect through belt 50 between the first belt pulley 39, it has rope sheave 52 still to slide connection on the axis of rotation 54, rope sheave 52 lower extreme be fixed with the lower extreme with translation piece 60 right-hand member fixed connection's chain 55, it is equipped with intercommunication external space and to rotate chamber 65's discharge pipe 53 to rotate chamber 65 rear end wall.

Advantageously, the control mechanism 72 includes a centrifugal wheel 46 fixed at the left end of the driving shaft 18, twelve ejection cavities 45 communicating with the driving cavity 19 are provided in the centrifugal wheel 46, an ejection block 48 and an ejection spring 47 connecting the ejection block 48 and the end wall of the ejection block 48 are provided in the ejection cavity 45, an upward opening supporting groove 31 is provided in the lower end wall of the driving cavity 19, a lifting block 68 with an upper end located in the driving cavity 19 and a supporting spring 30 connecting the lifting block 68 and the lower end wall of the supporting groove 31 are provided in the supporting groove 31, a rightward opening translation cavity 69 is provided in the upper end of the lifting block 68, a trapezoidal rod 67 with a right end located in the driving cavity 19 and a telescopic spring 70 connecting the trapezoidal rod 67 and the left end wall of the translation cavity 69 are provided in the translation cavity 69, a cam 44 slidably connected with the driving shaft 18 is provided on the right side of the centrifugal wheel 46, the upper end of the cam 44 is in contact with the spring plate 43, and a limiting hole 66 with a leftward opening is formed in the lower end of the cam 44.

Advantageously, the elastic force of the sliding spring 14 is much smaller than that of the moving spring 41, the moving spring 41 and the extension spring 70 are in a compressed state in the initial state, and the sliding spring 14 is in a normal tension state.

Advantageously, the friction between the rotating shaft 54 and the pulley 52 is sufficient to cause the rotating shaft 54 to rotate the pulley 52, and the friction between the drive shaft 18 and the cam 44 is sufficient to cause the drive chamber 19 to rotate the cam 44.

Advantageously, the elastic force of the supporting spring 30 is much greater than that of the extension spring 70, and the elastic force of the supporting spring 30 is much less than that of the connecting spring 42.

Advantageously, when the centrifugal wheel 46 rotates, the ejector block 48 is subjected to centrifugal force and thus the lifting block 68 is lowered, while the supporting spring 30 is compressed.

Sequence of mechanical actions of the whole device:

1: when the heat preservation wall needs to be drilled, the switch 11 is held tightly and the switch 11 is manually pressed, the motor 17 is controlled to work to drive the driving shaft 18 to rotate, thereby rotating the rotating plate 40 and the rotating block 36, and rotating the drill point 38, and when the left end of the drill point 38 contacts the thermal insulation wall, drilling is started, the rotation of the driving shaft 18 drives the centrifugal wheel 46 and the cam 44 to rotate, when the cam 44 rotates to move the spring plate 43 upward, the support bar 29 and the trapezoidal blocks 22 are moved upward, so that the lower end of the trapezoidal block 22 leaves the limiting groove 23, the moving block 24 is not limited, the moving spring 41 is reset to drive the moving block 24 to move leftwards, so that the moving plate 34 is ejected until the left end of the moving plate 34 contacts the left end of the thermal insulation wall, at which time the connecting spring 42 is compressed, as moving block 24 moves to the left and rope 13 moves, sliding block 16 moves to the right, and sliding spring 14 is compressed;

2: the driving shaft 18 rotates to drive the centrifugal wheel 46 to rotate, so that the ejection block 48 leaves the ejection cavity 45 due to centrifugal force, and then the lifting block 68 is driven to move downwards, the supporting spring 30 is compressed, when the cam 44 rotates to enable the limiting hole 66 and the trapezoidal rod 67 to be in the same plane, the telescopic spring 70 resets to drive the right end of the trapezoidal rod 67 to enter the limiting hole 66, so that the cam 44 is limited to rotate, at this time, the cam 44 no longer drives the spring plate 43 to move upwards, the spring plate 43 is in an initial state, and the lower end is located in the moving cavity 20 again;

3: the rotating block 36 rotates to drive the first belt pulley 39 to rotate, the second belt pulley 51 is driven to rotate by the transmission of the belt 50, the rotating shaft 54 is driven to rotate, the turbine 57 and the rope winding wheel 52 are driven to rotate, the turbine 57 rotates, outside air flow enters the rotating cavity 65 from the air inlet pipeline 35, the exhaust pipeline 53 leaves the rotating cavity 65 to enter an external space, the rope winding wheel 52 rotates the winding lock chain 55, the translation block 60 is driven to move rightwards, the right end of the translation block 60 is contacted with the limiting block 58, the exhaust cavity 59 is not communicated with the moving cavity 20 at the moment, the translation spring 61 is stretched, when air flow enters the rotating cavity 65 from the air inlet pipeline 35, dust is left on the upper end surface of the lower fixing plate 64 due to the filter screen plate 62, large-mass impurities generated by drilling enter the accommodating cavity 33 and finally enter the collecting cavity 32 under the action of self weight to be collected, manually pushing the handle 10 and the fixed block 12 to move leftwards, adjusting the drilling depth, and gradually deepening along with drilling, so as to drive the moving plate 34 to move rightwards, the moving spring 41 is compressed again, the rope 13 becomes loose, and at the moment, the sliding spring 14 is reset to drive the sliding block 16 to move leftwards;

4: the moving plate 34 moves leftwards to drive the moving block 24 to move leftwards, when the lower end of the trapezoidal block 22 enters the limiting groove 23 again, the drilling hole reaches the maximum depth, the moving spring 41 is compressed, the sliding spring 14 returns to the normal stretching state, at this time, the press switch 11 controls the motor 17 to work to drive the driving shaft 18 to rotate reversely for one circle and then stop working, when the driving shaft 18 rotates reversely for one circle, the rotating plate 40 and the rotating block 36 rotate reversely, the rotating block 36 rotates to drive the second belt pulley 51 to rotate reversely through the transmission of the belt 50, so as to drive the rotating shaft 54 to rotate, so as to drive the rope winding pulley 52 to rotate reversely, so as to loosen the chain 55, so that the translating block 60 is reset under the driving of the translating spring 61, so that the discharge cavity 59 communicates with the moving cavity 20 again, so that the dust on the left side of the filter screen plate 62 enters the moving cavity, then enters the collection cavity 32 through the containing cavity 33 to finish collection, when the motor 17 stops working, the driving shaft 18 stops rotating, so that the centrifugal wheel 46 stops rotating, the ejection block 48 returns to the ejection block 48, the lifting block 68 moves upwards under the action of the supporting spring 30 to reset, the trapezoidal rod 67 moves upwards and the right end of the trapezoidal rod 67 leaves the limiting hole 66, the telescopic spring 70 is compressed again, the device resets, at the moment, the collection block 28 is pulled forwards manually, the collection block 28 can be drawn out, objects in the collection cavity 32 can be cleaned, and the collection block 28 is placed back after the collection.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a heat preservation wall drilling equipment is used to fitment, includes the handle, its characterized in that: a switch capable of controlling the device to start to operate is fixed on the left end face of the handle, a fixed block is fixed at the upper end of the handle, a driving cavity is arranged in the fixed block, a driving mechanism for driving the device to operate is arranged in the driving cavity, and a moving cavity with an opening towards the left and a lower end wall communicated with the external space is arranged in the lower end wall of the driving cavity;

a collecting mechanism for collecting dust is arranged in the moving cavity, the driving cavity is communicated with the moving cavity through a through cavity, the collecting mechanism comprises a moving block and a moving spring for connecting the moving block and the right end wall of the moving cavity, a limiting groove with an upward opening is arranged in the moving block, a sliding cavity with a leftward opening is arranged in the right end wall of the through cavity, a rope is fixed at the right end of the moving block, a sliding spring is fixed on the right end wall of the sliding cavity, sliding grooves which are communicated with the sliding cavity and have leftward openings are arranged in the front end wall and the rear end wall of the sliding cavity, a sliding block is arranged in the sliding cavity, the left end of the sliding block is positioned in the through cavity, the front end and the rear end of the sliding block are respectively positioned in the sliding grooves on the front side and the rear side, the left end of the sliding spring is fixedly connected with the sliding block, and the right end of the rope penetrates through the, a trapezoidal block with the upper end positioned in the through cavity is arranged in the limiting groove, a supporting rod with the upper end positioned in the driving cavity is fixed at the upper end of the trapezoidal block, a spring plate is fixed at the upper end of the supporting rod, a connecting spring connected with the upper end wall of the driving cavity is fixed at the upper end of the spring plate, a moving plate is fixed at the left end face of the moving block, and a containing cavity penetrating through the upper end wall and the lower end wall of the moving plate is arranged in the moving plate; a rotating mechanism capable of adsorbing floating dust is arranged in the left end wall of the through cavity, a control mechanism for controlling the spring plate to move up and down is further arranged in the driving cavity, when a device is required to be used for drilling, the switch is manually pressed, so that the driving mechanism is controlled to work, the drilling is started, meanwhile, the rotating mechanism and the control mechanism run, the rotating mechanism starts to adsorb floating dust, and the dust is prevented from flying off during drilling to influence the working environment; the driving mechanism comprises a motor fixed in the right end wall of the driving cavity, the left end of the motor is in power connection with a driving shaft of which the left end is positioned in the driving cavity, a round cavity penetrated by the left end wall of the driving cavity is arranged in the fixed block, a rotating plate fixedly connected with the left end of the driving shaft is arranged in the round cavity, a rotating block of which the left end is positioned in an external space is fixed on the left end surface of the center of the rotating plate, a thread groove with a left opening is arranged at the left end of the rotating block, a drill bit of which the left end is positioned in the external space is in threaded connection with the thread groove, and a first belt pulley is fixed at the right end of the rotating; the collecting mechanism further comprises two supporting blocks fixed on the lower end face of the fixed block, a moving groove communicated with an external space and a front end wall and a rear end wall communicated with the external space is formed in each supporting block, a collecting block is arranged between the two supporting blocks, a collecting cavity with an upward opening is formed in each collecting block, and supporting plates with one ends located in the moving grooves are fixed at the left end and the right end of each collecting block; the rotating mechanism comprises a rotating cavity, an air inlet pipeline which inclines leftwards and upwards and is communicated with the external space is arranged on the left end wall of the rotating cavity, two fixed plates which are fixedly connected with the front end surface and the rear end surface of the rotating cavity respectively at the front end and the rear end surface are fixed on the left end wall of the rotating cavity, a filter screen plate which is fixedly connected with the front end surface and the rear end surface of the rotating cavity respectively at the front end and the rear end surface is fixed between the two fixed plates, a limiting block is fixed on the lower end surface of the lower side of the fixed plate, a translation block which is in sliding connection with the fixed plate at the lower side and a translation spring which is connected with the translation block and the left end wall of the rotating cavity are arranged on the left side of the limiting block, an upper end wall penetrates through the lower side of the fixed plate and the lower end wall of the rotating cavity and, the second belt pulley is connected with the first belt pulley through a belt, a rope winding pulley is further connected onto the rotating shaft in a sliding mode, a chain with the lower end fixedly connected with the right end of the translation block is fixed at the lower end of the rope winding pulley, and a discharge pipeline communicated with the external space and the rotating cavity is arranged on the rear end wall of the rotating cavity; the control mechanism comprises a centrifugal wheel fixed at the left end of the driving shaft, twelve ejection cavities communicated with the driving cavity are arranged in the centrifugal wheel, the ejection cavity is internally provided with an ejection block and an ejection spring which is connected with the ejection block and the end wall of the ejection block, the lower end wall of the driving cavity is provided with a supporting groove with an upward opening, the supporting groove is internally provided with a lifting block with the upper end positioned in the driving cavity and a supporting spring for connecting the lifting block and the lower end wall of the supporting groove, a translation cavity with a right opening is arranged in the upper end of the lifting block, a trapezoidal rod with the right end positioned in the driving cavity and a telescopic spring for connecting the trapezoidal rod and the left end wall of the translation cavity are arranged in the translation cavity, a cam in sliding connection with the driving shaft is arranged on the right side of the centrifugal wheel, the upper end of the cam is in contact with the spring plate, and a limiting hole with a leftward opening is formed in the lower end of the cam; the elasticity of the sliding spring is far smaller than that of the movable spring, the movable spring and the telescopic spring are in a compressed state in an initial state, and the sliding spring is in a normal stretching state; the friction force between the rotating shaft and the rope winding wheel is enough to enable the rotating shaft to drive the rope winding wheel to rotate, and the friction force between the driving shaft and the cam is enough to enable the driving cavity to drive the cam to rotate; the elastic force of the supporting spring is far greater than that of the telescopic spring, and the elastic force of the supporting spring is far smaller than that of the connecting spring; when the centrifugal wheel rotates, the ejection block is subjected to centrifugal force, so that the lifting block is driven to descend, and the supporting spring is compressed.