CN218579547U - Slope surface sampling tube lifting structure for rock soil - Google Patents

Abstract

The utility model provides a domatic sampling tube elevation structure of ground belongs to the elevation structure field, include: a U-shaped bottom plate; the mounting mechanism is arranged at the top of the U-shaped bottom plate; the lifting mechanism is arranged on the U-shaped bottom plate and the mounting mechanism; the clamping mechanism is arranged on the lifting mechanism and is used for clamping the sampling tube; adjustment mechanism, locate elevating system on, adjustment mechanism is connected with fixture, it is used for driving fixture, the utility model discloses an electric telescopic handle extension can realize that the dead lever removes, it can realize the rack removal to remove through the dead lever, it can realize the arc clamp splice removal to remove through T type slider, remove through two arc clamp splices and can clip not unidimensional sampling tube, thereby can go up and down to not unidimensional sampling tube, the elevation structure among the domatic sampling tube elevation structure of ground among the prior art can be solved and the sampling tube is fixed together, make sampling tube and elevation structure as an organic whole, thereby the problem of sampling tube can' T be dismantled.

Description

Slope surface sampling tube lifting structure for rock soil

Technical Field

The utility model belongs to the elevation structure field, concretely relates to domatic sampling tube elevation structure of ground.

Background

Rock-soil side slopes can be classified into natural rock-soil side slopes and artificial rock-soil side slopes according to their causes. The natural rock-soil side slope refers to a naturally formed hillside and a bank slope of rivers, lakes and seas; the artificial rock-soil side slope refers to a rock-soil side slope formed by artificially excavating foundation pits, foundation trenches and cutting or filling embankments and earth dams, and the natural rock-soil side slope needs to be sampled due to uncertain internal stability so as to detect the strength and stability of the natural rock-soil side slope.

The grant publication number ' CN215811704U ' records ' a rock soil sampling device, which comprises a fixed box, wherein the fixed box is a closed box body, a sampling tube main body penetrates through the whole fixed box from the top to the bottom, the sampling tube main body can slide up and down relative to the fixed box, a screw rod is inserted into the sampling tube main body, a sampling opening is formed in the bottom of the sampling tube main body, a mounting plate matched with the screw rod is fixed on the upper portion inside the sampling tube main body, a push block for pushing out a soil sample inside the sampling tube main body is fixed at the bottom of the screw rod, a pair of mounting frames are symmetrically fixed inside the fixed box on two sides of the sampling tube main body, a lead screw capable of conducting self-transmission is fixed on each mounting frame, the axis of the lead screw is parallel to the axis of the sampling tube main body, a nut is assembled on the lead screw, a servo motor is fixed at the top of each mounting frame, the servo motor is in transmission connection with one end of the lead screw, and the lead screw is fixedly connected with the sampling tube main body on one side corresponding to the outer side wall of the lead screw through a connecting plate. The utility model discloses be stained with in the sampling tube main part and attach ground residue and pollute the sampling tube main part internal environment ".

Above-mentioned patent can prevent to be stained with in the sampling tube main part and attach ground residue and pollute sampling tube main part internal environment, but the sampling tube elevation structure in the above-mentioned patent is together fixed with the sampling tube for sampling tube and elevation structure as an organic whole, thereby can't dismantle the sampling tube, make elevation structure can't go up and down not unidimensional sampling tube.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a domatic sampling tube elevation structure of ground aims at solving elevation structure among the domatic sampling tube elevation structure of ground among the prior art and is fixed together with the sampling tube for sampling tube and elevation structure as an organic whole, thereby the problem of unable dismantlement sampling tube.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a slope surface sampling tube lifting structure of rock soil comprises:

a U-shaped bottom plate;

the mounting mechanism is arranged on the top of the U-shaped bottom plate;

the lifting mechanism is arranged on the U-shaped bottom plate and the mounting mechanism;

the clamping mechanism is arranged on the lifting mechanism and used for clamping the sampling tube;

and the adjusting mechanism is arranged on the lifting mechanism, is connected with the clamping mechanism and is used for driving the clamping mechanism.

As a preferred scheme of the utility model, installation mechanism includes bracing piece, U type roof and U type mounting panel, the bracing piece is provided with four, four the equal fixed connection of bracing piece is in the upper end of U type bottom plate, and four bracing piece evenly distributed, U type roof fixed connection is in the upper end of four bracing pieces, U type mounting panel fixed connection is in the upper end of U type roof.

As an optimized scheme of the utility model, elevating system includes lifting unit and driver part, lifting unit sets up on U type bottom plate and U type roof, driver part sets up on U type bottom plate, U type roof and positive reverse motor, driver part is connected with lifting unit.

As an optimal scheme, the lift part includes slide bar and U type lifter plate, the slide bar is provided with two, two the equal fixed connection of slide bar is between U type bottom plate and U type roof, U type lifter plate slip cap is located on two slide bars.

As a preferred scheme, driver part includes positive and negative motor, lead screw cover and lead screw, the lead screw rotates to be connected between U type bottom plate and U type roof, and the one end of lead screw rotates the upside that runs through U type roof and extend to U type roof, lead screw cover threaded connection is on the lead screw, and lead screw cover and U type lifter plate fixed connection, positive and negative motor fixed connection is in the upper end of U type mounting panel, and positive and negative motor's output rotate run through U type mounting panel and with lead screw fixed connection.

As a preferred scheme of the utility model, fixture includes T type spout, T type slider and arc clamp splice, T type spout is provided with two, two the upper end of U type lifter plate is all seted up to T type spout, and two U type lifter plate symmetries set up, T type slider is provided with two, every equal sliding connection of T type slider is in every T type spout, two T type slider symmetry sets up, the arc clamp splice is provided with two, every the equal fixed connection of arc clamp splice is in the side of every T type slider, two the arc clamp splice symmetry sets up.

As an optimized scheme of the utility model, adjustment mechanism includes dead lever, electric telescopic handle, rack and gear, the dead lever is provided with two, every the upper end of every T type slider of the equal fixed connection of dead lever, two the dead lever symmetry sets up, the rack is provided with two, every the equal fixed connection of rack is in the side of every dead lever, two the rack all is located between two dead levers, the gear rotates through the pivot and connects in the upper end of U type lifter plate, and the gear all with two rack intermeshing, electric telescopic handle's one end fixed connection is in the upper end of U type lifter plate, and electric telescopic handle's extension end and one of them dead lever fixed connection.

As an optimized scheme, four rings of upper end fixedly connected with of U type roof, four rings evenly distributed.

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

1. in this scheme, can realize the dead lever through the electric telescopic handle extension and remove, remove through the dead lever and can realize the rack and remove, remove through the rack and can realize gear revolve, it removes to realize two racks through gear revolve, it removes to realize T type slider through the dead lever removal, it removes to realize the arc clamp splice through T type slider removal, remove through two arc clamp splices and to carry not unidimensional sampling tube to can go up and down to not unidimensional sampling tube.

2. In this scheme, the output through just reversing motor rotates and to realize that the lead screw rotates, rotates through the lead screw and can realize that the lead screw cover goes up and down, goes up and down through the lead screw cover and can realize that U type lifter plate goes up and down, goes up and down through U type lifter plate and can realize that two arc clamp blocks go up and down, goes up and down through two arc clamp blocks and can realize that the sampling tube goes up and down.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic structural view of another view angle of the present invention;

FIG. 3 is a schematic structural view of the slide bar and the U-shaped lifting plate of the present invention;

fig. 4 is a schematic structural view of the arc-shaped clamping block of the present invention.

In the figure: 1. a U-shaped bottom plate; 2. a slide bar; 3. a support bar; 4. a U-shaped lifting plate; 5. a U-shaped top plate; 6. a hoisting ring; 7. a positive and negative rotation motor; 8. a U-shaped mounting plate; 9. a screw rod sleeve; 10. a screw rod; 11. a T-shaped chute; 12. a T-shaped slider; 13. an arc-shaped clamping block; 14. fixing the rod; 15. an electric telescopic rod; 16. a rack; 17. a gear.

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.

Example 1

Referring to fig. 1-4, the technical solution provided in this embodiment is as follows:

a slope surface sampling tube lifting structure of rock soil comprises:

a U-shaped bottom plate 1;

the mounting mechanism is arranged on the top of the U-shaped bottom plate 1;

the lifting mechanism is arranged on the U-shaped bottom plate 1 and the mounting mechanism;

the clamping mechanism is arranged on the lifting mechanism and is used for clamping the sampling tube;

and the adjusting mechanism is arranged on the lifting mechanism, is connected with the clamping mechanism and is used for driving the clamping mechanism.

In the embodiment of the present invention, the U-shaped bottom plate 1 is disposed to connect the support rods 3.

Specifically, installation mechanism includes bracing piece 3, U type roof 5 and U type mounting panel 8, and bracing piece 3 is provided with four, and four equal fixed connection of bracing piece 3 are in U type bottom plate 1's upper end, and four bracing piece 3 evenly distributed, and U type roof 5 fixed connection is in four bracing piece 3's upper end, and U type mounting panel 8 fixed connection is in the upper end of U type roof 5.

In the embodiment of the present invention, the setting of the four support rods 3 is used for connecting the setting of the U-shaped top plate 5,U type top plate 5 and the setting of the connecting slide rod 2 and the U-shaped mounting plate 8,U type mounting plate 8 are used for connecting the forward and reverse rotation motor 7.

Specifically, elevating system includes lifting unit and drive unit, and lifting unit sets up on U type bottom plate 1 and U type roof 5, and drive unit sets up on U type bottom plate 1, U type roof 5 and positive reverse motor 7, and drive unit is connected with lifting unit.

The utility model discloses an in the concrete embodiment, elevating system includes lifting unit and driver part, and lifting unit sets up on U type bottom plate 1 and U type roof 5, and driver part sets up on U type bottom plate 1, U type roof 5 and positive reverse motor 7, and driver part is connected with lifting unit.

Specifically, the lifting component comprises two sliding rods 2 and two U-shaped lifting plates 4, the two sliding rods 2 are fixedly connected between the U-shaped bottom plate 1 and the U-shaped top plate 5, and the two sliding rods 2 are sleeved with the U-shaped lifting plates 4 in a sliding mode.

In the embodiment of the present invention, two sliding rods 2 are used to connect the U-shaped lifting plate 4,U and the lifting plate 4 is used to connect the two arc-shaped clamping blocks 13.

Specifically, the drive assembly includes positive and negative motor 7, lead screw cover 9 and lead screw 10, lead screw 10 rotates to be connected between U type bottom plate 1 and U type roof 5, and the one end of lead screw 10 rotates and runs through U type roof 5 and extend to the upside of U type roof 5, lead screw cover 9 threaded connection is on lead screw 10, and lead screw cover 9 and U type lifter plate 4 fixed connection, positive and negative motor 7 fixed connection is in the upper end of U type mounting panel 8, and positive and negative motor 7's output rotates and runs through U type mounting panel 8 and with lead screw 10 fixed connection.

The utility model discloses an in the embodiment, through positive reverse motor 7's output and lead screw 10 fixed connection, can realize that lead screw 10 rotates, through threaded connection between lead screw 10 and the lead screw cover 9, can realize that lead screw 10 rotates and drives lead screw cover 9 and go up and down, through fixed connection between lead screw cover 9 and the U type lifter plate 4, can realize that lead screw cover 9 goes up and down to drive U type lifter plate 4 and go up and down.

Specifically, fixture includes T type spout 11, T type slider 12 and arc clamp splice 13, T type spout 11 is provided with two, two T type spouts 11 are all seted up in the upper end of U type lifter plate 4, and two U type lifter plate 4 symmetries set up, T type slider 12 is provided with two, every T type slider 12 is equal sliding connection in every T type spout 11, two T type sliders 12 symmetries set up, arc clamp splice 13 is provided with two, every equal fixed connection in the side of every T type slider 12 of arc clamp splice 13, two arc clamp splice 13 symmetries set up.

The utility model discloses an in the concrete embodiment, T type spout 11 set up and be used for sliding connection T type slider 12, T type slider 12 is used for connecting arc clamp splice 13, through T type slider 12 sliding connection in T type spout 11 for T type slider 12 can slide in T type spout 11, remove through T type slider 12 and can realize that arc clamp splice 13 removes, remove through two arc clamp splices 13 and can clip the domatic sampling tube of ground, make the domatic sampling tube of ground be convenient for go up and down.

Specifically, adjustment mechanism includes dead lever 14, electric telescopic handle 15, rack 16 and gear 17, dead lever 14 is provided with two, the upper end of every T type slider 12 of the equal fixed connection of every dead lever 14, two dead lever 14 symmetries set up, rack 16 is provided with two, the equal fixed connection of every rack 16 is in the side of every dead lever 14, two rack 16 all are located between two dead levers 14, gear 17 rotates through the pivot and connects in the upper end of U type lifter plate 4, and gear 17 all with two rack 16 intermeshing, the one end fixed connection of electric telescopic handle 15 is in the upper end of U type lifter plate 4, and electric telescopic handle 15's extension end and one of them dead lever 14 fixed connection.

The embodiment of the utility model provides an in, extension end and dead lever 14 fixed connection through electric telescopic handle 15, can realize that electric telescopic handle 15 contracts and drives dead lever 14 and remove, electric telescopic handle 15's theory of operation and inner structure are field technicians' common general knowledge, therefore no longer describe here, through fixed connection between dead lever 14 and the rack 16, can realize dead lever 14 and remove and drive rack 16 and remove, because gear 17 and two rack 16 intermeshing, can realize that gear 17 rotates and drives two rack 16 and reverse rotation simultaneously, through fixed connection between dead lever 14 and the T type slider 12, can realize that dead lever 14 removes and drives T type slider 12 and remove.

Specifically, the upper end of the U-shaped top plate 5 is fixedly connected with four hanging rings 6, and the four hanging rings 6 are uniformly distributed.

In the embodiment of the present invention, the U-shaped bottom plate 1 is conveniently lifted by the lifting ring 6.

The utility model provides a domatic sampling tube elevation structure of ground's theory of operation or working process do: the electric telescopic rod 15 contracts to drive the fixed rod 14 to move, the fixed rod 14 moves to drive the rack 16 to move, the rack 16 moves to drive the gear 17 to rotate, the gear 17 rotates to drive the two racks 16 to move simultaneously, the fixed rod 14 moves to drive the T-shaped sliding block 12 to move, the T-shaped sliding block 12 slides in the T-shaped sliding groove 11, the T-shaped sliding block 12 moves to drive the arc-shaped clamping blocks 13 to move, the two arc-shaped clamping blocks 13 move to clamp the rock-soil slope sampling tube, the forward and reverse rotation motor 7 is started, the output end of the forward and reverse rotation motor 7 rotates to drive the screw rod 10 to rotate, the screw rod 10 rotates to drive the screw rod sleeve 9 to ascend, the screw rod sleeve 9 ascends to drive the U-shaped lifting plate 4 to ascend, the U-shaped lifting plate 4 ascends to drive the two arc-shaped clamping blocks 13 to ascend, and the two arc-shaped clamping blocks 13 ascend to drive the rock-soil slope sampling tube to ascend.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a domatic sampling tube elevation structure of ground which characterized in that includes:

a U-shaped bottom plate (1);

the mounting mechanism is arranged on the top of the U-shaped bottom plate (1);

the lifting mechanism is arranged on the U-shaped bottom plate (1) and the mounting mechanism;

the clamping mechanism is arranged on the lifting mechanism and is used for clamping the sampling tube;

and the adjusting mechanism is arranged on the lifting mechanism and connected with the clamping mechanism and used for driving the clamping mechanism.

2. The rock-soil slope surface sampling tube lifting structure of claim 1, which is characterized in that: installation mechanism includes bracing piece (3), U type roof (5) and U type mounting panel (8), bracing piece (3) are provided with four, four the equal fixed connection of bracing piece (3) is in the upper end of U type bottom plate (1), and four bracing piece (3) evenly distributed, U type roof (5) fixed connection is in the upper end of four bracing pieces (3), U type mounting panel (8) fixed connection is in the upper end of U type roof (5).

3. The rock-soil slope surface sampling tube lifting structure of claim 2, wherein: the lifting mechanism comprises a lifting component and a driving component, the lifting component is arranged on the U-shaped bottom plate (1) and the U-shaped top plate (5), the driving component is arranged on the U-shaped bottom plate (1), the U-shaped top plate (5) and the forward and reverse rotating motor (7), and the driving component is connected with the lifting component.

4. The rock-soil slope surface sampling tube lifting structure of claim 3, wherein: the lifting component comprises two sliding rods (2) and two U-shaped lifting plates (4), the two sliding rods (2) are fixedly connected between the U-shaped bottom plate (1) and the U-shaped top plate (5), and the two sliding rods (2) are sleeved with the U-shaped lifting plates (4) in a sliding mode.

5. A rock-soil slope surface sampling tube lifting structure as claimed in claim 4, wherein: the utility model discloses a lead screw, including drive assembly, lead screw cover (9) and lead screw (10), lead screw (10) are rotated and are connected between U type bottom plate (1) and U type roof (5), and the one end of lead screw (10) is rotated and is run through U type roof (5) and extend to the upside of U type roof (5), lead screw cover (9) threaded connection is on lead screw (10), and lead screw cover (9) and U type lifter plate (4) fixed connection, just, motor (7) fixed connection is just changeed in the upper end of U type mounting panel (8), and just the output of just changeing motor (7) is rotated and is run through U type mounting panel (8) and with lead screw (10) fixed connection.

6. The rock-soil slope surface sampling tube lifting structure of claim 5, wherein: fixture includes T type spout (11), T type slider (12) and arc clamp splice (13), T type spout (11) are provided with two, two T type spout (11) are all seted up in the upper end of U type lifter plate (4), and two U type lifter plate (4) symmetries set up, T type slider (12) are provided with two, every equal sliding connection in every T type spout (11), two of T type slider (12) symmetry sets up, arc clamp splice (13) are provided with two, every equal fixed connection in the side of every T type slider (12), two of arc clamp splice (13) symmetry sets up.

7. The rock-soil slope surface sampling tube lifting structure of claim 6, wherein: adjustment mechanism includes dead lever (14), electric telescopic handle (15), rack (16) and gear (17), dead lever (14) are provided with two, every the upper end of every T type slider (12) of the equal fixed connection of dead lever (14), two dead lever (14) symmetry sets up, rack (16) are provided with two, every the equal fixed connection in the side of every dead lever (14) of rack (16), two rack (16) all are located between two dead levers (14), gear (17) rotate through the pivot and connect in the upper end of U type lifter plate (4), and gear (17) all with two rack (16) intermeshing, the one end fixed connection of electric telescopic handle (15) is in the upper end of U type lifter plate (4), and the extension end and one of them dead lever (14) fixed connection of electric telescopic handle (15).

8. The rock-soil slope surface sampling tube lifting structure of claim 7, wherein: the upper end of the U-shaped top plate (5) is fixedly connected with four lifting rings (6), and the four lifting rings (6) are uniformly distributed.

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