CN114803322B - Conveying device for quartz sand pickling - Google Patents

Abstract

The invention belongs to the field of quartz sand conveying, and particularly relates to a conveying device for quartz sand pickling, which comprises a conveying module and a supporting column, wherein the supporting column is positioned on one side of the conveying module, two groups of servo motors II are fixedly installed inside the supporting column, the output ends of the servo motors II are vertically connected with an electric telescopic rod, one end of the electric telescopic rod is connected with a receiving frame, the bottom end of the receiving frame is provided with a switch valve, and by matching the arrangement of the two groups of receiving frames, one receiving frame is fully collected, then the fully collected receiving frame is rotated away, the other group of receiving frame is used for receiving, the rotated receiving frame is stopped after being moved to the position above an empty pickling equipment inlet, the switch valve is opened to pour out quartz sand, the quartz sand is replaced after the other receiving frame is fully connected, the steps are repeated, the effect of conveying quantitative quartz sand to different pickling equipment can be realized, the pickling process is quickly connected with the conveying process, and the conveying efficiency is effectively improved.

Description

Conveying device for quartz sand pickling

Technical Field

The invention belongs to the field of quartz sand conveying, and particularly relates to a conveying device for quartz sand pickling.

Background

Quartz sand is one of indispensable raw materials in building engineering, and in order to ensure the quality of the quartz sand, the quartz sand needs to be subjected to acid cleaning treatment before use, and in a large-scale collection and production place of the quartz sand, such as a collection factory, a special conveying device needs to be used for conveying the quartz sand.

A Chinese patent with publication number CN111204596B discloses a conveying device and a method for quartz sand, wherein the device comprises a storage bin, a sealed bin, a conveying disc arranged in the sealed bin, an air source and a material blowing block; the method comprises the following steps: mechanically conveying the quartz sand to a material blowing block in the sealed bin; the blowing block comprises a bottom opening and a top small opening which are communicated with each other; meanwhile, the installation position of the conveying device in the prior art is limited by the height, so that the problems of difficulty in filling raw materials, safety risk and the like can be caused, and the conveying device is more suitable for practical use.

The prior art has some defects, quartz sand collected and manufactured in a collection factory needs to be conveyed to pickling equipment through a long conveying belt for pickling treatment, but because the quantity of the quartz sand collected in the collection factory is large, and a general conveying mechanism is fixedly arranged, the conveyed quartz sand can only be conveyed to one position at a fixed point, and the quartz sand cannot be conveyed to a plurality of pickling equipment for pickling treatment.

Therefore, the invention provides a conveying device for quartz sand pickling.

Disclosure of Invention

To remedy the deficiencies of the prior art, at least one of the technical problems set forth in the background is addressed.

The technical scheme adopted by the invention for solving the technical problems is as follows: the conveying device for quartz sand pickling comprises a conveying module and a supporting column, wherein the supporting column is located on one side of the conveying module, two groups of servo motors II are fixedly installed inside the supporting column, the output ends of the servo motors II are vertically connected with an electric telescopic rod, one end of the electric telescopic rod is connected with a receiving frame, a switch valve is arranged at the bottom end of the receiving frame, the two groups of receiving frames are moved to the output end of the conveying module through the servo motors II in a matched mode, one receiving frame is fully collected along with the conveying of the conveying module, the fully collected receiving frame is rotated away, the other group of receiving frame is received, the rotated receiving frame is moved to the position above an empty pickling equipment inlet and then stopped, the switch valve is opened to pour out quartz sand, the quartz sand is replaced after the other receiving frame is fully connected, the effect of conveying quantitative quartz sand to different pickling equipment can be achieved by repeating the steps, the pickling process and the conveying process are quickly connected, and the conveying efficiency is effectively improved.

Preferably, the conveying module includes the support frame, the equal fixed mounting in both ends of support frame has servo motor one, servo motor one's transmission end fixed mounting has the power roller, the top fixed mounting of support frame has the spacing roller of a plurality of groups, and every group includes the spacing roller that two symmetries set up, and spacing roller is the slope setting, and the outside transmission of a plurality of spacing roller and two power rollers is connected with conveyer, the both sides of support frame lean on the equal fixed mounting in one end to have atomizer, through setting up atomizer, are connected the water pipe with atomizer, spray the atomizing water source at quartz sand's receiving terminal pair quartz sand, increase quartz sand's whole gravity and viscidity, reduce the problem of being blown away by the strong wind, cooperate the setting of the spacing roller of leanin simultaneously, let the conveyer of top be interior concavity, reduce the contact surface of quartz sand and wind, further reduce the loss of being blown away the cause by the strong wind.

Preferably, the power roller of keeping away from atomizer one end is hollow setting, and this power roller is the segmentation setting, has the gap between two sections power rollers, fixedly connected with transfer line between two sections power rollers, the outside of transfer line is provided with the center block, the center block is located between two power rollers, center block and support frame fixed connection, conveyer's inboard is connected with a plurality of vibrating arms, and a plurality of vibrating arms is the equidistance and distributes, and during operation, in last output phase, quartz sand is attached to conveyer's the outside easily, leads to not falling into the receiving frame at last and causes the loss at last, and the setting of cooperation vibrating arm this moment, the segmentation structure setting of cooperation power roller, along with conveyer's motion, the vibrating arm can contact with fixed center block, can make the vibrating arm deflect and then drive conveyer and remove, and then can assist the discharge effect of quartz sand, further reduced the loss of quartz sand.

Preferably, the center block is the disc setting, the outside fixed mounting of center block has a plurality of contact piece, a plurality of contact piece is the equidistance and distributes, gap between the adjacent contact piece is greater than the width of vibrations pole, in operation, the setting of cooperation contact piece, along with vibrations pole and contact piece contact back, can let the vibrations pole skew earlier, along with the vibrations pole leaves contact piece, the vibrations pole can swing under the inertia effect, and then drive the conveyer shake, can effectually shake the quartz sand in the conveyer outside, guarantee that quartz sand can fix a point and discharge in the receiving frame, reduce the loss of quartz sand.

Preferably, the contact piece is evagination arc setting with one side of vibrations pole contact, the opposite side of contact piece is interior concavity setting, and the contact piece has seted up the inner groovy with one side of vibrations pole contact by the one end of center block, and the during operation, cooperation contact piece one side's indent arc setting and the offering of inner groovy can let the vibrations pole of shake have sufficient space to sway, reduce to sway the in-process and strike the contact piece, lead to the problem of vibrations effect variation.

Preferably, conveyer's outside fixed mounting has a plurality of baffle, fixedly connected with isolation pad between the adjacent baffle, the isolation pad sets up for elastic material, the vibrations pole is elastic material, be connected with drive assembly between the one end of vibrations pole and the isolation pad, drive assembly is used for transmitting kinetic energy, and the during operation, through setting up the isolation pad, lets quartz sand fall into the isolation pad top, and the vibrations pole passes through drive assembly simultaneously and will shake the effect and transmit for the isolation pad, through this kind of setting, lets the conveyer body can normally transmit and not receive the too much influence of vibrations, lets single vibrations effect only transmit on the isolation pad that corresponds simultaneously, and not the transmission gives whole conveyer, has guaranteed the vibration effect, has further improved the effect of shaking off quartz sand.

Preferably, transmission assembly includes the swing piece, a plurality of through hole has been seted up on conveyer's top, and a plurality of through hole is the equidistance and distributes, it is connected with the pivot to rotate on the inside wall of through hole, the one end and the swing piece fixed connection of pivot, the other end fixed mounting of pivot has the montant, the outside and the vibrating arm fixed connection of montant, two fixedly connected with connect the rope between swing piece and the isolation pad, two are connected the rope and are the symmetry setting, and the during operation can drive the swing piece through the pivot along with the swing of vibrating arm and sway, and the rethread is connected the rope and is pulled the isolation pad and carry out the luffing motion to transmission effect and swing effect have been guaranteed, further reduced the loss of quartz sand.

Preferably, two elastic pads of dragging of fixedly connected with between isolation pad and the conveyer, two pads of dragging are the symmetry setting, the elastic sealed piece of middle part fixed mounting of through hole, the during operation, the setting of pad and sealed piece is dragged to cooperation elasticity, lets the inboard of isolation pad form a confined space, along with the connection rope of one side is dragged the isolation pad that drives one side to the indent, the air that can make this side is extruded, let the opposite side inflation, thereby can let the isolation pad of opposite side outwards ejecting, thereby can effectual increase shake off the effect of quartz sand, further reduced the loss of quartz sand.

Preferably, receive the frame and include the go-between, the outside and the electric telescopic handle fixed connection of go-between, the bottom of go-between is provided with the funnel, fixedly connected with pulling force response module between funnel and the go-between, the during operation, along with the inside quartz sand of funnel is more and more, can make pulling force response module numerical value rise, when the predetermined value that rises, can start servo motor two, drive the go-between rotation and leave to the effectual quality that lets the quartz sand of transportation at every turn is the same, lets the quantity that gets into the quartz sand with specification pickling equipment keep unanimous as far as possible, and then has guaranteed the pickling quality.

Preferably, the outside fixed mounting of funnel has the lifting rope, the bottom fixed mounting of lifting rope has the impact ball, the outside fixed mounting of funnel has the striking arm, the striking arm is located one side of impact ball, and the during operation, after rotating the position, under inertial effect, the impact ball can collide with the striking arm, can drive the funnel and rock, can assist the shake-off process of quartz sand, reduces remaining of quartz sand, further lets the quantity that gets into the quartz sand with specification pickling equipment keep unanimous as far as possible, has further improved the pickling quality.

The invention has the following beneficial effects:

according to the conveying device for quartz sand pickling, the two groups of receiving frames are arranged, so that the effect of conveying quantitative quartz sand to different pickling devices can be realized, the pickling process and the conveying process are quickly connected, and the conveying efficiency is effectively improved.

According to the conveying device for pickling of the quartz sand, the atomizing nozzle and the inclined limiting roller are arranged, an atomizing water source is sprayed to the quartz sand at the receiving end of the quartz sand, the overall gravity and viscosity of the quartz sand are increased, the problem of being blown away by strong wind is reduced, meanwhile, the conveying belt above the conveying belt is concave inwards by matching with the arrangement of the inward inclined limiting roller, the contact surface of the quartz sand and the wind is reduced, and the loss caused by the strong wind is further reduced.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic view of the connection of the power roller and the conveyor belt of the present invention;

FIG. 3 is a cross-sectional view of a conveyor belt of the present invention;

FIG. 4 is a cross-sectional view of a receiving frame of the present invention;

FIG. 5 is a sectional view showing the connection between the receiving frame and the striking ball in the present invention

In the figure: 1. a transfer module; 2. a support frame; 3. a conveyor belt; 4. an atomizing spray head; 5. a limiting roller; 6. a power roller; 8. a first servo motor; 9. a support column; 10. an electric telescopic rod; 11. receiving a frame; 12. a vibration rod; 13. a center block; 14. a contact block; 15. a baffle plate; 16. an insulating pad; 17. pulling the pad; 18. connecting ropes; 19. a swing block; 20. a rotating shaft; 21. a sealing block; 23. a vertical rod; 24. a connecting ring; 25. a tension sensing module; 26. a funnel; 27. an on-off valve; 28. an impact arm; 29. striking a ball; 30. a lifting rope.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

As shown in fig. 1, a conveying device for quartz sand pickling according to an embodiment of the present invention includes a conveying module 1 and a supporting column 9, the supporting column 9 is located at one side of the conveying module 1, two sets of servo motors ii are fixedly installed inside the supporting column 9, an output end of the servo motor ii is vertically connected to an electric telescopic rod 10, one end of the electric telescopic rod 10 is connected to a receiving frame 11, and a switch valve 27 is disposed at a bottom end of the receiving frame 11, when the conveying device works, quartz sand collected and manufactured by a collection factory needs to be conveyed to a pickling device through a long conveying belt for pickling treatment, but since the quantity of quartz sand collected by the collection factory is huge, and a general conveying mechanism is fixedly installed, the conveyed quartz sand can only be conveyed to one place at a fixed point, it is unable to transport quartz sand to and carry out the pickling in a plurality of pickling facilities, cooperate the setting of two sets of receiving frames 11, all remove the output of transport module 1 with two sets of receiving frames 11 through servo motor two, along with transport module 1's transportation, it is full with a receiving frame 11 collection earlier, later will collect the rotatory departure of full receiving frame 11, let another set of receiving frame 11 receive, rotatory receiving frame 611 moves and stops after empty pickling facility entry top, and open ooff valve 27 pours quartz sand out, wait to another receiving frame 11 to connect the replacement after full, repeat above-mentioned step, can realize transporting the effect of different pickling facilities with quantitative quartz sand, let pickling process and transportation link up fast, the effectual conveying efficiency that has promoted.

As shown in fig. 1, conveying module 1 includes support frame 2, the equal fixed mounting in both ends of support frame 2 has servo motor 8, the transmission end fixed mounting of servo motor 8 has power roller 6, the top fixed mounting of support frame 2 has the spacing roller 5 of a plurality of groups, every group includes the spacing roller 5 that two symmetries set up, and spacing roller 5 is the slope setting, and the outside transmission of a plurality of spacing roller 5 and two power rollers 6 is connected with conveyer 3, the both sides of support frame 2 lean on the equal fixed mounting of one end to have atomizer 4, in operation, on the way of carrying, quartz sand often exposes in the air, when meetting strong wind weather, lead to quartz sand to run off in a large number easily, thereby cause the loss, through setting up atomizer 4, be connected water pipe and atomizer 4, spray atomizer water source at quartz sand's receiving terminal pair quartz sand, increase quartz sand's whole gravity and viscidity, reduce the problem of being blown away by the strong wind, cooperate the setting of the spacing roller 5 of leanin simultaneously, let conveyer 3 of top be the interior concavity, reduce the contact surface of quartz sand and wind, further reduce the loss of being blown away by the strong wind.

As shown in fig. 2, the power roller 6 far away from one end of the atomizer 4 is arranged in a hollow manner, the power roller 6 is arranged in a segmented manner, a gap exists between two sections of the power roller 6, a transmission rod is fixedly connected between the two sections of the power roller 6, a center block 13 is arranged on the outer side of the transmission rod, the center block 13 is positioned between the two power rollers 6, the center block 13 is fixedly connected with the support frame 2, the inner side of the conveyor belt 3 is connected with a plurality of vibration rods 12, the vibration rods 12 are distributed at equal intervals, and during operation, quartz sand is easily attached to the outer side of the conveyor belt 3 in a final output stage, so that the quartz sand does not fall into the receiving frame 11 at last to cause loss.

As shown in fig. 2, center block 13 is the disc setting, center block 13's outside fixed mounting has a plurality of contact piece 14, a plurality of contact piece 14 is the equidistance and distributes, the gap between the adjacent contact piece 14 is greater than the width of vibrations pole 12, in operation, the setting of cooperation contact piece 14, along with vibrations pole 12 with contact piece 14 contact back, can let vibrations pole 12 skew earlier, along with vibrations pole 12 leaves contact piece 14, vibrations pole 12 can swing under the inertia effect, and then drive conveyer 3 shake, can effectually shake off the quartz sand in the conveyer 3 outside, guarantee that the quartz sand can be fixed point and discharge in receiving frame 11, reduce the loss of quartz sand.

As shown in fig. 2, the contact block 14 is arranged in a convex arc shape at one side contacting with the vibration rod 12, the other side of the contact block 14 is arranged in a concave shape, and an inner groove is arranged at one side contacting with the vibration rod 12, close to one end of the central block 13, of the contact block 14, and when the vibration rod works, the concave arc shape at one side of the contact block 14 and the inner groove are matched, so that the vibrating rod 12 which shakes can swing in a sufficient space, the contact block 14 is prevented from being impacted in the swinging process, and the vibration effect is reduced.

As shown in fig. 3, conveyer 3's outside fixed mounting has a plurality of baffle 15, fixedly connected with isolation pad 16 between the adjacent baffle 15, isolation pad 16 sets up for elastic material, vibrations pole 12 is elastic material, be connected with drive assembly between the one end of vibrations pole 12 and the isolation pad 16, drive assembly is used for transmitting kinetic energy, and during operation, through setting up isolation pad 16, let quartz sand fall into isolation pad 16 top, vibrations pole 12 passes through drive assembly simultaneously and will shake the effect and transmit for isolation pad 16, through this kind of setting, lets conveyer 3 body can not receive the too much influence of vibrations in normal transmission, lets simultaneously single vibrations effect only transmit on corresponding isolation pad 16, and not the transmission gives whole conveyer 3, has guaranteed vibrations effect, has further improved the effect of shaking off quartz sand.

As shown in fig. 3, transmission assembly includes swing piece 19, a plurality of through hole has been seted up on conveyer 3's top, and a plurality of through hole is the equidistance and distributes, it is connected with pivot 20 to rotate on the inside wall of through hole, the one end and the swing piece 19 fixed connection of pivot 20, the other end fixed mounting of pivot 20 has montant 23, the outside and the vibrations pole 12 fixed connection of montant 23, two fixedly connected with are connected rope 18 between swing piece 19 and the isolating pad 16, and two are connected rope 18 and are the symmetry setting, and during operation, along with the swing of vibrations pole 12, can drive swing piece 19 through pivot 20 and sway, and rethread is connected rope 18 and is dragged isolating pad 16 and carry out the luffing motion to transmission effect and swing effect have been guaranteed, further reduced the loss of quartz sand.

As shown in fig. 3, two elastic pulling pads 17 of fixedly connected with between isolation pad 16 and conveyer 3, two pulling pads 17 are the symmetry setting, the elastic sealed piece 21 of middle part fixed mounting of through hole, in operation, the setting of pad 17 and sealed piece 21 is pulled to cooperation elasticity, let isolation pad 16's inboard form a confined space, the isolation pad 16 that drives one side is pulled to the indent along with the connection rope 18 of one side, the air that can make this side is extruded, let the opposite side inflation, thereby can let the isolation pad 16 of opposite side outwards ejecting, thereby can effectual increase shake off the effect of quartz sand, further reduced the loss of quartz sand.

As shown in fig. 4, the receiving frame 11 includes a connecting ring 24, the outer side of the connecting ring 24 is fixedly connected to the electric telescopic rod 10, the bottom end of the connecting ring 24 is provided with a funnel 26, a tension sensing module 25 is fixedly connected between the funnel 26 and the connecting ring 24, during operation, as more and more quartz sand in the funnel 26 is generated, the tension sensing module 25 rises, when a rising predetermined value is generated, a second servo motor is started to drive the connecting ring 24 to rotate away, so that the quality of the quartz sand transported at each time is effectively the same, the quantity of the quartz sand entering the pickling equipment of the same specification is kept as consistent as possible, and the pickling quality is further ensured.

Example two

As shown in fig. 5, a first comparative example, in which another embodiment of the present invention is: the outside fixed mounting of funnel 26 has lifting rope 30, the bottom fixed mounting of lifting rope 30 has impact ball 29, the outside fixed mounting of funnel 26 has impact arm 28, impact arm 28 is located one side of impact ball 29, and the during operation is rotating the position after, under inertial effect, impact ball 29 can collide with impact arm 28, can drive funnel 26 and rock, can assist the shake-off process of quartz sand, reduces the remaining of quartz sand, further lets the quantity that gets into the quartz sand with specification pickling equipment keep unanimous as far as possible, has further improved the pickling quality.

During work, quartz sand collected and manufactured in a collection factory needs to be conveyed to pickling equipment through a long conveying belt for pickling treatment, but due to the fact that the quantity of the quartz sand collected in the collection factory is large, a common conveying mechanism is fixedly arranged, the conveyed quartz sand can only be conveyed to one place at a fixed point, the quartz sand cannot be conveyed to a plurality of pickling equipment for pickling treatment, the two groups of receiving frames 11 are matched with the arrangement of the two groups of receiving frames 11, the two groups of receiving frames 11 are moved to the output end of the conveying module 1 through the servo motor II, one receiving frame 11 is fully collected along with the conveying of the conveying module 1, then the fully collected receiving frame 11 is rotated away, the other group of receiving frames 11 are used for receiving, the rotated receiving frame 11 is moved to the position above the empty pickling equipment inlet and then stopped, the switch valve 27 is opened to pour out the quartz sand, the quartz sand is replaced after the other receiving frame 11 is fully collected, the steps are repeated, the effect of conveying quantitative quartz sand to different pickling equipment can be achieved, the pickling process and the conveying process are quickly connected, and the conveying efficiency is effectively improved; during operation, during transportation, quartz sand is often exposed in the air, and when the quartz sand meets windy weather, a large amount of quartz sand is easily lost, so that loss is caused, the atomizing nozzle 4 is arranged to connect the water pipe with the atomizing nozzle 4, an atomizing water source is sprayed to the quartz sand at the receiving end of the quartz sand, the overall gravity and viscosity of the quartz sand are increased, and the problem of being blown away by the windy wind is reduced; during operation, in the final output stage, quartz sand is easy to attach to the outer side of the conveying belt 3, so that the quartz sand does not fall into the receiving frame 11 at last to cause loss, at the moment, the vibration rod 12 is arranged in a matched mode, the segmented structure arrangement of the power roller 6 is arranged in a matched mode, along with the movement of the conveying belt 3, the vibration rod 12 can be in contact with the fixed central block 13, the vibration rod 12 can deflect to drive the conveying belt 3 to move, the discharging effect of the quartz sand can be assisted, and the loss of the quartz sand is further reduced; when the vibrating device works, the contact block 14 is matched, the vibrating rod 12 can deflect firstly after the vibrating rod 12 is contacted with the contact block 14, and the vibrating rod 12 can swing under the action of inertia as the vibrating rod 12 leaves the contact block 14, so that the conveying belt 3 is driven to vibrate, quartz sand on the outer side of the conveying belt 3 can be effectively shaken off, the quartz sand can be discharged into the receiving frame 11 at a fixed point, and the loss of the quartz sand is reduced; when the vibration rod works, the vibrating rod 12 which shakes can have enough space to swing by matching the concave arc arrangement at one side of the contact block 14 and the arrangement of the inner groove, so that the problem that the vibrating effect is poor due to the fact that the vibrating rod impacts the contact block 14 in the swinging process is solved; during operation, the isolation pad 16 is arranged, so that quartz sand falls above the isolation pad 16, the vibration rod 12 transmits the vibration effect to the isolation pad 16 through the transmission assembly, the transmission of the body of the conveying belt 3 can be normal without being influenced by too much vibration through the arrangement, and meanwhile, the single vibration effect is only transmitted to the corresponding isolation pad 16 instead of being transmitted to the whole conveying belt 3, so that the vibration effect is ensured, and the effect of shaking off the quartz sand is further improved; when the vibrating rod works, the vibrating rod 12 swings, the swinging block 19 is driven to swing through the rotating shaft 20, and then the isolating pad 16 is pulled through the connecting rope 18 to swing up and down, so that the transmission effect and the swinging effect are ensured, and the loss of quartz sand is further reduced; when the device works, the elastic pulling pad 17 and the sealing block 21 are matched to form a sealing space on the inner side of the isolation pad 16, and the connection rope 18 on one side is pulled to drive the isolation pad 16 on one side to be inwards concave, so that the air on the side is extruded, and the other side is expanded, so that the isolation pad 16 on the other side can be outwards ejected, the effect of shaking off the quartz sand can be effectively improved, and the loss of the quartz sand is further reduced; when the device works, the numerical value of the tension sensing module 25 is increased along with the increase of the quartz sand in the funnel 26, and when the preset value is increased, the servo motor II is started to drive the connecting ring 24 to rotate away, so that the quality of the quartz sand transported each time is effectively the same, the quantity of the quartz sand entering the pickling equipment with the same specification is kept as consistent as possible, and the pickling quality is further ensured; in operation, after rotating to the position, under the effect of inertia, striking ball 29 can bump with striking arm 28, can drive funnel 26 and rock, can assist the shake-off process of quartz sand, reduces the residue of quartz sand, further lets the quantity of the quartz sand that gets into same specification pickling installation keep unanimous as far as possible, has further improved the pickling quality.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A conveyor for quartz sand pickling, its characterized in that: the conveying device comprises a conveying module (1) and a supporting column (9), wherein the supporting column (9) is located on one side of the conveying module (1), two groups of servo motors II are fixedly installed inside the supporting column (9), the output ends of the servo motors II are vertically connected with an electric telescopic rod (10), one end of the electric telescopic rod (10) is connected with a receiving frame (11), and the bottom end of the receiving frame (11) is provided with a switch valve (27);

the conveying module (1) comprises a support frame (2), a first servo motor (8) is fixedly mounted at each of two ends of the support frame (2), a power roller (6) is fixedly mounted at a transmission end of the first servo motor (8), a plurality of groups of limiting rollers (5) are fixedly mounted at the top end of the support frame (2), each group comprises two symmetrically arranged limiting rollers (5), the limiting rollers (5) are obliquely arranged, a conveying belt (3) is connected with the plurality of limiting rollers (5) and the outer sides of the two power rollers (6) in a transmission manner, and atomizing nozzles (4) are fixedly mounted at two sides of the support frame (2) close to one end;

the power roller (6) far away from one end of the atomizing nozzle (4) is arranged in a hollow mode, the power roller (6) is arranged in a segmented mode, a gap exists between two sections of power rollers (6), a transmission rod is fixedly connected between the two sections of power rollers (6), a center block (13) is arranged on the outer side of the transmission rod, the center block (13) is located between the two power rollers (6), the center block (13) is fixedly connected with the support frame (2), the inner side of the conveying belt (3) is connected with a plurality of vibration rods (12), and the plurality of vibration rods (12) are distributed at equal intervals;

the central block (13) is arranged in a disc shape, and a plurality of contact blocks (14) are fixedly mounted on the outer side of the central block (13);

the vibration device is characterized in that a plurality of baffles (15) are fixedly mounted on the outer side of the conveying belt (3), isolation pads (16) are fixedly connected between every two adjacent baffles (15), each isolation pad (16) is made of an elastic material, each vibration rod (12) is made of an elastic material, a transmission assembly is connected between one end of each vibration rod (12) and each isolation pad (16), and each transmission assembly is used for transmitting kinetic energy;

drive assembly is including swing piece (19), a plurality of through hole has been seted up on the top of conveyer (3), and a plurality of through hole is the equidistance and distributes, it is connected with pivot (20) to rotate on the inside wall of through hole, the one end and the swing piece (19) fixed connection of pivot (20), the other end fixed mounting of pivot (20) has montant (23), the outside and vibrations pole (12) fixed connection of montant (23), two fixedly connected with between swing piece (19) and the isolation pad (16) are connected rope (18), and two are connected rope (18) and are the symmetry and set up.

2. The conveying device for quartz sand pickling as claimed in claim 1, wherein: the contact blocks (14) are distributed at equal intervals, and the gap between the adjacent contact blocks (14) is larger than the width of the vibration rod (12).

3. The conveying device for quartz sand pickling as claimed in claim 1, wherein: one side of the contact block (14) contacting the vibration rod (12) is in an outward convex arc shape, the other side of the contact block (14) is in an inward concave shape, and an inner groove is formed in one end, close to the center block (13), of one side of the contact block (14) contacting the vibration rod (12).

4. The conveying device for quartz sand pickling as claimed in claim 1, wherein: two elastic pull pads (17) of fixedly connected with between isolation pad (16) and conveyer (3), two pull pads (17) and be the symmetry setting, the elastic sealed piece of middle part fixed mounting (21) of through hole.

5. The conveying device for pickling of quartz sand as recited in claim 4, wherein: the receiving frame (11) comprises a connecting ring (24), the outer side of the connecting ring (24) is fixedly connected with the electric telescopic rod (10), a funnel (26) is arranged at the bottom end of the connecting ring (24), and a tension sensing module (25) is fixedly connected between the funnel (26) and the connecting ring (24).

6. The conveying device for quartz sand pickling as claimed in claim 5, wherein: the outside fixed mounting of funnel (26) has lifting rope (30), the bottom fixed mounting of lifting rope (30) has striking ball (29), the outside fixed mounting of funnel (26) has striking arm (28), striking arm (28) are located one side of striking ball (29).

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