CN215665966U - Lifting type overturning and material pouring device - Google Patents

Abstract

The application discloses promotion formula upset pouring device. The material pouring device comprises a mounting frame. The mounting bracket is provided with a lifting mechanism, a track plate and a turnover material pouring mechanism. The lifting mechanism comprises a power element and an actuating element which can be driven to directionally convey along the vertical direction. The track board is provided with a curve guide rail corresponding to the lifting mechanism. The overturning and material pouring mechanism comprises a rotating support, a rotating shaft, a charging bucket, a transition piece and a rotating cam. The rotating support is fixedly connected with the actuating element. The rotating shaft is rotatably disposed in the rotating holder. The charging bucket and the rotating cam are respectively arranged at two ends of the rotating shaft. The rotating cam is matched with the curve guide rail. In the process that the actuating element drives the rotary support to move up and down, the rotary cam can move in the curve guide rail in an oriented mode and rotate in an oriented mode, so that the rotary shaft and the charging bucket are driven to rotate synchronously through the transition piece, the charging bucket is turned over in an oriented mode in the rising process, the working efficiency is high, and the equipment cost is low.

Description

Lifting type overturning and material pouring device

Technical Field

The utility model relates to the technical field of mechanical conveying equipment, in particular to a lifting type overturning and pouring device.

Background

The lifting and dumping device is a mechanical device commonly used for replenishing raw materials, and the work of the lifting and dumping device is generally realized in two steps. The raw material is first lifted to a certain height and then poured into a hopper by turning.

Therefore, the conventional lifting and material pouring device at least needs to provide lifting power and overturning power, so that the manufacturing cost of the lifting and material pouring device is high, the overturning and material pouring efficiency is low, and the operation is complex.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a lifting type overturning and material pouring device, a rotating cam can drive a charging basket to directly and automatically overturn through matching with a curve guide rail in the lifting process, the material pouring efficiency is high, and meanwhile, the lifting and the overturning can be simultaneously completed only by providing lifting power, so that the manufacturing cost is effectively reduced, and the operation is simple.

Another object of the present invention is to provide a lifting type turnover dumping device, which can precisely control the lifting speed and the turnover speed of a charging basket by providing lifting power through a servo motor.

Another object of the present invention is to provide a lifting type turnover dumping device, which can effectively protect a lifting mechanism from being damaged by impurities such as dust by arranging a dust cover, and is safer to use.

Another object of the present invention is to provide a lifting type turnover dumping device, which can conveniently replace material buckets with different capacities by providing a material bucket support, so as to be suitable for turnover dumping of materials with different capacities or different types of materials.

In order to achieve at least one of the above objects, the present invention provides a lifting type turnover dumping device, wherein the dumping device includes a mounting frame, wherein the mounting frame is provided with:

a lifting mechanism, wherein the lifting mechanism comprises a power element and an actuating element, wherein the actuating element is arranged to be driven by the power element to directionally convey along a vertical direction;

the track plate is provided with a curve guide rail corresponding to the lifting mechanism; and

the overturning and material pouring mechanism comprises a rotating support, a rotating shaft, a material barrel, a transition piece and a rotating cam, wherein the rotating support is fixedly connected with the actuating element so as to be driven by the actuating element to move up and down, the rotating shaft is rotatably arranged on the rotating support, the material barrel is fixedly arranged at one end of the rotating shaft, the rotating cam is fixedly arranged at the other end of the rotating shaft through the transition piece, the rotating cam is matched with the curve guide rail, so that in the process that the actuating element drives the rotating support to move up and down, the rotating cam can move directionally in the curve guide rail and generate directional rotation, the rotating shaft and the material barrel are driven by the transition piece to rotate synchronously, and the directional overturning of the material barrel is realized.

In one possible embodiment, the power element is embodied as a servomotor.

In a possible embodiment, the actuating element is implemented as a sprocket and a chain, wherein the sprocket comprises a driving wheel and a driven wheel distributed along a vertical direction, the driving wheel is fixedly sleeved on a rotating end of the power element, wherein the chain is simultaneously wound on the driving wheel and the driven wheel so as to be capable of being driven to directionally rotate along the vertical direction, and the rotating support is fixedly connected with the chain so as to be capable of being driven by the chain to move up and down.

In a possible embodiment, the actuating element is implemented as a chain wheel and a conveying belt, wherein the chain wheel includes a driving wheel and a driven wheel distributed along a vertical direction, the driving wheel is fixedly sleeved on a rotating end of the power element, wherein a rack matched with the chain wheel is arranged on an inner side surface of the conveying belt, the conveying belt is wound on the driving wheel and the driven wheel simultaneously so as to be driven to rotate directionally along the vertical direction, and the rotating support is fixedly connected with the conveying belt so as to be driven by the conveying belt to move up and down.

In a possible embodiment, the mounting frame is further provided with a dust cover, wherein the dust cover is covered on the lifting mechanism.

In a possible embodiment, the curved guide rail has a bottom and a top relatively higher than the bottom, the curved guide rail gradually inclines and transitions from the bottom to the top, and the top is close to the lifting mechanism relative to the bottom.

In a possible embodiment, the curved guide rail has a bottom and a top which is relatively higher than the bottom, the curved guide rail gradually inclines and transitions from the bottom to the top, and the top is far away from the lifting mechanism relative to the bottom.

In a possible embodiment, the mounting frame is further provided with a linear guide rail along the traveling direction of the rotary support, wherein the rotary support is provided with a slide block which is matched with the linear guide rail.

In one possible embodiment, the transition piece is embodied as a transition plate, wherein the transition plate is composed of at least two connection plates which are detachably connected.

In a possible embodiment, the turnover dumping mechanism further comprises a bucket support, wherein the bucket support is fixed at the end of the rotating shaft, and the bucket is detachably mounted on the bucket support.

These and other objects, features and advantages of the present invention will become more fully apparent from the following detailed description.

Drawings

Fig. 1 is a schematic structural diagram illustrating an initial position of a lifting type turnover dumping device according to a preferred embodiment of the present application.

Fig. 2 is a partial schematic structural view illustrating an initial position of a lifting type turnover dumping device according to a preferred embodiment of the present application.

Fig. 3 shows a partial structural schematic of fig. 2 in the present application.

Fig. 4 shows a schematic structural diagram of the lifting type turnover dumping device in the lifting process according to a preferred embodiment of the present application.

Fig. 5 shows a partial structural schematic of fig. 4 in the present application.

Detailed Description

The following description is presented to disclose the utility model so as to enable any person skilled in the art to practice the utility model. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the utility model, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the utility model.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be in a particular orientation, constructed and operated in a particular orientation, and thus the above terms are not to be construed as limiting the present invention.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

A lift type upender material dumping apparatus according to a preferred embodiment of the present invention will be described in detail below with reference to fig. 1 to 5 of the specification, wherein the lift type upender material dumping apparatus includes a mounting frame 10, and the mounting frame 10 is provided with a lifting mechanism 20, a track plate 30 and an upender material dumping mechanism 40.

The lifting mechanism 20 comprises a power element 21 and an actuating element 22, wherein the actuating element 22 is arranged to be driven by the power element 21 to carry out directional conveying along the vertical direction, so that lifting power is provided in the vertical direction.

The track board 30 is provided with a curved guide rail 31 corresponding to the elevating mechanism 20, i.e., the curved guide rail 31 tends to be curved in the same vertical direction as the elevating direction of the elevating mechanism 20. Specifically, the curved guide rail 31 has a bottom 311 and a top 312 relatively higher than the bottom 311. The curved guide rail 31 gradually inclines and transitions from the bottom 311 to the top 312, and the inclination direction thereof may be set as follows: the top portion 312 is closer to the lifting mechanism 20 than the bottom portion 311, and may be set to be in an opposite inclined direction, that is, the top portion 312 is farther from the lifting mechanism 20 than the bottom portion 311.

The overturning and dumping mechanism 40 comprises a rotating support 41, a rotating shaft 42, a charging basket 43, a transition piece 44 and a rotating cam 45, wherein the rotating support 41 is fixedly connected with the actuating element 22 so as to perform directional conveying in the vertical direction when the actuating element 22 is driven by the power element 21, so that the rotating support 41 can be driven by the actuating element 22 to move up and down when lifting power is provided; wherein the rotation shaft 42 is rotatably provided to the rotation support 41; wherein the barrel 43 is fixedly disposed at one end of the rotating shaft 42, and the rotating cam 45 is fixedly disposed at the other end of the rotating shaft 42 through the transition piece 44, that is, the rotating cam 45, the rotating shaft 42 and the barrel 43 are configured to rotate synchronously.

The rotating cam 45 is engaged with the curved guide rail 31. In the process that the actuator 22 drives the rotating support 41 to move up and down, the rotating cam 45 directionally moves along the track of the curved guide rail 31 and directionally rotates according to the movement, so that the rotating shaft 43 and the charging basket 42 are driven by the transition piece 44 to synchronously rotate in the process of moving up and down, and the charging basket 42 is directionally turned over.

In other words, the present invention is based on the inherent characteristic of the cam, that is, the corresponding rotary motion is generated when the cam moves in the curved slot (the curved guide rail 31), and by the cooperation of the single power source (the power element 21) and the curved slot, when the rotating support 41 is lifted by the actuator 22, the rotating cam 45 moves along the curved guide rail 31 and generates the rotation motion, thereby realizing the automatic overturning and material pouring during the lifting process. Not only can practice thrift upset power equipment, still make the overall structure of upset pouring mechanism more succinct, once only overturn targets in place to effectively practice thrift cost in business, and improve work efficiency.

In addition, since the lifting mechanism 20 is configured to lift in the vertical direction, the rotating support 41 and the rotating shaft 42 can only move up and down in the vertical direction, and the curved guide rail 31 has a certain curvature in the vertical direction, that is, the rotating cam 45 and the rotating shaft 42 do not continuously move synchronously in the same vertical direction. Therefore, it is necessary to provide the transition piece 44 to make a transition between the rotating cam 45 and the rotating shaft 42. When the rotating cam 45 does not travel in the vertical direction along the curved guide rail 31, the distance between the rotating shaft 42 and the rotating cam 45 (shown by fig. 3 and 5) is changed by the rotation of the transition piece 44, wherein the transition piece 44 vertically connects the rotating shaft 42 and the rotating cam 45, respectively.

It is worth mentioning that those skilled in the art will understand that the curved guide rail 31 tends to be curved in the vertical direction, and the curved direction and the curvature thereof are not limited according to the up-and-down moving speed and the turning speed of the material barrel 43 in the turning and dumping mechanism, and the like, and are within the protection scope of the present invention.

As a preferred embodiment of the present invention, the power element 21 is preferably implemented as a servo motor to provide precise speed control and start-stop control.

In a possible embodiment, the actuator 22 is implemented as a sprocket 221 and a chain 222, wherein the sprocket 221 includes a driving wheel 2211 and a driven wheel 2212 distributed along the vertical direction, wherein the driving wheel 2211 is fixedly sleeved on the rotating end of the power element 21 so as to be driven by the power element 21 to rotate synchronously, and wherein the chain 222 simultaneously winds around the driving wheel 2211 and the driven wheel 2212 so as to be driven by the sprocket 221 to rotate directionally along the vertical direction. The rotating support 41 is fixedly connected to the chain 222, so that the rotating support 41 is driven to move up and down by the movement of the chain 222 on the chain wheel 221.

In another possible embodiment, the actuating element 22 is embodied as a sprocket 221 and a conveyor belt, wherein the conveyor belt is embodied in a manner and function similar to the chain. In detail, the chain wheel 221 includes a driving wheel 2211 and a driven wheel 2212 distributed along the vertical direction, wherein the driving wheel 2211 is fixedly sleeved at the rotating end of the power element 21 so as to be driven by the power element 21 to rotate synchronously, the inner side surface of the conveying belt is provided with a rack which is matched with the chain wheel 221, and the conveying belt is simultaneously wound around the driving wheel 2211 and the driven wheel 2212 so as to be driven by the chain wheel 221 to rotate directionally along the vertical direction. The rotating support 41 is fixedly connected to the conveyor belt, so that the rotating support 41 is driven to move up and down by the movement of the conveyor belt on the chain wheel 221.

As a preferred embodiment of the present invention, the mounting bracket 10 is further provided with a dust cover 50, wherein the dust cover 50 is covered on the lifting mechanism 20 to prevent impurities such as dust from entering the lifting mechanism 20 to affect the control accuracy of the lifting mechanism 20, reduce the service life of the lifting mechanism, and prevent workers from entering the lifting mechanism 20 by mistake to endanger life safety.

As a preferred embodiment of the present invention, the mounting bracket 10 is further provided with a linear guide rail 60 along the traveling direction of the rotating support 41, wherein the rotating support 41 is provided with a slider 411 engaged with the linear guide rail 60. Elevating system 20 drives rotatory support 41 reciprocates the in-process, through linear guide 60 with slider 411's cooperation does rotatory support 41 further provides the direction spacing reciprocating, simultaneously through linear guide 60 is for rotatory support 41's removal provides the bearing effect, makes rotatory support 41's removal is safe and stable more, is convenient for the promotion formula of storage bucket is expected.

In a possible embodiment, the transition piece 44 is implemented as a transition plate, wherein the transition plate is composed of at least two connecting plates 441 detachably connected to correspondingly remove individual components through the detachable connecting plates 441, thereby facilitating installation, commissioning and later maintenance and repair of the pouring device.

In a possible embodiment, the reverse dumping mechanism 40 further includes a bucket support 46, wherein the bucket support 46 is fixed to an end of the rotating shaft 42, and the bucket 43 is detachably mounted to the bucket support 46. In the process of turning over and pouring materials, the charging barrels 43 are flexibly replaced according to different materials, so that different material pouring capacities are provided or the charging barrels 43 suitable for containing the materials are provided, and the turning over and material pouring mechanism has a wider application range.

It will be appreciated by persons skilled in the art that the embodiments of the utility model shown in the foregoing description are by way of example only and are not limiting of the utility model. The objects of the utility model have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims (10)

1. The utility model provides a promotion formula upset pouring device, its characterized in that, wherein the pouring device includes a mounting bracket, wherein the mounting bracket is provided with:

a lifting mechanism, wherein the lifting mechanism comprises a power element and an actuating element, wherein the actuating element is arranged to be driven by the power element to directionally convey along a vertical direction;

the track plate is provided with a curve guide rail corresponding to the lifting mechanism; and

the overturning and material pouring mechanism comprises a rotating support, a rotating shaft, a material barrel, a transition piece and a rotating cam, wherein the rotating support is fixedly connected with the actuating element so as to be driven by the actuating element to move up and down, the rotating shaft is rotatably arranged on the rotating support, the material barrel is fixedly arranged at one end of the rotating shaft, the rotating cam is fixedly arranged at the other end of the rotating shaft through the transition piece, the rotating cam is matched with the curve guide rail, so that in the process that the actuating element drives the rotating support to move up and down, the rotating cam can move directionally in the curve guide rail and generate directional rotation, the rotating shaft and the material barrel are driven by the transition piece to rotate synchronously, and the directional overturning of the material barrel is realized.

2. The lift-type tumble-dumping apparatus of claim 1 wherein said power element is embodied as a servo motor.

3. The lift-type upender dumping device of claim 2 wherein said actuator is implemented as a sprocket and a chain, wherein said sprocket comprises a driving wheel and a driven wheel distributed along the vertical direction, said driving wheel is fixedly sleeved on the rotating end of said power element, wherein said chain is simultaneously wound on said driving wheel and said driven wheel so as to be capable of being driven to rotate in the vertical direction, and said rotating support is fixedly connected with said chain.

4. The lift-type reverse dumping apparatus of claim 2 wherein said actuator is implemented as a sprocket and a belt, wherein said sprocket comprises a driving wheel and a driven wheel distributed along a vertical direction, said driving wheel is fixedly secured to a rotating end of said power element, wherein a rack cooperating with said sprocket is disposed on an inner side of said belt, and said belt is simultaneously wound around said driving wheel and said driven wheel so as to be capable of being driven to rotate in a vertical direction, and said rotating support is fixedly connected to said belt.

5. The lift-type upender dumping apparatus of claim 3 or 4 wherein said mounting bracket is further provided with a dust shield, wherein said dust shield is housed in said lifting mechanism.

6. The lift-type tumble feeder of claim 1 wherein said curvilinear guide has a bottom and a top relatively higher than said bottom, said curvilinear guide having a gradual sloped transition from said bottom to said top, wherein said top is adjacent to said lift mechanism relative to said bottom.

7. The lift-type tumble feeder of claim 1 wherein said curvilinear guide has a bottom and a top relatively higher than said bottom, said curvilinear guide gradually tapering from said bottom to said top, wherein said top is spaced from said lift mechanism relative to said bottom.

8. The lift-type reverse dumping apparatus of claim 1 wherein said mounting frame is further provided with a linear guide along a traveling direction of said rotary support, wherein said rotary support is provided with a slider engaged with said linear guide.

9. The lift-type upender dumping apparatus of claim 1 wherein said transition piece is implemented as a transition plate, wherein said transition plate is comprised of at least two connecting plates that are removably connected.

10. The lift-type reverse dumping apparatus of claim 1 wherein said reverse dumping mechanism further comprises a bucket support, wherein said bucket support is secured to an end of said rotatable shaft, and wherein said bucket is removably mounted to said bucket support.

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