CN215781785U - Green mine building stones cutting waste water recovery device - Google Patents

Abstract

A green mine stone cutting wastewater recovery device relates to the technical field of mine stone mining, and comprises a recovery box, supporting legs, a feeding pipe, a discharging pipe, a first telescopic rod, a box door, a filter plate, a second telescopic rod, a mud scraper, a control panel, a processor, a manual controller and a pressure sensor; an opening is arranged on one transverse side of the recovery box, and an installation groove is arranged on the inner wall of the opening along the transverse direction; the supporting legs are arranged at the bottom of the recovery box; the feeding pipe is arranged on the recovery box and communicated with the recovery box; the discharging pipe sets up in the collection box bottom, discharging pipe and collection box intercommunication. The automatic filter plate cleaning device can automatically monitor and clean the material slag on the filter plate, is time-saving and labor-saving in use, greatly improves the waste water recovery efficiency, and has high automation degree.

Description

Green mine building stones cutting waste water recovery device

Technical Field

The utility model relates to the technical field of mining stone, in particular to a green mine stone cutting wastewater recovery device.

Background

The 'green mine' refers to the whole process of mineral resource development, and not only scientific and orderly mining needs to be strictly implemented, but also disturbance control on a mining area and the surrounding environment is controlled within an environment controllable range. The construction of green mines is a complex system project. It represents a regional mining exploitation and utilization of the overall level and sustainable development potential, as well as the ability to maintain ecological balance. The method is focused on scientifically, orderly and reasonably developing and utilizing mine resources, and recovering, treating or transforming and innovating the inevitable pollution, mine geological disasters and ecological damage unbalance to the maximum extent. Based on the current utilization situation of mineral resources in China, the key stage that China is in the accelerated development of industrialized urbanization is pointed out, and the rigidity of resource requirements is increased: on one hand, the development and utilization of mineral resources make outstanding contribution to the guarantee of economic and social development; on the other hand, many mine resource development and utilization modes are still relatively extensive, the energy-saving and emission-reduction tasks are heavy, the mine environment problems are prominent, and the new requirements of economic and social development cannot be completely met. The development and utilization mode which is characterized by simple consumption of mineral resources, sacrifice of ecological environment and high energy consumption in the traditional sense is changed, the development mode and the economic growth mode are fundamentally changed, the coordinated development of reasonable development and utilization of resources and environmental protection is really realized, and the development of mine enterprises becomes an inevitable choice.

In the quarrying operation, especially in the cutting process after quarrying, water is needed for cooling, and if the cooled water cannot be recycled, a large amount of resources are wasted. In order to avoid waste, people design a stone cutting wastewater recovery device. The waste water recovery device for stone cutting in the prior art can not automatically discharge stone material slag after the stone material slag is settled, needs manual timing salvage, consumes time and labor, and can reduce waste water recovery efficiency when people do not salvage the stone material slag in time.

SUMMERY OF THE UTILITY MODEL

Objects of the utility model

In order to solve the technical problems in the background art, the utility model provides a green mine stone cutting wastewater recovery device which can automatically monitor and clean material residues on a filter plate, is time-saving and labor-saving in use, greatly improves the wastewater recovery efficiency, and has high automation degree.

(II) technical scheme

The utility model provides a device for recovering stone cutting wastewater of a green mine, which comprises a recovery box, supporting legs, a feeding pipe, a discharging pipe, a first telescopic rod, a box door, a filter plate, a second telescopic rod, a mud scraper, a control panel, a processor, a manual controller and a pressure sensor, wherein the first telescopic rod is connected with the box door;

an opening is arranged on one transverse side of the recovery box, and an installation groove is arranged on the inner wall of the opening along the transverse direction; the supporting legs are arranged at the bottom of the recovery box; the feeding pipe is arranged on the recovery box and communicated with the recovery box; the discharge pipe is arranged at the bottom of the recovery box and communicated with the recovery box;

the first telescopic rod is arranged on the inner wall of one transverse side of the mounting groove; the box door is arranged at one transverse end, far away from the mounting groove, of the first telescopic rod, the box door is connected with the recovery box in a sliding mode, the box door is located in the opening, and the shape of the outer peripheral surface of the box door is matched with the shape of the inner wall of the opening;

the filter plate is arranged on the inner wall of the recovery box in a sliding manner; the second telescopic rod is arranged on the inner wall of one side of the recovery box opposite to the opening and is transversely arranged; the mud scraping plate is arranged at one transverse end of the second telescopic rod, the bottom of the mud scraping plate is attached to the filter plate, and the mud scraping plate is connected with the filter plate in a sliding mode;

the control panel is arranged on the recovery box; the processor is arranged on the control panel and is in control connection with the first telescopic rod and the second telescopic rod; the manual controller is arranged on the control panel and is in control connection with the first telescopic rod and the second telescopic rod; the pressure sensor sets up in the collection box, and pressure sensor is located the filter below.

Preferably, the inner walls of the two longitudinal sides of the recovery box are provided with sliding chutes; the vertical both sides of filter all are provided with the slider, slider and collection box sliding connection, and the slider is located the spout, and pressure sensor sets up on the spout bottom inner wall of the vertical one side of collection box, and pressure sensor is located the slider below.

Preferably, the sliding groove is of a T-shaped groove structure, the sliding block is of a T-shaped block structure, and the sliding block is matched with the sliding groove.

Preferably, the anti-skid mat also comprises an anti-skid mat; the non-slip mat sets up in the supporting leg bottom, and the non-slip mat is square block structure or cylinder block structure, and the non-slip mat bottom evenly is provided with multichannel antiskid line.

Preferably, the protective pad further comprises a second protective pad; the second protection pad is located the spout bottom inner wall of the vertical opposite side of collection box, and the second protection pad is located the slider below.

Preferably, the device further comprises a first protection pad; the first protection pad is arranged between the sliding block and the pressure sensor.

Preferably, the first telescopic rod is an air pressure telescopic rod, and the second telescopic rod is a hydraulic telescopic rod.

Compared with the prior art, the technical scheme of the utility model has the following beneficial technical effects:

when the filter plate is used, the filter plate can automatically monitor the material slag on the filter plate, when the weight of the material slag on the filter plate reaches a certain degree, the material slag is automatically discharged under the control of the processor, manual timing salvage is not needed, time and labor are saved during use, the wastewater recovery efficiency is greatly improved, and the automation degree is high.

Drawings

FIG. 1 is a schematic structural diagram of a waste water recovery device for cutting stone in green mines according to the utility model.

FIG. 2 is a partial sectional view from a first view angle of a waste water recovering apparatus for cutting stone in green mine according to the present invention.

FIG. 3 is a partial sectional view from a second perspective of the waste water recovering apparatus for cutting rock material in green mine according to the present invention.

Reference numerals: 1. a recycling bin; 101. an opening; 102. mounting grooves; 103. a chute; 2. supporting legs; 3. a non-slip mat; 4. a feed pipe; 5. a discharge pipe; 6. a first telescopic rod; 7. a box door; 8. a filter plate; 801. a slider; 9. a first protection pad; 10. a second protection pad; 11. a second telescopic rod; 12. a mud scraper; 13. a control panel; 14. a processor; 15. a manual controller; 16. a pressure sensor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-3, the device for recovering waste water from cutting stone in green mine provided by the utility model comprises a recovery box 1, a supporting leg 2, a feeding pipe 4, a discharging pipe 5, a first telescopic rod 6, a box door 7, a filter plate 8, a second telescopic rod 11, a mud scraper 12, a control panel 13, a processor 14, a manual controller 15 and a pressure sensor 16;

an opening 101 is formed in one side of the recycling box 1 in the transverse direction, and an installation groove 102 is formed in the inner wall of the opening 101 in the transverse direction; the supporting legs 2 are arranged at the bottom of the recovery box 1; the feeding pipe 4 is arranged on the recovery box 1, and the feeding pipe 4 is communicated with the recovery box 1; the discharge pipe 5 is arranged at the bottom of the recovery box 1, and the discharge pipe 5 is communicated with the recovery box 1;

the first telescopic rod 6 is arranged on the inner wall of one transverse side of the mounting groove 102; the box door 7 is arranged at one transverse end, far away from the installation groove 102, of the first telescopic rod 6, the box door 7 is connected with the recovery box 1 in a sliding mode, the box door 7 is located in the opening 101, and the shape of the outer periphery of the box door 7 is matched with the shape of the inner wall of the opening 101;

the filter plate 8 is arranged on the inner wall of the recovery box 1 in a sliding way; the second telescopic rod 11 is arranged on the inner wall of the side, opposite to the opening 101, of the recovery box 1, and the second telescopic rod 11 is arranged along the transverse direction; the mud scraping plate 12 is arranged at one transverse end of the second telescopic rod 11, the bottom of the mud scraping plate 12 is attached to the filter plate 8, and the mud scraping plate 12 is connected with the filter plate 8 in a sliding mode;

the control panel 13 is arranged on the recovery box 1; the processor 14 is arranged on the control panel 13, and the processor 14 is in control connection with the first telescopic rod 6 and the second telescopic rod 11; the manual controller 15 is arranged on the control panel 13, and the manual controller 15 is in control connection with the first telescopic rod 6 and the second telescopic rod 11; a pressure sensor 16 is arranged in the recovery tank 1, the pressure sensor 16 being located below the filter plate 8.

In an optional embodiment, sliding grooves 103 are formed in the inner walls of the two longitudinal sides of the recycling bin 1; the vertical both sides of filter 8 all are provided with slider 801, slider 801 and collection box 1 sliding connection, and slider 801 is located spout 103, and pressure sensor 16 sets up on the spout 103 bottom inner wall of the vertical one side of collection box 1, and pressure sensor 16 is located slider 801 below, can guarantee the stability of filter 8 when sliding on collection box 1 inner wall.

In an alternative embodiment, the sliding groove 103 is a T-shaped groove structure, the sliding block 801 is a T-shaped block structure, and the sliding block 801 is matched with the sliding groove 103.

In an alternative embodiment, a non-slip mat 3 is also included; the non-slip mat 3 is arranged at the bottom of the supporting leg 2, the non-slip mat 3 is of a square block structure or a cylindrical block structure, and a plurality of non-slip lines are uniformly arranged at the bottom of the non-slip mat 3, so that the stability of the anti-slip mat in use can be ensured.

In an alternative embodiment, a second protective pad 10 is also included; the second protection pad 10 is located on the inner wall of the bottom of the sliding groove 103 on the other side of the recovery box 1 in the longitudinal direction, and the second protection pad 10 is located below the sliding block 801, so that the level of the filtering plate 8 can be guaranteed, and the filtering effect of the filtering plate can be better guaranteed.

In an alternative embodiment, a first protection pad 9 is further included; the first protection pad 9 is disposed between the slider 801 and the pressure sensor 16, and can protect the pressure sensor 16 from damage.

In an alternative embodiment, the first telescopic rod 6 is a pneumatic telescopic rod and the second telescopic rod 11 is a hydraulic telescopic rod.

When the device is used, waste water generated by stone cutting is added from the feeding pipe 4, the waste water is discharged from the discharging pipe 5 below through the filtering action of the filtering plate 8 and is recovered, after a period of time, more material residues are accumulated on the filtering plate 8, the pressure applied to the pressure sensor 16 is higher, the pressure sensor 16 transmits a relevant electric signal to the processor 14, the processor 14 controls the first telescopic rod 6 to extend, the box door 7 is opened, then the processor 14 controls the second telescopic rod 11 to extend, the second telescopic rod 11 controls the mud scraping plate 12 to move leftwards, the material residues on the filtering plate 8 are pushed out from the opening 101, then the processor 14 controls the second telescopic rod 11 to reset, and then the first telescopic rod 6 is controlled to reset; when the automatic filter plate is used, the material slag on the filter plate 8 can be automatically monitored, when the weight of the material slag on the filter plate 8 reaches a certain degree, the material slag is automatically discharged under the control of the processor 14, manual timing salvage is not needed, time and labor are saved during use, the wastewater recovery efficiency is greatly improved, and the automation degree is high.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the utility model and are not to be construed as limiting the utility model. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (7)

1. A green mine stone cutting wastewater recovery device is characterized by comprising a recovery box (1), supporting legs (2), a feeding pipe (4), a discharging pipe (5), a first telescopic rod (6), a box door (7), a filter plate (8), a second telescopic rod (11), a mud scraper (12), a control panel (13), a processor (14), a manual controller (15) and a pressure sensor (16);

an opening (101) is formed in one side of the recycling box (1) in the transverse direction, and a mounting groove (102) is formed in the inner wall of the opening (101) in the transverse direction; the supporting legs (2) are arranged at the bottom of the recovery box (1); the feeding pipe (4) is arranged on the recovery box (1), and the feeding pipe (4) is communicated with the recovery box (1); the discharge pipe (5) is arranged at the bottom of the recovery box (1), and the discharge pipe (5) is communicated with the recovery box (1);

the first telescopic rod (6) is arranged on the inner wall of one transverse side of the mounting groove (102); the box door (7) is arranged at one transverse end, far away from the mounting groove (102), of the first telescopic rod (6), the box door (7) is connected with the recovery box (1) in a sliding mode, the box door (7) is located in the opening (101), and the shape of the outer peripheral surface of the box door (7) is matched with the shape of the inner wall of the opening (101);

the filter plate (8) is arranged on the inner wall of the recovery box (1) in a sliding manner; the second telescopic rod (11) is arranged on the inner wall of one side of the recovery box (1) opposite to the opening (101), and the second telescopic rod (11) is arranged along the transverse direction; the mud scraping plate (12) is arranged at one transverse end of the second telescopic rod (11), the bottom of the mud scraping plate (12) is attached to the filter plate (8), and the mud scraping plate (12) is connected with the filter plate (8) in a sliding mode;

the control panel (13) is arranged on the recovery box (1); the processor (14) is arranged on the control panel (13), and the processor (14) is in control connection with the first telescopic rod (6) and the second telescopic rod (11); the manual controller (15) is arranged on the control panel (13), and the manual controller (15) is in control connection with the first telescopic rod (6) and the second telescopic rod (11); the pressure sensor (16) is arranged in the recovery box (1), and the pressure sensor (16) is positioned below the filter plate (8).

2. The apparatus for recovering waste water from cutting of rock material in green mine as claimed in claim 1, wherein the recovery tank (1) is provided with sliding grooves (103) on both longitudinal inner walls; the filter plate (8) longitudinal two sides are provided with sliding blocks (801), the sliding blocks (801) are connected with the recovery box (1) in a sliding mode, the sliding blocks (801) are located in the sliding grooves (103), the pressure sensors (16) are arranged on the inner wall of the bottom of the sliding grooves (103) on one longitudinal side of the recovery box (1), and the pressure sensors (16) are located below the sliding blocks (801).

3. The waste water recovery device for stone cutting in green mines as defined in claim 2, wherein the chute (103) is of a T-shaped groove structure, the slide block (801) is of a T-shaped block structure, and the slide block (801) is matched with the chute (103).

4. The green mine stone cutting wastewater recovery device as set forth in claim 3, further comprising a non-slip mat (3); non-slip mat (3) set up in supporting leg (2) bottom, and non-slip mat (3) are square block structure or cylinder block structure, and non-slip mat (3) bottom evenly is provided with multichannel antiskid line.

5. The green mine stone cutting wastewater recovery apparatus as set forth in claim 4, further comprising a second protective pad (10); the second protection pad (10) is positioned on the inner wall of the bottom of the sliding groove (103) on the other side of the longitudinal direction of the recovery box (1), and the second protection pad (10) is positioned below the sliding block (801).

6. The apparatus for recovering waste water from cutting of rock at green mine according to claim 5, further comprising a first protection pad (9); the first protection pad (9) is arranged between the sliding block (801) and the pressure sensor (16).

7. The device for recovering waste water from cutting stone in green mines as claimed in claim 6, wherein the first telescopic rod (6) is a pneumatic telescopic rod, and the second telescopic rod (11) is a hydraulic telescopic rod.

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