CN210559039U - Automatic numerical control hoist engine of wei ya - Google Patents

Abstract

The utility model provides a Weiya automatic numerical control winch, which comprises a base, a first motor and a winding roller, wherein the first motor and the winding roller are fixed on the base; a driving trolley is arranged on the vertical plate, a vertical pipe is fixed on the driving trolley, a cavity structure is arranged in the vertical pipe, a supporting rod is arranged in the cavity, a lower driven wheel is arranged at the top end of the supporting rod, and the lower driven wheel is positioned vertically below the upper driven wheel; one end of the lower driven wheel is connected with a first belt pulley through a rotating shaft, a second driving motor is fixed in the driving trolley, a second belt pulley is fixed at the output end of the second driving motor, the second belt pulley is in transmission connection with the first belt pulley through a belt, and the belt is located between the supporting rod and the vertical pipe cavity. The utility model discloses can not only effectively avoid taking place wire rope and collect the disconnected phenomenon, simultaneously, also can promote wire rope's receipts, put speed.

Description

Automatic numerical control hoist engine of wei ya

Technical Field

The utility model mainly relates to the technical field of winches, concretely relates to automatic numerical control hoist of wei ya.

Background

A winch, a light and small hoisting device for hoisting or pulling heavy objects by winding a steel wire rope or a chain on a winding drum, which is also called a winch. The hoist can drag the heavy object vertically, horizontally or obliquely. The winding machine is divided into a manual winding machine, an electric winding machine and a hydraulic winding machine. Electric winches are now the main. Can be used independently, can also be used as a component part in machinery such as hoisting, road building, mine hoisting and the like, and is widely applied due to simple operation, large rope winding amount and convenient displacement. The lifting device is mainly applied to material lifting or flat dragging of buildings, hydraulic engineering, forestry, mines, wharfs and the like.

In current hoist engine structure, there is not calibration auxiliary structure design in rolling joint department, leads to the steel wire rolling in-process, easily takes place the dislocation phenomenon, and then takes place the steel wire easily and collect the disconnected, the chaotic phenomenon of wire rope, influences the normal use of hoist engine.

SUMMERY OF THE UTILITY MODEL

The utility model mainly provides a Weiya automatic numerical control hoist for solve the technical problem who proposes among the above-mentioned background art.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

a Weiya automatic numerical control winch comprises a base, a first motor and a winding roller, wherein the first motor and the winding roller are fixed on the base; a driving trolley is arranged on the vertical plate, a vertical pipe is fixed on the driving trolley, a cavity structure is arranged in the vertical pipe, a supporting rod is arranged in the cavity, a lower driven wheel is installed at the top end of the supporting rod, and the lower driven wheel is located right below the upper driven wheel; one end of the lower driven wheel is connected with a first belt pulley through a rotating shaft, a second driving motor is fixed in the driving trolley, a second belt pulley is fixed at the output end of the second driving motor, the second belt pulley is in transmission connection with the first belt pulley through a belt, and the belt is located between the support rod and the vertical pipe cavity.

Furthermore, an annular bearing is fixed in the ring of the upper driven wheel, the annular bearing is not fixedly placed on the sliding rod, and the upper driven wheel is fixedly connected with the vertical pipe through a connecting rod assembly along two sides of the sliding rod in the length direction.

Furthermore, the bottom of the supporting rod is fixedly connected with the bottom of the vertical pipe cavity through a spring part, two annular fixing plates are symmetrically arranged at the top end of the supporting rod, and two sides of the lower driven wheel are rotatably arranged between the two annular fixing plates through a rotating shaft.

Furthermore, two sliding rails are symmetrically arranged on the upper surface of the bottom plate along the length direction of the bottom plate, four rollers are symmetrically arranged at the bottom of the driving trolley, and the four rollers which are symmetrically arranged are arranged in the two sliding rails one by one.

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

the utility model has reasonable structural design and convenient use, and can play a role of propulsion when a steel wire rope is wound up or unwound by mainly arranging the slidable driving trolley on the bottom plate, arranging the lower driven wheel on the trolley through the supporting rod and driving the lower driven wheel through the second driving motor; furthermore, the upper driven wheel is arranged vertically above the lower driven wheel through the sliding rod, and the steel wire rope in sliding can be pressed in the wheel groove of the lower driven wheel under the action of the upper driven wheel when being wound or unwound, so that the deflection phenomenon is avoided; furthermore, the driving trolley moves left and right, so that the phenomenon of breakage or disorder of the steel wire rope due to deviation in winding or unwinding of the steel wire rope can be avoided.

The present invention will be explained in detail with reference to the drawings and specific embodiments.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the upper driven wheel of the present invention fixed on the vertical pipe;

fig. 3 is a schematic structural view of the lower driven wheel of the present invention fixed on the support rod.

In the figure: 1-a base; 2-a first electric machine; 3-rolling a roller; 4-a bottom plate; 41-a bottom plate; 42-vertical plate; 43-a slide bar; 44-an upper driven wheel; 45-ring bearing; 5, driving the trolley; 5 a-a roller; 51-a riser; 52-a stationary bar assembly; 53-support bars; 54-lower driven wheel; 54 a-axis of rotation; 54 b-a first pulley; 55-a spring; 56-a second drive motor; 56 a-second pulley.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully with reference to the accompanying drawings, in which several embodiments of the present invention are shown, but the present invention can be implemented in different forms, and is not limited to the embodiments described in the text, but rather, these embodiments are provided to make the disclosure of the present invention more thorough and comprehensive.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the use of the term knowledge in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-3, a weiya automatic numerical control winch includes a base 1, and a first motor 2 and a winding roller 3 fixed on the base 1, wherein a bottom plate 4 is fixed at one end of the base 1, two vertical plates 42 are symmetrically fixed at two ends of the bottom plate 4, a sliding rod 43 is fixed between the two vertical plates 42 which are symmetrically arranged, and an upper driven wheel 44 is slidably mounted on the sliding rod 43; a driving trolley 5 is arranged on the vertical plate 42, a vertical pipe 51 is fixed on the driving trolley 5, a cavity structure is arranged in the vertical pipe 51, a supporting rod 53 is arranged in the cavity, a lower driven wheel 54 is arranged at the top end of the supporting rod 53, and the lower driven wheel 54 is positioned vertically below the upper driven wheel 44; one end of the lower driven wheel 54 is connected with a first belt pulley 54b through a rotating shaft 54a, a second driving motor 56 is fixed in the driving trolley 5, a second belt pulley 56a is fixed at the output end of the second driving motor 56, the second belt pulley 56a is in transmission connection with the first belt pulley 54b through a belt, and the belt is located between the supporting rod 53 and the cavity of the vertical pipe 51.

Referring to fig. 1, an annular bearing 45 is fixed in the ring of the upper driven wheel 44, the annular bearing 45 is not fixedly placed on the slide rod 43, and the upper driven wheel 44 is fixedly connected with the stand pipe 51 through a connecting rod assembly 52 at two sides along the length direction of the slide rod 43.

The bottom of the support rod 53 is fixedly connected with the bottom of the cavity of the stand pipe 51 through a spring member 55, two annular fixing plates 53a are symmetrically arranged at the top end of the support rod 53, and two sides of the lower driven wheel 54 are rotatably arranged between the two annular fixing plates 53a through a rotating shaft 54 a.

Two sliding rails 41 are symmetrically arranged on the upper surface of the bottom plate 4 along the length direction of the bottom plate 4, four rollers 5a are symmetrically arranged at the bottom of the driving trolley 5, and the four rollers 5a which are symmetrically arranged are arranged in the two sliding rails 41 one by one.

The specific implementation manner of the utility model is as follows:

when the device is used for working, the electric control switch of the first motor 2 is turned on through the control switch, the first motor 2 drives the rolling roller 3 to rotate, the rolling roller 3 releases and rolls the steel wire rope, the electric control switches of the driving trolley 5 and the second driving motor 56 are turned on through the control switch while the first motor 2 is turned on, the driving trolley 56 moves left and right along with the rotation speed of the first motor 2, the steel wire rope slides on the lower driven wheel 54 in the moving process, and the steel wire rope releasing and releasing efficiency can be promoted through the action of the second driving motor 56; furthermore, in the process of winding and unwinding the steel wire rope, a turning behavior can occur, the driving trolley 5 can drive the lower driven wheel 54 to generate a position deviation, and further drive the upper driven wheel 44 to generate a position deviation, so that the phenomena of steel wire breakage and the like caused by dislocation can be avoided.

The above description of the present invention is made in conjunction with the accompanying drawings, and it is obvious that the present invention is not limited by the above embodiments, and the method and the technical solution of the present invention are not substantially improved or directly applied to other occasions without improvement, and are all within the protection scope of the present invention.

Claims (4)

1. A Weiya automatic numerical control winch comprises a base (1), and a first motor (2) and a winding roller (3) which are fixed on the base (1), and is characterized in that a bottom plate (4) is fixed at one end of the base (1), two vertical plates (42) are symmetrically fixed at two ends of the bottom plate (4), a sliding rod (43) is fixed between the two vertical plates (42) which are symmetrically arranged, and an upper driven wheel (44) is slidably mounted on the sliding rod (43); a driving trolley (5) is arranged on the vertical plate (42), a vertical pipe (51) is fixed on the driving trolley (5), a cavity structure is arranged in the vertical pipe (51), a supporting rod (53) is arranged in the cavity, a lower driven wheel (54) is arranged at the top end of the supporting rod (53), and the lower driven wheel (54) is positioned right below the upper driven wheel (44) in a vertical manner; one end of the lower driven wheel (54) is connected with a first belt pulley (54b) through a rotating shaft (54a), a second driving motor (56) is fixed in the driving trolley (5), the output end of the second driving motor (56) is fixed with a second belt pulley (56a), the second belt pulley (56a) is in transmission connection with the first belt pulley (54b) through a belt, and the belt is located between the supporting rod (53) and the cavity of the vertical pipe (51).

2. The Weiya automatic numerical control winch according to claim 1, wherein an annular bearing (45) is fixed in the ring of the upper driven wheel (44), the annular bearing (45) is not fixedly arranged on the slide rod (43), and the upper driven wheel (44) is fixedly connected with the vertical pipe (51) through a connecting rod assembly (52) from two sides along the length direction of the slide rod (43).

3. The Weiya automatic numerical control winch of claim 1, wherein the bottom of the supporting rod (53) is fixedly connected with the bottom of the cavity of the stand pipe (51) through a spring member (55), the top end of the supporting rod (53) is symmetrically provided with two annular fixing plates (53a), and two sides of the lower driven wheel (54) are rotatably arranged between the two annular fixing plates (53a) through a rotating shaft (54 a).

4. The Weiya automatic numerical control winch according to claim 1, wherein two sliding rails (41) are symmetrically arranged on the upper surface of the base plate (4) along the length direction of the base plate (4), four rollers (5a) are symmetrically arranged at the bottom of the driving trolley (5), and the four symmetrically arranged rollers (5a) are arranged in the two sliding rails (41) one by one.

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