CN211757285U - A ore deposit rock cleaning device for geological research - Google Patents

Abstract

The utility model provides a ore deposit rock cleaning device for geological research. A ore deposit rock cleaning device for geological research, comprising a base plate, the top fixed mounting of bottom plate has clean frame, the opening that is linked together rather than inside is seted up at the top of clean frame, the inside fixed mounting of clean frame has the division board, fixed mounting has the riser between the bottom of division board and the bottom of clean frame inner wall, the cavity that forms between the inside of clean frame and the bottom of division board divide into clear water chamber and circulation chamber through the riser. The utility model discloses an ultrasonic oscillator cooperates buffering subassembly, actuating mechanism to wash the ore of placing the frame inside, can carry out effectual washing with the ore of placing the frame inside on the one hand, can wash a large amount of ores on the one hand and guarantee the cleaning efficiency; because the adopted soaking and cleaning can save a large amount of water resources in the cleaning work, and the water after cleaning can be recycled, so that the water resources can be further saved.

Description

A ore deposit rock cleaning device for geological research

Technical Field

The utility model relates to a geological research auxiliary assembly field especially relates to a ore deposit rock cleaning device for geological research.

Background

In the geological research process, need to sample various ore rocks, the geology of often a position needs the ore of sampling the disparity of a plurality of sizes, but after the ore sample, there is silt on the surface of ore, and the ore surface receives wind and rain or acid rain to corrode, can cause the influence to the composition research of ore, consequently need clean the ore after these samples, but the ore cleaning work to these samples at present relies on artifical handheld shower head to wash the ore that piles up subaerial, such clean mode has following not enough:

1. because the ore is an irregular object, the flushing mode can only flush part of the surface of the ore, so that the cleaning effect of the ore is not ideal, or part of the surface of the ore with residual impurities is generated, and part of cleaning operation is to independently clean one ore by virtue of a spray head, although a good cleaning effect can be achieved, the whole workload is large, and the cleaning efficiency of the ore is reduced;

2. after the ore is washed for a period of time, most of the washed water only contains a small amount of sand grains, so the water can be collected and filtered for reuse, but the existing washing mode cannot collect and utilize the water, and unnecessary waste of water resources is caused.

Therefore, it is necessary to provide a rock cleaning apparatus for geological research to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a rock mine cleaning device for geological research has solved the problem that proposes in the above-mentioned background art.

In order to solve the technical problem, the utility model provides a mine rock cleaning device for geological research, which comprises a bottom plate, wherein a cleaning frame is fixedly arranged at the top of the bottom plate, an opening communicated with the inside of the cleaning frame is formed in the top of the cleaning frame, a partition plate is fixedly arranged in the cleaning frame, a vertical plate is fixedly arranged between the bottom of the partition plate and the bottom of the inner wall of the cleaning frame, a cavity formed between the inside of the cleaning frame and the bottom of the partition plate is divided into a clear water cavity and a circulation cavity through the vertical plate, a water inlet pipe I communicated with the inside of the clear water cavity is fixedly arranged at one side of the cleaning frame, T-shaped sliding blocks are fixedly arranged at positions, close to the opening, of two sides of the inner wall of the cleaning frame, the bottoms of the two T-shaped sliding blocks are fixedly connected with the top of the partition plate, and T, a placing frame is fixedly installed between one opposite sides of the two T-shaped sliding frames, one part of the placing frame is positioned in the cleaning frame, a discharge hole I is formed in the bottom of the placing frame, discharge holes II are formed in the front and the back of the placing frame, a buffering component used for supporting and buffering the placing frame is arranged at the top of the separation plate, an arc-shaped block is fixedly installed at the bottom of the placing frame, the arc-shaped block faces downwards, a driving mechanism used for driving the arc-shaped block to reciprocate up and down is arranged in the cleaning frame and above the separation plate, a water outlet pipe I and a water outlet pipe II communicated with a clear water cavity and a circulation cavity are fixedly installed in the front of the cleaning frame, electromagnetic valves are arranged on the water outlet pipe I and the water outlet pipe II, and a water conveying mechanism used for pumping out water in the water outlet pipe I and the water outlet pipe II and conveying the, the back mounted of clean frame has the drain pipe rather than inside being linked together, fixed mounting has the back flow rather than inside being linked together on the drain pipe, all be provided with the solenoid valve on drain pipe and the back flow, the back mounted of clean frame has the filter box that is linked together with circulation intracavity portion, the filter screen frame has been placed to the inside of filter box, the one end of back flow is fixed and is linked together in the front of filter box and rather than inside, the back fixed mounting of clean frame has ultrasonic oscillator.

Preferably, the number of the buffer assemblies is four, and the four buffer assemblies are uniformly and respectively fixed on the top of the partition plate and are in contact with the bottoms of the four corners of the placement frame.

Preferably, the buffering assembly comprises a guide rod and a buffering spring, the guide rod and the buffering spring are both fixed at the top of the partition plate, the guide rod is connected with a supporting block in a sliding mode, the supporting block is T-shaped, two surfaces of the supporting block are respectively contacted with the bottom and the surface of the placing frame, and one end, far away from the partition plate, of the buffering spring is fixedly connected with the bottom of the supporting block.

Preferably, actuating mechanism includes the drive shaft, the drive shaft activity sets up and runs through the front and the back of clean frame respectively at the inside of clean frame and both ends, the both ends of drive shaft are respectively through the front and the back fixed connection of bearing frame with clean frame, the drive shaft is located fixed the cup jointing on the inside part of clean frame and is no less than five cam pieces, five the arc end of cam piece all contacts with the arcwall face of arc piece, actuating mechanism still includes the power component that drives drive shaft pivoted.

Preferably, the power assembly comprises a speed reducing motor, the speed reducing motor is fixed to the top of the bottom plate, a transmission assembly is arranged between an output shaft of the speed reducing motor and one end, located on the front face of the cleaning frame, of the driving shaft, and the output shaft of the speed reducing motor is in transmission connection with the driving shaft through the transmission assembly.

Preferably, the water delivery mechanism includes the water pump, the water pump is fixed at the top of bottom plate, the exit of water pump communicates respectively with inlet tube II and outlet pipe III, the one end intercommunication of inlet tube II has the pipe of converging, the one end of outlet pipe I and outlet pipe II all with converge a pipe fixed connection and be linked together, the one end of outlet pipe III is fixed in the front of clean frame and is linked together rather than inside.

Preferably, handles are fixedly mounted on two sides of the placing frame.

Compared with the prior art, the utility model provides a rock mine cleaning device for geological research has following beneficial effect:

1. adopt ultrasonic oscillator cooperation buffering subassembly, actuating mechanism to wash the inside ore of placing the frame, can carry out effectual washing with the inside ore of placing the frame on the one hand, can wash a large amount of ores on the one hand and guarantee the cleaning efficiency.

2. First abluent water is taken out from the clear water intracavity for soak the ore and wash the back direct discharge, then the abluent water of second time is taken out from the clear water chamber equally and is used for soaking the ore and wash the back and directly get rid of, wash water for the third time and take out from the clear water chamber equally and soak the washing to the ore, nevertheless wash the back and discharge into the circulation intracavity with water through the back flow, reuse after filtering water, owing to the soaking washing that adopts, can practice thrift a large amount of water resources in the cleaning work of own, carry out cyclic utilization simultaneously at the water after wasing, can further practice thrift the water resource.

3. Through the cooperation of T type slider and the smooth frame of T type, conveniently will place the frame and put into the inside of cleaning the frame and take out it, place the frame simultaneously and reciprocate the in-process again the inside of cleaning the frame, can guarantee to place the stability that the frame removed the in-process through the cooperation of the smooth frame of T type slider and T type.

4. The utility model discloses body structural design is compact, and area is little, consequently is fit for using in the geological research laboratory.

Drawings

Fig. 1 is a front view of the three-dimensional structure of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a rear view of the three-dimensional structure of the present invention;

FIG. 4 is a sectional perspective view of the overall structure of the present invention;

FIG. 5 is a sectional front view of the whole structure of the present invention;

FIG. 6 is a side view of the internal structure of the three-dimensional cleaning frame of the present invention;

fig. 7 is a perspective view of the filter frame structure of the present invention.

Reference numbers in the figures: 1. a base plate; 2. cleaning the frame; 3. a partition plate; 4. a vertical plate; 5. a clear water cavity; 6. a circulation chamber; 7. a water inlet pipe I; 8. a T-shaped slider; 9. a T-shaped sliding frame; 10. placing the frame; 11. a discharge port I; 12. a discharge hole II; 13. a buffer assembly; 131. a guide bar; 132. a buffer spring; 133. a support block; 14. an arc-shaped block; 15. a drive mechanism; 151. a drive shaft; 152. a cam block; 153. a reduction motor; 154. a transmission assembly; 16. a water outlet pipe I; 17. a water outlet pipe II; 18. a water delivery mechanism; 181. a water pump; 182. a water inlet pipe II; 183. a junction pipe; 184. a water outlet pipe III; 19. a drain pipe; 20. a return pipe; 21. a filter box; 22. a screen frame; 23. an ultrasonic oscillator; 24. a handle.

Detailed Description

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

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7 in combination, wherein fig. 1 is a front view of a three-dimensional structure of the present invention; FIG. 2 is a top view of the present invention; FIG. 3 is a rear view of the three-dimensional structure of the present invention; FIG. 4 is a sectional perspective view of the overall structure of the present invention; FIG. 5 is a sectional front view of the whole structure of the present invention; FIG. 6 is a side view of the internal structure of the three-dimensional cleaning frame of the present invention; fig. 7 is a perspective view of the filter frame structure of the present invention. A mineral rock cleaning device for geological research comprises a bottom plate 1, a cleaning frame 2 is fixedly mounted at the top of the bottom plate 1, an opening communicated with the inside of the cleaning frame 2 is formed in the top of the cleaning frame 2, a partition plate 3 is fixedly mounted in the cleaning frame 2, a vertical plate 4 is fixedly mounted between the bottom of the partition plate 3 and the bottom of the inner wall of the cleaning frame 2, a cavity formed between the inside of the cleaning frame 2 and the bottom of the partition plate 3 is divided into a clear water cavity 5 and a circulation cavity 6 through the vertical plate 4, a water inlet pipe I7 communicated with the inside of the clear water cavity 5 is fixedly mounted at one side of the cleaning frame 2, T-shaped sliding blocks 8 are fixedly mounted at positions, close to the opening, of two sides of the inner wall of the cleaning frame 2, the bottoms of the two T-shaped sliding blocks 8 are fixedly connected with the top of the partition plate 3, and T-shaped sliding frames 9 are slidably connected on, a placing frame 10 is fixedly arranged between opposite sides of the two T-shaped sliding frames 9, a part of the placing frame 10 is positioned in the cleaning frame 2, the bottom of the placing frame 10 is provided with a discharge hole I11, the front side and the back side of the placing frame 10 are both provided with discharge holes II 12, the top of the partition plate 3 is provided with a buffer component 13 for supporting and buffering the placing frame 10, the bottom of the placing frame 10 is fixedly provided with an arc-shaped block 14, the arc surface is downward, a driving mechanism 15 for driving the arc-shaped block 14 to reciprocate up and down is arranged in the cleaning frame 2 and above the partition plate 3, the front side of the cleaning frame 2 is fixedly provided with a water outlet pipe I16 and a water outlet pipe II 17 which are communicated with the clear water cavity 5 and the circulation cavity 6, electromagnetic valves are arranged on the water outlet pipe I16 and the water outlet pipe II 17, a water conveying mechanism 18 for pumping out water in the water outlet pipe I16 and the water, the back mounted of clean frame 2 has the drain pipe 19 rather than inside being linked together, fixed mounting has the back flow 20 rather than inside being linked together on the drain pipe 19, all be provided with the solenoid valve on drain pipe 19 and the back flow 20, the back mounted of clean frame 2 has the filter box 21 that is linked together with circulation chamber 6 inside, filter screen frame 22 has been placed to the inside of filter box 21, the one end of back flow 20 is fixed in the front of filter box 21 and is linked together rather than inside, the back fixed mounting of clean frame 2 has ultrasonic oscillator 23.

In this embodiment, according to the utility model discloses a use flow and advantage as follows:

firstly, ore is loaded into the placing frame 10, the positions of two T-shaped sliding frames 9 on the placing frame 10 correspond to the positions of two T-shaped sliding blocks 8 on the inner wall of a cleaning frame 2, then the two T-shaped sliding frames 9 are in sliding connection with the two T-shaped sliding blocks 8, so that the placing frame 10 with the ore is placed into the cleaning frame 2, meanwhile, the placing frame 10 can be in contact with a buffer component 13, the buffer component 13 is utilized to support the placing frame 10, the T-shaped sliding frames 9 and the T-shaped sliding blocks 8 can be designed to play a role in guiding the placing and taking out of the placing frame 10, and the placing frame 10 can be placed into the cleaning frame 2 and is in contact with the buffer component 13;

adding water in the clear water cavity 5 through the water inlet pipe I7, filling the clear water cavity 5 with water, starting the water delivery mechanism 18 and opening the electromagnetic valve on the water outlet pipe I16, so that clear water in the clear water cavity 5 is delivered into the cleaning frame 2 through the water delivery mechanism 18, gradually filling a cavity formed above the partition plate 3 and inside the cleaning frame 2 along with continuous addition of the clear water, and stopping adding the clear water after the clear water completely soaks the ore in the placing frame 10;

starting the ultrasonic oscillator 23 and the driving mechanism 15, wherein the ultrasonic oscillator 23 works to perform ultrasonic cleaning on the ore in the clear water, thereby effectively cleaning the impurities on the surface of the ore, meanwhile, the driving mechanism 15 can continuously drive the arc-shaped block 14 to ascend and descend, at the moment, the placing frame 10 also ascends and descends, because the placing frame 10 can drive the ore inside the placing frame 10 to vibrate and generate position change in the ascending and descending process, thereby improving the ore cleaning effect inside the placing frame 10, in the ascending and descending process of the placing frame 10, the buffer component 13 can play a role in supporting and buffering the placing frame 10, meanwhile, the T-shaped sliding frame 9 slides along the T-shaped sliding block 8, the stability in the moving process of the placing frame 10 can be ensured, and in the vibrating process of the ore, the position of the discharge hole I11 at the bottom of the placing frame 10 can be exposed, the cleaning device is beneficial to discharging impurities generated in the cleaning process through the discharge hole I11, after the cleaning device is cleaned for a period of time, the ultrasonic oscillator 23 is stopped, but the driving mechanism 15 is kept to be opened, the electromagnetic valve on the discharge pipe 19 is opened, then the sewage generated after the cleaning inside the cleaning frame 2 is directly discharged, at the moment, the ultrasonic oscillator 23 is closed, so the impurities in the sewage can be suspended inside the cleaning frame 2, the large-particle impurities can be precipitated, although the driving mechanism 15 drives the placing frame 10 to continuously lift, the lifting amplitude is small, and the ore can be continuously thrown up and lowered under the action of water buoyancy, so the positions of the discharge hole I11 and the discharge hole II 12 can not be blocked, the sewage inside the placing frame 10 can be continuously discharged along with the work of the discharge pipe 19, when the horizontal plane inside the cleaning frame 2 is continuously lowered to be lower than the bottom of the placing frame 10, the driving mechanism 15 is closed to wait for the drainage of the sewage;

after the ore is primarily cleaned through the process step III, most impurities on the surface of the ore are cleaned, then the water conveying mechanism 18 is started again to pump out the water in the clean water cavity 5 and convey the water into the cleaning frame 2, then the rest steps are the same as the process step III in working principle, description is not added much, and at the moment, the ore is secondarily cleaned;

after the ore is cleaned for the second time, the ore is completely cleaned, but a small amount of impurities remain on the ore inside the placing frame 10 and the placing frame 10, so that the water conveying mechanism 18 is started again to pump the water inside the clean water cavity 5 out and convey the water into the cleaning frame 2, but the water surface position is maintained at the bottom of the placing frame 10 at first, after the water surface is determined, the electromagnetic valve on the water outlet pipe I16 is closed, the electromagnetic valves on the ultrasonic oscillator 23, the return pipe 20 and the water outlet pipe II 17 are started, the cleaning water can circulate continuously, the impurities in the water are intercepted through the filter screen frame 22, after a period of time, the ultrasonic oscillator 23 is stopped, the electromagnetic valves on the return pipe 20 and the water outlet pipe II 17 are closed, and because the impurities on the partition plate 3 and the cleaning frame 2 are pre-cleaned, the subsequent cleaning effect on the residual impurities on the placing frame 10 and the ore can be ensured, the water delivery mechanism 18 that restarts is taken the inside water in clear water chamber 5 out and is carried into the inside of clean frame 2 and make its surface of water soak the ore completely, then close the solenoid valve on outlet pipe I16, and open the solenoid valve on back flow 20 and the outlet pipe II 17, start actuating mechanism 15 simultaneously, thereby it is clean to circulate the residual impurity of placing frame 10 and ore, because the clean water cycle after adopting the filtration always uses, consequently, the water resource has been practiced thrift, and soak formula cleaning mode and direct spray compare, can the water economy resource, simultaneously once only can wash a large amount of ores, thereby cleaning efficiency has been improved.

Specifically, the number of the buffer assemblies 13 is four, and the four buffer assemblies 13 are uniformly and respectively fixed on the top of the partition plate 3 and are in contact with the bottoms of the four corners of the placement frame 10.

In this embodiment, the design of four buffer components 13 can play effectual support and buffering to placing frame 10, consequently place frame 10 and carry out continuous oscilaltion in-process, can guarantee its stability.

Specifically, the buffer assembly 13 includes a guide rod 131 and a buffer spring 132, the guide rod 131 and the buffer spring 132 are both fixed on the top of the partition plate 3, the guide rod 131 is connected with a support block 133 in a sliding manner, the support block 133 is T-shaped, two sides of the support block 133 are respectively contacted with the bottom and the surface of the placement frame 10, and one end of the buffer spring 132 far away from the partition plate 3 is fixedly connected with the bottom of the support block 133.

In this embodiment, the placement frame 10 is directly placed on the support block 133, and when initially placed, the placement frame 10 can be guided by the cooperation of the T-shaped slider 8 and the T-shaped sliding frame 9, so that the placement frame 10 can be conveniently placed on the support block 133, wherein the position of the support block 133 cannot be changed due to the existence of the guide rod 131, and the support block 133 cannot slip off from the guide rod 131 under the action of the buffer spring 132, as shown in fig. 6 of the specification, when the placement frame 10 is located at the highest end driven by the driving mechanism 15, the support block 133 is further away from the top end of the guide rod 131, so that the slipping-off phenomenon of the support block 133 cannot occur; place frame 10 in going up and down the in-process, when placing frame 10 and rise, can remove the extrusion to buffer spring 132, buffer spring 132 after the energy storage can drive supporting shoe 133 and hug closely and place frame 10 and slide along guide bar 131 and rise, when placing frame 10 and descend, can extrude buffer spring 132 through supporting shoe 133, consequently, buffering subassembly 13 can play buffering and supporting role, when avoiding actuating mechanism 15 to drive arc piece 14 and carry out up-and-down reciprocating motion, place frame 10 and can take place rigid contact with division board 3, reduce the vibrations range of placing the inside ore of frame 10 simultaneously, make the ore at water buoyancy, buffering subassembly 13 and actuating mechanism 15 cooperation are down the vibration of taking place the small amplitude and are floated, be favorable to circulating the impurity of suspension and clean.

Specifically, actuating mechanism 15 includes drive shaft 151, the activity of drive shaft 151 sets up and runs through the front and the back of clean frame 2 respectively at the inside of clean frame 2 and both ends, the front and the back fixed connection through bearing frame and clean frame 2 respectively at the both ends of drive shaft 151, drive shaft 151 is located fixed the cup jointing on the inside part of clean frame 2 and is no less than five cam piece 152, the arc end of five cam piece 152 all contacts with the arcwall face of arc piece 14, actuating mechanism 15 is still including driving drive shaft 151 pivoted power component.

In this embodiment, utilize power component to drive the continuous rotation of drive shaft 151, the continuous contact and the separation with arc piece 14 of cam piece 152 on the drive shaft 151, jack up arc piece 14 in the contact process at every turn, both driven and placed frame 10 and rise, after arc piece 14 and cam piece 152 separated, it begins to descend to place frame 10, but the existence of buffer assembly 13 can cushion the decline, avoid descending amplitude too big, thereby rely on the continuous drive of rotatory cam piece 152 to place frame 10 and carry out the operation of going up and down.

Specifically, the power assembly comprises a speed reducing motor 153, the speed reducing motor 153 is fixed on the top of the bottom plate 1, a transmission assembly 154 is arranged between an output shaft of the speed reducing motor 153 and one end of the driving shaft 151, which is located on the front side of the cleaning frame 2, and the output shaft of the speed reducing motor 153 is in transmission connection with the driving shaft 151 through the transmission assembly 154.

In this embodiment, the driving shaft 151 is driven to rotate continuously by the cooperation of the speed reducing motor 153 and the transmission assembly 154, wherein the transmission assembly 154 is a common belt wheel and belt structure.

Specifically, the water delivery mechanism 18 comprises a water pump 181, the water pump 181 is fixed on the top of the bottom plate 1, an inlet and an outlet of the water pump 181 are respectively communicated with a water inlet pipe II 182 and a water outlet pipe III 184, one end of the water inlet pipe II 182 is communicated with a converging pipe 183, one ends of the water outlet pipe I16 and the water outlet pipe II 17 are fixedly connected and communicated with the converging pipe 183, and one end of the water outlet pipe III 184 is fixed on the front face of the cleaning frame 2 and communicated with the inside of the cleaning frame.

In this embodiment, the converging pipe 183 is fixed and communicated with the water outlet pipe I16 and the water outlet pipe II 17, and the electromagnetic valves are arranged on the water outlet pipe I16 and the water outlet pipe II 17, so that water can be extracted by opening and closing the corresponding electromagnetic valves at each time, and the water is extracted by the water pump 181 and then is discharged into the cleaning frame 2 through the converging pipe 183, the water inlet pipe II 182 and the water outlet pipe III 184.

Specifically, handles 24 are fixedly mounted on both sides of the placement frame 10.

In this embodiment, the handle 24 is designed to facilitate movement of the placement frame 10.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a mineral rock cleaning device for geological research which characterized in that: comprises a bottom plate (1), the top fixed mounting of the bottom plate (1) is provided with a cleaning frame (2), the top of the cleaning frame (2) is provided with an opening communicated with the inside of the cleaning frame, the inside fixed mounting of the cleaning frame (2) is provided with a partition plate (3), a vertical plate (4) is fixedly mounted between the bottom of the partition plate (3) and the bottom of the inner wall of the cleaning frame (2), a cavity formed between the inside of the cleaning frame (2) and the bottom of the partition plate (3) is divided into a clear water cavity (5) and a circulation cavity (6) through the vertical plate (4), one side fixed mounting of the cleaning frame (2) is provided with a water inlet pipe I (7) communicated with the inside of the clear water cavity (5), two sides of the inner wall of the cleaning frame (2) are fixedly provided with T-shaped sliding blocks (8) near the open positions, and the bottoms of the T-shaped sliding blocks (8) are, two equal sliding connection has smooth frame (9) of T type on T type slider (8), two fixed mounting has between the relative one side of smooth frame (9) of T type places frame (10), the part of placing frame (10) is located the inside of clean frame (2), the bottom of placing frame (10) has been seted up discharge hole I (11), discharge hole II (12) have all been seted up at the front and the back of placing frame (10), the top of division board (3) is provided with and is used for supporting and the buffering subassembly (13) of buffering placing frame (10), the bottom fixed mounting who places frame (10) has arc piece (14) and cambered surface down, the inside of clean frame (2) and the top that is located division board (3) are provided with drive arc piece (14) reciprocating motion's actuating mechanism (15) from top to bottom, the front fixed mounting of clean frame (2) has outlet pipe I (16) and outlet pipe that are linked together with clear water chamber (5) and circulation chamber (6) inside II (17), electromagnetic valves are arranged on the water outlet pipe I (16) and the water outlet pipe II (17), the bottom plate (1) is provided with a water delivery mechanism (18) for pumping out water in the water outlet pipe I (16) and the water outlet pipe II (17) and delivering the water into the cleaning frame (2), a drain pipe (19) communicated with the inside of the cleaning frame (2) is arranged on the back surface of the cleaning frame, a return pipe (20) communicated with the inside of the drain pipe (19) is fixedly arranged on the drain pipe, electromagnetic valves are arranged on the drain pipe (19) and the return pipe (20), a filter box (21) communicated with the interior of the circulating cavity (6) is arranged on the back surface of the cleaning frame (2), a filter screen frame (22) is arranged in the filter box (21), one end of the return pipe (20) is fixed on the front surface of the filter box (21) and is communicated with the inside of the filter box, and an ultrasonic oscillator (23) is fixedly arranged on the back surface of the cleaning frame (2).

2. Mine rock cleaning apparatus for geological studies, according to claim 1, characterized in that the number of said buffer assemblies (13) is four, four of said buffer assemblies (13) being fixed uniformly on the top of the partition plate (3) and in contact with the bottom of the four corners of the resting frame (10), respectively.

3. The apparatus for cleaning ore rock used for geological research according to claim 2, characterized in that the buffer assembly (13) comprises a guide rod (131) and a buffer spring (132), the guide rod (131) and the buffer spring (132) are both fixed on the top of the partition plate (3), a support block (133) is slidably connected on the guide rod (131), the support block (133) is T-shaped, two sides of the support block (133) are respectively contacted with the bottom and the surface of the placing frame (10), and one end of the buffer spring (132) far away from the partition plate (3) is fixedly connected with the bottom of the support block (133).

4. The ore rock cleaning device for geological research according to claim 1, wherein the driving mechanism (15) comprises a driving shaft (151), the driving shaft (151) is movably arranged inside the cleaning frame (2), two ends of the driving shaft (151) respectively penetrate through the front surface and the back surface of the cleaning frame (2), two ends of the driving shaft (151) are respectively fixedly connected with the front surface and the back surface of the cleaning frame (2) through bearing seats, at least five cam blocks (152) are fixedly sleeved on the part, located inside the cleaning frame (2), of the driving shaft (151), the arc ends of the five cam blocks (152) are respectively in contact with the arc surface of the arc block (14), and the driving mechanism (15) further comprises a power assembly for driving the driving shaft (151) to rotate.

5. The ore rock cleaning device for geological research according to claim 4, characterized in that the power assembly comprises a speed reducing motor (153), the speed reducing motor (153) is fixed on the top of the bottom plate (1), a transmission assembly (154) is arranged between an output shaft of the speed reducing motor (153) and one end of the driving shaft (151) positioned on the front surface of the cleaning frame (2), and the output shaft of the speed reducing motor (153) is in transmission connection with the driving shaft (151) through the transmission assembly (154).

6. The ore rock cleaning device for geological research according to claim 1, wherein the water delivery mechanism (18) comprises a water pump (181), the water pump (181) is fixed on the top of the bottom plate (1), an inlet and an outlet of the water pump (181) are respectively communicated with a water inlet pipe II (182) and a water outlet pipe III (184), one end of the water inlet pipe II (182) is communicated with a confluence pipe (183), one ends of the water outlet pipes I (16) and II (17) are both fixedly connected and communicated with the confluence pipe (183), and one end of the water outlet pipe III (184) is fixed on the front surface of the cleaning frame (2) and is communicated with the inside of the cleaning frame.

7. The apparatus for cleaning mineral rocks for geological research according to claim 1, characterized in that handles (24) are fixedly mounted on both sides of the placement frame (10).

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