CN206479272U - A kind of belt tension force checking device - Google Patents

Abstract

The utility model discloses a kind of belt tension force checking device, its drip irrigation device is：Including support, one end of the support rotates the connecting shaft for being provided with and being used for inserting in the rotating shaft of driving pulley, length direction of the other end along transmission belt is arranged with the first chute and the second chute of two side slips up and down for conveyer belt, and the support is applied to the detection part of the first chute and the pressure on the second chute provided with detection conveyer belt.After V belt translation is installed, in the rotating shaft that connecting shaft is inserted to driving pulley, the both sides up and down of transmission belt are put into corresponding first chute and the second chute, under the pulling of driving pulley and driven pulley, the both sides up and down of conveyer belt can be expanded outwardly, and now transmission belt can apply a pressure on the first chute and the second chute, and detection part can come out the pressure detecting, and then the tensile force on conveyer belt is may determine that, realize the detection of the tensile force on transmission belt.

Description

A kind of belt tension force checking device

Technical field

The utility model is related to a kind of detection means, more specifically, it relates to a kind of belt tension force checking device.

Background technology

V belt translation is as the most common kind of drive in machine driving, and application field is quite varied, band of the prior art Transmission, mainly including driving pulley, driven pulley and V belt translation band, V belt translation is in assembling process, the tensile force of conveyer belt Need moderate, tensile force is excessive to be easily caused conveyer belt abrasion aggravation, and tensile force is too small, is easily caused transmission process and skids Phenomenon.Therefore in assembling, it is necessary to be detected to the tensile force of transmission belt.

Detection of the prior art, is often detected, testing cost is high using ultrasonic instrument, and operation is multiple It is miscellaneous, cause detection efficiency very low.Therefore be badly in need of a kind of high equipment of the low detection efficiency of testing cost can assembling when pair Tensile force on transmission belt is detected.

Utility model content

In view of the shortcomings of the prior art, the purpose of this utility model is to provide a kind of belt tension force checking device, detection The low detection efficiency of cost is high.

Above-mentioned technical purpose of the present utility model technical scheme is that：A kind of belt tension inspection Device, including support are surveyed, one end of the support rotates the connecting shaft for being provided with and being used for inserting in the rotating shaft of driving pulley, the other end The first chute and the second chute of two side slips up and down for conveyer belt, the branch are arranged with along the length direction of transmission belt Frame is applied to the detection part of the first chute and the pressure on the second chute provided with detection conveyer belt.

By using above-mentioned technical proposal：After V belt translation is installed, connecting shaft is inserted to the rotating shaft of driving pulley It is interior, the both sides up and down of transmission belt are put into corresponding first chute and the second chute, in driving pulley and driven pulley Under pulling, the both sides up and down of conveyer belt can be expanded outwardly, and now transmission belt can apply a pressure and be slided in the first chute and second On groove, detection part can come out the pressure detecting, and then may determine that the tensile force on conveyer belt, realize on transmission belt Tensile force detection, connecting shaft insertion driving pulley rotating shaft in after, can avoid the first chute and the second chute examining Run, it is ensured that the position of the first chute and the second chute will not change, detect very convenient by conveyer belt band during survey；Using When, it is possible to achieve the real-time monitoring of the tensile force on transmission belt, when detect the tensile force on conveyer belt it is unqualified when, pass through adjust The distance between driving pulley and driven pulley are saved, is torn open after the tensile force regulation in place on conveyer belt, then by detection means Unload down, can also play the technique effect for improving efficiency of assembling.

Preferably, the detection part is pressure sensor, the pressure sensor is arranged on the first chute and support Between and along the first chute and the second chute Impact direction set.

By using above-mentioned technical proposal：Using pressure sensor as detection part, cost is low, using and install equal It is very convenient, it can further reduce testing cost and improve detection efficiency, when conveyer belt pressure is applied to the first cunning After on groove and the second chute, pressure sensor can come out the pressure detecting that the first chute and the second chute are subject to, It can detect that the tensile force on conveyer belt.

Preferably, one end away from connecting shaft is provided with connecting rod on the support, first chute and second are slided Groove is separately positioned on the two ends of connecting rod.

By using above-mentioned technical proposal：In detection, the conveyer belt of some types is wider, such first chute and second The distance between chute will be distant, sets connecting rod, can reduce the width of support, and then can mitigate the weight of support Amount, it is very laborsaving during detection.

Preferably, described pressure sensor one end is fixed on connection boom end, the other end provided with the first chute of regulation with The regulating part of the distance between second chute.

By using above-mentioned technical proposal：After installing, regulating part can adjust the first chute and the second chute it Between distance, and then be adapted to the detection of the conveyer belt of different in width, improve the adaptability of belt tension force checking device.

Preferably, the regulating part includes being arranged on cross bar of the pressure sensor away from connecting rod one end, the cross bar Length direction of the end along connecting rod is threaded with stud, and second chute is arranged on stud end.

By using above-mentioned technical proposal：When in use, stud is rotated, by the overhang for adjusting stud, you can realize The regulation of the distance of second chute and the first chute.Because threaded connection has self-locking property, it is not necessary to increase extra locking Structure, simplifies structure, easy to operate, meanwhile, the second chute rollback phenomenon can be avoided the occurrence of, it is ensured that detection process In stability.

Kidney slot is provided with preferably, running through on the support along stent length direction, the connecting rod is provided with waist The fixing screws slided in shape groove and the fixing nut for being fixed on connecting rod on support.

By using above-mentioned technical proposal：Kidney slot is set, it is possible to achieve the regulation of position of the connecting rod on support, it is real The regulation of existing connecting rod and the distance between connecting shaft, can so protect the first chute and the second chute is in conveyer belt Between position, the tensile force of conveyer belt is detected in the position, it is ensured that the accuracy of testing result.Further, since The position of connecting rod can be adjusted, and therefore, it can adapt to the detection of the conveyer belt of different model, adapt to strong.

Roller is provided with preferably, being rotated in first chute and the second chute along the length direction of chute.

By using above-mentioned technical proposal：In detection, in order to improve accuracy, it is necessary to rotate driving pulley, every 90 ° Detection once, is detected four times altogether, in order to reduce abrasion of the conveyer belt in the first chute and the second chute, in detection, rolling Wheel can reduce the abrasion between the first chute and the second chute, extend the service life of the first chute and the second chute. Conveyer belt can be played a protective role, it is to avoid scratch occurs in conveyer belt.

Preferably, the connecting shaft includes sliding with support in the cylinder axis being connected and insertion driving pulley rotating shaft Hexagonal axis.

By using above-mentioned technical proposal：Because the counterbore in the rotating shaft of driving pulley is for dismantling in driving pulley Hexagon ring, sets hexagonal axis, can coordinate with inner hexagonal hole, improve the contact area of the rotating shaft of connecting shaft and driving pulley, The sufficiently stable abutting for realizing placement seat and installation,

It is used to drive the elastic component that hexagonal axis is slided towards driving pulley preferably, the connecting shaft is provided with.

By using above-mentioned technical proposal：Because connecting shaft be sliding be arranged in support, in order to avoid detection when, Hexagonal axis is skidded off out of support, sets elastic component, can be avoided in detection, connecting shaft is slided on support, it is ensured that The stability of detection process.

In summary, the utility model has the advantages that：

1st, simple in construction, easy to operate, detection efficiency is high；

2nd, accuracy of detection is high.

Brief description of the drawings

Fig. 1 is the assembling schematic diagram of the present embodiment；

Fig. 2 is that schematic diagram is matched somebody with somebody at another visual angle in Fig. 1；

Fig. 3 is detection view.

In figure：1st, support；11st, kidney slot；2nd, connecting rod；21st, fixing screws；22nd, fixing nut；23rd, pressure sensor； 231st, cross bar；232nd, screw rod；233rd, nut；3rd, the first chute；4th, the second chute；5th, roller；6th, connecting shaft；61st, cylinder axis； 62nd, hexagonal axis；7th, spring；8th, spacing ring；9th, driving pulley；91st, conveyer belt.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing 1-3.

A kind of belt tension force checking device, reference picture 1- Fig. 3, including support 1, support 1 is elongated to be set, in support 1 one end, which is rotated, is provided with connecting shaft 6, in the rotating shaft of the one end of connecting shaft 6 insertion driving pulley 9, and the other end is rotated with support 1 to be connected Connect, because to ensure the accuracy of testing result, connecting shaft 6 is rotated with support 1 in detection, it is necessary to carry out multiple spot detection Connection, so when changing test point, just without tension tester is disassembled, improves detection efficiency.Actively The roller end of belt wheel 9 is provided with inner hexagonal hole, and for dismantling driving pulley 9, connecting shaft 6 includes cylinder axis 61 and hexagonal axis 62, hexagonal axis 62 coordinates with inner hexagonal hole, and cylinder axis 61 is connected perpendicular to support 1 and with the sliding of support 1, and cylinder axis 61 runs through In support 1, the elastic component slided in connecting shaft 6 provided with driving hexagonal axis 62 towards inner hexagonal hole, the present embodiment, elastic component bag Spring 7 is included, spring 7 is set on cylinder axis 61, one end of spring 7 is abutted with the end face of hexagonal axis 62, the other end and support 1 Side is abutted, and the one end for stretching out support 1 in cylinder axis 61 is fixed with spacing ring 8.When wanting to tear open support 1, circle is slided backward Axis of a cylinder 61.

Reference picture 1 and Fig. 2, one end away from connecting shaft 6 is provided with connecting rod 2 on support 1, and connecting rod 2 is perpendicular to branch Frame 1 is set, and connecting rod 2 can be slid along the length direction of support 1, and kidney slot is provided with along the length direction of support 1 on support 1 11, kidney slot 11 is set through support 1, the fixing screws 21 through kidney slot 11 is provided with connecting rod 2, in fixing screws 21 End be provided with fixing screws 21 coordinate fixing nut 22.

Reference picture 1 and Fig. 3, the first chute 3 and the second chute 4, the first chute are respectively equipped with the two ends of connecting rod 2 3 length direction with the second chute 4 along conveyer belt 91 sets and coordinated with conveyer belt 91.First chute 3 and the phase of the second chute 4 To setting, for the frictional force between the reduction chute 3 of conveyer belt 91 and first and the second chute 4, slided in the first chute 3 and second Rotated in groove 4 and be provided with roller 5, the rotation direction and the glide direction of conveyer belt 91 of roller 5 are tangent.It is provided with support 1 with inspection Survey the detection part that conveyer belt 91 is applied to the first chute 3 and the pressure on the second chute 4.When in use, by detection part, Detect the pressure that conveyer belt 91 is applied on the first chute 3 and the second chute 4, you can draw the tensioning on now conveyer belt 91 Power.

Reference picture 1, the regulating part for the distance being additionally provided with connecting rod 2 between the first chute 3 of regulation and the second chute 4, In the present embodiment, regulating part includes cross bar 231, and the end vertical of cross bar 231 is provided with screw rod 232, the second chute 4 in cross bar 231 The end of cross bar 231 is arranged on, nut 233 is provided with screw rod 232, in use, rotating screw rod 232, the position of the second chute 4 is adjusted Put, realize the regulation of the distance between the first chute 3 and the second chute 4, adapt to the detection of various sizes of conveyer belt 91.Detection Part is pressure sensor 23, and pressure sensing is arranged on the end of connecting rod 2 and one end and is fixed in connecting rod 2, cross bar 231 It is fixed on the other end of pressure sensor 23.Impact direction of the pressure sensor 23 along the first chute 3 and the second chute 4 is set Put.The accuracy of testing result can so be ensured, be not in deviation.

The course of work is summarized：During detection, first conveyer belt 91 is put into the corresponding chute 4 of first chute 3 or second, so Hexagonal axis 62 is inserted again afterwards in the inner hexagonal hole in the rotating shaft of driving pulley 9, now, conveyer belt 91 is in the first chute 3 and Apply a pressure on two chutes 4, pressure sensor 23 reads this pressure, draws the tensile force on now conveyer belt 91.Then, 90 ° of driving pulley is rotated, second detected value is detected, the like, four points are detected altogether, you can complete conveyer belt 91 The detection of tensile force, is detected very convenient.

Described above is only preferred embodiment of the present utility model, and protection domain of the present utility model is not limited merely to Above-described embodiment, all technical schemes belonged under the utility model thinking belong to protection domain of the present utility model.It should refer to Go out, for those skilled in the art, some improvement under the premise of the utility model principle is not departed from and Retouching, these improvements and modifications also should be regarded as protection domain of the present utility model.

Claims (9)

1. a kind of belt tension force checking device, including support (1), it is characterised in that：One end of the support (1) rotates and is provided with Connecting shaft (6) in rotating shaft for inserting driving pulley (9), length direction of the other end along transmission belt is arranged with for transmission The first chute (3) and the second chute (4) of two side slips up and down of band (91), the support (1) is provided with detection conveyer belt (91) it is applied to the detection part of the first chute (3) and the pressure on the second chute (4).

2. belt tension force checking device according to claim 1, it is characterised in that：The detection part is pressure sensing Device (23), the pressure sensor (23) is arranged between the first chute (3) and support (1) and along the first chute (3) and the The Impact direction of two chutes (4) is set.

3. belt tension force checking device according to claim 2, it is characterised in that：Away from connection on the support (1) One end of axle (6) is provided with connecting rod (2), and first chute (3) and the second chute (4) are separately positioned on connecting rod (2) Two ends.

4. belt tension force checking device according to claim 3, it is characterised in that：Described pressure sensor (23) one end It is fixed on connecting rod (2) end, regulating part of the other end provided with the first chute of regulation (3) with the distance between the second chute (4).

5. belt tension force checking device according to claim 4, it is characterised in that：The regulating part includes being arranged on pressure Cross bar (231) of the force snesor (23) away from connecting rod (2) one end, length side of cross bar (231) end along connecting rod (2) To stud is threaded with, second chute (4) is arranged on stud end.

6. the belt tension force checking device according to claim 3 or 4, it is characterised in that：Along support on the support (1) (1) length direction, which runs through, is provided with kidney slot (11), and the connecting rod (2) is provided with the fixing screws slided in kidney slot (11) And the fixing nut (22) for being fixed on connecting rod (2) on support (1) (21).

7. belt tension force checking device according to claim 1, it is characterised in that：First chute (3) and Rotated in two chutes (4) along the length direction of chute and be provided with roller (5).

8. belt tension force checking device according to claim 1, it is characterised in that：The connecting shaft (6) includes and branch Hexagonal axis (62) in the cylinder axis (61) of frame (1) sliding connection and insertion driving pulley (9) rotating shaft.

9. belt tension force checking device according to claim 8, it is characterised in that：The connecting shaft (6) is provided with use The elastic component slided in driving hexagonal axis (62) towards driving pulley (9).