CN211207758U - Multifunctional physical simulation experiment device for extrusion and lifting of structure - Google Patents

Abstract

The utility model discloses a multifunctional structure extrusion and lifting physical simulation experiment device, the bearing box (3) is arranged between the upper ends of two supporting plates (16), the waterproof oilcloth (4) is sleeved in the bearing box (3), one side in the bearing box (3) is provided with the vertical plate (21), the waterproof oilcloth (4) is arranged around the bearing box (3), the bottom of the waterproof oilcloth is positioned above the bottom plate of the bearing box (3), and the two ends of the waterproof oilcloth (4) are respectively detachably connected with one side of the upper ends of the vertical plate (21) and the bearing box (3); it has overcome among the prior art when carrying out fold and fault formation experiment, can only separately go on, can't accomplish in same experiment, and can't carry out the fault experiment in different positions, not only expends the shortcoming of time and manpower, has through oil transportation equipment, and the problem of inconvenient fold experiment of carrying on has been solved in cooperation between pneumatic cylinder and the push pedal, has reached the advantage of carrying on fault and fold experiment in the same experiment.

Description

Multifunctional physical simulation experiment device for extrusion and lifting of structure

Technical Field

The utility model relates to geological simulation experiment technical field, more specifically is a multi-functional structure extrusion, lifting physical simulation experimental apparatus.

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, and comprises the stratigraphic differences, physical properties, chemical properties, rock properties, mineral compositions, the output states and contact relations of rock stratums and rock masses, the structural development history, the biological evolution history and the climate change history of the earth, the occurrence conditions and the distribution rules of mineral resources and the like.

At present, when carrying out geology fold and fault analysis, need carry out the simulation experiment, but, when carrying out fold and fault formation experiment, can only separately go on, can't accomplish in same experiment, and can't carry out the fault experiment in different positions, not only expend time and manpower, but also extravagant equipment, increase cost, occupation space, the water resource of still wasting simultaneously, for this reason, above-mentioned problem is solved to my device.

Disclosure of Invention

An object of the utility model is to overcome the weak point of above-mentioned background, and provide a multi-functional structure extrusion, lifting physical simulation experimental apparatus.

The utility model aims at being implemented through the following technical scheme: a multifunctional physical simulation experiment device for structure extrusion and lifting comprises a fixed plate, a water delivery pipe, a bearing box, waterproof oilcloth, a movable column, a square rod, a mounting plate, a water pump, a servo motor, a water tank, a motor mounting seat, a connecting plate, a sealing cover, oil delivery equipment, a filter box, a supporting plate, an oil delivery pipe, a filter plate, a hydraulic cylinder, a push plate, a vertical plate, a first screw, a screw rod, a coupler, a connector, a connecting cover, a drain pipe, a fixed sleeve, a transverse plate, a return pipe, a first valve, a guide rod, a vertical rod, a clamp, a spray head and a second valve;

the bearing box is arranged between the upper ends of the two supporting plates, the waterproof oilcloth is sleeved in the bearing box, the vertical plate is arranged on one side in the bearing box, the waterproof oilcloth is arranged along the periphery of the bearing box, the bottom of the waterproof oilcloth is positioned above the bottom plate of the bearing box, the two ends of the waterproof oilcloth are detachably connected with the vertical plate and one side of the upper end of the bearing box respectively,

the detachable connecting plate is arranged between the two supporting plates, five square rods are arranged on the ground connecting plate at equal intervals, the upper ends of the square rods penetrate through the side wall of the bearing box and extend into the bearing box, movable columns are fixed at the upper ends of the square rods, the upper ends of the five movable columns are located at the lower end of the waterproof oilcloth, and the lower ends of the five movable columns are located above the bottom plate of the bearing box;

the detachable drain pipe is arranged on one side of the waterproof oilcloth, a filter box is fixed on one side of the lower end of the bearing box, one end of the drain pipe penetrates through the bearing box and extends into the waterproof oilcloth, and the other end of the drain pipe is connected with the filter box arranged below;

the filter box is internally provided with a plurality of filter plates at equal intervals, one side of the filter box is connected with a return pipe, and the other end of the return pipe is connected with the water tank.

In the above technical scheme: the connecting plate lower extreme be provided with five motor mount pads, every motor mount pad on be fixed with servo motor, servo motor's output shaft end pass through the shaft coupling and the top set up the screw rod be connected, five screw rod one end run through the connecting plate, the other end with square pole pass through threaded connection.

In the above technical scheme: one side of the bearing box is provided with a hydraulic cylinder, a piston rod of the hydraulic cylinder penetrates through the side wall of the vertical plate, the front end of the hydraulic cylinder is provided with a push plate, one side of the push plate is connected with one side of the waterproof oilcloth,

one side of push pedal be fixed with two the guide bar, the one end of guide bar run through the lateral wall of riser and bearing box and extend to the opposite side of bearing box, lower extreme one side of bearing box be provided with oil transportation equipment, oil transportation equipment on be connected with defeated oil pipe, defeated oil pipe other end with the pneumatic cylinder connect.

In the above technical scheme: the fixed plate is arranged on one side of the bearing box, the upper end of the fixed plate is rotatably connected with the vertical rod, the fixed sleeve is fixed on the vertical rod, the transverse plate is fixed on one side of the ground fixed sleeve, the spray head is installed at the lower end of the transverse plate, the spray head and the waterproof oilcloth are oppositely arranged, the water tank is arranged at the lower end of the bearing box, one end of the return pipe is connected to one side of the water tank, and the other end of the return pipe is connected with the filter box;

one side of the water tank is connected with the water delivery pipe, one end of the water delivery pipe is connected to the spray head, the upper end of the water tank is provided with the sealing cover, the water delivery pipe is provided with a water pump, and the spray head is provided with the second valve.

In the above technical scheme: the mounting plate is arranged between the connecting plates, and the mounting plate and the connecting plates are fixed through screws.

In the above technical scheme: one side of the waterproof oilcloth is fixed with the vertical plate through the first screw.

In the above technical scheme: one side of waterproof oilcloth is connected with the connector, the other end of drain pipe is connected with the connection lid, one side of connecting the lid is equipped with the recess, be equipped with the external screw thread on the a week lateral wall of connector, be equipped with the internal thread that corresponds with the external screw thread on a week lateral wall in the recess, the one end of connector extend to in the recess, and external screw thread and internal thread spiral shell mutually close.

In the above technical scheme: and a first valve is arranged on the drain pipe.

In the above technical scheme: the water delivery pipe is respectively fixed on the vertical rod and the transverse plate through the two clamps.

In the above technical scheme: the oil delivery pipe is made of a flexible hose.

The utility model discloses an have following advantage: 1. through the cooperation between servo motor, screw rod, square pole and the activity post, solved inconvenient regulation fault position, realized can carrying out the function of fault experiment in different positions according to user's demand. 2. Through the oil transportation equipment, the problem of inconvenient fold experiment has been solved in the cooperation between pneumatic cylinder and the push pedal, has reached the effect of carrying out fault and fold experiment in same experiment.

To sum up, the device has solved the inconvenient problem of carrying out fault and fold experiment, has still solved the problem that can't adjust the fault position simultaneously, has avoided the condition emergence that consumes time and manpower when carrying out the simulation experiment, has practiced thrift the cost, has saved the space, has still avoided the waste of water resource simultaneously.

Drawings

Fig. 1 is a schematic view of an internal structure of a multifunctional structural extrusion and lifting physical simulation experiment device provided by the present invention;

fig. 2 is a schematic view of an external structure of a multifunctional structural extrusion and lifting physical simulation experiment device provided by the present invention;

FIG. 3 is a schematic structural view of a square rod of the multifunctional structural extrusion and lifting physical simulation experiment device provided by the present invention;

fig. 4 is a top view of a tarpaulin of a multifunctional physical simulation experiment device for squeezing and lifting;

fig. 5 is an enlarged view of a position a of the multifunctional structural extrusion and lifting physical simulation experiment device provided by the present invention;

fig. 6 is a magnified view of the position B of the multifunctional physical simulation experiment device for extrusion and lifting.

In the figure: fixed plate 1, raceway 2, bearing box 3, waterproof oilcloth 4, movable column 5, square pole 6, mounting panel 7, water pump 8, servo motor 9, water tank 10, motor mount pad 11, connecting plate 12, closing cap 13, oil transportation equipment 14, filter box 15, backup pad 16, defeated oil pipe 17, filter 18, pneumatic cylinder 19, push pedal 20, riser 21, first screw 22, screw 23, shaft coupling 24, connector 25, connecting cap 26, drain pipe 27, fixed cover 28, diaphragm 29, back flow pipe 30, first valve 31, guide bar 32, montant 33, clamp 34, shower nozzle 35 and second valve 36

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.

Referring to FIGS. 1-6: a multifunctional physical simulation experiment device for structure extrusion and lifting comprises a fixing plate 1, a water delivery pipe 2, a bearing box 3, waterproof oilcloth 4, a movable column 5, a square rod 6, a mounting plate 7, a water pump 8, a servo motor 9, a water tank 10, a motor mounting seat 11, a connecting plate 12, a sealing cover 13, oil transportation equipment 14, a filter box 15, a supporting plate 16, an oil delivery pipe 17, a filter plate 18, a hydraulic cylinder 19, a push plate 20, a vertical plate 21, a first screw 22, a screw 23, a coupler 24, a connector 25, a connecting cover 26, a drain pipe 27, a fixing sleeve 28, a transverse plate 29, a return pipe 30, a first valve 31, a guide rod 32, a vertical rod 33, a clamp 34, a spray head 35 and a second valve 36;

the bearing box 3 is arranged between the upper ends of the two supporting plates 16, the waterproof oilcloth 4 is sleeved in the bearing box 3, the vertical plate 21 is arranged on one side in the bearing box 3, the waterproof oilcloth 4 is arranged around the bearing box 3, the bottom of the waterproof oilcloth 4 is positioned above the bottom plate of the bearing box 3, the two ends of the waterproof oilcloth 4 are respectively detachably connected with the vertical plate 21 and one side of the upper end of the bearing box 3,

the detachable connecting plate 12 is arranged between the two supporting plates 16, five square rods 6 are arranged on the ground connecting plate 12 at equal intervals, the upper ends of the square rods 6 penetrate through the side wall of the bearing box 3 and extend into the bearing box 3, movable columns 5 are fixed at the upper ends of the square rods 6, the upper ends of the five movable columns 5 are located at the lower end of the waterproof oilcloth 4, and the lower ends of the five movable columns 5 are located above the bottom plate of the bearing box 3;

the detachable drain pipe 27 is arranged on one side of the waterproof oilcloth 4, the filter box 15 is fixed on one side of the lower end of the bearing box 3, one end of the drain pipe 27 penetrates through the bearing box 3 and extends into the waterproof oilcloth 4, and the other end of the drain pipe is connected with the filter box 15 arranged below;

a plurality of filter plates 18 are arranged in the filter box 15 at equal intervals, one side of the filter box 15 is connected with a return pipe 30, and the other end of the return pipe 30 is connected with the water tank 10.

The lower end of the connecting plate 12 is provided with five motor mounting seats 11, each motor mounting seat 11 is fixedly provided with a servo motor 9, the tail end of an output shaft of each servo motor 9 is connected with a screw 23 arranged above through a coupler 24, one end of each screw 23 penetrates through the connecting plate 12, and the other end of each screw is in threaded connection with the square rod 6.

A hydraulic cylinder 19 is arranged on one side of the bearing box 3, a piston rod of the hydraulic cylinder 19 penetrates through the side wall of the vertical plate 21, a push plate 20 is arranged at the front end of the hydraulic cylinder 19, one side of the push plate 20 is connected with one side of the waterproof oilcloth 4,

one side of push pedal 20 be fixed with two guide bar 32, the one end of guide bar 32 run through the lateral wall of riser 21 and bearing box 3 and extend to the opposite side of bearing box 3, lower extreme one side of bearing box 3 be provided with oil transportation equipment 14, oil transportation equipment 14 on be connected with defeated oil pipe 17, defeated oil pipe 17 the other end with pneumatic cylinder 19 connect.

The water tank 10 is arranged at the lower end of the bearing box 3, one end of the return pipe 30 is connected to one side of the water tank 10, and the other end of the return pipe is connected with the filter box 15;

one side of the water tank 10 is connected with the water delivery pipe 2, one end of the water delivery pipe 2 is connected to the spray head 35, the upper end of the water tank 10 is provided with the seal cover 13, the water delivery pipe 2 is provided with the water pump 8, and the spray head 35 is provided with the second valve 36.

The mounting plate 7 is arranged between the connecting plates 12, and the mounting plate 7 is fixed with the connecting plates 12 through screws.

One side of the waterproof tarpaulin 4 is fixed with the vertical plate 21 through the first screw 22.

Referring to FIG. 4: one side of water proof oilcloth 4 is connected with connector 25, the other end of drain pipe 27 is connected with connection lid 26, one side of connecting lid 26 is equipped with the recess, be equipped with the external screw thread on a week lateral wall of connector 25, be equipped with the internal thread that corresponds with the external screw thread on a week lateral wall in the recess, the one end of connector 25 extend to in the recess, and external screw thread and internal thread spiral shell mutually close. The drain pipe 27 is provided with a first valve 31. The water pipe 2 is fixed on the vertical rod 33 and the transverse plate 29 through two clamps 34. The oil delivery pipe 17 is made of a flexible hose.

The utility model discloses still include following specific embodiment: a multifunctional physical simulation experiment device for structure extrusion and lifting comprises two supporting plates 16 for supporting, wherein a bearing box 3 is jointly fixed at the upper ends of the two supporting plates 16, a waterproof oilcloth 4 is sleeved on the bearing box 3 and is convenient for containing fine sand, a vertical plate 21 is fixed at the bottom in the bearing box 3, the lower end of the waterproof oilcloth 4 extends into the bearing box 3, two ends of the waterproof oilcloth 4 are respectively detachably connected to one side of the upper ends of the vertical plate 21 and the bearing box 3, a connecting plate 12 is jointly detachably connected between the two supporting plates 16 for fixing, five lifting devices are arranged on the connecting plate 12 at equal intervals, a square rod 6 is arranged on each lifting device, the upper end of each square rod 6 penetrates through the side wall of the bearing box 3 and extends into the bearing box 3, a movable column 5 is fixed at the upper end of each square rod 6 and drives each movable column 5 to move, the upper ends of the five movable columns 5 are abutted against the lower end of the waterproof oilcloth 4, under the action of the lifting device, the height of the square rod 6 can be conveniently adjusted, so that the waterproof oilcloth 4 is driven to adjust the height, and the fault experiment can be conveniently carried out;

one side of bearing box 3 is equipped with pusher, pusher's one side is contradicted in one side of tarpaulin 4, the opposite side of bearing box 3 is equipped with water delivery device, one side of tarpaulin 4 can be dismantled and be connected with drain pipe 27, be convenient for carry water, lower extreme one side of bearing box 3 is fixed with filter box 15, the one end of drain pipe 27 runs through the lateral wall of bearing box 3 and connects in one side of filter box 15, equidistant a plurality of filters 18 that are equipped with in the filter box 15, be convenient for filter water, one side of filter box 15 is connected with back flow 30, the one end of back flow 30 is connected on water delivery device, be equipped with first valve 31 on the drain pipe 27, under the effect of back flow 30, conveniently retrieve the water after filtering, the water resource has been practiced thrift.

The utility model discloses in, elevating gear includes that equidistant five motor mount pads 11 of fixing at connecting plate 12 lower extreme, be fixed with servo motor 9 on the motor mount pad 11, servo motor 9's output shaft end is connected with screw rod 23 through shaft coupling 24, servo motor 9's output shaft rotates and drives screw rod 23 and rotate, five screw rod 23 go up all to run through connecting plate 12's lateral wall and extend to connecting plate 12's upper end, five square pole 6's lower extreme all is equipped with first screw thread blind hole, five screw rod 23's upper end extends to respectively in five first screw thread blind holes, screw rod 23 rotates and drives square pole 6 and remove, thereby for adjusting square pole 6 highly providing power.

The utility model discloses in, pusher is including running through the pneumatic cylinder 19 that sets up in bearing box 3 one side, pneumatic cylinder 19's piston rod runs through riser 21's lateral wall and extends to one side of riser 21, pneumatic cylinder 19's piston rod end is fixed with push pedal 20, pneumatic cylinder 19's piston rod removes and drives push pedal 20 and remove, one side of push pedal 20 is contradicted in one side of waterproof oilcloth 4, push pedal 20's opposite side is fixed with two guide bars 32, the one end of guide bar 32 runs through riser 21 and bearing box 3's lateral wall and extends to one side of bearing box 3, prevent that push pedal 20 from taking place the dislocation when removing, lower extreme one side of bearing box 3 is equipped with oil transportation equipment 14, be connected with defeated oil pipe 17 on the oil transportation equipment 14, defeated oil pipe 17 is flexible hose, defeated oil pipe 17's one end is connected on pneumatic cylinder 19, provide power for the removal of pneumatic cylinder 19 piston rod, under.

In the utility model, the water delivery device comprises a fixed plate 1 fixed on the other side of a bearing box 3, the upper end of the fixed plate 1 is rotatably connected with a vertical rod 33, a fixed sleeve 28 is fixed on the vertical rod 33, the vertical rod 33 rotates to drive the fixed sleeve 28 to rotate, one side of the fixed sleeve 28 is fixed with a transverse plate 29, the lower end of the transverse plate 29 is provided with a spray head 35, the transverse plate 29 rotates to drive the spray head 35 to rotate, the spray head 35 corresponds to a waterproof oil cloth 4, the other side of the lower end of the bearing box 3 is provided with a water tank 10, one end of a return pipe 30 is connected with one side of the water tank 10, one side of the water tank 10 is connected with a water delivery pipe 2, the water delivery pipe 2 is fixed on the vertical rod 33 and the transverse plate 29 through two clamps 34, one end of the water delivery pipe 2 is connected with the spray head 35, the upper end, and then moisten the fine sand, the experiment of being convenient for goes on.

The utility model discloses in, the both ends of connecting plate 12 all are fixed with mounting panel 7, are equipped with two first through-holes on mounting panel 7, and two relative one sides of backup pad 16 all are equipped with two second screw thread blind holes that correspond with first through-hole, run through in the first through-hole and are equipped with the second screw, and in the one end of second screw extended to second screw thread blind hole, the convenience was fixed connecting plate 12 between two backup pads 16, played the effect of support.

The utility model discloses in, be equipped with four second through-holes on the tarpaulin 4, upper end one side of bearing box 3 and the upper end of riser 21 all are equipped with two third screw thread blind holes that correspond with the second through-hole, run through in the second through-hole and are equipped with first screw 22, and in first screw 22's lower extreme extended to third screw thread blind hole, easy to assemble and dismantlement improved the efficiency of installation and dismantlement.

The utility model discloses in, one side of tarpaulin 4 is connected with connector 25, and the other end of drain pipe 27 is connected with connection lid 26, and one side of connecting lid 26 is equipped with the recess, is equipped with the external screw thread on a week lateral wall of connector 25, is equipped with the internal thread that corresponds with the external screw thread on a week lateral wall in the recess, and in the one end of connector 25 extended to the recess, and external screw thread and internal thread spiral shell each other, the convenience was connected drain pipe 27 on connector 25, still convenient to detach simultaneously.

In the utility model, when lifting simulation experiment is carried out, the waterproof oilcloth 4 is fixed on the vertical plate 21 and the bearing box 3 through the first screw 22, then fine sand is loaded, water in the water tank 10 is pumped to the nozzle 35 by the water pump 8, the second valve 36 is opened, water flows into the bearing box 3 through the nozzle 35, the fine sand is moistened, the water flows into the filter box 15 through the drain pipe 27, the water is filtered through the filter plate 18, then the water flows into the water tank 10 through the return pipe 30, the servo motor 9 corresponding to the position to be lifted is started, the output shaft of the servo motor 9 drives the screw 23 to rotate through the coupler 24, the screw 23 rotates to drive the square rod 6 to move, the square rod 6 moves to drive the movable column 5 to move, the waterproof oilcloth 4 moves when the movable column 5 moves, and then the corresponding fine sand is lifted, then observation is carried out, when extrusion experiment is carried out, the oil transportation equipment 14 conveys oil into the hydraulic cylinder 19 through the oil transportation pipe 17, then the piston rod of the hydraulic cylinder 19 moves to drive the push plate 20 to move, the push plate 20 drives the guide rod 32 to move when moving, the push plate 20 drives the waterproof oilcloth 4 to move when moving, and the fine sand is extruded when the waterproof oilcloth 4 moves, and then observation is carried out.

The above-mentioned parts not described in detail are prior art.

Claims (10)

1. The utility model provides a multi-functional structure extrusion, lifting physical simulation experimental apparatus which characterized in that: the device comprises a fixing plate (1), a water conveying pipe (2), a bearing box (3), waterproof tarpaulin (4), a movable column (5), a square rod (6), a mounting plate (7), a water pump (8), a servo motor (9), a water tank (10), a motor mounting seat (11), a connecting plate (12), a sealing cover (13), oil conveying equipment (14), a filter box (15), a supporting plate (16), an oil conveying pipe (17), a filter plate (18), a hydraulic cylinder (19), a push plate (20), a vertical plate (21), a first screw (22), a screw rod (23), a coupler (24), a connector (25), a connecting cover (26), a drain pipe (27), a fixing sleeve (28), a transverse plate (29), a return pipe (30), a first valve (31), a guide rod (32), a vertical rod (33), a clamp (34), a spray head (35) and a second valve (36);

the bearing box (3) is arranged between the upper ends of the two supporting plates (16), the waterproof oilcloth (4) is sleeved in the bearing box (3), the vertical plate (21) is arranged on one side in the bearing box (3), the waterproof oilcloth (4) is arranged around the bearing box (3), the bottom of the waterproof oilcloth is positioned above the bottom plate of the bearing box (3), the two ends of the waterproof oilcloth (4) are respectively detachably connected with one sides of the upper ends of the vertical plate (21) and the bearing box (3), the detachable connecting plate (12) is arranged between the two supporting plates (16), the five square rods (6) are arranged on the connecting plate (12) at equal intervals, the upper ends of the square rods (6) penetrate through the side wall of the bearing box (3) and extend into the bearing box (3), the upper end of the square rod (6) is fixed with a movable column (5), the upper ends of five movable columns (5) are all positioned at the lower end of the waterproof tarpaulin (4), and the lower ends of five movable columns (5) are positioned above the bottom plate of the bearing box (3);

one side of the waterproof oilcloth (4) is provided with a detachable drain pipe (27), one side of the lower end of the bearing box (3) is fixed with a filter box (15), one end of the drain pipe (27) penetrates through the bearing box (3) and extends into the waterproof oilcloth (4), and the other end of the drain pipe is connected with the filter box (15) arranged below;

a plurality of filter plates (18) are arranged in the filter box (15) at equal intervals, one side of the filter box (15) is connected with a return pipe (30), and the other end of the return pipe (30) is connected with the water tank (10).

2. The multifunctional structural extrusion and lifting physical simulation experiment device of claim 1, wherein: the connecting plate (12) lower extreme be provided with five motor mount pads (11), every motor mount pad (11) on be fixed with servo motor (9), servo motor (9) the output shaft end pass through shaft coupling (24) and the top set up screw rod (23) be connected, five screw rod (23) one end run through connecting plate (12), the other end with square pole (6) pass through threaded connection.

3. The multifunctional structural extrusion and lifting physical simulation experiment device as claimed in claim 1 or 2, wherein: one side of the bearing box (3) is provided with a hydraulic cylinder (19), a piston rod of the hydraulic cylinder (19) penetrates through the side wall of the vertical plate (21), the front end of the hydraulic cylinder (19) is provided with a push plate (20), one side of the push plate (20) is connected with one side of the waterproof oilcloth (4),

one side of push pedal (20) be fixed with two guide bar (32), the one end of guide bar (32) run through the lateral wall of riser (21) and bearing box (3) and extend to the opposite side of bearing box (3), lower extreme one side of bearing box (3) be provided with oil transportation equipment (14), oil transportation equipment (14) on be connected with defeated oil pipe (17), defeated oil pipe (17) the other end with pneumatic cylinder (19) connect.

4. The multifunctional structural extrusion and lifting physical simulation experiment device of claim 3, wherein: the water tank is characterized in that the fixing plate (1) is arranged on one side of the bearing box (3), the upper end of the fixing plate (1) is rotatably connected with the vertical rod (33), the vertical rod (33) is fixedly provided with the fixing sleeve (28), one side of the fixing sleeve (28) is fixedly provided with the transverse plate (29), the lower end of the transverse plate (29) is provided with the spray head (35), the spray head (35) and the waterproof oilcloth (4) are oppositely arranged, the water tank (10) is arranged on the lower end of the bearing box (3), one end of the return pipe (30) is connected to one side of the water tank (10), and the other end of the return pipe is connected with the filter box (15);

one side of the water tank (10) is connected with the water conveying pipe (2), one end of the water conveying pipe (2) is connected to the spray head (35), the upper end of the water tank (10) is provided with the sealing cover (13), the water conveying pipe (2) is provided with the water pump (8), and the spray head (35) is provided with the second valve (36).

5. The multifunctional structural extrusion and lifting physical simulation experiment device of claim 4, wherein: the mounting plate (7) is arranged between the connecting plates (12), and the mounting plate (7) is fixed with the connecting plates (12) through screws.

6. The multifunctional structural extrusion and lifting physical simulation experiment device of claim 5, wherein: one side of the waterproof tarpaulin (4) is fixed with the vertical plate (21) through the first screw (22).

7. The multifunctional structural extrusion and lifting physical simulation experiment device as claimed in claim 4 or 5, wherein: one side of waterproof oilcloth (4) is connected with connector (25), the other end of drain pipe (27) is connected with connection lid (26), one side of connecting lid (26) is equipped with the recess, be equipped with the external screw thread on a week lateral wall of connector (25), be equipped with the internal thread that corresponds with the external screw thread on a week lateral wall in the recess, the one end of connector (25) extend to in the recess, and external screw thread and internal thread spiral shell mutually.

8. The multifunctional structural extrusion and lifting physical simulation experiment device of claim 7, wherein: the drain pipe (27) is provided with a first valve (31).

9. The multifunctional structural extrusion and lifting physical simulation experiment device of claim 8, wherein: the water delivery pipe (2) is respectively fixed on the vertical rod (33) and the transverse plate (29) through two clamps (34).

10. The multifunctional structural extrusion and lifting physical simulation experiment device of claim 3, wherein: the oil delivery pipe (17) is made of a flexible hose.

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