CN212670460U - Spreading device for river seepage-proofing engineering - Google Patents

Abstract

The utility model provides a river course prevention of seepage engineering spills device with cloth belongs to river course treatment technical field, and river course prevention of seepage engineering spills the device with cloth and includes: frame, spill material roller, sieve spare, adjusting part and mounting. The material scattering roller is rotatably connected to the discharge port and is in transmission connection with the traveling mechanism. The sieve piece is fixed on the frame and is located the outside of spilling the material roller, link up on the sieve piece and offer the sieve mouth that is used for with discharging channel intercommunication. The adjusting part is rotationally connected to the frame; the fixing piece is fixed on the frame and used for positioning the adjusting piece on the frame. The discharge port, the screening port and the discharge port form a discharge channel, and the material scattering roller intermittently opens or closes the discharge channel by means of the traveling mechanism; the adjusting piece swings by means of a hinged shaft of the frame, and then the size of the outlet of the discharging channel is changed. The utility model provides a river course seepage prevention engineering spills device with cloth can change discharging channel's size, adjusts bentonite layer's thickness, the different construction occasion of being applied to of suitability.

Description

Spreading device for river seepage-proofing engineering

Technical Field

The utility model belongs to the technical field of the river course is administered, more specifically say, relate to a river course prevention of seepage engineering spills device with cloth.

Background

After the waterproof and impermeable coiled material is laid in the river management engineering, powdery bentonite needs to be uniformly scattered on the waterproof and impermeable coiled material, and the bentonite plays a role in waterproofing and bonding after meeting water. At present, the materials are mostly spread manually, and the materials have the defects of large randomness, uneven spreading, serious material waste and poor waterproof effect. Because different construction occasions have different requirements to the thickness of bentonite, some current scatter the device and can't effective and even adjustment spill the thickness of the bentonite layer, and the suitability is relatively poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a river course prevention of seepage engineering spills device with cloth, aims at solving the unable effective and even adjustment thickness of spilling out bentonite layer, the relatively poor problem of suitability.

In order to achieve the above object, the utility model adopts the following technical scheme: provide river course seepage prevention engineering and spill device with, include:

the device comprises a frame, wherein a traveling mechanism is arranged at the bottom of the frame, a hopper is fixed in the frame and used for containing bentonite; the bottom of the hopper is provided with a discharge hole in a through way;

the material scattering roller is rotationally connected to the discharge port and is in transmission connection with the travelling mechanism;

a screen; the screening piece is fixed on the frame and positioned on the outer side of the material scattering roller, and a screening port communicated with the discharge port is formed in the screening piece in a penetrating manner;

the adjusting piece is rotatably connected to the frame; the adjusting piece is positioned on the outer side of the screening piece, and a discharge opening communicated with the screening opening is formed in the adjusting piece in a penetrating manner; and

the fixing piece is fixed on the frame and used for positioning the adjusting piece on the frame;

the discharge port, the screening port and the discharge port form a discharge channel, and the material scattering roller intermittently opens or closes the discharge channel by means of the traveling mechanism; the adjusting piece swings by means of a hinged shaft of the frame, and then the size of the outlet of the discharging channel is changed.

As another embodiment of the application, a transmission shaft is rotatably arranged along the length direction of the bottom of the frame, and the transmission shaft is in transmission connection with the travelling mechanism; the transmission shaft is sleeved with the material scattering roller.

As another embodiment of the application, the number of the material scattering rollers is multiple, and two adjacent material scattering rollers are sleeved on the transmission shaft along a certain direction and inclined by a certain angle.

As another embodiment of the application, material containing grooves are uniformly arranged along the circumferential direction of the material scattering roller at certain intervals; the material containing groove is used for transferring the bentonite from the hopper to the sieve piece by means of the travelling mechanism.

As another embodiment of the present application, the traveling mechanism includes:

the driven wheel is rotatably connected to one side of the frame; and

the driving wheel is rotatably connected to the other side of the frame; the driving wheel is in transmission connection with the transmission shaft through a transmission part.

As another embodiment of the present application, the screen includes:

the fixing part is fixed on the frame along the outer edge of the discharge port; and

the screen material port is arranged on the hollow part in a penetrating way; the inner side of the hollow-out part is in clearance fit with the outer side face of the material scattering roller.

As another embodiment of this application, the both ends of regulating part are fixed with the lug, the lug rotates the cover and establishes on the transmission shaft, the lug with the help of the mounting location is in on the frame.

As another embodiment of this application, the bin outlet is a plurality of, the bin outlet with sieve material mouth one-to-one sets up.

As another embodiment of the application, an avoidance port is formed in the side face of the bottom of the hopper in a penetrating manner, a swing plate is hinged to the bottom of the hopper, a flexible telescopic piece is connected between the outer edge of the swing plate and the inner edge of the avoidance port, and the flexible telescopic piece is used for sealing a gap between the avoidance port and the swing plate; and the frame is provided with a reciprocating assembly, and the reciprocating assembly is hinged with the outer side surface of the swinging plate and is used for driving the swinging plate to swing within a certain range.

As another embodiment of the present application, the reciprocating assembly comprises:

the reciprocating motor is arranged on the frame and is provided with an output shaft;

one end of the rotating rod is fixed on the output shaft; and

one end of the swinging rod is hinged with the other end of the rotating rod, and the other end of the swinging rod is hinged with the swinging plate;

the oscillating rod drives the oscillating plate to oscillate by the aid of the reciprocating motor.

The utility model provides a river course prevention of seepage engineering spills device beneficial effect lies in, compares with prior art, the utility model discloses river course prevention of seepage engineering spills and installs running gear in the bottom of frame in the device, and the frame internal fixation has the hopper, and the bottom of hopper link up and has seted up the discharge gate. The traveling mechanism is in transmission connection with a material scattering roller, and the material scattering roller is rotatably connected to the discharge port by virtue of a traveling structure. And a screening piece is fixed on the frame, is positioned outside the material scattering roller and is communicated with a material sieving port communicated with the material outlet. The screen is rotatably connected with an adjusting part, the adjusting part is provided with a discharge port communicated with the screen port in a run-through manner, and the adjusting part is stably positioned on the frame by means of a fixing part. The discharge hole, the screening hole and the discharge hole form a discharge channel. The adjusting piece swings by means of a hinged shaft of the sieving piece, and then the size of the outlet of the discharging channel is changed. The bentonite in the hopper intermittently flows into the discharging channel under the action of the material scattering roller and is finally scattered out from the discharging opening. Because spill the material roller transmission and connect on running gear in this application, when running gear drove the frame motion, spill the material roller and can guide bentonite intermittent type nature's discharge. The discharge hole can be closed when the travelling mechanism is static, so that the waste of resources is avoided. Through setting up the regulating part, can change discharging channel's size, and then the thickness of adjustment bentonite layer, the construction occasion of being applied to of suitability can be different.

Drawings

Fig. 1 is a schematic structural view of a spreading device for river seepage control engineering provided in embodiment 1 of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a schematic view of a connection between a driven sprocket and a driving wheel provided in embodiment 1 of the present invention;

fig. 4 is a schematic structural view of a spreading device for river seepage control engineering provided in embodiment 2 of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4 at B;

fig. 6 is a schematic connection diagram of a fixing portion and a hollow portion provided in embodiment 1 of the present invention;

fig. 7 is a schematic connection diagram of a fixing member and a lifting lug provided in embodiment 1 of the present invention;

fig. 8 is a schematic connection diagram of a transmission shaft and an adjusting member provided in embodiment 1 of the present invention.

In the figure: 1. a frame; 2. a hopper; 3. a driving wheel; 4. a driven wheel; 5. a transmission member; 6. a drive sprocket; 7. a material scattering roller; 8. a screen; 9. an adjustment member; 10. a driven sprocket; 11. a swing lever; 12. a material containing groove; 13. screening a material port; 14. a discharge outlet; 15. a discharge port; 16. a drive shaft; 17. a fixed part; 18. a hollow-out section; 19. a fixing member; 20. lifting lugs; 21. rotating the rod; 22. a swing plate; 23. a flexible telescoping member; 24. a reciprocating motor.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 and fig. 2, a spreading device for river seepage control engineering according to the present invention will now be described. River course seepage prevention engineering spills device with cloth includes: frame 1, spreader roll 7, screen member 8, adjusting member 9 and mounting member 19. A traveling mechanism is arranged at the bottom of the frame 1, a hopper 2 is fixed in the frame 1, and the hopper 2 is used for containing bentonite; the bottom of the hopper 2 is provided with a discharge hole 15 in a penetrating way. The material scattering roller 7 is rotatably connected at the discharge port 15, and the material scattering roller 7 is in transmission connection with the traveling mechanism. The sieve 8 is fixed on the frame 1 and positioned outside the material spreading roller 7, and a sieve opening 13 communicated with the discharge channel is arranged on the sieve 8 in a penetrating way. The adjusting piece 9 is rotatably connected to the frame 1; the adjusting piece 9 is positioned on the outer side of the sieve piece 8, and a discharge opening 14 communicated with the sieve opening 13 is formed in the adjusting piece 9 in a penetrating mode. The fixing element 19 is fixed to the frame 1 for positioning the adjusting element 9 on the frame 1. The discharge port 15, the screening port 13 and the discharge port 14 form a discharge channel, and the material scattering roller 7 intermittently opens or closes the discharge channel by means of a traveling mechanism; the adjusting member 9 is swung by means of a hinge shaft with the frame 1, thereby changing the size of the outlet of the discharge channel.

The utility model provides a river course prevention of seepage engineering spills device beneficial effect lies in, compares with prior art, the utility model discloses among the river course prevention of seepage engineering spills the device, install running gear in the bottom of frame 1, be fixed with hopper 2 in frame 1, the bottom of hopper 2 link up and has seted up discharge gate 15. The traveling mechanism is in transmission connection with a material scattering roller 7, and the material scattering roller 7 is rotatably connected to a discharge port 15 through a traveling structure. A sieve 8 is fixed on the frame 1, the sieve 8 is positioned outside the material spreading roller 7 and is provided with a sieve port 13 communicated with a discharge port 15 in a penetrating way. The adjusting piece 9 is connected to the sieve piece 8 in a rotating mode, a discharge port 14 communicated with the sieve port 13 is formed in the adjusting piece 9 in a penetrating mode, and the adjusting piece 9 is stably positioned on the frame 1 through the fixing piece 19. The discharge opening 15, the screen opening 13 and the discharge opening 14 form a discharge channel. The adjusting element 9 is swung by means of an articulated shaft with the sieve element 8, thereby changing the size of the outlet of the discharge channel. The bentonite in the hopper 2 intermittently flows into the discharging channel under the action of the spreading roller 7 and is finally spread out from the discharging opening 14. Because spill material roller 7 transmission in this application and connect on running gear, when running gear drove frame 1 motion, spill material roller 7 and can guide bentonite intermittent type nature's discharge. The discharge hole 15 can be closed when the travelling mechanism is static, so that the waste of resources is avoided. Through setting up regulating part 9, can change discharging channel's size, and then the thickness of adjustment bentonite layer, the construction occasion of being applied to of suitability can be different.

As a specific implementation manner of the spreading device for river seepage-proofing engineering provided by the present invention, please refer to fig. 3, a transmission shaft 16 is rotatably disposed along the length direction of the bottom of the frame 1, and the transmission shaft 16 is in transmission connection with the traveling mechanism; the transmission shaft 16 is sleeved with a material scattering roller 7. A fixing hole is formed in the bottom, located on the hopper 2, of the frame 1, a bearing is installed in the fixing hole, and a transmission shaft 16 is sleeved on the inner ring of the bearing. Two ends of the transmission shaft 16 are fixedly provided with chain wheels, and the chain wheels are in transmission connection with the traveling mechanism through chains. When the traveling mechanism moves, the traveling mechanism drives the transmission shaft 16 through the chain, and then drives the material scattering roller 7 to rotate. Because the bentonite is in powder particle shape, the bentonite passes through the material scattering roller 7 under the rotation of the material scattering roller 7 and is finally discharged from a gap between the material sieving opening 13 and the material discharging opening 14.

As a specific implementation manner of the spreading device for river seepage control engineering, please refer to fig. 2, the number of the spreading rollers 7 is plural, and two adjacent spreading rollers 7 are arranged on the transmission shaft 16 along a certain angle of relative inclination in a certain direction. The chain wheels are arranged at two ends of the transmission shaft 16, the middle parts of the two chain wheels are connecting parts, and splines are fixed on the peripheries of the connecting parts. The inner edge of the material spreading roller 7 is provided with a spline sleeve matched with the spline. In order to uniformly take out bentonite from the hopper 2, a plurality of material scattering rollers 7 are arranged, and the two material scattering rollers 7 which ring are arranged in a certain direction and inclined at a certain angle along the length direction of the axis of the transmission shaft 16. Taking clockwise as an example, after the first material spreading roller 7 is sleeved on the transmission shaft 16, the second material spreading roller 7 rotates clockwise relative to the first material spreading roller 7 by a certain angle and is sleeved on the transmission shaft 16. The third one is based on the second one, and so on. Through the design method, bentonite can always fall on the sieve piece 8 in the process that the transmission shaft 16 drives the material scattering rollers 7 to rotate, and the situation that the bentonite is discontinuously paved on the ground when the plurality of material scattering rollers 7 are arranged at the same angle is avoided.

As a specific embodiment of the spreading device for river seepage prevention engineering provided by the present invention, please refer to fig. 2, a material holding groove 12 is provided along the spreading roller 7 circumferentially and uniformly at a certain distance; the material containing groove 12 is used for transferring bentonite from the hopper 2 to the sieve element 8 by means of a travelling mechanism. In order to smoothly transport the bentonite from the hopper 2 to the sieve 8, a plurality of material holding grooves 12 are uniformly arranged on the periphery of the material scattering roller 7 at a certain distance. In the rotation process of the material scattering roller 7, bentonite falls in the material forming tank under the action of gravity, and rotates to the bottom along with the material scattering roller 7 by means of the rotation of the material scattering roller 7, falls on the sieve piece 8 and is finally scattered on the ground through the sieve material port 13. In order to prevent bentonite from entering the gap between two adjacent spreading rollers 7, when bentonite is not poured into the hopper 2, a sealant is coated between the two adjacent spreading rollers 7, and the sealant is a flexible filling material.

As the utility model provides a river course seepage prevention engineering spills a concrete implementation of device with cloth please refer to figure 3, and running gear includes: a driven wheel 4 and a driving wheel 3. The driven wheel 4 is rotatably connected to one side of the frame 1. The driving wheel 3 is rotatably connected to the other side of the frame 1 and is arranged at a certain distance from the driven wheel 4; the driving wheel 3 is in transmission connection with the transmission shaft 16 through the transmission piece 5. From driving wheel 4 and action wheel 3 all rotate to be connected on frame 1, the quantity from driving wheel 4 and action wheel 3 is two to connect from the connecting axle parallel arrangement of driving wheel 4 and action wheel 3. The driving chain wheels 6 are arranged at two ends of the connecting shaft of the driving wheel 3, the driven chain wheels 10 are fixed on the transmission shaft, and the driven chain wheels 10 are in chain transmission connection with the driving chain wheels 6 through transmission parts. The driving chain wheel 6 is in transmission connection with a chain wheel on a transmission shaft 16 through a chain. A handle is fixed at one end of the frame 1, a worker pushes the frame 1 to move by pushing the handle, the transmission shaft 16 rotates under the action of the chain, the material scattering roller 7 is further driven to rotate, and bentonite is uniformly scattered from the hopper 2.

As a specific implementation manner of the device is spilt with cloth in river course prevention of seepage engineering, please refer to fig. 2 and 6, and sieve 8 includes: a fixed portion 17 and a hollowed-out portion 18. The fixing part 17 is fixed on the frame 1 along the outer edge of the discharge port 15. The hollow part 18 is of a semi-annular structure, and a screening hole 13 is formed in the hollow part 18 in a penetrating mode; the inner side of the hollow part 18 is in clearance fit with the outer side surface of the spreading roller 7. Sieve 8 is fixed part 17 and fretwork portion 18, and the bottom cross-section of hopper 2 subtracts progressively, and the discharge gate 15 of hopper 2 is rectangular shape hole. The fixing part 17 is fixed on the frame 1 along the outer edge of the discharge port 15. The hollow part 18 is fixed on the fixing part 17, the hollow part 18 is of a semi-annular structure, and a plurality of evenly distributed screen openings 13 are formed in the hollow part 18 in a penetrating mode. The scattering roller 7 transports the bentonite from the hopper 2 to the inside of the hollow portion 18, and finally discharges the bentonite from the discharge opening 14.

As a specific implementation manner of the spreading device for river seepage control engineering, please refer to fig. 7 and 8, the two ends of the adjusting member 9 are fixed with the lifting lugs 20, the lifting lugs 20 are rotatably sleeved on the transmission shaft 16, and the lifting lugs 20 are positioned on the frame 1 by the fixing member 19. In order to facilitate the adjustment of the size of the outlet of the discharge channel, an adjusting element 9 is fixed on the outer circumference of the screen element 8. Lifting lugs 20 are fixed at two ends of the adjusting piece 9, and the lifting lugs 20 are sleeved on the rotating shaft and can swing in a certain range along the axis of the transmission shaft 16. The transmission shaft 16 is externally threaded at both ends, and the fixing member 19 may be a nut, and the lifting lug 20 is pressed and positioned on the frame 1 by rotating the fixing member 19. The position of the adjusting part 9 relative to the sieve part 8 is adjusted through the adjusting lifting lugs 20, a discharge opening 14 is formed in the adjusting part 9 in a through mode, and the discharge opening 14 corresponds to the sieve openings 13 one to one.

As a specific implementation manner of the spreading device for river seepage control engineering provided by the present invention, please refer to fig. 2, a plurality of discharge openings 14 are provided, and the discharge openings 14 and the screening openings 13 are arranged in a one-to-one correspondence manner. When the lifting lug 20 swings, the relative position of the discharge opening 14 and the screening opening 13 changes, so that the relative position between the screening opening 13 and the discharge opening 14 can be changed by adjusting the lifting lug 20, and the size of the outlet of the discharge channel can be changed. That is, by adjusting the position of the discharge opening 14, the screen opening 13 can be fully opened or closed.

As a specific embodiment of the spreading device for river seepage prevention engineering provided by the present invention, please refer to fig. 4, an avoidance port is formed on a side surface of the bottom of the hopper 2, a swing plate 22 is hinged to the bottom of the hopper 2, a flexible expansion member 23 is connected between an outer edge of the swing plate 22 and an inner edge of the avoidance port, and the flexible expansion member 23 is used for sealing a gap between the avoidance port and the swing plate 22; the frame 1 is provided with a reciprocating component which is hinged with the outer side surface of the swinging plate 22 and is used for driving the swinging plate 22 to swing within a certain range. In order to ensure that the bentonite in the hopper 2 can stably drop, an avoiding opening is formed in one side face of the hopper 2 and is formed in the bottom of the hopper 2. A swing plate 22 is hinged to the bottom end close to the hopper 2, the outer edge of the swing plate 22 and the inner edge of the avoidance opening are arranged at a certain distance, and a flexible telescopic piece 23 is fixed on the side wall of the swing plate 22 and the side wall of the avoidance opening. Under the effect of reciprocal subassembly, swing board 22 is swung in certain extent around the articulated shaft with hopper 2 as the centre of a circle, owing to the effect of flexible extensible member 23, can prevent that bentonite from dodging the clearance outflow between the mouth from swing board 22. Meanwhile, under the action of the swinging plate 22, the bentonite is mutually extruded, so that the bentonite is prevented from being blocky, and the bentonite can be stably conveyed by the material spreading roller 7.

As a specific implementation manner of the device is spilt with cloth in river course prevention of seepage engineering, please refer to fig. 5, reciprocal subassembly includes: a reciprocating motor 24, a rotating lever 21, and a swinging lever 11. The reciprocating motor 24 is arranged on the frame 1, and an output shaft is arranged on the reciprocating motor 24. One end of the rotating rod 21 is fixed to the output shaft. One end of the swing lever 11 is hinged to the other end of the rotating lever 21, and the other end is hinged to the swing plate 22. The swing lever 11 swings the swing plate 22 by means of the reciprocating motor 24. Reciprocating motor 24 is fixed on frame 1, and reciprocating motor 24's output shaft is parallel with the side of swinging plate 22, and articulated on the output shaft have a rotary rod 21, drives rotary rod 21 and rotates under the pivoted effect of output shaft, and swing rod 11 drives swinging plate 22 and swings when rotary rod 21 rotates, through swinging plate 22 extrusion bentonite, makes the bentonite can stably drop.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. River course seepage prevention engineering spills device with cloth, its characterized in that includes:

the device comprises a frame, wherein a traveling mechanism is arranged at the bottom of the frame, a hopper is fixed in the frame and used for containing bentonite; the bottom of the hopper is provided with a discharge hole in a through way;

the material scattering roller is rotationally connected to the discharge port and is in transmission connection with the travelling mechanism;

a screen; the screening piece is fixed on the frame and positioned on the outer side of the material scattering roller, and a screening port communicated with the discharge port is formed in the screening piece in a penetrating manner;

the adjusting piece is rotatably connected to the frame; the adjusting piece is positioned on the outer side of the screening piece, and a discharge opening communicated with the screening opening is formed in the adjusting piece in a penetrating manner; and

the fixing piece is fixed on the frame and used for positioning the adjusting piece on the frame;

the discharge port, the screening port and the discharge port form a discharge channel, and the material scattering roller intermittently opens or closes the discharge channel by means of the traveling mechanism; the adjusting piece swings by means of a hinged shaft of the frame, and then the size of the outlet of the discharging channel is changed.

2. The spreading device for the river seepage-proofing engineering according to claim 1, wherein a transmission shaft is rotatably arranged along the length direction of the bottom of the frame, and the transmission shaft is in transmission connection with the travelling mechanism; the transmission shaft is sleeved with the material scattering roller.

3. The spreading device for the river seepage-proofing project according to claim 2, wherein the number of the spreading rollers is multiple, and two adjacent spreading rollers are oppositely inclined in a certain direction and sleeved on the transmission shaft at a certain angle.

4. The spreading device for the river seepage-proofing project according to claim 2, wherein material containing grooves are formed in the spreading roller at regular intervals along the circumferential direction; the material containing groove is used for transferring the bentonite from the hopper to the sieve piece by means of the travelling mechanism.

5. The spreading device for river seepage prevention engineering according to claim 2, wherein the walking mechanism comprises:

the driven wheel is rotatably connected to one side of the frame; and

the driving wheel is rotatably connected to the other side of the frame; the driving wheel is in transmission connection with the transmission shaft through a transmission part.

6. The spreading device for river seepage control engineering according to claim 1, wherein the sieve member comprises:

the fixing part is fixed on the frame along the outer edge of the discharge port; and

the screen material port is arranged on the hollow part in a penetrating way; the inner side of the hollow-out part is in clearance fit with the outer side face of the material scattering roller.

7. The spreading device for river seepage control engineering according to claim 2, wherein lifting lugs are fixed to both ends of the adjusting member, the lifting lugs are rotatably sleeved on the transmission shaft, and the lifting lugs are positioned on the frame by means of the fixing member.

8. The spreading device for the river seepage-proofing engineering according to claim 1, wherein the discharge opening is provided in plurality, and the discharge opening and the screening opening are arranged in one-to-one correspondence.

9. The spreading device for the river seepage-proofing project according to claim 1, wherein an avoidance port is formed through the side surface of the bottom of the hopper, the bottom of the hopper is hinged with a swing plate, a flexible expansion member is connected between the outer edge of the swing plate and the inner edge of the avoidance port, and the flexible expansion member is used for sealing a gap between the avoidance port and the swing plate; and the frame is provided with a reciprocating assembly, and the reciprocating assembly is hinged with the outer side surface of the swinging plate and is used for driving the swinging plate to swing within a certain range.

10. The spreading device for river seepage control engineering according to claim 9, wherein the reciprocating assembly comprises:

the reciprocating motor is arranged on the frame and is provided with an output shaft;

one end of the rotating rod is fixed on the output shaft; and

one end of the swinging rod is hinged with the other end of the rotating rod, and the other end of the swinging rod is hinged with the swinging plate;

the oscillating rod drives the oscillating plate to oscillate by the aid of the reciprocating motor.

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