CN203601907U - Lifting belt conveyor - Google Patents

Abstract

The utility model discloses a lifting belt conveyor which comprises a conveyor belt, a driving motor, a controller, a first telescopic support set, a second telescopic support set and a third telescopic support set. The telescopic support sets are composed of a plurality of telescopic supports. Each telescopic support comprises a supporting barrel and a lifting rod. A plurality of symmetrical gears are arranged on the inner wall of each supporting barrel. Gear teeth are arranged on each lifting rod, one end of each lifting rod is arranged between the symmetrical gears inside the corresponding supporting barrel, and the other end of each lifting rod is movably connected with the conveyor belt. The controller is connected with the driving motor, and the driving motor controls the lifting rods to ascend and descend through the gears and the gear teeth. The first telescopic support set, the second telescopic support set and the third telescopic support set are arranged below the feeding end, the middle end and the discharging end of the conveyor belt respectively. According to the lifting belt conveyor, lifting stability of the conveyor belt is improved, and the conveyor belt can ascend and descend automatically in a one-key mode.

Description

Lifting mode band conveyor

Technical field

The utility model belongs to conveying machinery field, relates in particular to a kind of lifting mode band conveyor.

Background technology

Band conveyor is a kind of friction-driven machinery of transported material in a continuous manner, is mainly made up of frame, load-transfer device, carrying roller, cylinder, tightening device, driving device etc.It can, by material on certain travel line, put the conveying flow process that forms a kind of material between final emptying point from initial feed.It both can carry out the conveying of broken loose material, also can carry out the conveying of work piece.Except carrying out pure mass transport, can also match with the requirement of the technological process in each industrial enterprise production procedure, form rhythmical Detroit automation lane of traffic.But existing band conveyor or can only horizontal feed material, convey materials can only tilt, and exchange between can not and tilting to carry in horizontal feed, in the time that needs transport material to multiple emptying point with certain altitude, often need many band conveyors to coordinate the conveying that just can complete material, transport efficiency is extremely low.

In order to address the above problem, following technology is proposed in prior art:

As China Patent No. " 200620139386.5 " discloses a kind of band conveyor, its open day is on December 12nd, 2007, its technical scheme is that described band conveyor is by motor, load-transfer device, cylinder, carrying roller composition, the both sides of described this load-transfer device are provided with plate rolls frame, and the edge of described plate rolls frame, higher than load-transfer device, forms one with load-transfer device between described two straight board mounts and carries groove, described plate rolls frame segmental structure, chain connection between each plate rolls frame.Described plate rolls frame bottom is provided with lifting support, and lifting support bottom is provided with road wheel.

But the prior art take above-mentioned patent document as representative, in actual use, still exists following defect: the road wheel that, lifting support bottom arranges, cause the location difficulty of whole conveyer, and conveyer is easily shifted in course of conveying.Two, be subject to the restriction of road wheel and lifting support structure, the height that this conveyer can promote is lower.Three, can not locate fast the height that needs lifting, and it is slower to complete lifting process.

Utility model content

The purpose of this utility model is to overcome the above-mentioned problems in the prior art, and a kind of lifting mode band conveyor is provided, and stability when the utility model has not only improved load-transfer device lifting can also the one-touch lifting that automatically completes load-transfer device.

For achieving the above object, the technical solution adopted in the utility model is as follows:

A kind of lifting mode band conveyor, it is characterized in that: comprise load-transfer device, drive motor, controller, the first telescope support group, the second telescope support group and the 3rd telescope support group, described telescope support group is made up of multiple telescope supports, each telescope support comprises support tube and lifting bar, on the inwall of described support tube, be provided with the gear of some symmetries, on described lifting bar, be provided with the gear teeth, one end of lifting bar is set between gear symmetrical in support tube, the other end is flexibly connected with load-transfer device, described controller is connected with drive motor, described drive motor is by the lifting of gear and gear teeth control lifting bar, described the first telescope support group, the second telescope support group and the 3rd telescope support group are separately positioned on the below of load-transfer device feed end, middle-end and throw-off end.

In described the first telescope support group, the length of lifting bar is less than the length of lifting bar in the second telescope support group, and in described the second telescope support group, the length of lifting bar is less than the length of lifting bar in the 3rd telescope support group.

In described the first telescope support group, the second telescope support group and the 3rd telescope support group, the quantity of telescope support is 6, wherein, 6 telescope supports in the first telescope support group are divided into three row's correspondences and are arranged on front portion, middle part and the rear portion of load-transfer device feed end, 6 telescope supports in the second telescope support group are divided into three row's correspondences and are arranged on front portion, middle part and the rear portion of load-transfer device middle-end, and 6 telescope supports in the 3rd telescope support group are divided into three row's correspondences and are arranged on front portion, middle part and the rear portion of load-transfer device throw-off end.

In described each telescope support group, the length of lifting bar increases progressively successively in 10% ratio.

The quantity of described drive motor is three, and three drive motor are connected with the gear in controller and three telescope support groups respectively.

On described load-transfer device, be equipped with slipmat layer, on described anti-skidding bed course, be provided with some projections.

Employing the utility model has the advantage of:

One, in the utility model, by three groups of below telescope supports that are separately positioned on load-transfer device feed end, middle-end and throw-off end, can provide stable support to load-transfer device, make the stability of load-transfer device in the time of lifting better; By gear and the intermeshing conveyor elevator of the gear teeth, make conveyer there is rising or falling speed soon and lifting process advantage more stably; Unify to control the lifting of load-transfer device by controller, make load-transfer device one-touchly automatically to complete lifting, the operation of conveyer is more simple and efficient, can convert in horizontal feed with between tilting to carry rapidly, not only degree of automation is higher, also helps raising transport efficiency.

Two, in the utility model, in described the first telescope support group, the length of lifting bar is less than the length of lifting bar in the second telescope support group, in described the second telescope support group, the length of lifting bar is less than the length of lifting bar in the 3rd telescope support group, and this structure is conducive to the elevated height get Geng Gao of load-transfer device throw-off end.

Three, in the utility model, described the first telescope support group, in the second telescope support group and the 3rd telescope support group, the quantity of telescope support is 6, wherein, 6 telescope supports in the first telescope support group lay respectively at the front portion of load-transfer device feed end, middle part and rear portion, 6 telescope supports in the second telescope support group lay respectively at the front portion of load-transfer device middle-end, middle part and rear portion, 6 telescope supports in the 3rd telescope support group lay respectively at the front portion of load-transfer device throw-off end, middle part and rear portion, this structure not only makes the lifting process of load-transfer device more steady, also make each group of telescope support stressed evenly, to the support of load-transfer device stability more, can bear the conveying compared with heavy material, be conducive to improve the service life of telescope support.

Four, in the utility model, in described each telescope support group, the length of lifting bar increases progressively successively in 10% ratio, and this structure can, by one times of the load-transfer device elevated height of throw-off end, significantly improve the adjustable height of load-transfer device.

Five, in the utility model, the quantity of described drive motor is three, three drive motor are connected with the gear in controller and three telescope support groups respectively, control respectively three telescope support groups by three drive motor, be conducive to accurately control the adjustable height of lifting bar in each telescope support group.

Six, in the utility model, be equipped with slipmat layer on described load-transfer device, on described anti-skidding bed course, be provided with some projections, this structure can increase the friction force of material on load-transfer device, prevents that material from skidding.

Accompanying drawing explanation

Fig. 1 is the structural representation before load-transfer device lifting in the utility model.

Fig. 2 is the structural representation after load-transfer device lifting in the utility model.

Being labeled as in figure: 1, load-transfer device, 2, drive motor, 3, controller, 4, the first telescope support group, 5, the second telescope support group, 6, the 3rd telescope support group, 7, support tube, 8, lifting bar, 9, anti-skidding bed course.

The specific embodiment

Embodiment 1

A kind of lifting mode band conveyor, comprise load-transfer device 1, drive motor 2, controller 3, the first telescope support group 4, the second telescope support group 5 and the 3rd telescope support group 6, described telescope support group is made up of multiple telescope supports, each telescope support comprises support tube 7 and lifting bar 8, on the inwall of described support tube 7, be provided with the gear of some symmetries, on described lifting bar 8, be provided with the gear teeth, one end of lifting bar 8 is set between the gear of support tube 7 interior symmetries, the other end is flexibly connected with load-transfer device 1, described controller 3 is connected with drive motor 2, described drive motor 2 is by the lifting of gear and gear teeth control lifting bar 8, described the first telescope support group 4, the second telescope support group 5 and the 3rd telescope support group 6 are separately positioned on the below of load-transfer device 1 feed end, middle-end and throw-off end.

The preferred implementation of the present embodiment is that in described three telescope support groups, the length of support tube 7 is identical, and the length of support tube 7 is greater than the length of lifting bar 8; In described the first telescope support group 4, the length of lifting bar 8 is less than the length of lifting bar 8 in the second telescope support group 5, in described the second telescope support group 5, the length of lifting bar 8 is less than the length of lifting bar 8 in the 3rd telescope support group 6, and in each telescope support group, the length of lifting bar 8 increases progressively successively in 10% ratio.In this embodiment, throw-off end that not only can conveyor elevator 1, feed end that can also conveyor elevator 1, when both promote simultaneously, can reduce the degree of dip of load-transfer device 1, avoids material to skid.But be not limited to above-mentioned optimal way, for example lifting bar 8 length in three telescope support groups also can be identical.

Embodiment 2

The present embodiment and above-described embodiment are basic identical, the key distinction is: described the first telescope support group 4, in the second telescope support group 5 and the 3rd telescope support group 6, the quantity of telescope support is 6, wherein, 6 telescope supports in the first telescope support group 4 between two symmetry are lined up two rows below load-transfer device 1, and the corresponding front portion that is arranged on load-transfer device 1 feed end respectively, middle part and rear portion, 6 telescope supports in the second telescope support group 5 between two symmetry are lined up two rows below load-transfer device 1, and the corresponding front portion that is arranged on load-transfer device 1 middle-end respectively, middle part and rear portion, 6 telescope supports in the 3rd telescope support group 6 between two symmetry are lined up two rows below load-transfer device 1, and the corresponding front portion that is arranged on load-transfer device 1 throw-off end respectively, middle part and rear portion, better to the stability of strutting system of load-transfer device 1 to guarantee telescope support.

Embodiment 3

The present embodiment and above-described embodiment are basic identical, and the key distinction is: the quantity of described drive motor 2 is three, and three drive motor 2 are connected with the gear in controller 3 and three telescope support groups respectively, so that three telescope support groups are controlled separately.

Embodiment 4

The present embodiment and above-described embodiment are basic identical, and the key distinction is: on described load-transfer device 1, be equipped with slipmat layer 9, on described anti-skidding bed course 9, be provided with some projections.Wherein, anti-skidding bed course 9 is preferably bolted on load-transfer device 1, so that according to the difference of convey materials, change the anti-skidding bed course 9 that projection varies in size.

In the utility model, the inner chamber of described support tube 7 is preferably square cavities, on described square cavities sidewall, offer the mounting groove of two row's symmetries, gear is arranged in mounting groove, three drive motor 2 are respectively used to drive three gears in telescope support group to rotate, and controller 3 is connected respectively the lifting of controlling lifting bar 8 for unified with three drive motor 2.When conveyor elevator 1, can in controller 3, input in advance lifting bar 8 in each telescope support group needs the height of lifting, and then startup drive motor 2, drive motor 2 drives the gear in support tube 7 to rotate, gear drives lifting bar 8 to rise or decline by the gear teeth that are meshed with it, thereby makes conveyer complete fast lifting.

Claims (6)

1. a lifting mode band conveyor, it is characterized in that: comprise load-transfer device (1), drive motor (2), controller (3), the first telescope support group (4), the second telescope support group (5) and the 3rd telescope support group (6), described telescope support group is made up of multiple telescope supports, each telescope support comprises support tube (7) and lifting bar (8), on the inwall of described support tube (7), be provided with the gear of some symmetries, described lifting bar is provided with the gear teeth on (8), one end of lifting bar (8) is set between gear symmetrical in support tube (7), the other end is flexibly connected with load-transfer device (1), described controller (3) is connected with drive motor (2), described drive motor (2) is by the lifting of gear and gear teeth control lifting bar (8), described the first telescope support group (4), the second telescope support group (5) and the 3rd telescope support group (6) are separately positioned on the below of load-transfer device (1) feed end, middle-end and throw-off end.

2. lifting mode band conveyor as claimed in claim 1, it is characterized in that: in described the first telescope support group (4), the length of lifting bar (8) is less than the length of lifting bar (8) in the second telescope support group (5), in described the second telescope support group (5), the length of lifting bar (8) is less than the length of lifting bar (8) in the 3rd telescope support group (6).

3. lifting mode band conveyor as claimed in claim 1 or 2, it is characterized in that: described the first telescope support group (4), in the second telescope support group (5) and the 3rd telescope support group (6), the quantity of telescope support is 6, wherein, 6 telescope supports in the first telescope support group (4) are divided into three row's correspondences and are arranged on the front portion of load-transfer device (1) feed end, middle part and rear portion, 6 telescope supports in the second telescope support group (5) are divided into three row's correspondences and are arranged on the front portion of load-transfer device (1) middle-end, middle part and rear portion, 6 telescope supports in the 3rd telescope support group (6) are divided into three row's correspondences and are arranged on the front portion of load-transfer device (1) throw-off end, middle part and rear portion.

4. lifting mode band conveyor as claimed in claim 3, is characterized in that: in described each telescope support group, the length of lifting bar (8) increases progressively successively in 10% ratio.

5. lifting mode band conveyor as claimed in claim 1 or 2, is characterized in that: the quantity of described drive motor (2) is three, and three drive motor (2) are connected with the gear in controller (3) and three telescope support groups respectively.

6. lifting mode band conveyor as claimed in claim 1, is characterized in that: on described load-transfer device (1), be equipped with slipmat layer (9), on described anti-skidding bed course (9), be provided with some projections.

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