CN204453656U - A kind of circular pipe belt type conveyer and anti-stacked belting thereof - Google Patents

Abstract

The utility model discloses a kind of circular pipe belt type conveyer and anti-stacked belting thereof, anti-stacked belting comprises: support; Be arranged at described support and multiple idler machining for holding load-transfer device lower surface, idler machining described in each is equipped with middle carrying roller and is arranged at the side carrying roller at two ends of described middle carrying roller; Be arranged at the head of the transition phase of circular pipe belt type conveyer and be arranged at two the first pressure rollers of the upper surface of load-transfer device both sides respectively; Be arranged at the middle part of described transition phase and be arranged at two the second pressure rollers of the upper surface of load-transfer device both sides respectively; Be arranged at the afterbody of described transition phase and be arranged at two the 3rd pressure rollers of the upper surface of load-transfer device both sides respectively.So arrange the anti-stacked belting of the circular pipe belt type conveyer that the utility model provides, it can make load-transfer device be flat-shaped or in the process of circular tube shaped in transition, natural transition, and then avoids the problem producing because of load-transfer device discontinuity and reverse sideslip.

Description

A kind of circular pipe belt type conveyer and anti-stacked belting thereof

Technical field

The utility model relates to feedway technical field, particularly a kind of circular pipe belt type conveyer and anti-stacked belting thereof.

Background technology

Circular pipe belt type conveyer is that a kind of load-transfer device is led by carrying roller, becomes circular tube shaped gradually by flat pattern band, to reach the feedway of sealing conveying.

Load-transfer device is transitioned into flat-shaped at the head transition phase of conveyer from circular tube shaped, be transitioned into circular tube shaped at the afterbody of conveyer by flat-shaped.Please refer to Fig. 1, Fig. 1 is a kind of circular pipe belt type conveyer schematic diagram of the prior art.

Circular pipe belt type conveyer is provided with anti-stacked belting at the transition phase of head and afterbody, and this anti-stacked belting comprises door frame 1, left block roller 201, right block roller 202 and left carrying roller 401 and right carrying roller 402.

In order to make load-transfer device 12 launch or Cheng Yuan in prior art, usually the mode by increasing carrying roller realizes, such as, conveyer shown in Fig. 1, in order to load-transfer device 12 can be launched, being provided with in load-transfer device 12 left and right sides that roller 301 is opened on a left side, roller 302 is opened on the right side, by opening the effect of roller, the load-transfer device of circular tube shaped being launched.

But, by increasing carrying roller, load-transfer device is launched or Cheng Yuan, the adverse effect produced is: because load-transfer device produces stressed changing greatly when running to set up carrying roller, adhesive tape launches naturally, does not unfold, adhesive tape may be caused to reverse sideslip run, serious stacked strips, the anti-problem such as to take will occur.

Therefore, the load-transfer device how solving circular pipe belt type conveyer in prior art launches or rolls problem that is unnatural, that do not unfold, becomes those skilled in the art's important technological problems to be solved.

Utility model content

The utility model provides a kind of anti-stacked belting of circular pipe belt type conveyer, and it can make load-transfer device be flat-shaped or in the process of circular tube shaped in transition, natural transition, and then avoids the problem producing because of load-transfer device discontinuity and reverse sideslip.The utility model additionally provides a kind of circular pipe belt type conveyer comprising above-mentioned anti-stacked belting.

The anti-stacked belting of the circular pipe belt type conveyer that the utility model provides, comprising:

Support;

Be arranged at described support and multiple idler machining for holding load-transfer device lower surface, idler machining described in each is equipped with middle carrying roller and is arranged at the side carrying roller at two ends of described middle carrying roller, and the angle between two described side carrying rollers and described middle carrying roller is obtuse angle; Along the throughput direction of load-transfer device, the angle between described side carrying roller and described middle carrying roller increases gradually or reduces gradually;

Be arranged at the head of the transition phase of circular pipe belt type conveyer and be arranged at two the first pressure rollers of the upper surface of load-transfer device both sides respectively;

Be arranged at the middle part of described transition phase and be arranged at two the second pressure rollers of the upper surface of load-transfer device both sides respectively;

Be arranged at the afterbody of described transition phase and be arranged at two the 3rd pressure rollers of the upper surface of load-transfer device both sides respectively; Along the throughput direction of load-transfer device, the angle of described first pressure roller, described second pressure roller and described 3rd pressure roller and horizontal surface increases gradually or reduces gradually.

Preferably, the axial line of described middle carrying roller is positioned at horizontal surface, and two the described side carrying rollers being positioned at same described middle carrying roller two ends are equal with the angle of described middle carrying roller.

Preferably, at load-transfer device by the flat-shaped transition phase being transitioned into circular tube shaped, the actual curve that load-transfer device makes described load-transfer device be formed held by two described side carrying rollers at middle carrying roller and its two ends, higher than the theoretical curve of load-transfer device.

Preferably, described support comprises door frame, for supporting the carrier roller frame of idler machining described in each and being linked together by carrier roller frame described in each and the link span supported by described door frame.

Preferably, described link span comprises two longerons be arranged in parallel, and one end of described longeron is fixedly connected with the position, both sides of described door frame; Described carrier roller frame comprises two vertical beams of the crossbeam be connected between two longerons and the end positions being fixedly installed on described crossbeam respectively; Described crossbeam is provided with the first pivot shaft for supporting described middle carrying roller, and described vertical beam is connected with the second pivot shaft for supporting described side carrying roller.

The utility model additionally provides a kind of circular pipe belt type conveyer, comprises the anti-stacked belting as above described in any one.

The anti-stacked belting that the utility model provides, be arranged at the load-transfer device crossover position of circular pipe belt type conveyer, namely load-transfer device is the flat-shaped of converyor roller at the head position of conveyer by circular tube shaped transition, load-transfer device is transitioned into circular tube shaped at the tail position of conveyer from the flat-shaped of cylinder, the anti-stacked belting that the utility model provides is respectively equipped with at the head of conveyer and afterbody, multiple idler machining distributes along the throughput direction of load-transfer device, each idler machining comprises middle carrying roller, and be arranged at the side carrying roller at two ends of middle carrying roller, and the angle between two side carrying rollers and middle carrying roller is obtuse angle.At the transition phase that circular tube shaped transition is flat-shaped, along the throughput direction of load-transfer device, the angle between side carrying roller and middle carrying roller increases gradually, and be the transition phase of circular tube shaped in flat-shaped transition, the angle between side carrying roller and middle carrying roller reduces gradually.And, the first pressure roller, the second pressure roller and the 3rd pressure roller is respectively equipped with above the both sides of the head of load-transfer device transition phase, middle part and afterbody, at the transition phase that circular tube shaped transition is flat-shaped, along the throughput direction of load-transfer device, the angle of the first pressure roller, the second pressure roller and the 3rd pressure roller and horizontal surface reduces gradually; Be the transition phase of circular tube shaped in flat-shaped transition, along the throughput direction of load-transfer device, the angle of the first pressure roller, the second pressure roller and the 3rd pressure roller and horizontal surface increases gradually.It should be noted that, each idler machining above-mentioned, the first pressure roller, the second pressure roller and the 3rd pressure roller are for guiding load-transfer device, when load-transfer device generation sideslip trend, for eliminating the sideslip trend of load-transfer device, in the normal course of conveying of load-transfer device, squeezing action is not formed to load-transfer device.By the mating reaction of pressure roller and idler machining, make load-transfer device cylinder with become circle carrying roller between natural transition, because of arranging extra idler machining or supporting owing to lacking corresponding idler machining and cause adhesive tape to be in operation reversing and sideslip because unbalance stress produces, thus can not effectively avoid the stacked strips of adhesive tape, the anti-fault such as to take.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is a kind of circular pipe belt type conveyer schematic diagram of the prior art

Fig. 2 is anti-stacked belting first position schematic diagram in the utility model detailed description of the invention;

In Fig. 2:

Support-11, idler machining-12, the second pressure roller-13, middle carrying roller-14, carrying roller-15, side.

Detailed description of the invention

This detailed description of the invention provides a kind of anti-stacked belting of circular pipe belt type conveyer, and it can make load-transfer device be flat-shaped or in the process of circular tube shaped in transition, natural transition, and then avoids the problem producing because of load-transfer device discontinuity and reverse sideslip.This detailed description of the invention additionally provides a kind of circular pipe belt type conveyer comprising above-mentioned anti-stacked belting.

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Please refer to Fig. 2, the anti-stacked belting that this detailed description of the invention provides, for circular pipe belt type conveyer, comprises support 11, multiple idler machining 12, first pressure roller (not shown), the second pressure roller 13 and the 3rd pressure roller (not shown).

Idler machining 12 is arranged on for holding load-transfer device lower surface on support 11, and each idler machining 12 is equipped with middle carrying roller 14 and is arranged at the side carrying roller 15 at two ends of middle carrying roller 14, and the angle between two side carrying rollers 15 and middle carrying roller 14 is obtuse angle; Along the throughput direction of load-transfer device, the angle between side carrying roller 15 and middle carrying roller 14 increases gradually or reduces gradually.

Two the first pressure rollers are arranged at the head of the transition phase of circular pipe belt type conveyer and are arranged at the upper surface of load-transfer device both sides respectively; Two the second pressure rollers 13 are arranged at the middle part of transition phase and are arranged at the upper surface of load-transfer device both sides respectively; Two the 3rd pressure rollers are arranged at the afterbody of transition phase and are arranged at the upper surface of load-transfer device both sides respectively; And along the throughput direction of load-transfer device, the angle of the first pressure roller, the second pressure roller 13 and the 3rd pressure roller and horizontal surface increases gradually or reduces gradually.

It should be noted that, above-mentioned transition phase refers to that load-transfer device is flat-shaped transition phase by circular tube shaped transition, and load-transfer device is the transition phase of circular tube shaped by flat-shaped transition.

The anti-stacked belting that this detailed description of the invention provides, be arranged at the load-transfer device crossover position of circular pipe belt type conveyer, load-transfer device is the flat-shaped of converyor roller at the head position of conveyer by circular tube shaped transition, load-transfer device is transitioned into circular tube shaped at the tail position of conveyer from the flat-shaped of cylinder, is respectively equipped with at the head of conveyer and afterbody the anti-stacked belting that the utility model provides.

At the transition phase that circular tube shaped transition is flat-shaped, along the throughput direction of load-transfer device, the angle between side carrying roller 15 and middle carrying roller 14 increases gradually, and be the transition phase of circular tube shaped in flat-shaped transition, the angle between side carrying roller 15 and middle carrying roller 14 reduces gradually.

At the transition phase that circular tube shaped transition is flat-shaped, along the throughput direction of load-transfer device, the angle of the first pressure roller, the second pressure roller 13 and the 3rd pressure roller and horizontal surface reduces gradually; Be the transition phase of circular tube shaped in flat-shaped transition, along the throughput direction of load-transfer device, the angle of the first pressure roller, the second pressure roller 13 and the 3rd pressure roller and horizontal surface increases gradually.

It should be noted that, above-mentioned each idler machining 12, first pressure roller, the second pressure roller 13 and the 3rd pressure roller are for guiding load-transfer device, when load-transfer device generation sideslip trend, for eliminating the sideslip trend of load-transfer device, in the normal course of conveying of load-transfer device, squeezing action is not formed to load-transfer device.By the mating reaction of pressure roller and idler machining 12, make load-transfer device cylinder with become circle carrying roller between natural transition, because of arranging extra idler machining or supporting owing to lacking corresponding idler machining and cause adhesive tape to be in operation reversing and sideslip because unbalance stress produces, thus can not effectively avoid the stacked strips of adhesive tape, the anti-fault such as to take.

In addition, in this detailed description of the invention, the axial line of middle carrying roller 14 is positioned at horizontal surface, and the side carrying roller 15 at the two ends of middle carrying roller 14 is equal with the angle of middle carrying roller 14.Setting like this, middle carrying roller 14 is positioned at horizontal surface, when load-transfer device occurs curling, middle carrying roller 14 is for holding the most bottom surface of load-transfer device, curling load-transfer device two side position contacts with two side carrying rollers 15 respectively, because two side carrying rollers 15 are equal with the angle of middle carrying roller 14, therefore, load-transfer device two side position can be guided to roll angle equal, prevent belt deflection; When load-transfer device is transitioned into flat-shaped by circular tube shaped, belt deflection can be prevented equally.

In addition, it should be noted that, the service direction of conveyer is observed, and load-transfer device is be transitioned into the flat-shaped of cylinder from circular tube shaped at the head transition phase of conveyer; Be transitioned into circular tube shaped from the flat-shaped of cylinder at afterbody transition phase.In the transition change process of adhesive tape, have a load-transfer device theoretical curve.

Because load-transfer device has deadweight, and load-transfer device will have necessarily sagging when mass transport, pass through at load-transfer device by the flat-shaped transition phase being transitioned into circular tube shaped in this detailed description of the invention, the actual curve that load-transfer device makes described load-transfer device be formed held by middle carrying roller 14 and two described side carrying rollers 15 at its two ends, higher than the theoretical curve of load-transfer device.Setting like this, idler machining 12 can play lifting effect to load-transfer device, and then can eliminate the gravity effect of load-transfer device and material, makes load-transfer device can be transitioned into cylinder place more like a cork, not easily makes load-transfer device produce stacked strips at cylinder place.

In addition, in this detailed description of the invention, the support 11 of anti-stacked belting can comprise door frame, for supporting the carrier roller frame of each idler machining 12 and being linked together by each carrier roller frame and the link span supported by door frame.Each carrier roller frame is supported by link span by door frame, and idler machining 12 is arranged on carrier roller frame, so can realize the installation of each idler machining 12, and makes to have good stability between each idler machining 12.

Above-mentioned link span specifically can comprise two longerons be arranged in parallel, and one end of longeron is fixedly connected with the position, both sides of door frame; Carrier roller frame comprises two vertical beams of the crossbeam be connected between two longerons and the end positions being fixedly installed on crossbeam respectively; Crossbeam is provided with the first pivot shaft for supporting middle carrying roller 14, and vertical beam is connected with the second pivot shaft for support-side carrying roller 15.

It should be noted that, the bearing of trend of above-mentioned longeron is consistent with the throughput direction of load-transfer device, and crossbeam and longeron are positioned at same plane, and perpendicular with longeron, and vertical beam is perpendicular to the plane at crossbeam and longeron place.First pivot shaft is supported on middle carrying roller 14, and vertical beam is connected with the second pivot shaft, and the second pivot shaft is used for installation side carrying roller 15.So, the integral structure structure of formation is simple, reliable and stable.

This detailed description of the invention additionally provides a kind of circular pipe belt type conveyer, comprises the anti-stacked belting as above described in any one.Setting like this, the circular pipe belt type conveyer that this detailed description of the invention provides, it can make load-transfer device be flat-shaped or in the process of circular tube shaped in transition, natural transition, and then avoids the problem producing because of load-transfer device discontinuity and reverse sideslip.The derivation of the beneficial effect that the derivation of this beneficial effect and above-mentioned anti-stacked belting bring is substantially similar, therefore repeats no more herein.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the utility model.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from spirit or scope of the present utility model, can realize in other embodiments.Therefore, the utility model can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (6)

1. an anti-stacked belting for circular pipe belt type conveyer, is characterized in that, comprising:

Support;

Be arranged at described support and multiple idler machining for holding load-transfer device lower surface, idler machining described in each is equipped with middle carrying roller and is arranged at the side carrying roller at two ends of described middle carrying roller, and the angle between two described side carrying rollers and described middle carrying roller is obtuse angle; Along the throughput direction of load-transfer device, the angle between described side carrying roller and described middle carrying roller increases gradually or reduces gradually;

Be arranged at the head of the transition phase of circular pipe belt type conveyer and be arranged at two the first pressure rollers of the upper surface of load-transfer device both sides respectively;

Be arranged at the middle part of described transition phase and be arranged at two the second pressure rollers of the upper surface of load-transfer device both sides respectively;

Be arranged at the afterbody of described transition phase and be arranged at two the 3rd pressure rollers of the upper surface of load-transfer device both sides respectively; Along the throughput direction of load-transfer device, the angle of described first pressure roller, described second pressure roller and described 3rd pressure roller and horizontal surface increases gradually or reduces gradually.

2. anti-stacked belting as claimed in claim 1, is characterized in that, the axial line of described middle carrying roller is positioned at horizontal surface, and two the described side carrying rollers being positioned at same described middle carrying roller two ends are equal with the angle of described middle carrying roller.

3. anti-stacked belting as claimed in claim 1 or 2, it is characterized in that, at load-transfer device by the flat-shaped transition phase being transitioned into circular tube shaped, the actual curve that load-transfer device makes described load-transfer device be formed held by two described side carrying rollers at middle carrying roller and its two ends, higher than the theoretical curve of load-transfer device.

4. anti-stacked belting as claimed in claim 1, is characterized in that, described support comprises door frame, for supporting the carrier roller frame of idler machining described in each and being linked together by carrier roller frame described in each and the link span supported by described door frame.

5. anti-stacked belting as claimed in claim 4, is characterized in that, described link span comprises two longerons be arranged in parallel, and one end of described longeron is fixedly connected with the position, both sides of described door frame; Described carrier roller frame comprises two vertical beams of the crossbeam be connected between two longerons and the end positions being fixedly installed on described crossbeam respectively; Described crossbeam is provided with the first pivot shaft for supporting described middle carrying roller, and described vertical beam is connected with the second pivot shaft for supporting described side carrying roller.

6. a circular pipe belt type conveyer, is characterized in that, comprises the anti-stacked belting as described in any one of claim 1-5.