CN211496814U - Rigid guide pillar lifting appliance - Google Patents

Abstract

A rigid guide pillar lifting appliance comprises a guide pillar truss, wherein the guide pillar truss is a square columnar section welding body, reinforcing supports are welded on the front and back surfaces of the guide pillar truss, and the left and right surfaces of the guide pillar truss are inlet and outlet channels of a container; a lifting track is arranged in the guide pillar truss, and the upper end of the guide pillar truss is connected with a lifting mechanism; the hanging frame is arranged in the guide pillar truss and used for containing a container; a lifting pulley is arranged at the top of the lifting frame and is connected with a lifting mechanism through a lifting rope; the bottom of the hanging frame is provided with a telescopic fork for forking the cargo box; and the side wall of the hanging frame is provided with a composite roller which is in bidirectional rolling contact with the lifting track. The guide pillar truss has good rigidity, high lifting height and small occupied area, and is particularly suitable for storehouses with small sites and high storage capacity; the lifting track and the composite roller can ensure that the lifting frame does not shake; the double rope outlet and the lifting rope balance arm of the lifting mechanism can ensure the stability and safety of the lifting of the container, and realize accurate and in-place; the telescopic fork and the transverse moving trolley realize the automation of the lifting of the container.

Description

Rigid guide pillar lifting appliance

Technical Field

The utility model belongs to the technical field of the jack-up technique and specifically relates to a rigidity guide pillar hoist is related to.

Background

At present, most of domestic and foreign cities have limited storage area, a large number of articles and large storage space occupation, and the warehouse can only be built higher. The storage of too high goods needs to take up an area of for a short time, the gallows that rigidity, stability are fine still need to keep the hoist mechanism that the goods can steadily go up and down. The automatic picking and placing of the goods is realized by combining the modern, intelligent and automatic development trends of the current goods handling industry.

And present conventional lift goods shelves can not satisfy the demand of depositing of too high goods, consequently, need one kind take up an area of for a short time, the rigidity is big, can get the goods automatically to can realize the hoist that the goods steadily goes up and down.

SUMMERY OF THE UTILITY MODEL

In order to overcome not enough among the background art, the utility model discloses a rigidity guide pillar hoist to it is big to realize that occupation of land is little, the rigidity, can get the goods automatically, and realizes the purpose that the goods steadily goes up and down.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme:

a rigid guide post spreader comprising:

the guide pillar truss is a square columnar section welding body, the front and the rear of the guide pillar truss are welded with reinforcing supports, and the left and the right of the guide pillar truss are inlet and outlet channels of the container; a lifting track is arranged in the guide pillar truss, and the upper end of the guide pillar truss is connected with a lifting mechanism;

the hanging frame is arranged in the guide pillar truss and used for containing a container; a lifting pulley is arranged at the top of the lifting frame and is connected with a lifting mechanism through a lifting rope; the bottom of the hanging frame is provided with a telescopic fork for forking the cargo box; and the side wall of the hanging frame is provided with a composite roller which is in bidirectional rolling contact with the lifting track.

According to the technical scheme, the guide pillar truss is formed by sequentially connecting a plurality of truss modules, and two adjacent truss modules are connected through bolt and nut connecting pairs; a transverse reinforcing support and an oblique reinforcing support are welded between two guide pillars of each truss module, and the transverse reinforcing support, the oblique reinforcing support and the guide pillars form a triangular structure.

The technical scheme is further improved, and the hoisting mechanism comprises a cross beam, a double-rope-outlet winch and a lifting rope balance arm; the double-rope-outlet winch is arranged on the cross beam, and the lifting rope balance arm is arranged below the double-rope-outlet winch and hinged with the cross beam; the lifting rope balance arm comprises an articulated shaft articulated with the cross beam, a pair of fixed pulleys are arranged on two sides of the articulated shaft, and double lifting ropes of the double-rope-outlet winch are connected with the lifting pulleys through the pair of fixed pulleys respectively.

The technical scheme is further improved, the lifting track is a pair of channel steels connected to the inner opposite walls of the guide pillar truss, and notches of the channel steels are arranged oppositely; the composite roller comprises an X-direction roller in rolling contact with the bottom surface of the channel steel and a Y-direction roller in rolling contact with the side groove wall of the channel steel.

According to the technical scheme, the telescopic fork is a bidirectional telescopic fork, and the bidirectional telescopic fork is connected with the driving motor through a gear-rack kinematic pair.

The technical scheme is further improved, and a group of transverse trolleys for transversely hoisting the containers are respectively arranged at two ends of the cross beam.

Owing to adopt above-mentioned technical scheme, compare the background art, the utility model discloses following beneficial effect has:

the guide pillar truss has good rigidity, high lifting height and small occupied area, and is particularly suitable for storehouses with small sites and high storage capacity; the lifting track and the composite roller can ensure that the lifting frame does not shake; the double rope outlet and the lifting rope balance arm of the lifting mechanism can ensure the stability and safety of the lifting of the container, and realize accurate and in-place; the telescopic fork and the transverse moving trolley realize the automation of the lifting of the container.

The utility model discloses a take up an area of for a short time, the rigidity is big, can get the goods of putting automatically to realize the target that the goods steadily goes up and down.

Drawings

Fig. 1 is a front view structural schematic diagram of a guide pillar truss.

Fig. 2 is a schematic side view of the guide pillar truss.

Fig. 3 is a schematic structural view of a truss module.

Fig. 4 is a schematic structural diagram of a hoisting mechanism.

Fig. 5 is a schematic structural diagram of the composite roller in rolling contact with the lifting rail.

Fig. 6 is a schematic view of the working principle of the present invention.

In the figure: 1. a guide pillar truss; 11. lifting the track; 12. a truss module; 2. a hoisting mechanism; 21. a cross beam; 22. a double rope-out winch; 23. a lifting rope balance arm; 3. hanging a frame; 31. lifting the pulley; 32. a telescopic fork; 33. compounding rollers; 331. an X-direction roller; 332. a Y-direction roller; 4. and (5) transversely moving the trolley.

Detailed Description

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention.

A rigid guide pillar lifting appliance comprises a guide pillar truss 1 and a lifting frame 3.

The guide pillar truss 1 is a square column-shaped profile welded body, fig. 1 shows a front view of the guide pillar truss 1, and in the figure, reinforcing supports are welded on the front and back surfaces of the guide pillar truss 1. Fig. 2 is a side view of the guide post truss 1, in which reinforcing supports are welded to the upper and lower ends of the left and right sides of the guide post truss 1, and no reinforcing support is welded to the middle portion. The middle part is an access channel of the container, so that the container can conveniently enter and exit the guide pillar truss 1 at any height.

As shown in fig. 3, for convenience of manufacturing and installation, the guide pillar truss 1 is formed by connecting a plurality of truss modules 12 in sequence, and two adjacent truss modules 12 are connected through bolt and nut connection pairs. The connecting holes of the truss modules 12 are processed into long holes, so that the processing and assembling difficulty can be reduced. All welded between two guide pillars of each truss module 12 has horizontal strengthening support and slant strengthening support, and horizontal strengthening support, slant strengthening support and guide pillar constitute the triangle-shaped structure, and the triangle-shaped structure has fine stability, can improve the rigidity of guide pillar truss 1. The truss structure of the guide pillar truss 1 is strong in rigidity and good in stability, dumping can be effectively prevented, ground rails do not need to be laid on the ground, and the practicability is high.

The hanging frame 3 is arranged in the guide pillar truss 1 and used for containing a container. A lifting pulley 31 is arranged at the top of the lifting frame 3, and the lifting pulley 31 is connected with the lifting mechanism 2 through a lifting rope.

As shown in fig. 4, the hoisting mechanism 2 is connected to the upper end of the guide post truss 1. The hoisting mechanism 2 comprises a beam 21, a double rope hoist 22 and a lifting rope balance arm 23. The crossbeam 21 is installed in the upper end of guide pillar truss 1, and two play rope hoist engines 22 are installed on crossbeam 21, and lifting rope balance arm 23 sets up in the below of two play rope hoist engines 22 to it is articulated with crossbeam 21. The lifting rope balance arm 23 includes an articulated shaft articulated with the cross beam 21, a pair of fixed pulleys are arranged on two sides of the articulated shaft, and the double-outlet lifting rope of the double-outlet rope winch 22 is connected with the lifting pulley 31 through the pair of fixed pulleys respectively. The length of the double rope winch 22 for winding and unwinding the lifting rope is different in the lifting process, so that the lifting frame 3 is inclined, and the lifting of the container is not facilitated. The articulated shaft of the lifting rope balance arm 23 is articulated with the cross beam 21, so that the lifting rope balance arm 23 can swing up and down, and after the double-outlet rope is wound and connected with a pair of fixed pulleys on two sides of the articulated shaft, the double-outlet rope is connected with the lifting pulley 31 on the lifting frame 3. When the lengths of the double outgoing ropes are different, the lifting rope balance arm 23 can swing up and down to eliminate the length difference and avoid the lifting frame 3 from inclining. Hoisting mechanism 2 adopts two play rope suspended structure, and when the lifting rope of one side became invalid, the lifting rope of opposite side can play the effect of preventing falling, and the security is higher.

As shown in fig. 5, the lifting rail 11 is a pair of channel steels connected to the inner wall of the guide pillar truss 1, the notches of the pair of channel steels are arranged oppositely, and the notches of the pair of channel steels are arranged oppositely. The side wall of the hanging frame 3 is provided with a compound roller 33 which is in bidirectional rolling contact with the lifting track 11. The composite roller 33 includes an X-roller 331 in rolling contact with the bottom surface of the channel, and a Y-roller 332 in rolling contact with the side wall of the channel. Two sets of relative X to gyro wheel 331 has restricted the swing degree of freedom of hanging frame 3 in X to, two sets of syntropy Y to gyro wheel 332 has restricted the swing degree of freedom of hanging frame 3 in Y to, two sets of compound gyro wheels 33 have restricted the swing degree of freedom of hanging frame 3 in X to, Y to avoid hanging frame 3 to take place the swing, can effectively realize the accurate of packing box, steadily get and put.

As shown in fig. 6, a telescopic fork 32 for forking the cargo box is arranged at the bottom of the hanging frame 3, the telescopic fork 32 is a bidirectional telescopic fork, and the bidirectional telescopic fork is connected with a driving motor through a gear-rack kinematic pair. The bidirectional telescopic pallet fork can transfer the container on the left side of the hanging frame 3 and can also transfer the container on the side of the hanging frame 3. A group of traversing trolleys 4 for transversely hoisting the containers are respectively arranged at two ends of the cross beam 21, so that the containers on the telescopic fork can be stacked at a farther position.

When the containers are stacked, the telescopic fork 32 forks the containers on the ground and feeds the containers into the hanging frame 3; the hoisting mechanism 2 hoists the hoisting frame 3 to a specified height, and the telescopic fork 32 sends the container in the hoisting frame 3 out of the hoisting frame 3; after the traverse trolley 4 correspondingly measured lifts the container, the container is transferred to a stacking position, and the container is put down. The procedure for picking up the containers is opposite to the above, and the description is not repeated.

The guide pillar truss 1 has good rigidity, high lifting height and small occupied area, and is particularly suitable for storehouses with small sites and high storage capacity; the lifting track 11 and the composite roller 33 can ensure that the lifting frame 3 does not shake; the double-rope-outlet and lifting rope balance arm 23 of the lifting mechanism 2 can ensure the stability and safety of the lifting of the container, and realize accurate and in-place; the telescopic fork 32 and the transverse trolley 4 realize the automation of the lifting of the container.

The part of the utility model not detailed is prior art. Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a rigidity guide pillar hoist, characterized by: the method comprises the following steps:

the guide pillar truss (1), the guide pillar truss (1) is a square columnar section bar welding body, its front and back welding has the reinforcement support, the left and right side is the access way of the container; a lifting track (11) is arranged in the guide pillar truss (1), and the upper end of the guide pillar truss (1) is connected with a lifting mechanism (2);

the hanging frame (3) is arranged in the guide pillar truss (1) and is used for containing a container; a lifting pulley (31) is arranged at the top of the lifting frame (3), and the lifting pulley (31) is connected with the lifting mechanism (2) through a lifting rope; a telescopic fork (32) for forking the cargo box is arranged at the bottom of the hanging frame (3); and a composite roller (33) which is in bidirectional rolling contact with the lifting track (11) is arranged on the side wall of the lifting frame (3).

2. The rigid guide post spreader of claim 1, wherein: the guide pillar truss (1) is formed by sequentially connecting a plurality of truss modules (12), and two adjacent truss modules (12) are connected through bolt and nut connecting pairs; a transverse reinforcing support and an oblique reinforcing support are welded between two guide columns of each truss module (12), and the transverse reinforcing support, the oblique reinforcing support and the guide columns form a triangular structure.

3. The rigid guide post spreader of claim 1, wherein: the hoisting mechanism (2) comprises a cross beam (21), a double-rope-outlet winch (22) and a lifting rope balance arm (23); the double-rope-outlet winch (22) is arranged on the cross beam (21), and the lifting rope balance arm (23) is arranged below the double-rope-outlet winch (22) and hinged with the cross beam (21); the lifting rope balance arm (23) comprises a hinged shaft hinged with the cross beam (21), a pair of fixed pulleys are arranged on two sides of the hinged shaft, and double-outlet lifting ropes of the double-outlet rope winch (22) are connected with the lifting pulley (31) through the pair of fixed pulleys respectively.

4. The rigid guide post spreader of claim 1, wherein: the lifting track (11) is a pair of channel steel connected to the inner wall of the guide pillar truss (1), and notches of the channel steel are arranged oppositely; the composite roller (33) comprises an X-direction roller (331) in rolling contact with the groove bottom surface of the channel steel and a Y-direction roller (332) in rolling contact with the side groove wall of the channel steel.

5. The rigid guide post spreader of claim 1, wherein: the telescopic fork (32) is a bidirectional telescopic fork, and the bidirectional telescopic fork is connected with the driving motor through a gear-rack kinematic pair.

6. The rigid guide post spreader of claim 1, wherein: two ends of the cross beam (21) are respectively provided with a group of traversing trolleys (4) for transversely hoisting the containers.

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