CN212638821U - Rotatable telescopic belt conveyor - Google Patents

Abstract

The rotatable telescopic belt conveyor comprises a main support frame consisting of a base and a main frame, wherein a transition belt mechanism, a rotary belt mechanism and a telescopic belt mechanism are arranged on the main support frame, and the telescopic belt mechanism is hinged with the rotary belt mechanism; the rotary belt mechanism is provided with a rotary mechanism, the rotary mechanism is composed of a first motor, a gear and a slewing bearing, the outer ring of the slewing bearing is fixed with the rotary belt mechanism, the inner ring of the slewing bearing is fixed with the main frame, and the gear is driven by the first motor arranged on the main frame; the telescopic belt mechanism is provided with a lifting mechanism consisting of an electric cylinder, and two ends of the electric cylinder are respectively hinged with the telescopic belt mechanism and the rotary belt mechanism; the telescopic belt mechanism comprises a multi-section belt rack and two sets of belts, wherein two front-end rollers and two rear-end rollers are arranged on each belt rack, the rear-end roller on the last belt rack is a driving roller, and the two driving rollers are respectively driven by two sets of power mechanisms. The utility model discloses can directly put things in good order the goods, raise the efficiency.

Description

Rotatable telescopic belt conveyor

Technical Field

The utility model belongs to the conveying equipment field relates to the improvement of the rotatory and position adjustment structure in the article transport of belt feeder, particularly is a rotatable flexible belt feeder.

Background

With the rapid development of the logistics transportation industry, the logistics management and equipment reconstruction bring new opportunities while providing more convenience for life. The core of logistics transportation is efficiency, in the whole logistics link, the time of the middle transportation process is basically fixed based on the existing determined transportation mode and conditions, and the time and labor consumed in the cargo handling link can be improved and enhanced through corresponding matched equipment. Therefore, a telescopic belt conveyor for facilitating loading and unloading of goods is produced. The telescopic belt conveyor can extend a belt onto a boxcar, goods can be conveyed to the boxcar from the ground or conveyed to the ground from the boxcar, and then the goods are conveyed and stacked manually.

As disclosed in chinese patent (publication No. CN208453739U), "a telescopic belt conveyor" includes a telescopic belt conveyor body; the telescopic belt conveyor body is provided with a conveying section and a hump section, the hump section is arranged upwards and slantways along the conveying direction of the articles, and the top of the hump section is provided with an article output part; conveyor belt warp the hump section extends to the conveying section is closed annular and rotates to because of receiving the restriction in place when alleviating among the prior art through flexible belt feeder conveyed goods, lead to normally using climbing machine to carry lower floor's goods to upper strata scheduling technical problem.

Further, as disclosed in chinese patent (No. CN205098877U), "a telescopic loading and unloading belt conveyor" includes a first telescopic machine body, a second telescopic machine body, a third telescopic machine body, a conveying belt, an anti-collision mechanism, a support frame located at the bottom of the first telescopic machine body, and a driving motor; the first telescopic machine body comprises a first top plate and a first roller for supporting the conveying belt, and two sections of driving chains for telescopic the two sections of telescopic machine bodies; the two-section telescopic machine body comprises a second top plate and a second roller which are used for supporting the conveying belt, a third section of retraction driving chain used for retracting the three-section telescopic machine body, and a third section of extension driving chain used for extending out of the three-section telescopic machine body; the three-section telescopic machine body comprises a third top plate and a third roller, wherein the third top plate and the third roller are used for supporting the conveying belt.

The above-mentioned open and current flexible belt feeder can only stretch out and draw back and position adjustment from top to bottom, and flexible belt can only realize the purpose to the goods is carried, and the pile up neatly of goods finally still needs artifical transport to accomplish, and artifical pile up neatly is long when consuming slowly, needs workman's in large quantity, and is with high costs, is unfavorable for the improvement of logistics efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a rotatable flexible belt feeder for solve the defect that current flexible belt feeder still needs artifical transport to the pile up neatly of transported substance thing to accomplish finally.

In order to realize the utility model discloses an aim at, adopt following technical scheme:

the rotatable telescopic belt conveyor comprises a main support frame, a main body frame is arranged on the main support frame, a transition belt mechanism and a rotary belt mechanism are arranged on the main frame, a telescopic belt mechanism is arranged at the front end of the rotary belt mechanism, and the telescopic belt mechanism is hinged with the rotary belt mechanism; the rotary belt mechanism is provided with a rotary mechanism, the rotary mechanism is composed of a first motor, a gear, a second speed reducer and a slewing bearing with external teeth, the outer ring of the slewing bearing is fixed with the rotary belt mechanism, the inner ring of the slewing bearing is fixed with the main frame, the external teeth of the gear slewing bearing are meshed, the gear is driven by the first motor and the second speed reducer which are installed on the main frame, and the rotary belt mechanism and the telescopic belt mechanism can synchronously rotate; the telescopic belt mechanism is provided with a lifting mechanism consisting of an electric cylinder, and two ends of the electric cylinder are respectively hinged with the telescopic belt mechanism and the rotary belt mechanism; the telescopic belt mechanism comprises a plurality of sections of belt racks and two sets of belts, wherein each section of belt rack is provided with two front-end rollers and two rear-end rollers, the rear-end roller on the last section of belt rack is a driving roller, and the two driving rollers are respectively driven by two sets of power mechanisms.

In order to further improve the utility model discloses an effect can also adopt following technical scheme:

according to the rotatable telescopic belt conveyor, the transition belt mechanism and the rotating belt mechanism are respectively composed of the electric roller, the driven roller, the frame and the belt.

The rotatable telescopic belt conveyor is characterized in that the lower parts of the rotary belt mechanism and the telescopic belt mechanism are respectively provided with a shell, the lower end of the electric cylinder is hinged to the bottom of the shell of the rotary belt mechanism, and the upper end of the electric cylinder is a free end of a piston rod and is hinged to the bottom of the shell of the telescopic belt mechanism.

According to the rotatable telescopic belt conveyor, the lifting mechanism comprises a second motor, a first speed reducer and a transmission structure matched with the driving roller, and the transmission structure is in a chain wheel and chain matching mode or a gear pair matching mode or a belt wheel and belt matching mode.

Further, as above, the second motor is a servo motor, and the first speed reducer is a turbine speed reducer.

The rotatable telescopic belt conveyor is characterized in that the belt conveyor frame is provided with four sections, and the front end of the second section of the belt conveyor frame is provided with the operation panel.

As above rotatable flexible belt feeder, transition belt mechanism rear end is equipped with cylinder mechanism, and cylinder mechanism is fixed on the main support frame including the curb plate of installation cylinder, curb plate front end, and curb plate rear end below installation supporting leg.

According to the rotatable telescopic belt conveyor, the first motor is a servo motor, and the second speed reducer is a turbine speed reducer.

Compared with the prior art beneficial effect:

the utility model discloses a rotatable flexible belt feeder, flexible belt mechanism can be integrative rotatory with rotatory belt mechanism, and flexible belt mechanism can rise and fall for rotatory belt mechanism simultaneously, and one section belt frame of front end can diversified adjustment, directly puts things in good order the goods, raises the efficiency, saves the manual work. Specifically, the method comprises the following steps:

1. the utility model integrates the functions of belt expansion, lifting and rotation into one device, the belt expansion is controlled by the second motor, and the extension length can be accurately positioned; the belt lifting is controlled by an electric cylinder, so that the belt lifting speed is high and the lifting height is easy to control; the belt rotation is controlled by the first motor, and the rotation angle can be accurately positioned. The position of the foremost belt rack can be controlled at will through the manual work by the operation panel, so that goods can be directly stacked, the stacked goods can be directly conveyed reversely through the belt, the labor intensity of workers is reduced, and the goods loading and unloading efficiency is improved.

2. The rotary belt mechanism is connected with the main support frame through the rotary supporting bearing with the outer teeth, the outer ring of the rotary supporting bearing is connected with the rotary belt mechanism, the inner ring of the rotary supporting bearing is connected with the main support frame, the rotary belt mechanism can rotate relative to the main support frame, and the rotary belt mechanism and the telescopic belt mechanism are rotated and positioned through the first motor. Meanwhile, the goods can be conveyed to the rotary belt mechanism or conveyed reversely from the transition belt mechanism after rotation.

3. The telescopic belt mechanism is provided with two parallel belts controlled by independent operation, the driving roller of each belt is a rear-end roller on the rearmost section of belt rack, the power of each belt is provided by the second motor and the first speed reducer through chain transmission, the goods can be straightened in the conveying process by adjusting the rotating speed of the two belts, automatic stacking can be realized, the forward rotation or the reverse rotation of the second motor is controlled, the moving direction of the two belts can be adjusted, and the goods can be loaded and unloaded.

Drawings

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

fig. 2 is a top view of fig. 1.

Reference numerals: 1-a front end roller, 2-a first belt rack, 3-a control panel, 4-a second belt rack, 5-a third belt rack, 6-a rear end roller, 7-a fourth belt rack, 8-an electric cylinder, 9-a second motor, 10-a first speed reducer, 11-a transmission structure, 12-a hinge, 13-a rotating section driven roller, 14-a rotating section belt, 15-a rotating section electric roller, 16-a transition section driven roller, 17-a transition section belt, 18-a transition section electric roller, 19-a main rack, 20-a slewing bearing, 21-a second speed reducer, 22-a gear, 23-a first motor, 24-a main support frame, 25-a roller, 26-a side plate and 27-a support leg, 28-right belt, 29-left belt

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 and fig. 2, the rotatable telescopic belt conveyor disclosed in this embodiment includes a main support frame, the main support frame is composed of a base and a main frame fixed on the base, a transition belt mechanism is disposed on the main frame, a rotary belt mechanism is disposed on the front side of the transition belt mechanism, a telescopic belt mechanism is disposed at the front end of the rotary belt mechanism, and the telescopic belt mechanism is hinged to the rotary belt mechanism. The flexible belt mechanism of this embodiment can be integrative rotatory with rotatory belt mechanism, and flexible belt mechanism can rise and fall for rotatory belt mechanism simultaneously, and a front end section belt frame can diversely adjust, directly puts things in good order the goods, raises the efficiency, saves artifically.

The transition belt mechanism and the rotating belt mechanism are respectively composed of an electric roller, a driven roller, a frame and a belt. The lower parts of the rotary belt mechanism and the telescopic belt mechanism are respectively provided with a shell, the lower end of the electric cylinder 8 is hinged with the bottom of the shell of the rotary belt mechanism, and the upper end of the electric cylinder 8 is a free end of a piston rod and is hinged with the bottom of the shell of the telescopic belt mechanism. Because the telescopic belt mechanism is hinged with the rotating belt mechanism through the hinge 12, the belt plane of the telescopic belt mechanism can be lifted or lowered around the hinge 12 relative to the plane of the rotating section belt 14 of the rotating belt mechanism through the extension and retraction of the electric cylinder 8.

The telescopic belt mechanism comprises at least two belt racks capable of moving relatively and two sets of belts arranged in parallel, each belt rack is provided with two front end rollers and two rear end rollers, the belts are sleeved on all the belt racks in the telescopic belt mechanism, the rear end rollers on the last belt rack are driving rollers, and the two driving rollers are respectively driven by two sets of power mechanisms. The driving mechanism comprises a second motor, a first speed reducer and a transmission structure 11 matched with the driving roller, and the transmission structure 11 can adopt a chain wheel and chain matching mode or a gear pair matching mode or a belt wheel and belt matching mode.

Specifically, in the present embodiment, the main support frame 24 includes a base and a main frame 19, the main support frame 24 is fixed on the ground through the base, and the transition belt mechanism is composed of the transition section electric roller 18, the transition section driven roller 16 and the transition section belt 17. The rotary belt mechanism consists of a rotary section electric roller 15, a rotary section driven roller 13 and a rotary section belt 14.

The rotary belt mechanism is provided with a rotary mechanism, the rotary mechanism is composed of a first motor 23, a second speed reducer 21, a gear 22 and a rotary support bearing 20 which is meshed with the gear 22 and provided with external teeth, the outer ring of the rotary support bearing 20 is fixed with the rotary belt mechanism, the inner ring of the rotary support bearing 20 is fixed with a main frame 19, the gear 22 is driven by the first motor 23 and the second speed reducer 21 which are arranged on the main frame, and the rotary belt mechanism and the telescopic belt mechanism can be driven to synchronously rotate through the first motor 23.

The rotating belt mechanism can be rotated relative to the main support frame 24 by the rotating mechanism, and since the external teeth of the slewing bearing 20 are meshed with the gear 22 and driven by the first motor 23, the control of the rotating belt mechanism is realized, and the goods can be transferred from the transition belt 17 of the transition belt mechanism to the rotating belt 14 of the rotating belt mechanism or from the rotating belt 14 of the rotating belt mechanism to the transition belt 17 of the transition belt mechanism after the rotation.

The lower part of the telescopic belt mechanism is provided with a lifting mechanism, the lifting mechanism comprises an electric cylinder 8, and two ends of the electric cylinder 8 are respectively hinged with the telescopic belt mechanism and the rotary belt mechanism.

One end of the transition belt mechanism and the roller mechanism is fixed on the main frame 19, the roller mechanism comprises a side plate 26 for installing the roller 25, the front end of the side plate 26 is fixed on the main supporting frame 24, and a supporting leg 27 is installed below the rear end of the side plate 26.

With continued reference to fig. 1 and fig. 2, in the present embodiment, four belt racks are arranged from the left end to the right end, that is, the first belt rack 2, the second belt rack 4, the third belt rack 5, the fourth belt rack 7, and the two parallel left belts 29 and right belts 28 are respectively arranged from the front end to the rear end. Two front end rollers 1 and two rear end rollers 6 are installed on each section of belt rack, a left belt 29 and a right belt 28 respectively penetrate through the front end rollers 1 and the rear end rollers 6 of each section of belt rack, the driving rollers of the left belt 29 and the right belt 28 are the rear end rollers 6 on the fourth section of belt rack 7, the power of the left belt 29 and the power of the right belt 28 are respectively provided by a second motor 9 and a first speed reducer 10 through a transmission structure, the transmission mechanism is formed by a chain and a chain wheel in a matching mode, and goods in conveying can be straightened through adjusting the rotating speed of the left belt and the rotating speed of the right belt, so that stacking is facilitated. An operation panel is arranged at the front end of the second belt frame section, so that the operation and the control of a user are facilitated.

The first motor 23 and the second motor 9 both adopt servo motors, and the first speed reducer 10 and the second speed reducer 21 both adopt turbine speed reducers.

When the belt stretching mechanism is used, an operator can pull and control the position of the foremost belt rack on the side of the front end operation panel part of the belt stretching mechanism after starting the belt stretching mechanism, at the moment, the stretching of the belt stretching mechanism is realized by controlling the second motor 9 by the operation panel, and the stretching length is accurately positioned; the lifting height of the telescopic belt mechanism is controlled by the operation panel to control the electric cylinder 8, the lifting speed is high, and the lifting height is easy to control; the rotation angles of the belt rotating mechanism and the belt telescopic mechanism are realized by controlling the first motor 23 through the operation panel, and the rotation angle, the goods conveying direction and the stacking direction and position are accurately positioned. Because the power of each belt is provided by the independent second motor 9 and the independent first speed reducer 10 through the chain wheel transmission, the goods can be aligned in the conveying process by adjusting the rotating speed of the left belt 29 and the right belt 28, and then automatic stacking can be realized. The moving direction of the belt can be adjusted through the second motor 9, so that the loading and unloading of goods are realized. The manual work passes through operating panel, can thereby can be directly sign indicating number the goods, also can pass through the utility model discloses directly reverse transport the goods of sign indicating number, alleviateed workman's intensity of labour, improved the efficiency of goods handling.

The specific implementation materials and modes are selected by taking the specification attached drawing as a pattern, the implementation is carried out according to the positions and matching modes of all parts in the specification attached drawing, common connection modes such as welding, riveting, integral forming, clamping groove matching and the like are adopted, and the corresponding connection mode and the thickness and the strength of the connection point do not need to be creatively selected according to the actual connection strength requirement during actual manufacturing.

The technical contents not described in detail in the present invention are all known techniques.

Claims (8)

1. The rotatable telescopic belt conveyor comprises a main support frame, wherein a main frame is arranged on the main support frame, and the rotatable telescopic belt conveyor is characterized in that a transition belt mechanism and a rotating belt mechanism are arranged on the main frame; the rotary belt mechanism is provided with a rotary mechanism, the rotary mechanism is composed of a first motor, a gear, a second speed reducer and a slewing bearing with external teeth, the outer ring of the slewing bearing is fixed with the rotary belt mechanism, the inner ring of the slewing bearing is fixed with the main frame, the external teeth of the gear slewing bearing are meshed, the gear is driven by the first motor and the second speed reducer which are installed on the main frame, and the rotary belt mechanism and the telescopic belt mechanism can synchronously rotate; the telescopic belt mechanism is provided with a lifting mechanism consisting of an electric cylinder, and two ends of the electric cylinder are respectively hinged with the telescopic belt mechanism and the rotary belt mechanism; the telescopic belt mechanism comprises a plurality of sections of belt racks and two sets of belts, wherein each section of belt rack is provided with two front-end rollers and two rear-end rollers, the rear-end roller on the last section of belt rack is a driving roller, and the two driving rollers are respectively driven by two sets of power mechanisms.

2. The belt conveyor of claim 1, wherein the transition belt mechanism and the rotating belt mechanism are composed of an electric roller, a driven roller, a frame and a belt.

3. The rotatable telescopic belt conveyor of claim 1, wherein the lower parts of the rotary belt mechanism and the telescopic belt mechanism are provided with shells, the lower end of the electric cylinder is hinged with the bottom of the shell of the rotary belt mechanism, and the upper end of the electric cylinder is a free end of a piston rod and is hinged with the bottom of the shell of the telescopic belt mechanism.

4. The rotatable telescopic belt conveyor of claim 1, wherein the lifting mechanism comprises a second motor, a first speed reducer and a transmission structure matched with the driving roller, and the transmission structure is a chain wheel, a chain or a gear pair or a belt wheel and a belt.

5. The belt conveyor of claim 4, wherein the second motor is a servo motor and the first reducer is a turbine reducer.

6. The belt conveyor of claim 1, wherein the belt frame is provided with four sections, and an operation panel is installed at the front end of the second section of the belt frame.

7. The rotatable telescopic belt conveyor of claim 1, wherein a roller mechanism is arranged at the rear end of the transition belt mechanism, the roller mechanism comprises a side plate for mounting a roller, the front end of the side plate is fixed on the main support frame, and a support leg is mounted below the rear end of the side plate.

8. The rotatable telescopic belt conveyor of claim 1, wherein the first motor is a servo motor and the second reducer is a turbine reducer.

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