CN105775655A - Belt conveying device and carrier roller assembly thereof - Google Patents

Abstract

The invention provides a carrier roller assembly, and belongs to the technical field of belt conveyor equipment. The carrier roller assembly is used for being installed on a belt conveying device so as to support a conveyer belt of the belt conveying device. The carrier roller assembly comprises a connecting shaft and a plurality of elastic wheels. The elastic wheels are sequentially arranged on the connecting shaft in a sleeving mode so as to be connected together in series through the connecting shaft. The two ends of the connecting shaft are used for being connected with the belt conveying device. The invention further provides the belt conveying device using the carrier roller assembly. The carrier roller assembly of the belt conveying device is simple in structure and low in cost.

Description

Belt conveyor and idler assembly thereof

[technical field]

The present invention relates to ribbon conveyer equipment technical field, be specifically related to a kind of belt conveyor and idler assembly thereof.

[background technology]

Carrying roller is the vitals of ribbon conveyer, and kind is many, and quantity is big.It account for the 35% of a ribbon conveyer totle drilling cost, bears the resistance of more than 70%, and therefore the quality of carrying roller is particularly important.The effect of carrying roller is support belt and weight of material.Common carrying roller is trough idler, is that three independent rollers are leant on, and three rollers lean on one curve broken line of composition.Each roller lean on include roller carrier shaft, the metal roller that is sheathed on roller carrier shaft and the bearing composition being installed in metal roller, its structure is complicated, relatively costly.

[summary of the invention]

For above-mentioned Problems existing, it is necessary to provide a kind of simple in construction and idler assembly with low cost and adopt the belt conveyor of described idler assembly.

To achieve these goals, the technical solution used in the present invention is as follows:

A kind of idler assembly, for being arranged on belt conveyor to support the feed belt of described belt conveyor, described idler assembly includes connecting axle and multiple elastic wheel, the plurality of elastic wheel is sequentially sleeved on described connection axle, to be cascaded by described connection axle, the two ends of described connection axle are for being connected with described belt conveyor.

Further, the quantity connecting axle of described idler assembly is two, said two connects axle horizontal plane all relatively and arranges, the plurality of elastic wheel is divided into two groups, described two groups of elastic wheels are respectively sleeved at said two and connect on axle, lift face to be collectively forming for the V-type supporting described feed belt.

A kind of belt conveyor, including frame, feed belt and idler assembly, described feed belt activity is installed in described frame, described idler assembly is installed in described frame and across described feed belt, described idler assembly includes connecting axle and being positioned at multiple elastic wheels of lower section of described feed belt, the plurality of elastic wheel is sequentially sleeved on described connection axle to be cascaded by described connection axle, and the two ends of described connection axle are connected with described frame respectively.

Further, the quantity connecting axle of described belt conveyor is two, said two connects axle horizontal plane all relatively and arranges, the plurality of elastic wheel is divided into two groups, described two groups of elastic wheels are respectively sleeved at said two and connect on axle, lift face to be collectively forming for the V-type supporting described feed belt.

Further, described belt conveyor also includes being installed in the feed hopper above described feed belt, described feed hopper includes bottom and the perisporium being connected with described bottom peripheral edge, described bottom and described perisporium surround one jointly for storing the host cavity of material, described perisporium offers the discharging portion connected with described host cavity near described bottom place, described discharging portion is towards described feed belt, and described bottom relative level tilts, so that material arrives described discharging portion smoothly.

Further, the quantity of described feed belt is at least two, described belt conveyor also includes at least one transfer mechanism, each transfer mechanism is installed between adjacent two feed belt, each transfer mechanism includes transfer transport line, a gangway for transhipment is formed in described transfer transport line, described gangway for transhipment has charging aperture, described charging aperture is in order to receive the material that wherein a feed belt sends, the bottom of described gangway for transhipment is through is provided with interline counter, described interline counter is positioned at the top of another feed belt, and connects with described charging aperture.

Further, described gangway for transhipment is additionally provided with the discharging opening connected with described charging aperture, described discharging opening and described charging aperture lay respectively at the opposite sides of described interline counter, described transfer mechanism also includes baffle plate, described shutter is located on described interline counter and closes described interline counter, so that described charging aperture connects with described discharging opening；Or described baffle plate is blocked in described gangway for transhipment and between described interline counter and described discharging opening, to close described discharging opening and to make described charging aperture connect with described interline counter.

Further, described transfer transport line includes diapire and two sidewalls, and said two sidewall is connected to the opposite sides of described diapire, described diapire and said two sidewall and jointly surrounds described gangway for transhipment, and described interline counter is through to be opened on described diapire.

Further, described belt conveyor also includes the feeding machanism being installed in described feed belt end, described feeding machanism includes feed hopper, type of tamper evidence and actuator, it is provided with containing cavity in described feed hopper, tapping channel and feeder channel, described containing cavity towards described feed belt end to receive the material of described feed belt transmission, described tapping channel connects described containing cavity and described feeder channel, described type of tamper evidence is installed in described feeder channel actively, described actuator can drive described type of tamper evidence move to close in described feeder channel or open described tapping channel.

Further, described feeder channel relative level is obliquely installed.

Owing to adopting technique scheme, the method have the advantages that

1. the belt conveyor of the present invention, its idler assembly is formed by being sequentially sleeved at the multiple elastic wheels connected on axle, simple in construction and with low cost；And adopt multiple elastic wheel common support feed belt, it is possible to make feed belt entirety uniform force；Owing to elastic wheel has certain elasticity, it according to the stress size generation dough deformation of feed belt, therefore, can have certain cushioning effect.

2. the belt conveyor of the present invention, the discharging portion of its feed hopper is opened on the perisporium of feed hopper, it is possible to reduces the ore impact to feed belt, extends the service life of belt conveyor further.

3. the belt conveyor of the present invention utilizes transfer mechanism to realize the docking of multiple connecting gear, is conducive to Appropriate application production site；Transfer mechanism only includes a transfer transport line, the material that one of them connecting gear sends is received by the charging aperture of transfer transport line, and utilize the interline counter being arranged on bottom transfer pipeline to make material fall under gravity into another connecting gear to transmit, to realize the transfer of ore, its simple in construction, and floor space is little.

4. the belt conveyor of the present invention also arranges a baffle plate further in transfer transport line.When baffle plate be blocked in gangway for transhipment and between interline counter and discharging opening to close discharging opening time, charging aperture connects with interline counter so that material fall into via interline counter the feed belt of the second connecting gear proceeds conveying；When shutter is located on interline counter and when closing interline counter, charging aperture connects with discharging opening, so that ore exports via discharging opening.Therefore, by the conveying direction of the optional ore of the different installation sites of baffle plate, the universal performance of belt conveyor is added.

5. the belt conveyor of the present invention, its feeding machanism utilizes type of tamper evidence diverse location in feeder channel to control closing and the unlatching of tapping channel, and then is capable of feed quantitative, regular.

[accompanying drawing explanation]

Fig. 1 is the schematic diagram of the belt conveyor of embodiment of the present invention.

Fig. 2 is the structural representation of the feed hopper of belt conveyor shown in Fig. 1 and connecting gear part.

Fig. 3 is the structural representation of the connecting gear of belt conveyor shown in Fig. 1.

Fig. 4 is the structural representation of the transfer mechanism of belt conveyor shown in Fig. 1.

Fig. 5 is the structural representation of the feeding machanism of belt conveyor shown in Fig. 1.

Fig. 6 is the structural representation of the connecting gear of belt conveyor in another embodiment.

In accompanying drawing, 100-belt conveyor, 20-feed hopper, bottom 22-, 24-perisporium, 242-discharging portion, 40-connecting gear, 42-the first connecting gear, 44-frame, 45-feed belt, 46-idler assembly, 462-connects axle, 464-elastic wheel, 48-the second connecting gear, 60-transfer mechanism, 62-transfer transport line, 622-diapire, 624-sidewall, 64-baffle plate, 66-gangway for transhipment, 662-charging aperture, 664-discharging opening, 667-interline counter, 68-guard shield, 80-feeding machanism, 82-feed hopper, 823-containing cavity, 825-tapping channel, 827-feeder channel, 84-type of tamper evidence, 86-actuator, 200-refines ore deposit stove.

[detailed description of the invention]

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

It should be noted that be referred to as " being fixed on " another assembly when assembly, it can directly on another assembly or can also there is assembly placed in the middle.When an assembly is considered as " connection " another assembly, it can be directly to another assembly or may be simultaneously present assembly placed in the middle.When an assembly is considered as " being arranged at " another assembly, it can be set directly on another assembly or may be simultaneously present assembly placed in the middle.Term as used herein " vertical ", " level ", "left", "right" and similar statement are for illustrative purposes only.

Unless otherwise defined, all of technology used herein is identical with the implication that the those skilled in the art belonging to the present invention are generally understood that with scientific terminology.The term used in the description of the invention herein is intended merely to the purpose describing specific embodiment, it is not intended that in the restriction present invention.Term as used herein " and/or " include the arbitrary and all of combination of one or more relevant Listed Items.

Referring to Fig. 1, embodiment of the present invention provides a kind of belt conveyor 100, in order to material is sent to destination.In the present embodiment, belt conveyor 100 is for being sent to ore (not shown) in refining ore deposit stove 200.Belt conveyor 100 includes feed hopper 20, connecting gear 40 and feeding machanism 80.Feed hopper 20 is for housing ore to be conveyed；Connecting gear 40 connects feed hopper 20 and feeding machanism 80, in order to the ore in feed hopper 20 is sent to feeding machanism 80；Feeding machanism 80 is for carrying ore to be smelted to refining ore deposit stove 200.

Please also refer to Fig. 2, feed hopper 20 is substantially in funnel-form, and it includes bottom 22 and the perisporium 24 being connected with bottom 22 periphery.Bottom 22 and perisporium 24 surround one jointly for storing the host cavity (not shown) of ore.Perisporium 24 is provided with the discharging portion 242 connected with described host cavity near bottom 22 place, and discharging portion 242 is towards connecting gear 40.In the present embodiment, bottom 22 relative level tilts, so that ore arrives discharging portion 242 smoothly.

Referring again to Fig. 1, in the present embodiment, the quantity of connecting gear 40 is two, respectively the first connecting gear 42 and the second connecting gear 48.Wherein, one end of the first connecting gear 42 is positioned at the lower section of feed hopper 20；Second connecting gear 48 is installed in first connecting gear 42 angle away from one end of feed hopper 20 and with the first connecting gear 42 and is 90 °.Please referring also to Fig. 2 and Fig. 3, the first connecting gear 42 includes frame 44, feed belt 45 and along feed belt 45 multiple idler assemblies 46 spaced apart.Feed belt 45 activity is installed in frame 44, in order to support and to transmit the ore flowed out by discharging portion 242；Each idler assembly 46 is installed in frame 44 and across feed belt 45, in order to support feed belt 45.Each idler assembly 46 includes connecting axle 462 and being positioned at the multiple elastic wheels 464 below feed belt 45.Multiple elastic wheels 464 are sequentially sleeved on connection axle 462 to be cascaded by connection axle 462.The two ends connecting axle 462 are connected with frame 44 respectively.In the present embodiment, elastic wheel 464 is made up of rubber.It is appreciated that the first connecting gear 42 may also include the driving mechanism (not shown) for driving feed belt 45 to move, for omitting length, is not described in detail here.

The structure of the second connecting gear 48 is roughly the same with the structure of the first connecting gear 42, all include frame (not shown), feed belt (not shown) and along feed belt multiple idler assembly (not shown) spaced apart, for omitting length, it is not described in detail here.

Referring again to Fig. 1, belt conveyor 100 also includes the transfer mechanism 60 being installed between the first connecting gear 42 and the second connecting gear 48, and transfer mechanism 60 is carried on the second connecting gear 48 for being transferred load to by the ore transmitted at the first connecting gear 42.Referring to Fig. 4, transfer mechanism 60 includes transfer transport line 62 and baffle plate 64.In the present embodiment, transfer transport line 62 relative level is obliquely installed, and it includes diapire 622 and two sidewalls 624.Diapire 622 and two all generally rectangular tabulars of sidewall 624, wherein, two sidewalls 624 are connected to the opposite sides of diapire 622, jointly to surround the gangway for transhipment 66 with a charging aperture 662 and a discharging opening 664.Wherein, charging aperture 662 is positioned at the first connecting gear 42 one end away from feed hopper 20, in order to receive the ore that the first connecting gear 42 sends.Through on diapire 622 it is provided with interline counter 667.Interline counter 667 is between charging aperture 662 and discharging opening 664, and is positioned at above the feed belt of the second connecting gear 48.The generally rectangular tabular of baffle plate 64, it is blocked in gangway for transhipment 66 and to close discharging opening 664 between interline counter 667 and discharging opening 664, and then charging aperture 662 is connected with interline counter 667, so that ore falls into via interline counter 667 proceeds conveying on the feed belt of the second connecting gear 48；Or baffle plate 64 can cover and be located on interline counter 667 and close interline counter 667, now charging aperture 662 connects with discharging opening 664, so that ore via discharging opening 664 output and is finally piled up in discharging opening 664 place.

In the present embodiment, guard shield 68 also it is equiped with between interline counter 667 and the second connecting gear 48, in order to lead to by the ore of interline counter 667, so that ore arrives on the feed belt of the second connecting gear 48 smoothly, and splashing of ore can be reduced.

Please referring also to Fig. 1 and Fig. 5, feeding machanism 80 is installed in the second connecting gear 48 one end away from the first connecting gear 42, and it includes feed hopper 82, type of tamper evidence 84 and actuator 86.Containing cavity 823, tapping channel 825 and feeder channel 827 it is provided with in feed hopper 82.Containing cavity 823 is towards the feed belt of the second connecting gear 48, in order to receive the ore of the second connecting gear 48 transmission；Tapping channel 825 connects containing cavity 823 and feeder channel 827.Type of tamper evidence 84 is installed in feeder channel 827 actively.Actuator 86 is connected with type of tamper evidence 84, is used for driving type of tamper evidence 84 to move in feeder channel 827.When actuator 86 drives type of tamper evidence 84 to move to a feed position, tapping channel 825 connects with feeder channel 827, and now, ore is entered in refining ore deposit stove 200 via tapping channel 825 and feeder channel 827 by feed hopper 82 to be smelted；When the ore refined in ore deposit stove 200 is saturated, actuator 86 drives type of tamper evidence 84 to move to a detent position, and type of tamper evidence 84 blocks tapping channel 825, and now, feeding machanism 80 stops feed in refining ore deposit stove 200, and then realizes the quantitative feeding to refining ore deposit stove 200.In the present embodiment, feeder channel 827 relative level is obliquely installed, to reduce the resistance that type of tamper evidence 84 is moved in feeder channel 827.Specifically, the range of tilt angles of feeder channel 827 relative level is 25 °-60 °.In the present embodiment, the angle of inclination of feeder channel 827 relative level is 50 °.

It is appreciated that belt conveyor 100 can also be used for transmitting unclassified stores.

Being appreciated that the quantity of connecting gear 40 can be set to one or more than two according to actual needs, now transfer mechanism 60 is also set to the quantity of correspondence accordingly.Angle between first connecting gear 42 and the second connecting gear 48 is also not necessarily limited to 90 °, it is possible to be set to other angle values according to actual needs.

Being appreciated that discharging opening 664 can omit when having only to from the first connecting gear 42, ore is transferred load to the second connecting gear 48, now ore directly falls into via interline counter 667 on the feed belt of the second connecting gear 48.It is appreciated that discharging opening 664 also can dock with the feed belt of another connecting gear, the ore sent via discharging opening 664 to be sent to another object ground.

Referring to Fig. 6, as the improvement to the present embodiment, in another embodiment, the quantity connecting axle 462 could be arranged to two.Two connect axle 462 and are all relatively installed in frame 44 horizontal plane.Multiple elastic wheels 464 are divided into two groups, two groups of elastic wheels 464 are respectively sleeved at two and connect on axle 462, face is lifted for the V-type supporting feed belt 45 to be collectively forming, so that feed belt 45 forms the ditching type structure of V-type, and then increase the matter-loading amount of connecting gear 40, the conveying capacity of belt elevator conveyer device 100, is conducive to improving production efficiency.

Described above is the detailed description for the present invention preferably possible embodiments, but embodiment is not limited to the patent claim of the present invention, the equal change completed under technical spirit suggested by all present invention or modification are changed, and all should belong to the contained the scope of the claims of the present invention.

Claims (10)

1. an idler assembly, for being arranged on belt conveyor to support the feed belt of described belt conveyor, it is characterized in that: described idler assembly includes connecting axle and multiple elastic wheel, the plurality of elastic wheel is sequentially sleeved on described connection axle, to be cascaded by described connection axle, the two ends of described connection axle are for being connected with described belt conveyor.

2. idler assembly as claimed in claim 1, it is characterized in that: the quantity of described connection axle is two, said two connects axle horizontal plane all relatively and arranges, the plurality of elastic wheel is divided into two groups, described two groups of elastic wheels are respectively sleeved at said two and connect on axle, lift face to be collectively forming for the V-type supporting described feed belt.

3. a belt conveyor, including frame, feed belt and idler assembly, described feed belt activity is installed in described frame, described idler assembly is installed in described frame and across described feed belt, it is characterized in that: described idler assembly includes connecting axle and being positioned at multiple elastic wheels of lower section of described feed belt, the plurality of elastic wheel is sequentially sleeved on described connection axle to be cascaded by described connection axle, and the two ends of described connection axle are connected with described frame respectively.

4. belt conveyor as claimed in claim 3, it is characterized in that: the quantity of described connection axle is two, said two connects axle horizontal plane all relatively and arranges, the plurality of elastic wheel is divided into two groups, described two groups of elastic wheels are respectively sleeved at said two and connect on axle, lift face to be collectively forming for the V-type supporting described feed belt.

5. belt conveyor as claimed in claim 3, it is characterized in that: described belt conveyor also includes being installed in the feed hopper above described feed belt, described feed hopper includes bottom and the perisporium being connected with described bottom peripheral edge, described bottom and described perisporium surround one jointly for storing the host cavity of material, described perisporium offers the discharging portion connected with described host cavity near described bottom place, described discharging portion is towards described feed belt, described bottom relative level tilts, so that material arrives described discharging portion smoothly.

6. belt conveyor as claimed in claim 3, it is characterized in that: the quantity of described feed belt is at least two, described belt conveyor also includes at least one transfer mechanism, each transfer mechanism is installed between adjacent two feed belt, each transfer mechanism includes transfer transport line, a gangway for transhipment is formed in described transfer transport line, described gangway for transhipment has charging aperture, described charging aperture is in order to receive the material that wherein a feed belt sends, the bottom of described gangway for transhipment is through is provided with interline counter, described interline counter is positioned at the top of another feed belt, and connect with described charging aperture.

7. belt conveyor as claimed in claim 6, it is characterized in that: described gangway for transhipment is additionally provided with the discharging opening connected with described charging aperture, described discharging opening and described charging aperture lay respectively at the opposite sides of described interline counter, described transfer mechanism also includes baffle plate, described shutter is located on described interline counter and closes described interline counter, so that described charging aperture connects with described discharging opening；Or described baffle plate is blocked in described gangway for transhipment and between described interline counter and described discharging opening, to close described discharging opening and to make described charging aperture connect with described interline counter.

8. belt conveyor as claimed in claim 6, it is characterized in that: described transfer transport line includes diapire and two sidewalls, said two sidewall is connected to the opposite sides of described diapire, described diapire and said two sidewall surround described gangway for transhipment jointly, and described interline counter is through to be opened on described diapire.

9. belt conveyor as claimed in claim 3, it is characterized in that: described belt conveyor also includes being installed in the feeding machanism of described feed belt end, described feeding machanism includes feed hopper, type of tamper evidence and actuator, it is provided with containing cavity in described feed hopper, tapping channel and feeder channel, described containing cavity towards described feed belt end to receive the material of described feed belt transmission, described tapping channel connects described containing cavity and described feeder channel, described type of tamper evidence is installed in described feeder channel actively, described actuator can drive described type of tamper evidence move to close in described feeder channel or open described tapping channel.

10. belt conveyor as claimed in claim 9, it is characterised in that: described feeder channel relative level is obliquely installed.