CN213296494U - Pumping equipment for shale geological grounding construction - Google Patents

Abstract

The utility model discloses a pumping equipment is used in earth connection construction of mud rock class geology, including second bearing board and fifth bearing board, the top horizontal installation in the second bracing piece outside has the gear, the equal horizontal installation in both ends on the inboard second bearing board top of second bracing piece has the slide rail, the top horizontal installation of slider has the third bearing board, the intermediate position department level on the inside top of third bearing board is provided with the mounting groove, the first runner that runs through the third bearing board is installed to the third bearing board lateral wall of lead screw one side, first telescopic top horizontal installation has the fourth bearing board, first bracing piece is close to the vertical second sleeve of installing in fourth bearing board top on one side of first runner. The pumping equipment for the mudstone geological grounding construction drives the fourth bearing plate and the sediment pump to move left and right through the first rotating hand, and drives the fourth bearing plate and the sediment pump to move back and forth through the second rotating hand, so that the horizontal position of the equipment can be conveniently adjusted.

Description

Pumping equipment for shale geological grounding construction

Technical Field

The utility model relates to a mudstone type geology ground connection construction equipment technical field specifically is a pumping equipment for mudstone type geology ground connection construction.

Background

The construction difficulty of the shale geology grounding construction is higher due to the fact that geology is shale, and special pumping equipment is often needed to be used in the shale geology grounding construction.

However, most of the pumping equipment for shale geological grounding construction in the market at present has fixed angles and positions when in use, cannot be flexibly adjusted according to actual needs when in use, seriously influences the construction progress, and has large vibration when in use, so that the service life of the pumping equipment is shortened.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a pumping equipment is used in earth connection construction of mud rock class geology to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a pumping device for shale geological grounding construction comprises a second bearing plate and a fifth bearing plate, wherein universal wheels are mounted at two ends of the bottom end of the second bearing plate, second supporting rods are vertically mounted at two ends of the top end of the interior of the second bearing plate through bearings, gears are horizontally mounted at the top ends of the outer sides of the second supporting rods, second rotating hands are mounted at the top ends of the interior of the gears, slide rails are horizontally mounted at two ends of the top end of the second bearing plate on the inner sides of the second supporting rods, slide blocks matched with the slide rails are mounted in the slide rails, a third bearing plate is horizontally mounted at the top ends of the slide blocks, gear rods matched with the gears are horizontally mounted at two ends of the bottom end of the third bearing plate, a mounting groove is horizontally arranged at the middle position of the top end of the interior of the third bearing plate, and a screw rod is horizontally mounted at the middle position of two side walls, a first rotating handle penetrating through the third bearing plate is installed on the side wall of the third bearing plate on one side of the screw rod, a first sleeve matched with the screw rod is installed on the outer side of the screw rod, a fourth bearing plate is horizontally installed at the top end of the first sleeve, a first supporting rod is vertically installed at the central position of the top end inside the fourth bearing plate through a bearing, a second sleeve is vertically installed at the top end of the fourth bearing plate, close to one side of the first rotating handle, of the first supporting rod, a second spring is vertically installed at the bottom end inside the second sleeve, a first connecting rod penetrating through the top end of the second sleeve is vertically installed at the top end of the second spring, a fifth bearing plate is horizontally installed at the top end of the first supporting rod, clamping grooves matched with the first connecting rod are evenly arranged at the bottom end inside the fifth bearing plate, third sleeves are evenly horizontally installed at two ends of the top end of the fifth bearing plate, and a first spring is horizontally installed inside the third, a third connecting rod penetrating through the third sleeve is horizontally arranged on one side, away from the third sleeve, of the first spring, one end, away from the third sleeve, of the third connecting rod is hinged with a second connecting rod through a hinged shaft, the top end of the second connecting rod is hinged with a first bearing plate through a hinged shaft, the middle positions of the two ends of the bottom end of the first bearing plate are hinged with fifth connecting rods through hinged shafts, the bottom end of the fifth connecting rod is hinged with a fourth sleeve through a hinged shaft, a fourth connecting rod is horizontally arranged on the inner side of the fourth sleeve, a third spring connected with the fourth sleeve is horizontally arranged on the outer side of the fourth connecting rod, a sixth connecting rod is hinged at the middle position of the front face of the third spring through a hinged shaft, the bottom end of the sixth connecting rod is hinged with the top end of the fifth bearing plate, and a sand pump is arranged at the center position of the top end of the first, and the input end of the silt pump is provided with a water suction hose, and the output end of the silt pump is provided with a water outlet hose.

Preferably, the fifth connecting rod is rotatably connected with the first bearing plate and the fourth sleeve through an articulated shaft to form a rotating mechanism, the fourth sleeve is connected with the fourth connecting rod through a third spring to form a telescopic mechanism, the fourth sleeve is rotatably connected with the sixth connecting rod through an articulated shaft to form a rotating mechanism, and the sixth connecting rod is rotatably connected with the fifth bearing plate through an articulated shaft to form a rotating mechanism.

Preferably, the third connecting rod is connected with the third sleeve through the first spring to form a telescopic mechanism, the third connecting rod is rotatably connected with the second connecting rod through a hinge shaft to form a rotating mechanism, and the second connecting rod is rotatably connected with the first bearing plate through the hinge shaft to form a rotating mechanism.

Preferably, the first connecting rod is connected with the second sleeve through a second spring to form a telescopic mechanism, and the first connecting rod and the clamping groove are connected in a clamping mode to form a clamping mechanism.

Preferably, the first support rod is rotatably connected with the fourth bearing plate through a bearing to form a rotating mechanism, and the fourth bearing plate is slidably connected with the screw rod through a first sleeve to form a sliding mechanism.

Preferably, the gear and the rack bar are meshed and connected to form a meshing mechanism.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) by installing the first connecting rod, the clamping groove, the first supporting rod, the fifth bearing plate, the sediment pump and the second spring, when the angle of the pumping equipment for the mudstone geological grounding construction needs to be adjusted, the first connecting rod is pressed downwards to enable the first connecting rod and the clamping groove to be separated, then the first supporting rod is rotated to drive the fifth bearing plate and the sediment pump to rotate to proper positions, then the first connecting rod is loosened, the first connecting rod is driven to be clamped with the clamping grooves at different positions again under the elastic action of the second spring, and therefore the angle of the pumping equipment for the mudstone geological grounding construction is convenient to adjust;

(2) meanwhile, the device is provided with a first rotating hand, a screw rod, a first sleeve, a fourth bearing plate, a sediment pump, a second rotating hand, a gear, a rack rod, a third bearing plate, a sliding block and a sliding rail, when the horizontal position of the pumping equipment for mudstone geological grounding construction needs to be adjusted, the first rotating hand drives the screw rod to rotate so as to drive the first sleeve to move, the first sleeve drives the fourth bearing plate and the sediment pump to move left and right, the second rotating hand drives the gear to rotate so as to drive the rack rod and the third bearing plate to slide in the sliding rail through the sliding block, and therefore the fourth bearing plate and the sediment pump are driven to move back and forth, and the horizontal position of the pumping equipment for mudstone geological grounding construction can be adjusted conveniently;

(3) the device is through installing first cushion cap board simultaneously, the second connecting rod, the fifth connecting rod, the third connecting rod, the fourth sleeve, the fourth connecting rod, the sixth connecting rod, first spring and third spring, when this pumping equipment for mudstone type geology ground connection construction uses because the impact force that vibrations produced transmits second connecting rod and fifth connecting rod respectively for the first cushion cap board, the second connecting rod transmits power for the third connecting rod, the fifth connecting rod transmits power for the fourth sleeve, fourth connecting rod and sixth connecting rod, thereby eliminate this impact force under the spring action of first spring and third spring, thereby be convenient for the buffering shock attenuation, prolong this pumping equipment for mudstone type geology ground connection construction's life.

Drawings

FIG. 1 is a front view of the cross-sectional structure of the present invention;

FIG. 2 is a right side view of the structure of the present invention;

fig. 3 is a schematic top view of the rack bar, the second support bar and the gear of the present invention;

fig. 4 is a schematic bottom view of the fifth support plate of the present invention;

FIG. 5 is an enlarged view of the portion A of FIG. 1 according to the present invention;

fig. 6 is an enlarged schematic view of a portion B in fig. 1 according to the present invention.

In the figure: 1. a first deck plate; 2. a first rotating hand; 3. a second rotating hand; 4. a second deck plate; 5. a universal wheel; 6. a slider; 7. a third deck plate; 8. a first support bar; 9. a first sleeve; 10. a fourth deck plate; 11. a screw rod; 12. a slide rail; 13. a rack bar; 14. a second support bar; 15. a gear; 16. Mounting grooves; 17. a fifth deck plate; 18. a silt pump; 19. a water suction hose; 20. a water outlet hose; 21. A first spring; 22. a first connecting rod; 23. a second sleeve; 24. a second spring; 25. a card slot; 26. A second connecting rod; 27. a third connecting rod; 28. a third sleeve; 29. a fourth connecting rod; 30. a third spring; 31. a sixth connecting rod; 32. a fifth connecting rod; 33. and a fourth sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides an embodiment: a pumping device for shale geological grounding construction comprises a second bearing plate 4 and a fifth bearing plate 17, wherein universal wheels 5 are mounted at two ends of the bottom end of the second bearing plate 4, second support rods 14 are vertically mounted at two ends of the top end inside the second bearing plate 4 through bearings, gears 15 are horizontally mounted at the top ends of the outer sides of the second support rods 14, the gears 15 and gear rods 13 are meshed and connected to form a meshing mechanism, the horizontal position of the meshing mechanism is convenient to adjust, a second rotating handle 3 is mounted at the top end inside the gears 15, slide rails 12 are horizontally mounted at two ends of the top end of the second bearing plate 4 inside the second support rods 14, sliders 6 matched with the slide rails 12 are mounted inside the slide rails 12, a third bearing plate 7 is horizontally mounted at the top end of the slide rails 6, gear rods 13 matched with the gears 15 are horizontally mounted at two ends of the bottom end of the third bearing plate 7, mounting grooves 16 are horizontally arranged at the middle position of the top end inside the third bearing plate, a screw rod 11 is horizontally arranged at the middle position of two side walls in the installation groove 16 through a bearing, a first rotating handle 2 penetrating through the third bearing plate 7 is arranged on the side wall of the third bearing plate 7 on one side of the screw rod 11, a first sleeve 9 matched with the screw rod 11 is arranged on the outer side of the screw rod 11, a fourth bearing plate 10 is horizontally arranged at the top end of the first sleeve 9, a first supporting rod 8 is vertically arranged at the central position of the top end in the fourth bearing plate 10 through a bearing, the first supporting rod 8 is rotationally connected with the fourth bearing plate 10 through a bearing to form a rotating mechanism, the fourth bearing plate 10 is slidably connected with the screw rod 11 through the first sleeve 9 to form a sliding mechanism, the horizontal position and the angle can be conveniently adjusted, a second sleeve 23 is vertically arranged at the top end of the fourth bearing plate 10 on one side of the first supporting rod 8 close to the first rotating handle 2, and a second spring 24 is vertically arranged at the bottom end, a first connecting rod 22 penetrating through the top end of a second sleeve 23 is vertically arranged at the top end of a second spring 24, the first connecting rod 22 is connected with the second sleeve 23 through the second spring 24 to form a telescopic mechanism, the first connecting rod 22 and a clamping groove 25 are clamped and connected to form a clamping mechanism, the angle of the clamping mechanism is convenient to adjust, a fifth bearing plate 17 is horizontally arranged at the top end of a first supporting rod 8, clamping grooves 25 matched with the first connecting rod 22 are uniformly arranged at the bottom end inside the fifth bearing plate 17, third sleeves 28 are uniformly and horizontally arranged at two ends of the top end of the fifth bearing plate 17, a first spring 21 is horizontally arranged inside the third sleeve 28, a third connecting rod 27 penetrating through the third sleeve 28 is horizontally arranged at one side, away from the third sleeve 28, of the first spring 21, the third connecting rod 27 is connected with the third sleeve 28 through the first spring 21 to form the telescopic mechanism, and the third connecting rod 27 is rotatably connected with the second connecting rod 26 through a hinge shaft to form, the second connecting rod 26 is rotatably connected with the first bearing plate 1 through a hinge shaft to form a rotating mechanism for facilitating shock absorption, one end of the third connecting rod 27 far away from the third sleeve 28 is hinged with the second connecting rod 26 through the hinge shaft, the top end of the second connecting rod 26 is hinged with the first bearing plate 1 through the hinge shaft, the middle positions of two ends of the bottom end of the first bearing plate 1 are hinged with a fifth connecting rod 32 through the hinge shaft, the fifth connecting rod 32 is rotatably connected with the first bearing plate 1 and a fourth sleeve 33 through the hinge shaft to form the rotating mechanism, the fourth sleeve 33 is connected with the fourth connecting rod 29 through a third spring 30 to form a telescopic mechanism, the fourth sleeve 33 is rotatably connected with a sixth connecting rod 31 through the hinge shaft to form the rotating mechanism, and the sixth connecting rod 31 is rotatably connected with the fifth bearing plate 17 through the hinge shaft to form the rotating mechanism for facilitating shock absorption, the bottom end of the fifth connecting rod 32 is hinged with a fourth sleeve 33 through a hinge shaft, the inner side of the fourth sleeve 33 is horizontally provided with a fourth connecting rod 29, the outer side of the fourth connecting rod 29 is horizontally provided with a third spring 30 connected with the fourth sleeve 33, the middle position of the front surface of the third spring 30 is hinged with a sixth connecting rod 31 through a hinge shaft, the bottom end of the sixth connecting rod 31 is hinged with the top end of the fifth bearing plate 17, the center position of the top end of the first bearing plate 1 is provided with a silt pump 18, the type of the silt pump 18 can be 100ZNQ100-28-15 silt pump, the input end of the silt pump 18 is provided with a water suction hose 19, and the output end of the silt pump 18 is provided with a water outlet hose 20.

The working principle is as follows: when the pumping equipment for mudstone geological grounding construction is used, the pumping equipment for mudstone geological grounding construction is moved to a proper position through the universal wheel 5, then an external power supply is connected, the mudstone pump 18 is started to pump water through the water suction hose 19 and the water outlet hose 20 respectively, when the angle of the pumping equipment for mudstone geological grounding construction needs to be adjusted, the first connecting rod 22 is pressed downwards to separate the first connecting rod 22 from the clamping groove 25, then the first supporting rod 8 is rotated to drive the fifth supporting platform plate 17 and the mudstone pump 18 to rotate to the proper position, the first connecting rod 22 is loosened, the first connecting rod 22 is driven to be clamped again with the clamping groove 25 at different positions under the action of the elastic force of the second spring 24, so that the angle of the pumping equipment for mudstone geological grounding construction is convenient to adjust, when the horizontal position of the pumping equipment for mudstone geological grounding construction needs to be adjusted, the first rotating hand 2 drives the screw rod 11 to rotate so as to drive the first sleeve 9 to move, the first sleeve 9 drives the fourth bearing plate 10 and the sediment pump 18 to move left and right, the second rotating hand 3 drives the gear 15 to rotate so as to drive the rack bar 13 and the third bearing plate 7 to slide in the slide rail 12 through the slide block 6 so as to drive the fourth bearing plate 10 and the sediment pump 18 to move back and forth, so that the horizontal position of the pumping equipment for mudstone geological grounding construction can be adjusted, when the pumping equipment for mudstone geological grounding construction is used, impact force generated by vibration is respectively transmitted to the second connecting rod 26 and the fifth connecting rod 32 through the first bearing plate 1, the second connecting rod 26 transmits the force to the third connecting rod 27, the fifth connecting rod 32 transmits the force to the fourth sleeve 33, the fourth connecting rod 29 and the sixth connecting rod 31, so that the impact force is eliminated under the elastic force of the first spring 21 and the third spring 30, thereby be convenient for cushion the shock attenuation, prolong this pumping equipment for mudstone class geology ground connection construction's life, do above the utility model discloses a whole theory of operation.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. 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.

Claims (6)

1. The utility model provides a pumping equipment is used in construction of mud rock class geology ground connection, includes second cushion cap board (4) and fifth cushion cap board (17), its characterized in that: universal wheels (5) are mounted at two ends of the bottom end of the second bearing plate (4), second supporting rods (14) are vertically mounted at two ends of the top end of the interior of the second bearing plate (4) through bearings, gears (15) are horizontally mounted at the top end of the outer side of the second supporting rods (14), second rotating hands (3) are mounted at the top end of the interior of the gears (15), sliding rails (12) are horizontally mounted at two ends of the top end of the second bearing plate (4) on the inner side of the second supporting rods (14), sliding blocks (6) matched with the sliding rails (12) are mounted inside the sliding rails (12), a third bearing plate (7) is horizontally mounted at the top end of the sliding blocks (6), gear rods (13) matched with the gears (15) are horizontally mounted at two ends of the bottom end of the third bearing plate (7), and mounting grooves (16) are horizontally arranged at the middle position of the top end of the interior of the third bearing plate, a screw rod (11) is horizontally arranged at the middle position of two side walls in the installation groove (16) through a bearing, a first rotating handle (2) penetrating through the third bearing plate (7) is arranged on the side wall of the third bearing plate (7) on one side of the screw rod (11), a first sleeve (9) matched with the screw rod (11) is arranged on the outer side of the screw rod (11), a fourth bearing plate (10) is horizontally arranged at the top end of the first sleeve (9), a first supporting rod (8) is vertically arranged at the central position of the top end in the fourth bearing plate (10) through a bearing, a second sleeve (23) is vertically arranged at the top end of the fourth bearing plate (10) close to one side of the first rotating handle (2) through the first supporting rod (8), a second spring (24) is vertically arranged at the bottom end in the second sleeve (23), a first connecting rod (22) penetrating through the top end of the second sleeve (23) is vertically arranged at the top end of the second spring (24), a fifth bearing plate (17) is horizontally arranged at the top end of the first supporting rod (8), clamping grooves (25) matched with the first connecting rods (22) are uniformly formed in the bottom end of the interior of the fifth bearing plate (17), third sleeves (28) are uniformly and horizontally arranged at two ends of the top end of the fifth bearing plate (17), first springs (21) are horizontally arranged in the third sleeves (28), third connecting rods (27) penetrating through the third sleeves (28) are horizontally arranged on one sides, far away from the third sleeves (28), of the first springs (21), one ends, far away from the third sleeves (28), of the third connecting rods (27) are hinged to second connecting rods (26) through hinged shafts, the top ends of the second connecting rods (26) are hinged to the first bearing plate (1) through hinged shafts, and fifth connecting rods (32) are hinged to middle positions of two ends of the bottom end of the first bearing plate (1), the bottom of fifth connecting rod (32) is articulated through the articulated shaft to have fourth sleeve (33), and the inboard level of fourth sleeve (33) is provided with fourth connecting rod (29), the outside horizontal installation of fourth connecting rod (29) has third spring (30) that are connected with fourth sleeve (33), and the positive intermediate position department of third spring (30) articulates through the articulated shaft has sixth connecting rod (31), the bottom and the fifth bearing board (17) top of sixth connecting rod (31) are articulated mutually, top central point department of first bearing board (1) installs silt pump (18), and the input of silt pump (18) installs water-absorbing hose (19), water-discharging hose (20) are installed to the output of silt pump (18).

2. The pumping equipment for shale geology ground connection construction according to claim 1, characterized in that: the fifth connecting rod (32) is respectively connected with the first bearing plate (1) and the fourth sleeve (33) through a hinged shaft in a rotating mode to form a rotating mechanism, the fourth sleeve (33) is connected with the fourth connecting rod (29) through a third spring (30) to form a telescopic mechanism, the fourth sleeve (33) is connected with the sixth connecting rod (31) through the hinged shaft in a rotating mode to form the rotating mechanism, and meanwhile the sixth connecting rod (31) is connected with the fifth bearing plate (17) through the hinged shaft in a rotating mode to form the rotating mechanism.

3. The pumping equipment for shale geology ground connection construction according to claim 1, characterized in that: the third connecting rod (27) is connected with the third sleeve (28) through a first spring (21) to form a telescopic mechanism, the third connecting rod (27) is rotatably connected with the second connecting rod (26) through a hinge shaft to form a rotating mechanism, and the second connecting rod (26) is rotatably connected with the first bearing plate (1) through the hinge shaft to form the rotating mechanism.

4. The pumping equipment for shale geology ground connection construction according to claim 1, characterized in that: the first connecting rod (22) is connected with the second sleeve (23) through a second spring (24) to form a telescopic mechanism, and the first connecting rod (22) is connected with the clamping groove (25) in a clamping mode to form a clamping mechanism.

5. The pumping equipment for shale geology ground connection construction according to claim 1, characterized in that: the first supporting rod (8) is rotatably connected with the fourth bearing plate (10) through a bearing to form a rotating mechanism, and the fourth bearing plate (10) is slidably connected with the screw rod (11) through a first sleeve (9) to form a sliding mechanism.

6. The pumping equipment for shale geology ground connection construction according to claim 1, characterized in that: the gear (15) and the rack bar (13) are meshed and connected to form a meshing mechanism.

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