CN114755043A

CN114755043A - External geological soil pneumatic transmission device and use method thereof

Info

Publication number: CN114755043A
Application number: CN202210676720.4A
Authority: CN
Inventors: 刘�文; 衣伟虹; 张宗华
Original assignee: Shandong Fourth Geological Mineral Investigation and Exploration Institute
Current assignee: Shandong Fourth Geological Mineral Investigation and Exploration Institute
Priority date: 2022-06-16
Filing date: 2022-06-16
Publication date: 2022-07-15
Anticipated expiration: 2042-06-16
Also published as: CN114755043B

Abstract

The invention provides an external geological soil pneumatic transmission device which comprises a rack assembly, wherein the rack assembly comprises a base, the upper surface of the base is fixedly connected with a top frame, the upper surface of the top frame is fixedly connected with a support frame, the side surface of the support frame is fixedly connected with a pneumatic assembly, the pneumatic assembly comprises a connecting pipe, the connecting pipe is connected with a sampling assembly, the sampling assembly comprises a sampling cover plate, the top frame is connected with a control assembly, the side surface of the top frame is connected with a ground breaking assembly, and the sampling cover plate is connected with a cooling assembly. The combination sets up and carries out pneumatic extraction to broken soil structure, reaches the purpose of obtaining external sample for a long time, and the subassembly that breaks ground and the cooling subassembly can effectually soften when facing hard geology soil environment and abolish, increases the validity and the stability of geology sample, does not need long-term reinspection and maintenance.

Description

External geological soil pneumatic transmission device and use method thereof

Technical Field

The invention relates to the technical field of geological soil pneumatic transmission, in particular to an external geological soil pneumatic transmission device and a use method thereof.

Background

Geology generally refers to the nature and characteristics of the earth. The method mainly refers to the material composition, structure, development history and the like of the earth, including the difference of the layers, physical properties, chemical properties, rock properties and mineral components of the earth, the output state and contact relationship of rock masses of rock strata, the structure development history, biological evolution history, climate change history of the earth, the occurrence condition and distribution rule of mineral resources and the like.

Geology is a subject for researching the composition substances, the crust structure and various geological effects of the crust so as to discuss the formation and development of the earth, and also researches the application of the geology in national economic construction, and the like, wherein the main contents of the research are as follows: the geological phenomena include the nature and characteristics of the earth or a part of the earth, including the composition of the earth, various geological effects, the variation of the earth, the morphology, classification and evolution of organisms during the geological period, the history of the formation and development of the earth, marine geological phenomena, and the application of various principles of geology to solve the actual problems of exploring mineral deposits and extracting petroleum.

And the in-process of reconnaissance at the address need carry out the collection of soil sample, be convenient for provide the material for the analysis in later stage, the acquisition in-process of current geological soil, need carry out artifical the taking many times, artifical extravagant great, also be convenient for carry out long-term external collection, and carrying out the in-process that the sample acquireed, receive the influence that acquires the environment, comparatively hard soil is difficult to abolish, also can be in the caking after the drying, the efficiency of collecting of external collection has been influenced, need carry out the periodical reinspection and the maintenance of collecting the position, comparatively loaded down with trivial details.

Disclosure of Invention

The invention aims to overcome the defects of the traditional technology and provides an external geological soil pneumatic transmission device and a using method thereof so as to solve the problems in the background technology.

The aim of the invention is achieved by the following technical measures:

the utility model provides an external geological soil pneumatic transmission device which characterized in that: comprises a frame component, the frame component comprises a base, the upper surface of the base is fixedly connected with an ejection frame, the upper surface of the ejection frame is fixedly connected with a supporting frame, the side surface of the supporting frame is fixedly connected with a pneumatic component, the upper surface of the supporting frame is fixedly connected with a transmission frame, the transmission frame is sleeved with a transmission box, the pneumatic component comprises a pneumatic pump, the output end of the pneumatic pump is fixedly connected with one end of a connecting pipe, the other end of the connecting pipe is connected with a sampling component, the sampling component comprises a sampling box, the upper surface of the sampling box is connected with a sampling cover plate, the sampling cover plate is provided with a through pipe groove, the connecting pipe is sleeved with the through pipe groove, the ejection frame is connected with a control component, the control component comprises a connecting bracket, the connecting bracket is fixedly connected with the upper surface of the ejection frame, the upper surface of the connecting bracket is connected with a controller, and the connecting pipe is connected with a control valve, the control valve and controller electric connection, the roof-rack side is connected with broken ground subassembly, broken ground subassembly includes driving motor, the driving motor output is connected with switching-over derailleur one end, the switching-over derailleur output is connected with flexible drive shaft, flexible drive shaft lower fixed surface is connected with dials native dish, dial native dish lower surface and be connected with broken soil nail, the sample apron is connected with the cooling subassembly.

As an improvement: fixedly connected with inclined supporting plate that is used for strengthening structural strength between support frame and the roof-rack, the transmission case side is connected with adjusting bolt, adjusting bolt and transmission frame threaded connection.

As an improvement: the pneumatic pump is internally connected with a built-in pipe, the output end of the pneumatic pump is connected with a connecting sleeve, and the connecting sleeve is used for connecting the built-in pipe and the connecting pipe.

As an improvement: the controller is connected with a pressure gauge, the lower surface of the connecting support is fixedly connected with one end of a stabilizing frame, and the other end of the stabilizing frame is fixedly connected with the control valve.

As an improvement: the sampling cover plate is characterized in that a plurality of cushion blocks are fixedly connected to the lower surface of the sampling cover plate, the cushion blocks are located between the sampling cover plate and the upper surface of the sampling box, the cushion blocks are rubber cushion blocks, a movable sliding groove is formed in the sampling cover plate, and the movable sliding groove is movably connected with a telescopic driving shaft.

As an improvement: the soil shifting disc is characterized in that a plurality of soil shifting plates are fixedly connected to the edge of the soil shifting disc, the soil shifting plates are evenly distributed on the edge of the soil shifting disc, the soil breaking nails are arranged in a plurality of and are evenly distributed on the lower surface of the soil shifting disc.

As an improvement: the cooling assembly comprises a built-in plate, the built-in plate is fixedly connected with the sampling cover plate, a built-in sleeve is fixedly connected to the upper surface of the built-in plate, a water pipe is sleeved on the built-in sleeve, and the water pipe penetrates through the built-in plate.

As an improvement: one end of the water pipe close to the soil breaking nail is connected with an extension pipe in a sliding mode, and one end of the extension pipe is fixedly connected with a bent pipe.

The use method of the external geological soil pneumatic transmission device comprises the following steps:

s1: geological exploration: selecting a proper installation position, observing the surrounding address environment in advance, and ensuring the stability of the installation environment;

s2: and (4) fixing the position: after the rack assembly is placed at a proper position, the base is fixed through an external connecting part such as a bolt, so that the overall stability of the device in the pneumatic transmission process is ensured;

s3: and (3) stability testing: the fixed device is subjected to swing test, so that the installation stability is ensured, and the situation that the device does not move in the long-term external process in the later period is ensured;

s4: fixing the pump body: after the base is fixed, the upper surface of the base is connected with the top frame, the support frame is connected with the top frame, the ground breaking assembly is connected with the top frame, the pneumatic assembly is connected with the side surface of the support frame, the control assembly is connected with the connecting pipe after the connecting pipe is installed, the controller is fixed on the top frame through the connecting support, and the sampling assembly and the cooling assembly are sleeved at the tail end of the connecting pipe.

S5: equipment debugging: the pneumatic pump, the controller, the control valve, the pressure gauge, the driving motor, the reversing speed changer and the telescopic driving shaft after the installation are debugged in sequence, and all parts are ensured to be in a state of continuous and stable operation.

Due to the adoption of the technical scheme, compared with the prior art, the invention has the advantages that:

this kind of external geological soil pneumatic transmission device, combination operation through each structure, combination air pump and controller, make the control valve connect the connecting pipe, make connecting pipe and air pump intercommunication, this kind of combination sets up and can carry out pneumatic extraction to broken soil structure, reach the purpose of acquiring external sample for a long time, and set up on the sample apron and carry broken ground subassembly and cooling assembly, can be when facing hard geological soil environment, the effectual softening that carries breaks out, increase the validity and the stability of geological sampling, do not need long-term reinspection and maintenance.

The invention is further described with reference to the following figures and detailed description.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic cross-sectional structure of the present invention.

Fig. 3 is a schematic perspective view of the ground breaking assembly of the present invention.

Fig. 4 is a schematic perspective view of the cooling assembly of the present invention.

FIG. 5 is a schematic diagram of the steps of the present invention.

In the figure: 1. a rack assembly; 11. a base; 12. a top frame; 13. a support frame; 14. a transmission frame; 15. a diagonal bracing plate; 16. a transmission box; 17. adjusting the bolt; 2. a pneumatic assembly; 21. a pneumatic pump; 22. a build-in tube; 23. connecting sleeves; 24. a connecting pipe; 3. a control component; 31. connecting a bracket; 32. a controller; 33. a control valve; 34. a pressure gauge; 35. a stabilizer frame; 4. a sampling assembly; 41. a sampling box; 42. a sampling cover plate; 43. a pipe through groove; 44. a movable chute; 45. cushion blocks; 5. a ground breaking component; 51. a drive motor; 52. a reversing gear box; 53. a telescopic drive shaft; 54. a soil shifting disc; 55. breaking soil nails; 56. a soil shifting plate; 6. a cooling assembly; 61. a built-in plate; 62. a built-in sleeve; 63. a water pipe; 64. an extension pipe; 65. and (5) bending the pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example (b): as shown in the accompanying drawings 1 to 5, an external geological soil pneumatic transmission device comprises a frame assembly 1, wherein the frame assembly 1 comprises a base 11, a top frame 12 is fixedly connected to the upper surface of the base 11, a support frame 13 is fixedly connected to the upper surface of the top frame 12, a pneumatic assembly 2 is fixedly connected to the side surface of the support frame 13, a transmission frame 14 is fixedly connected to the upper surface of the support frame 13, a transmission box 16 is sleeved on the transmission frame 14, the pneumatic assembly 2 comprises a pneumatic pump 21, one end of a connecting pipe 24 is fixedly connected to the output end of the pneumatic pump 21, the other end of the connecting pipe 24 is connected with a sampling assembly 4, the sampling assembly 4 comprises a sampling box 41, a sampling cover plate 42 is connected to the upper surface of the sampling box 41, a through pipe groove 43 is opened on the sampling cover plate 42, the connecting pipe 24 is sleeved with the through pipe groove 43, the top frame 12 is connected with a control assembly 3, in order to ensure the service life of the connecting pipe 24, stainless steel materials can be selected, an anti-corrosion sealing ring can be used at the connecting end of the connecting pipe 24, and the pneumatic pump 21 can be directly selected from common models on the market.

Control assembly 3 includes linking bridge 31, linking bridge 31 and top frame 12 upper surface fixed connection, linking bridge 31 upper surface is connected with controller 32, be connected with control valve 33 on the connecting pipe 24, control valve 33 and controller 32 electric connection, linking bridge 31 can provide better stability for controller 32, for controller 32 provides better support, and controller 32 can directly select the common model in market, and controller 32, control valve 33 and manometer 34 can detect extraction pressure, guarantee the security of operation.

The side of the top frame 12 is connected with a ground breaking assembly 5, the ground breaking assembly 5 comprises a driving motor 51, the output end of the driving motor 51 is connected with one end of a reversing speed changer 52, the output end of the reversing speed changer 52 is connected with a telescopic driving shaft 53, a soil shifting disc 54 is fixedly connected to the lower surface of the telescopic driving shaft 53, a soil breaking nail 55 is connected to the lower surface of the soil shifting disc 54, and the sampling cover plate 42 is connected with a cooling assembly 6. The driving motor 51 drives the reversing speed changer 52 when running, after the reversing speed changer 52 changes the direction and regulates the speed, the power is output to the telescopic driving shaft 53, the telescopic driving shaft 53 can move up and down, the position of the soil shifting disc 54 is adjusted through the up-and-down movement of the telescopic driving shaft 53, so that the soil breaking nails 55 are contacted with geological samples and broken, in order to increase the soil breaking effect of the soil breaking nails 55, the number of the soil breaking nails 55 can be adjusted according to actual requirements, and the models of the driving motor 51 and the reversing speed changer 52 can be directly selected from models which are commonly used in the market.

Fixedly connected with is used for strengthening the inclined strut plate 15 of structural strength between support frame 13 and roof-rack 12, the transmission case 16 side is connected with adjusting bolt 17, adjusting bolt 17 and transmission frame 14 threaded connection. The adjusting bolt 17 can be used for fastening the transmission box 16 to ensure the stability of the transmission box 16. The diagonal bracing plates 15 may improve the structural strength of the head frame 12.

An internal pipe 22 is connected in the pneumatic pump 21, a connecting sleeve 23 is connected at the output end of the pneumatic pump 21, and the connecting sleeve 23 is used for connecting the internal pipe 22 and a connecting pipe 24. The connecting sleeve 23 can better connect the inner pipe 22 and the connecting pipe 24, and the inner pipe 22 or the connecting pipe 24 can be conveniently and independently replaced.

The controller 32 is connected with a pressure gauge 34, the lower surface of the connecting support 31 is fixedly connected with one end of a stabilizing frame 35, and the other end of the stabilizing frame 35 is fixedly connected with the control valve 33. The pressure gauge 34 can display the pressure coefficient of the control valve 33 and the controller 32 in real time, so that the air pressure in the connecting pipe 24 is stable, the stabilizing frame 35 is used for stabilizing the control valve 33, the pneumatic pump 21 vibrates in working, the connecting pipe 24 is driven to vibrate, the stabilizing frame 35 is arranged for ensuring the stability of the control valve 33, and the pressure value data is accurately judged.

The lower surface of the sampling cover plate 42 is fixedly connected with a plurality of cushion blocks 45, the cushion blocks 45 are located between the sampling cover plate 42 and the upper surface of the sampling box 41, the cushion blocks 45 are rubber cushion blocks 45, the sampling cover plate 42 is provided with a movable sliding groove 44, and the movable sliding groove 44 is movably connected with a telescopic driving shaft 53. Rubber cushion 45 has certain elasticity and leakproofness, can seal sampling box 41, and the turbulence can take place for the gas in the sampling box 41 among the sample process, in order to prevent that the dust from spreading to the sampling box 41 outside, sampling box 41 and sample apron 42 can shelter from the sample position effectively.

The edge of the soil shifting disc 54 is fixedly connected with a plurality of soil shifting plates 56, the soil shifting plates 56 are uniformly distributed on the edge of the soil shifting disc 54, the soil breaking nails 55 are arranged in a plurality, and the soil breaking nails 55 are uniformly distributed on the lower surface of the soil shifting disc 54. The plurality of soil shifting plates 56 can guide the sample, and the sample can be better attracted by the connecting pipe 24 through shifting, so that the stable and continuous output of the sample is realized.

The cooling assembly 6 comprises a built-in plate 61, the built-in plate 61 is fixedly connected with the sampling cover plate 42, a built-in sleeve 62 is fixedly connected to the upper surface of the built-in plate 61, the built-in sleeve 62 is sleeved with a water pipe 63, and the water pipe 63 penetrates through the built-in plate 61. One end of the water pipe 63 close to the soil breaking nail 55 is connected with an extension pipe 64 in a sliding mode, and one end of the extension pipe 64 is fixedly connected with an elbow 65. Extension 64 can adjust according to the length of telescopic drive shaft 53 to make return bend 65 aim at the position of broken soil nail 55, thereby realize the cooling to the process and to the softening of geological sample, promote the efficiency that the sample obtained.

s2: and (4) fixing the position: after the rack assembly 1 is placed at a proper position, the base 11 is fixed through an external connecting part such as a bolt, so that the overall stability of the device in the pneumatic transmission process is ensured;

s4: fixing the pump body: after the base 11 is fixed, the upper surface of the base 11 is connected with the top frame 12, the support frame 12 is connected with the support frame 13, the ground breaking component 5 is connected with the top frame 12, the pneumatic component 2 is connected with the side surface of the support frame 13, after the connecting pipe 24 is installed, the control component 3 is connected with the connecting pipe 24, the controller 32 is fixed on the top frame 12 through the connecting support 31, and the sampling component 4 and the cooling component 6 are sleeved at the tail end of the connecting pipe 24.

S5: equipment debugging: the pneumatic pump 21, the controller 32, the control valve 33, the pressure gauge 34, the driving motor 51, the reversing speed changer 52 and the telescopic driving shaft 53 after being installed are debugged in sequence, and all the parts are ensured to be in a state of continuous and stable operation.

This kind of pneumatic transmission device of external geological soil, combination operation through each structure, combination air pump 21 and controller 32, make control valve 33 connecting pipe 24, make connecting pipe 24 and air pump 21 intercommunication, this kind of combination sets up and can carry out pneumatic extraction to broken soil structure, reach the purpose of obtaining external sample for a long time, and set up on the sample apron 42 and carry broken ground subassembly 5 and cooling module 6, can be when facing hard geological soil environment, the effectual softening that softens and abolishes, increase the validity and the stability of geological sampling, do not need long-term reinspection and maintenance.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims

1. The utility model provides an external geological soil pneumatic transmission device which characterized in that: comprises a frame component (1), wherein the frame component (1) comprises a base (11), the base (11) is fixedly connected with an upper frame (12) in surface, the upper frame (12) is fixedly connected with a support frame (13) in surface, the support frame (13) is fixedly connected with a pneumatic component (2) in side surface, the support frame (13) is fixedly connected with a transmission frame (14) in surface, the transmission frame (14) is sleeved with a transmission box (16), the pneumatic component (2) comprises a pneumatic pump (21), the output end of the pneumatic pump (21) is fixedly connected with one end of a connecting pipe (24), the other end of the connecting pipe (24) is connected with a sampling component (4), the sampling component (4) comprises a sampling box (41), the upper surface of the sampling box (41) is connected with a sampling cover plate (42), and the sampling cover plate (42) is opened with a through pipe groove (43), the connecting pipe (24) is sleeved with the pipe through groove (43), the top frame (12) is connected with the control assembly (3), the control assembly (3) comprises a connecting support (31), the connecting support (31) is fixedly connected with the upper surface of the top frame (12), the upper surface of the connecting support (31) is connected with the controller (32), the connecting pipe (24) is connected with the control valve (33), the control valve (33) is electrically connected with the controller (32), the side surface of the top frame (12) is connected with the ground breaking assembly (5), the ground breaking assembly (5) comprises a driving motor (51), the output end of the driving motor (51) is connected with one end of a reversing speed changer (52), the output end of the reversing speed changer (52) is connected with a telescopic driving shaft (53), the lower surface of the telescopic driving shaft (53) is fixedly connected with a soil shifting disc (54), the lower surface of the soil shifting disc (54) is connected with a soil breaking nail (55), the sampling cover plate (42) is connected with a cooling component (6).

2. The external geological soil pneumatic transmission device as claimed in claim 1, wherein: fixedly connected with is used for strengthening the inclined strut board (15) of structural strength between support frame (13) and roof-rack (12), transmission case (16) side is connected with adjusting bolt (17), adjusting bolt (17) and transmission frame (14) threaded connection.

3. The external geological soil pneumatic transmission device as claimed in claim 1, wherein: built-in pipe (22) is connected in pneumatic pump (21), pneumatic pump (21) output is connected with adapter sleeve (23), adapter sleeve (23) are used for connecting built-in pipe (22) and connecting pipe (24).

4. The external geological soil pneumatic transmission device as claimed in claim 1, wherein: the controller (32) is connected with a pressure gauge (34), the lower surface of the connecting support (31) is fixedly connected with one end of a stabilizing frame (35), and the other end of the stabilizing frame (35) is fixedly connected with the control valve (33).

5. The external geological soil pneumatic transmission device as claimed in claim 1, wherein: sample apron (42) lower surface fixedly connected with a plurality of cushion (45), it is a plurality of cushion (45) are located between sample apron (42) and sample case (41) upper surface, and are a plurality of cushion (45) are rubber cushion (45), movable spout (44) have been seted up in sample apron (42), movable spout (44) and flexible drive shaft (53) swing joint.

6. The external geological soil pneumatic transmission device as claimed in claim 1, wherein: the soil shifting disc is characterized in that a plurality of soil shifting plates (56) are fixedly connected to the edge of the soil shifting disc (54), the soil shifting plates (56) are evenly distributed on the edge of the soil shifting disc (54), the soil breaking nails (55) are arranged in a plurality of, and the soil breaking nails (55) are evenly distributed on the lower surface of the soil shifting disc (54).

7. The external geological soil pneumatic transmission device as claimed in claim 1, wherein: the cooling assembly (6) comprises an internal plate (61), the internal plate (61) is fixedly connected with a sampling cover plate (42), a built-in sleeve (62) is fixedly connected to the upper surface of the internal plate (61), a water pipe (63) is sleeved on the built-in sleeve (62), and the water pipe (63) penetrates through the built-in plate (61).

8. The pneumatic transmission device for geological soil with external installation of claim 7, wherein: one end of the water pipe (63) close to the soil breaking nail (55) is connected with an extension pipe (64) in a sliding mode, and one end of the extension pipe (64) is fixedly connected with an elbow (65).

9. Use of an external pneumatic transmission device for geological soil according to any of claims 1 to 8, characterized in that: the use method of the external geological soil pneumatic transmission device comprises the following steps:

s2: and (4) fixing the position: after the rack assembly (1) is placed at a proper position, the base (11) is fixed through an external connecting part such as a bolt, so that the overall stability of the device in the pneumatic transmission process is ensured;

s3: and (3) stability test: the fixed device is subjected to swing test, so that the installation stability is ensured, and the situation that the device cannot move in the long-term external process in the later period is ensured;

s4: fixing the pump body: when base (11) are fixed, connect roof-rack (12) at base (11) upper surface, and connect support frame (13) on roof-rack (12), and connect broken ground subassembly (5) on roof-rack (12), connect pneumatic component (2) in support frame (13) side, after connecting pipe (24) have been installed, connect control assembly (3) on connecting pipe (24), and fix controller (32) on roof-rack (12) through linking bridge (31), cup joint sampling component (4) and cooling module (6) at connecting pipe (24) end.

S5: equipment debugging: the pneumatic pump (21), the controller (32), the control valve (33), the pressure gauge (34), the driving motor (51), the reversing speed changer (52) and the telescopic driving shaft (53) after being installed are debugged in sequence, and all parts are ensured to be in a state of continuous and stable operation.