CN213133544U - Pollute soil and restore breaker - Google Patents

Abstract

The application relates to a polluted soil restoration crushing device, which comprises a crusher body, wherein a first inlet and a first outlet are arranged on the crusher body, a screening device and a conveying device are fixedly arranged on the crusher body, the screening device comprises a screening box and a screening net fixedly arranged in the screening box, a second inlet and a second outlet are arranged on the screening box, the second inlet is connected with the first outlet, the second inlet is positioned on the upper side of the screening net, and the second outlet is positioned on the lower side of the screening net; the screening net is obliquely arranged, a third outlet is arranged on the screening box and located on the upper side of the screening net, the third outlet is adjacent to the position of one side with low height in the screening net, the conveying device is fixedly installed at the third outlet and comprises a conveying box, and the conveying box is connected with the third outlet. This application has the crushing effect more complete, and the soil that flows out from the second export contains the less effect of soil piece's volume.

Description

Pollute soil and restore breaker

Technical Field

The application relates to the field of soil restoration technology, in particular to a contaminated soil restoration and crushing device.

Background

At present, the quality of agricultural products can be reduced due to the pollution of heavy metals and organic matters in soil, the quality and the use value of the soil are influenced, and the human health and the ecological environment are damaged, so that the soil pollution remediation is an important task in the field of environmental protection. At present, a crushing device is needed to crush hard soil during soil remediation.

The current crushing device cannot ensure that soil is completely crushed when the soil is crushed, and more or less soil blocks which are not completely crushed exist when the crushing device discharges the material, so that the subsequent pollution repair operation on the soil is influenced. And as the crushing time is increased, the content of soil blocks in the soil is reduced, and the crushing efficiency is reduced.

In view of the above-mentioned related art, the inventor believes that the existing crushing device has a defect that soil is crushed incompletely.

SUMMERY OF THE UTILITY MODEL

In order to reduce the breaker ejection of compact, the volume of the not complete broken soil piece of containing in the soil, this application provides a pollute soil and restore breaker.

The application provides a pair of pollute soil and restore breaker adopts following technical scheme:

a polluted soil restoration crushing device comprises a crusher body, wherein a first inlet and a first outlet are formed in the crusher body, a screening device and a conveying device are fixedly mounted on the crusher body, the screening device comprises a screening box and a screening net fixedly mounted in the screening box, a second inlet and a second outlet are formed in the screening box, the second inlet is connected with the first outlet, the second inlet is located on the upper side of the screening net, and the second outlet is located on the lower side of the screening net; the screening net is obliquely arranged, a third outlet is arranged on the screening box and located on the upper side of the screening net, the third outlet is adjacent to the position of one side with low height in the screening net, the conveying device is fixedly installed at the third outlet and comprises a conveying box, and the conveying box is connected with the third outlet.

Through adopting above-mentioned technical scheme, fill soil from first import department to breaker body, breaker body is carrying out soil crushing back, and soil falls into the screening incasement from first exit, and the screening net of screening incasement can filter soil, and the soil that the granule is little flows out from the second exit, and the soil that the granule is big flows into the delivery box in from the third exit. The worker can pour the soil in the conveying box into the crusher body again for crushing. The breaking effect is more complete and the soil flowing out of the second outlet contains a smaller amount of soil pieces.

Preferably, the bottom surface slope of delivery box set up, the fourth export has been seted up to the position department that highly is the lowest in the delivery box bottom surface, installs conveying assembly on breaker organism, conveying assembly includes conveyer belt and lower silo, the one end of conveyer belt is located under the fourth export, the other end of conveyer belt is higher than first import, the one end of lower silo is located the downside of the high one end of conveyer belt, the other end of lower silo is located first import department.

Through adopting above-mentioned technical scheme, seted up the fourth export on the bottom surface of delivery box, the fourth exit is provided with conveying assembly, and on the soil of the fourth export roll-off of from delivery box can be stable dropped to the conveyer belt, under the drive of conveyer belt, soil can remove and drop to feed trough department, finally slides to first import department along feed trough down. The crusher can well transport soil with large particles into the crusher body again for crushing. The breaking effect is more complete and the soil flowing out of the second outlet contains a smaller amount of soil pieces.

Preferably, the conveying assembly comprises a conveying chute, the conveying chute comprises a conveying bottom plate and two conveying side plates fixed on the upper side face of the bottom plate, the length of the conveying chute is not less than that of the conveying belt, the conveying belt is embedded inside the conveying chute, and a gap is formed between the conveying belt and the conveying bottom plate.

Through adopting above-mentioned technical scheme, inlay the conveyer belt and establish in the conveying spout, when conveyer belt transportation soil, even soil landing from the conveyer belt also can be caught by conveying spout, the difficult phenomenon that soil dropped that appears.

Preferably, the high one end of conveying spout be connected with the high one end of feed chute height, the high one end fixedly connected with receiver of conveying spout height.

Through adopting above-mentioned technical scheme, the one end and the feed chute of conveying spout are connected, and the one end of installing the conveyer belt in the conveying spout can inlay and establish in the feed chute, and the landing that the soil that drops on from the conveyer belt can be stable is to the feed chute in. And the other end department fixed mounting of conveying spout has the receiver, can accomodate the landing soil from the conveyer belt. Through regularly clearing up the receiver to it is too much that soil is piled up to be difficult for appearing, leads to blockking up the phenomenon of conveying the spout.

Preferably, the fourth exit install adjusting part, adjusting part is including adjusting slide rail and regulating plate, adjusts the slide rail including adjusting the pole, adjusts the pole and respectively is provided with one in the both sides of fourth exit, adjust and seted up on the side that the pole is close to each other and adjust the spout, the both sides that the regulating plate is relative all inlay and establish in adjusting the spout, the regulating plate can remove and adjust the size of fourth exit along adjusting the slide rail.

Through adopting above-mentioned technical scheme, through the size of regulation fourth export that adjusting part can be convenient to convenient regulation soil is from the speed of flow in the transfer box, can adjust according to the conveying speed of conveyer belt. The phenomenon that soil on the conveying belt easily slides into the conveying chute due to the fact that the flowing speed of the soil from the conveying box is too high is not easy to happen.

Preferably, the second inlet is located at one end of the screening net with high height, the outer side wall of the screening box is fixedly connected with a vibration motor, and the vibration motor is adjacent to one side of the screening net with high height.

Through adopting above-mentioned technical scheme, vibrating motor during operation can move the vibration of screening net, has improved filterable effect.

Preferably, the conveying box, the screening box and the crusher body are all provided with observation windows.

Through adopting above-mentioned technical scheme, can observe the condition inside transport case, screening case and the breaker body through the observation window, be convenient for overhaul and enclosure.

Preferably, the conveyor belt is a baffle conveyor belt.

Through adopting above-mentioned technical scheme, the baffle conveyer belt be provided with the baffle on the surface, when carrying cubic materials such as soil, carry the effect better.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the crushing effect is more complete, and the soil flowing out of the second outlet contains less soil blocks;

2. on can be stable the falling to the conveyer belt from the soil of the fourth export roll-off of transport case, under the drive of conveyer belt, soil can remove and fall to feed trough department, finally slides to first import department along feed trough, can be automatic carry out the material loading, and it is more convenient to use.

Drawings

Fig. 1 is a schematic structural diagram of the present embodiment.

Figure 2 is a schematic view of the structure after partially screening the side walls of the box.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Description of reference numerals: 1. crushing the machine body; 11. a first inlet; 12. a first outlet; 2. a screening device; 21. screening the box; 22. a second inlet; 23. a second outlet; 24. a third outlet; 25. screening the net; 26. a vibration motor; 3. a conveying device; 31. a delivery box; 311. a delivery pipe; 312. a fourth outlet; 32. an adjustment assembly; 321. adjusting a rod; 322. an adjusting plate; 323. adjusting the sliding chute; 33. a transfer assembly; 331. a conveyor belt; 332. a conveying chute; 333. a discharging groove; 334. a storage box; 4. and (4) an observation window.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses contaminated soil restores breaker. Referring to fig. 1 and 2, the contaminated soil remediation and crushing apparatus includes a crusher body 1, a sieving device 2, and a conveying device 3. A first inlet 11 is arranged on the top surface of the crusher body 1, and a first outlet 12 is arranged on the bottom surface of the crusher body 1. An observation window 4 is installed on the side wall of the crusher body 1.

Referring to fig. 1 and 2, the sieving apparatus 2 includes a sieving tank 21 and a sieving net 25 installed in the sieving tank 21, the sieving net 25 dividing a space inside the sieving tank 21 into upper and lower two spaces. A second inlet 22, a second outlet 23 and a third outlet 24 are provided in the screening box 21. The second inlet 22 and the third outlet 24 are located on the upper side of the screening wire 25 and the second outlet 23 is located on the lower side of the screening wire 25. A second inlet 22 is provided at the upper end of the screening tank 21, the second inlet 22 being connected to the first outlet 12. The screening wire 25 is arranged obliquely and the third outlet 24 is arranged at a position adjacent to the lower side of the screening wire 25. The second outlet 23 is provided on the bottom surface of the classifying tank 21. A vibration motor 26 is fixedly mounted on the outer side wall of the sieving box 21, and the vibration motor 26 is located adjacent to the side of the sieving net 25 having a high height. A viewing window 4 is also mounted on the side wall of the screening box 21.

Referring to fig. 2 and 3, the conveying device 3 includes a conveying box 31 and an adjusting assembly 32, a conveying pipe 311 is connected to an upper end of the conveying box 31, the other end of the conveying pipe 311 is connected to the third outlet 24, a bottom surface of the conveying box 31 is an inclined surface, a fourth outlet 312 is provided on the bottom surface of the conveying box 31, and the fourth outlet 312 is located at a lowest position in the bottom surface of the conveying box 31. The side wall of the conveyance case 31 is also provided with an observation window 4. The adjusting assembly 32 includes two adjusting rods 321 and an adjusting plate 322, wherein the two adjusting rods 321 are parallel to each other and are respectively disposed at two sides of the fourth outlet 312. The adjusting rods 321 are provided with adjusting sliding grooves 323 on the side surfaces close to each other, and two opposite sides of the adjusting plates 322 are embedded in the adjusting sliding grooves 323 in a sliding manner. The adjusting plate 322 is movable along the adjusting slide 323 and closes the fourth outlet 312.

Referring to fig. 1 and 2, the conveying device 3 further includes a conveying assembly 33, and the conveying assembly 33 includes a conveyor belt 331, a conveying chute 332, and a blanking chute 333. The conveying chute 332 comprises a conveying bottom plate and two conveying side plates, the conveying side plates are vertically and fixedly mounted on the conveying bottom plate, and the two conveying side plates are arranged along two opposite side edges of the conveying bottom plate. The conveyor belt 331 is a baffle conveyor belt, the conveyor belt 331 is embedded in the conveying chute 332, and a gap is formed between the bottom surface of the conveyor belt 331 and the bottom surface of the inner side of the conveying chute 332. One end of the conveyor belt 331 is positioned directly below the fourth outlet 312, and the other end of the conveyor belt 331 is higher than the first outlet 12. One end of the feed chute 333 is connected to the high end of the transfer chute 332, and the other end of the feed chute 333 is connected to the first outlet 12. A storage box 334 is integrally formed at an end of the transfer chute 332 remote from the chute 333.

The implementation principle of the polluted soil restoration and crushing device in the embodiment of the application is as follows: fill soil through first import 11 departments to breaker 1 intussuseption, breaker 1 is carrying out the soil breakage back, and soil falls into screening case 21 in from first export 12 department, and screening net 25 in screening case 21 can filter soil. The soil with small particles can flow out of the second outlet 23 after passing through the screening net 25, while the soil with large particles flows into the transport box 31 from the third outlet 24. The soil can slide out from the fourth outlet 312 of the conveying box 31 and stably falls onto the conveying belt 331, and under the driving of the conveying belt 331, the soil can move and fall to the discharging groove 333 and finally to the first inlet 11 at the sliding position along the discharging groove 333. The soil with large particles can be transported into the crusher body 1 again for crushing. With a more complete breaking effect, the soil flowing out of the second outlet 23 contains a smaller amount of soil pieces.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a pollute soil and restore breaker, includes breaker body (1), is provided with first import (11) and first export (12) on breaker body (1), its characterized in that: the crusher is characterized in that a screening device (2) and a conveying device (3) are fixedly mounted on the crusher body (1), the screening device (2) comprises a screening box (21) and a screening net (25) fixedly mounted in the screening box (21), a second inlet (22) and a second outlet (23) are formed in the screening box (21), the second inlet (22) is connected with the first outlet (12), the second inlet (22) is located on the upper side of the screening net (25), and the second outlet (23) is located on the lower side of the screening net (25); screening net (25) slope sets up, is provided with third export (24) on screening case (21), and third export (24) are located the upside of screening net (25), and third export (24) are adjacent with the one side position that highly hangs down in screening net (25), and conveyor (3) fixed mounting is in third export (24) department, and conveyor (3) are including carrying case (31), and carry case (31) and third export (24) are connected.

2. The contaminated soil remediation and disruption device of claim 1, wherein: the bottom surface slope of transport case (31) set up, fourth export (312) have been seted up to the position department of highly minimizing in transport case (31) bottom surface, install conveying component (33) on breaker body (1), conveying component (33) include conveyer belt (331) and feed chute (333), the one end of conveyer belt (331) is located fourth export (312) under, the other end of conveyer belt (331) is higher than first mouthful (11), the one end of feed chute (333) is located the downside of the high one end of conveyer belt (331), the other end of feed chute (333) is located first mouthful (11) department.

3. The contaminated soil remediation and disruption device of claim 2, wherein: the conveying assembly (33) comprises a conveying chute (332), the conveying chute (332) comprises a conveying bottom plate and two conveying side plates fixed on the upper side face of the bottom plate, the length of the conveying chute (332) is not smaller than that of the conveying belt (331), the conveying belt (331) is embedded in the conveying chute (332), and a gap is formed between the conveying belt (331) and the conveying bottom plate.

4. The contaminated soil remediation and fragmentation device of claim 3, wherein: the high one end of conveying spout (332) be connected with the high one end of silo (333) down, conveying spout (332) one end fixedly connected with receiver (334) that highly hangs down.

5. The contaminated soil remediation and fragmentation device of claim 4, wherein: fourth export (312) department install adjusting part (32), adjusting part (32) are including adjusting slide rail and regulating plate (322), it includes adjusting pole (321) to adjust the slide rail, it respectively is provided with one in the both sides of fourth export (312) to adjust pole (321), adjust and seted up on the side that pole (321) are close to each other and adjust spout (323), the both sides that regulating plate (322) are relative all inlay and establish in adjusting spout (323), regulating plate (322) can be along adjusting the size that the slide rail removed and adjusted fourth export (312).

6. The contaminated soil remediation and disruption device of claim 1, wherein: the second inlet (22) is located at one end of the screening net (25) with high height, the outer side wall of the screening box (21) is fixedly connected with a vibration motor (26), and the vibration motor (26) is adjacent to one side of the screening net (25) with high height.

7. The contaminated soil remediation and disruption device of claim 1, wherein: the conveying box (31), the screening box (21) and the crusher body (1) are all provided with observation windows (4).

8. The contaminated soil remediation and disruption device of claim 2, wherein: the conveying belt (331) is a baffle conveying belt.

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