CN202156722U

CN202156722U - Conveyor belt guides with offset correction capability

Info

Publication number: CN202156722U
Application number: CN2011202169887U
Authority: CN
Inventors: 徐正昇
Original assignee: ASIA NEO TECH INDUSTRIAL CO LTD
Current assignee: ASIA NEO TECH INDUSTRIAL CO LTD
Priority date: 2011-06-24
Filing date: 2011-06-24
Publication date: 2012-03-07
Anticipated expiration: 2021-06-24

Abstract

The utility model relates to a conveyer belt is led and is just installed with correcting skew ability contains and puts two cylinders in a bearer pivot, around establishing a conveyer belt between two cylinders, and form the transmission route of a conveyer belt, divide on the two side bearers of this conveyer belt and put a driver, the bearing between two cylinders is gone up movable configuration one and is supplied with the conveyer belt around the tension control cylinder of establishing on the bearer, and is equipped with more than one sensor on the bearing, can sense the correct position of conveyer belt, and when the conveyer belt produced the skew, makes two drivers drive the two sides end of tension control cylinder separately and follow the lateral shifting in transmission route to lead the conveyer belt and reply the correct position.

Description

Has the load-transfer device guide device of correcting excursion capability

Technical field

The utility model relates to a kind of load-transfer device guide device of correcting excursion capability that has; Particularly relate to driving and conveying belt and control the cylinder that belt tension is used; And the actuator that drives this cylinder side, and relate to sensor in order to this load-transfer device tram of sensing.

Background technology

At present, electrical equipment on the market or photovoltaic must get into oven and accept high-temperature baking in production process, are beneficial to carry out the work programme of next stage; In addition, the said goods needs to get into baking and accepts heated baking with furnace conveyor during carrying out drying process; The said goods generally is to utilize the load-transfer device of continuous transmission to be passed in the conveying stove and accessorys such as oven, infrared ray or ultraviolet ray to toast, this conveyor belt surface generally be appear plane or netted.

And know that traditional load-transfer device normally is set around on most cylinders, and drive load-transfer device, and make load-transfer device center on said cylinder circulation transmission, to transmit above-mentioned electrical equipment or photovoltaic along the orientation of said cylinder via the head roll of a tool power wherein; In addition, said cylinder also includes the some cylinders that can control belt tension, and these Tension Control cylinders itself only possess a specific tensile usually and collapse tight this load-transfer device, in case that load-transfer device produces in transmission process is crooked.

Yet; Above-mentioned traditional load-transfer device is when being implemented on the hot environment of conveying stove and accessorys such as oven, infrared ray or ultraviolet ray; Because load-transfer device itself is normally processed by flexible material; Therefore produce the phenomenon that expands and uphold in the baking back easily, cause the tram of load-transfer device skew transmission, this tram is the orientation of said cylinder; At present, must add the tension force of pining for adjusting the Tension Control cylinder synchronously and controlling load-transfer device, reply the tram with the correcting load-transfer device; But after stopping heating; This load-transfer device can nature produces and shrinks the phenomenon of replying, and so will cause the situation of load-transfer device skew tram once again, therefore must repeat when heating and adjusts repeatedly when not heating; Just have an opportunity to be adjusted to the position of the hot and cold variation of ability simultaneous adaptation load-transfer device; Cause the inconvenience in the use, and influence the efficient of load transfer device continuous running, need badly and improve.

Summary of the invention

The purpose of the utility model is to overcome in the above-mentioned background technology; Under the situation of load-transfer device heating and not heating; Via the tension force of adjustment load-transfer device, reply the tram repeatedly, and cause the inconvenience in the use and influence the problem of the efficient of load transfer device continuous running with the correcting load-transfer device.

For reaching above-mentioned purpose, the utility model provides a kind of load-transfer device guide device of correcting excursion capability that has, and comprises:

One first cylinder and a second tin roller, respectively hub setting and is arranged with a load-transfer device between said first and second cylinder and forms a drive path on a bolster;

One first actuator and one second actuator are on this bolster of this load-transfer device bilateral that is placed in;

One Tension Control cylinder; Active configuration is on this bolster between said first and second cylinder; And this load-transfer device is set around on this Tension Control cylinder, and this Tension Control cylinder bilateral end can be accepted the laterally driving of said first and second actuator along this drive path separately; And

More than one sensor; Be located on this bolster, a tram that can this load-transfer device transmission of sensing is when this load-transfer device produces skew; Make said first and second actuator drive the side of this Tension Control cylinder separately, reply this tram with this load-transfer device of correcting.

In view of the above; This load-transfer device can be under the situation of heating and not heating; Utilize said first and second actuators at any time belt tension to be adjusted via this Tension Control cylinder with full automatic mode; And instant correcting load-transfer device is replied the tram, and then promotes the convenience on using, and further promotes the efficient of load transfer device continuous running.

In a practical implementation, this bolster has two side plates, and said first cylinder, second tin roller and Tension Control cylinder are located at respectively between the said side plate, and said first and second actuator is placed on this side plate; Said sensor is placed in and is close to the position of this side plate.

Produce the out-of-position situation for making said sensor can sense this load-transfer device in early days, said first cylinder or second tin roller can be a head roll, and said sensor is located at the mouth that this head roll transmits this load-transfer device output.

Perhaps, said first cylinder or second tin roller also can be driven cylinder.

In another practical implementation, this load-transfer device has a first surface and a second surface, said first and second cylinder of this second surface contact, this this Tension Control cylinder of first surface contact.

In another practical implementation, said first and second actuator is a cylinder, and this Tension Control cylinder bilateral end difference hub setting is on a cylinder bar of this cylinder.

Moreover in fact said sensor can comprise one first sensor and one second sensor, this load-transfer device bilateral that is placed in, and this load-transfer device bilateral of each self-inductance measurement.

Compared with prior art; Adopt the advantage that the utlity model has of technique scheme to be: this load-transfer device can be under the situation of accepting stove and accessory heating and not heating; Utilize said first and second actuators at any time belt tension to be adjusted via this Tension Control cylinder, and instant correcting load-transfer device is replied the tram, to overcome in the above-mentioned prior art with full automatic mode; Under the situation of load-transfer device heating and not heating; Via the tension force of adjustment load-transfer device, reply the tram repeatedly, and cause the inconvenience in the use and influence the problem of the efficient of load transfer device continuous running with the correcting load-transfer device; And then promote the convenience on using, and further promote the efficient of load transfer device continuous running.

Description of drawings

Fig. 1 is the configuration schematic diagram of the utility model preferred embodiment;

Fig. 2 is the partial enlarged drawing of Fig. 1;

Fig. 3 is the lateral plan of Fig. 2;

Fig. 4 is the birds-eye view of Fig. 2;

Fig. 5 is the partial enlarged drawing of Fig. 2;

Fig. 6 is the running condition figure of Fig. 5;

Fig. 7 is the partial enlarged drawing of Fig. 4;

Fig. 8 is another partial enlarged drawing of Fig. 4;

Fig. 9 is the running condition figure of Fig. 7;

Figure 10 is the running condition figure of Fig. 8;

Figure 11 is an additional configuration schematic diagram of implementing kenel of the utility model;

Figure 12 is another additional configuration schematic diagram of implementing kenel of the utility model.

Description of reference numerals: 1 bolster; 11 feeding ends; 12 discharge ends; 13 mouths; 2,2a cylinder; 21,21a, 21b first cylinder; 22,22a, 22b second tin roller; 221 rotating shafts; 23,24 side plates; 231,241 guide grooves; 31 first actuators; 311,321 cylinder bars; 32 second actuators; 4 Tension Control cylinders; 41,42 sides; 51 first sensors; 52 second sensors; 6 motors; 61 rotating shafts; 7 refining bars; 8 stove and accessorys; 9 load-transfer devices; 90 drive path; 91 first surfaces; 92 second surfaces; 93 sides.

The specific embodiment

First sight is shown in Figure 1; Disclose the configuration schematic diagram of the utility model preferred embodiment; And cooperate Fig. 2 to Fig. 4 explanation to the utlity model has the load-transfer device guide device of correcting excursion capability; Be disposed at one and carry on the bolster 1, comprise one first cylinder 21, a second tin roller 22, one first actuator 31, one second actuator 32, a Tension Control cylinder 4 and more than one

sensor

51,52; This bolster 1 passes a high temperature stove and accessory 8 inside in this enforcement; And form a feeding end 11 and a discharge end 12 of this stove and accessory 8 respectively in bolster 1 both-end; In fact this stove and accessory 8 can be oven or furnace conveyor; And hub setting in regular turn has

most cylinder

2,2a on the bolster 1 between feeding end 11 and the discharge end 12, is arranged with a load-transfer device 9 between said cylinder 2, the 2a, and said

cylinder

2,2a also include said first and

second cylinder

21,22; In this enforcement; Said first and

second cylinder

21,22 difference hub settings are in the feeding end 11 of this bolster 1; This load-transfer device 9 is set around said first and second cylinder 21, between 22, and form a drive path 90 of this load-transfer device 9 in said first and second cylinder 21, between 22.

Said first and

second actuator

31,32 is arranged at respectively on the bolster 1 of these load-transfer device 9 bilaterals; These Tension Control cylinder 4 active configuration are on said first and second cylinder 21, bolster 1 between 22; And load-transfer device 9 is set around on the Tension Control cylinder 4; And Tension Control cylinder 4

bilateral ends

41,42 can be accepted said first and

second actuators

31,32 separately and laterally drive (cooperating Fig. 5 to shown in Figure 8) along one of this drive path 90, and these Tension Control cylinder 4

bilateral ends

41,42 drive along horizontal axis in this enforcement; Said

sensor

51,52 includes one first sensor 51 and one second sensor 52 in this enforcement; Be arranged at respectively on the bolster 1 of these load-transfer device 9 bilaterals; Be electrically connected each other via an extraneous control unit (drawing) between said first actuator 31 and first sensor 51; This control unit can receive the signal of video signal of first sensor 51, and relies on this signal of video signal to control first actuator 31; Also can be electrically connected each other via this control unit between said second actuator 32 and second sensor 52, this control unit also can receive the signal of video signal of second sensor 52, and relies on this signal of video signal to control second actuator 32; Said first and

second sensors

51,52 can these load-transfer device 9 bilaterals of each self-inductance measurement; And then a tram of these load-transfer device 9 transmissions of sensing, the moving range when this tram is meant the normal transmission of load-transfer device 9 on said

cylinder

2,2a, first,

second cylinder

21,22 and Tension Control cylinder 4; In other words, this tram axially is said

cylinder

2,2a, first,

second cylinder

21,22 and the orientation of Tension Control cylinder 4 on bolster 1.

In a practical implementation; This bolster 1 has two

side plates

23,24; Said first,

second cylinder

21,22 and Tension Control cylinder 4 be located at said side plate 23 respectively, between 24, and be formed with a guide groove 231,241 (cooperating Fig. 7 and shown in Figure 8) on the said

side plate

23,24 separately, and these Tension Control cylinder 4

bilateral ends

41,42 are slidedly arranged on respectively in the said guide groove 231,241; With carrying Tension Control cylinder 4, and guiding Tension Control cylinder 4 side travels along this drive path 90; Said first and

second actuator

31,32 is placed on this side plate 23, and said first and

second sensor

51,52 is disposed at the position of contiguous this

side plate

23,24 respectively, and is respectively adjacent to load-transfer device 9 bilaterals; When load-transfer device 9 on this tram during transmission; Said first and

second sensor

51,52 all fails to sense load-transfer device 9;, load-transfer device 9 transmissions (cooperate Fig. 9 and shown in Figure 10) when producing skew; Said first or

second sensor

51,52 can sense a side 93 of load-transfer device 9, and this control unit is the image according to said load-transfer device 9 sides 93, judges that load-transfer device 9 transmissions produce the out-of-position situation.

In another practical implementation, said first or

second tin roller

21,22 can be a head roll, said first and

second sensor

51,52 is located at the mouth 13 that this head roll transmits these load-transfer device 9 outputs; In this enforcement; Be as this head roll with second tin roller 22; Be provided with a motor 6 in this bolster 1, be arranged with a belt or refining bar 7 between a rotating shaft 221 of this second tin roller 22 and the rotating shaft 61 of motor 6, drive and make second tin roller 22 accept motor 6 via refining bar 7; So, the load-transfer device 9 that said first and

second sensors

51,52 go out in mouth 13 sensing second tin rollers, 22 transmission can sense load-transfer device 9 in early days and produce the out-of-position situations.

In another practical implementation, this load-transfer device 9 has a first surface 91 and a second surface 92 (cooperating Fig. 5 and shown in Figure 7), said first and

second cylinder

21,22 of these second surface 92 contacts, these first surface 91 these Tension Control cylinders 4 of contact; This Tension Control cylinder 4 is the first surfaces 91 along the horizontal pushing and pressing load-transfer device 9 of drive path 90, and brings pressure to bear on the load-transfer device 9, with the tension force of control load-transfer device 9; In fact said first and

second actuators

31,32 can comprise motor and accept the belt or the screw rod of motor driven; Perhaps single cylinder; In this enforcement, lifting with the cylinder is example; These Tension Control cylinder 4

bilateral ends

41,42 hub setting respectively drive and accept said first and

second actuator

31,32 on a cylinder bar 311,321 of this cylinder (cooperating shown in Figure 8).

Form according to above-mentioned member; Can supply to implement according to this utility model; Continue transmissions and accept stove and accessory between 8 periods of heating at load-transfer device 9, said first and

second sensor

51,52 continues whether transmission on this tram of sensing load-transfer device 9 separately, when load-transfer device 9 on this tram during transmission (cooperating Fig. 7 and shown in Figure 8); Said first and

second sensor

51,52 does not all sense load-transfer device 9, makes said first and

second actuator

31,32 stop to drive Tension Control cylinder 4; , load-transfer device 9 transmissions (cooperate Fig. 9 and shown in Figure 10) when producing skew; Said first or

second sensor

51,52 senses the side 93 of load-transfer device 9; In keeping load-transfer device 9 to continue under the situation of transmission, make said first and

second actuator

31,32 drive Tension Control cylinder 4 bilateral ends 41,42 (cooperating Fig. 5 and shown in Figure 6) separately; Lift as, when load-transfer device 9 during, make first actuator 31 drive the side 41 of Tension Control cylinders 4, and part discharges the pressure that Tension Control cylinder 4 puts on load-transfer device 9 sides toward feeding end 11 directions toward the skew of first actuator, 31 directions; Simultaneously, make second actuator 32 drive the side 42 of Tension Control cylinder 4, and increase the pressure that Tension Control cylinder 4 puts on load-transfer device 9 sides toward the reversing sense of feeding end 11; So, reply this tram with correcting load-transfer device 9.This stove and accessory 8 stops after load-transfer device 9 heating; Whether said first and

second sensor

51,52 continues sensing load-transfer device 9 separately and is positioned on this tram; When load-transfer device 9 is positioned on this tram, make said first and

second actuator

31,32 stop to drive Tension Control cylinder 4; When load-transfer device 9 squints this tram once again because of cooling, make said first and

second actuator

31,32 drive Tension Control cylinder 4

bilateral ends

41,42 separately, reply this tram with correcting load-transfer device 9.

In view of the above, this load-transfer device 9 can utilize said first and

second actuators

31,32 at any time load-transfer device 9 tension force to be adjusted via this Tension Control cylinder 4 with full automatic mode under the situation of accepting stove and accessory 8 heating and not heating; And instant correcting load-transfer device 9 answer trams; To overcome in the above-mentioned prior art, under the situation of load-transfer device heating and not heating, repeatedly via the tension force of adjusting load-transfer device; Reply the tram with the correcting load-transfer device; And cause the inconvenience in the use and influence the problem of the efficient of load transfer device continuous running, and then promote the convenience in the use, and further promote the efficient of load transfer device continuous running.

Perhaps; The said first cylinder 21a, 21b and second tin roller 22a, 22b also can distinguish the discharge end 12 (cooperate Figure 11 and shown in Figure 12) of hub setting in this bolster 1; And the said first cylinder 21a, 21b or second tin roller 22a, 22b also can be driven cylinder; This Tension Control cylinder 4 is implemented to accept said first and

second actuators

31,32 one and is driven along horizontal axis; And Tension Control cylinder 4 also can be accepted said first and

second actuators

31,32 and drive along vertical axial on another is implemented, all the other members are formed and the specific embodiment is to be equal to the foregoing description.

Moreover; Also single sensor can only be set on bolster 1 on the practice; And utilize said single sensor that load-transfer device 9 bilaterals are carried out sensing; And when load-transfer device 9 produces skew, make said first and

second actuator

31,32 drive the side of Tension Control cylinder 4 separately, with correcting load-transfer device 9 answer trams.

In addition, the utility model also can be implemented in the environment that high temperature stove and accessory 8 is not set, to promote convenience and work efficiency.

More than explanation is just illustrative as far as the utility model; And nonrestrictive, those of ordinary skills understand, under the situation of spirit that does not break away from claim and limited and scope; Can make many modifications, variation or equivalence, but all will fall within the protection domain of the utility model.

Claims

1. A conveyor belt guiding device with the ability to correct deviation, characterized in that it comprises:

A first roller and a second roller are respectively pivoted on a support frame, and a conveyor belt is wound between the first and second rollers to form a transmission path;

A first driver and a second driver are separately placed on the support frame on both sides of the conveyor belt;

A tension control roller is movably arranged on the support frame between the first and second rollers, so that the conveyor belt is wound on the tension control roller, and the two side ends of the tension control roller can respectively receive the a lateral drive of said first and second drives along said drive path; and

More than one sensor is arranged on the support frame, capable of sensing a correct position of the conveyor belt drive, and when the conveyor belt deviates, the first and second drivers are respectively driven to drive the tension control roller side end to guide the conveyor belt back to the correct position.

2. The conveyor belt guiding device capable of correcting deviation according to claim 1, wherein the support frame has two side plates.

3 . The conveyor belt guiding device capable of correcting deviation according to claim 2 , wherein the first roller, the second roller and the tension control roller are respectively arranged between the two side plates. 4 .

4. The conveyor belt guiding device capable of correcting deviation according to claim 1, characterized in that: the first roller or the second roller is a driving roller, and the sensor is arranged on the driving roller to transmit the An output end of the conveyor belt output.

5. The conveyor belt guiding device capable of correcting deviation according to claim 1, wherein the first roller or the second roller is a driven roller.

6. The conveyor belt guiding device capable of correcting deviation according to claim 1, wherein the conveyor belt has a first surface and a second surface, and the second surface contacts the first and second surfaces. roller, the first surface contacts the tension control roller.

7. The conveyor belt guiding device capable of correcting deviation according to claim 2, characterized in that: the first and second drivers are separated on the two side plates.

8. The conveyor belt guiding device capable of correcting deviation according to claim 1, characterized in that: the first and second drivers are air cylinders, and the two side ends of the tension control roller are respectively pivoted on one of the air cylinders on the cylinder rod.

9. The conveyor belt guiding device capable of correcting deviation according to claim 1, wherein the sensor comprises a first sensor and a second sensor, and the first sensor And the second sensor is separately arranged in this conveyer belt both sides, and respectively senses this conveyer belt both sides.

10 . The conveyor belt guiding device capable of correcting deflection according to claim 2 , wherein the sensor is located adjacent to the side plate. 11 . the