CN214780559U - Simple indoor half-pile test model box moving device - Google Patents

Abstract

The utility model provides a simple and easy experimental model case mobile device of half face stake relates to the indoor analogue test field of building, and the device sets up on fork truck, includes: the device comprises pulleys, a circular transverse insertion rod, a connecting transverse rod, a connecting steering head and a baffle; the pulley is arranged on the upper surface of a fork of the forklift, and the circular cross insertion rod penetrates through the fork and the two connecting steering heads and can rotate in the fork; the connecting steering head is arranged between the two forks; a connecting rod is respectively inserted on each connecting steering head horizontally and vertically; the connecting rods in the horizontal direction are connected through the connecting cross rods; the connecting rod in the vertical direction is provided with a baffle plate parallel to the horizontal direction. The utility model can realize that the half-pile test model box can be moved and turned over by one person; and the model box is lifted to the designated height.

Description

Simple indoor half-pile test model box moving device

Technical Field

The utility model relates to a building indoor simulation test field, concretely relates to simple and easy indoor half face stake test mold box mobile device.

Background

Soil is a typical nonlinear material, and the stress-strain relationship and hydraulic characteristics of the soil are greatly influenced by stress levels. The existing model box is used for taking out a soil sample from a building site, because the model box is filled with soil, the model box is very heavy and can be lifted by 4-5 people usually, and the model box needs to be very labor-consuming in the moving or overturning process, so that the operation of a test is not facilitated.

The forklift is an industrial carrying and moving device, and is various wheel type carrying vehicles for loading, unloading, stacking and short-distance transportation operation of finished pallet goods.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that exists among the prior art, the utility model provides a simple and easy indoor half face stake test mold box mobile device has solved the problem that the mold box removed the upset difficulty among the prior art.

The utility model provides a technical scheme that technical problem adopted as follows:

a simple and easy indoor half-pile test mold box mobile device, the device includes: the fork moves up and down along the bracket under the driving of the driving mechanism; further comprising: the device comprises pulleys, a circular transverse insertion rod, a connecting transverse rod, a connecting steering head and a baffle; the pulley is arranged on the upper surface of the fork, and the circular cross insertion rod penetrates through the fork and the two connecting steering heads and can rotate in the fork; the connecting steering head is arranged between the two forks; a connecting rod is respectively inserted on each connecting steering head horizontally and vertically; the connecting rods in the horizontal direction are connected through the connecting cross rods; the connecting rod in the vertical direction is provided with a baffle plate parallel to the horizontal direction.

Preferably, jacks are uniformly distributed on the fork, and the position of the circular transverse insertion rod is adjustable.

Preferably, the circular transverse inserted rod is a threaded rod.

Preferably, the horizontal connecting rod is located in a plane formed by the two forks.

Preferably, the connecting rod and the connecting steering head are in threaded connection.

Preferably, the connecting steering head is provided with two groups of oppositely arranged surfaces which are provided with protruding thread grooves.

Preferably, the connecting cross rod is positioned between the circular cross inserted rod and the jack.

Preferably, the area of the baffle is larger than the area of the parallel surface of the model box and the baffle.

Preferably, the drive mechanism includes: jacks, chains and pulleys; the pulleys are arranged at two output ends of the jack, the two chains are meshed with the pulleys, one end of each chain is fixed on the fork, and the other end of each chain is fixed on the support.

Preferably, the stent comprises: the device comprises a cross beam, a vertical beam and a base; the vertical beam is fixed on the base, the cross beam is fixed on the vertical beam, the jack is arranged on the base, and one end of the chain is fixed on the cross beam.

The utility model has the advantages that: the utility model can realize that the half-pile test model box can be moved and turned over by one person; and the model box is lifted to the designated height.

Drawings

Fig. 1 the utility model relates to a simple and easy indoor half face stake test mold box mobile device top view.

Fig. 2 the utility model relates to a simple and easy indoor half experimental model case mobile device side view of a pile.

Fig. 3 the utility model relates to a simple and easy indoor half-pile test model case mobile device connects and turns to first sketch map.

Fig. 4 the utility model relates to a simple and easy indoor half face stake test mold box mobile device circular horizontal inserted bar structure sketch map.

In the figure: 1. the device comprises a pulley, 2, a circular transverse insertion rod, 3, a connecting cross rod, 4, a horizontal connecting rod, 5, a connecting steering head, 6, a baffle, 7, a vertical connecting rod, 8, a roller, 9, a base, 10, a jack, 11, a chain, 12, a fork, 13 and a jack.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in fig. 1, a simple indoor half-pile test model box moving device comprises: the fork 12 moves up and down along the bracket under the driving of the driving mechanism; further comprising: the device comprises a pulley 1, a round transverse insertion rod 2, a connecting cross rod 3, a horizontal connecting rod 4, a connecting steering head 5, a baffle 6 and a vertical connecting rod 7; the pulley 1 is arranged on the upper surface of the fork 12 of the forklift, and when the box body is placed on the upper surface of the fork 12, the box body is pushed to roll into the tail part of the fork 12. The circular horizontal insertion rod 2 penetrates through the insertion holes 13 in the fork 12, in this embodiment, as shown in fig. 2, a plurality of groups of corresponding insertion holes 13 are formed in the fork 13, and the insertion position of the circular horizontal insertion rod 2 is determined according to the size of the box body. The round cross inserting rod 2 is connected through two connecting steering heads 5, and the round cross inserting rod 5 can rotate in the fork 12; in this embodiment, the circular horizontal insertion rod 2 is a threaded rod, and is in threaded fit with the insertion hole 13 in the fork 12. The connecting and steering head 5 is arranged between two forks 12, and the distance between each connecting and steering head 5 and the adjacent fork 12 is equal; as shown in fig. 3, the connection steering head 5 is provided with two groups of oppositely arranged surfaces which are provided with protruding thread grooves. Each connecting steering head 5 is inserted with a horizontal connecting rod 4 and a vertical connecting rod 7; the horizontal connecting rod 4 and the vertical connecting rod 7 are in threaded connection with the connecting steering head 5. The horizontal connecting rods 4 are connected through the connecting cross rods 3; the connecting cross rod 3 is positioned between the circular cross inserted rod 2 and the jack 10. The vertical connecting rod 7 is provided with a baffle 6 parallel to the horizontal direction. In this embodiment, the material of the baffle 6 is stainless steel. Wherein the horizontal connecting rod 4 lies in the plane formed by the two forks 12.

The drive mechanism includes: a jack 10, a chain 11 and a pulley; the pulleys are arranged at two ends of the output end of the jack 10, two chains 11 are meshed with the pulleys, one end of each chain is fixed on the fork 12, and the other end of each chain is fixed on the support. The bracket includes: cross beam, vertical beam and base 9; the vertical beam is fixed on the base 9, the cross beam is fixed on the vertical beam, the jack 10 is arranged on the base 9, and one end of the chain is fixed on the cross beam. By operating the jack 10, the output end of the jack 10 is raised, and the chain 11 is engaged with the pulley to drive the fork 12 to be raised. The bottom of the base 9 is provided with a roller 8.

The use method of the simple indoor half-pile test model box moving device comprises the following steps:

(1) firstly, moving a soil sample model box to the front end of a fork 12, then pushing the box body, and moving the box body to the tail end of the fork 12 through the sliding friction force of a pulley 1 on the box body;

(2) the round horizontal inserted bar 2 is used for limiting the position of the model box, and the model box rotates along the round horizontal inserted bar 2; during assembly, as shown in fig. 4, the circular cross inserted rod 2 is inserted into the insertion hole 13 in one fork 12, then the fixing nut, the connecting steering head 5, the fixing nut, the connecting steering head 5 and the fixing nut are sequentially sleeved on the circular cross inserted rod 2, finally the circular cross inserted rod 2 penetrates out of the insertion hole 13 in the fork 12 on the other side, and the fixing nuts are fixed at two ends of the circular cross inserted rod; nuts at two ends are locked, so that the circular transverse inserted rod 2 does not axially displace;

(3) the two connecting steering heads 5 are placed at proper positions, and nuts are respectively screwed at two sides of the two connecting steering heads 5 to the proper positions without influencing the rotation of the connecting steering heads 5, so that the two connecting steering heads 5 and the circular transverse inserted rod 2 do not have axial relative displacement;

(4) screwing one threaded end of each of the two horizontal connecting rods 4 into a threaded groove protruding from the connecting steering head 5, fixing two ends of each of the connecting cross rods 3 with the other end of each of the horizontal connecting rods 4, and installing fixing nuts according to the threaded grooves, wherein the fixing nuts are screwed at one end of each of the connecting cross rods 3 in sequence, the connecting cross rods 3 are inserted into circular holes of one horizontal connecting rod 4, the fixing nuts are screwed, the connecting cross rods 3 are inserted into circular holes of the other horizontal connecting rod 4, and finally one fixing nut is screwed;

(5) one ends of the two vertical connecting rods 7 are screwed into the convex thread grooves on the connecting steering head 5 adjacent to the horizontal connecting rod 4, and then fixing nuts are screwed on the other ends of the two vertical connecting rods 7;

(6) according to requirements, a flat baffle 6 is placed on the upper surfaces of the two vertical connecting rods 7, the baffle 6 is made of stainless steel, and the size of a steel plate is larger than that of the soil body model box;

(7) the connecting cross rod 3 is lifted, the connecting cross rod 3 drives the connecting steering head 5 to rotate, the connecting steering head 5 drives the horizontal connecting rod 4, the vertical connecting rod 7 and the baffle 6 to rotate until the vertical connecting rod 7 is horizontal, the horizontal connecting rod 4 and the baffle 6 are perpendicular to the ground after rotating, the rotation of the soil body model box is realized, one surface of the soil body model box leans against the flat baffle 6 at the moment, and the baffle 6 plays a limiting role in the soil body model box;

(8) the moving device is pushed to a target position, such as a loading table, the fork 12 is moved to a corresponding height by using the jack 10 and the chain 11, and the soil body model box can be moved down to the moving device for testing.

Claims (10)

1. A simple and easy indoor half-pile test mold box mobile device, the device includes: the fork moves up and down along the bracket under the driving of the driving mechanism; it is characterized by also comprising: the device comprises pulleys, a circular transverse insertion rod, a connecting transverse rod, a connecting steering head and a baffle; the pulley is arranged on the upper surface of the fork, and the circular cross insertion rod penetrates through the fork and the two connecting steering heads and can rotate in the fork; the connecting steering head is arranged between the two forks; a connecting rod is respectively inserted on each connecting steering head horizontally and vertically; the connecting rods in the horizontal direction are connected through the connecting cross rods; the connecting rod in the vertical direction is provided with a baffle plate parallel to the horizontal direction.

2. The moving device for the simple indoor half-pile test model box according to claim 1, wherein the fork is evenly provided with jacks, and the position of the circular cross inserted rod is adjustable.

3. The device for moving the simple indoor half-pile test model box according to claim 1 or 2, wherein the circular cross-inserted rod is a threaded rod.

4. The device for moving the simple indoor half-pile test model box according to claim 1, wherein the horizontal connecting rod is located in a plane formed by the two forks.

5. The simple indoor half-pile test model box moving device as claimed in claim 1, wherein the connecting rod and the connecting steering head are in threaded connection.

6. The simple indoor half-pile test model box moving device as claimed in claim 1, wherein two sets of oppositely arranged faces of the connecting steering head are provided with protruding thread grooves.

7. The device for moving the simple indoor half-pile test model box according to claim 1, wherein the connecting cross bar is located between the circular cross inserting bar and the jack.

8. The device for moving the simple indoor half-pile test model box according to claim 1, wherein the area of the baffle is larger than the area of the parallel surface of the model box and the baffle.

9. The simple indoor half-pile test model box moving device according to claim 1, wherein the driving mechanism comprises: jacks, chains and pulleys; the pulleys are arranged at two output ends of the jack, the two chains are meshed with the pulleys, one end of each chain is fixed on the fork, and the other end of each chain is fixed on the support.

10. The simplified indoor half-pile test model box moving device according to claim 9, wherein the support comprises: the device comprises a cross beam, a vertical beam and a base; the vertical beam is fixed on the base, the cross beam is fixed on the vertical beam, the jack is arranged on the base, and one end of the chain is fixed on the cross beam.

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