CN204855155U - A many functional test equipment for testing belt pulley - Google Patents

Abstract

The utility model relates to a many functional test equipment for testing belt pulley. The utility model solves the technical problem that the conventional technical design is note reasonable. This many functional test equipment is equipped with the rotary disk that the level set up including having test platform's frame at test platform central zone, be equipped with the internal expanding collet chuck of vertical setting at the axial direction of rotary disk, thereby it makes the fixed wheel body clamping mechanism of circumference between wheel body and the bearing in wheel body circumference to be equipped with to press from both sides in internal expanding collet chuck's periphery, still is equipped with to lie in on test platform wheel body clamping mechanism peripheral and be used for testing the distance in the groove on bearing terminal surface and the wheel body floating testing arrangement, be used for testing wheel body lateral runout's lateral runout testing arrangement and be used for testing the groove of beating in the wheel body groove jumping testing arrangement. The utility model discloses the advantage lies in: efficiency of software testing is high and the practicality is strong.

Description

For the Multifunctional test equipment of test pulley

Technical field

The utility model belongs to testing apparatus technical field, particularly relates to a kind of Multifunctional test equipment for test pulley.

Background technology

Belt pulley is the important accessory of in electromagnetic clutch, and power can transmit by it.At present, existing belt pulley test is generally all tested by artificial manual mode, in the process of test, is positioned by fixing tool, guarantees in the process of test, do not produce displacement and rock.And the fixing of frock is generally all be fixed by the securing member of bolt class and locked.Fixture Design difficulty is higher and disassembly process is loaded down with trivial details, and dismounting efficiency is low, secondly, belt pulley stability maintenance difference and also cannot be applied in testing apparatus, further, the parameter that test pulley is different needs different testing equipments, the low and poor practicability of testing efficiency.

Utility model content

The purpose of this utility model is for the problems referred to above, provides a kind of design more reasonable, easy accessibility and the high Multifunctional test equipment for test pulley of testing efficiency.

For achieving the above object, the utility model have employed following technical proposal: this is used for the Multifunctional test equipment of test pulley, belt pulley comprises wheel body and is arranged on the bearing in wheel body, this equipment comprises the frame with test platform, horizontally disposed rotating disc is provided with in test platform central area, the internal expanding collet chuck vertically arranged is provided with in the axial centre of rotating disc, described internal expanding collet chuck with described internal expanding collet chuck can be driven when bearing holder (housing, cover) is on internal expanding collet chuck to expand outwardly thus the fixing internal expanding driving mechanism of internal expanding collet chuck and bearing is connected, wheel body circumference can be clipped in outer being arranged with of internal expanding collet chuck thus making the wheel body clamp system that between wheel body and bearing, circumference is fixing, test platform is also provided with and is positioned at the peripheral and floating type proving installation of the distance of groove on test bearing end face and wheel body of described wheel body clamp system, for testing the face runout proving installation of wheel body face runout, and for testing the groove jumping proving installation that wheel body groove is beated.Rotating disc is connected with drive motor by V belt translation structure.

Above-mentioned in the Multifunctional test equipment of test pulley, described wheel body clamp system comprises the L clevis gripping members that some even circumferentials are distributed in internal expanding collet chuck periphery, the middle part of each L clevis gripping members is on the rotating pan hinged respectively, one end of each L clevis gripping members is distributed in internal expanding collet chuck periphery, at least one stage clip that described L clevis gripping members can be made to be clipped in wheel body circumference is provided with between the other end and rotating disc, L clevis gripping members frame is provided with described in driving rotates and forces stage clip to compress thus make L clevis gripping members depart from the degree of tightness control gear of wheel body.

Above-mentioned in the Multifunctional test equipment of test pulley, described degree of tightness control gear comprises the lifting driving ring be positioned at above described L clevis gripping members, and described lifting driving ring is elevated the lifting drives structure that driving ring is elevated at vertical direction and is connected with can drive.

Above-mentioned in the Multifunctional test equipment of test pulley, described floating type proving installation comprises the first mount pad, first mount pad is provided with the first translating base, first translating base is provided with the first elevating bracket, the first described elevating bracket is connected with first lift drive mechanism that the first elevating bracket can be driven to be elevated at vertical direction, first elevating bracket is provided with the first translation plates be slidably connected with the first elevating bracket, first translation plates is provided with inserted sheet and the first described translating base with the first translating base can be driven to move back and forth in the horizontal direction thus inserted sheet is inserted or exits the first horizontal drive mechanism of the groove on wheel body, be provided with between the first described translation plates and inserted sheet and can force described inserted sheet automatic capturing when time in the groove that inserted sheet inserts on wheel body thus make the elastic mechanism that inserted sheet contacts with the bottom land of the groove on wheel body, the buffer structure that described inserted sheet can be prevented constantly to be pushed into after inserted sheet contacts with the bottom land of the groove on wheel body is provided with between the first described elevating bracket and the first translation plates, first translation plates is provided with the first sensor parts be connected with inserted sheet.

Above-mentioned in the Multifunctional test equipment of test pulley, described elastic mechanism comprises the float plate be arranged on below the first translation plates, described inserted sheet is arranged in float plate, two lifting guideposts vertically arranged are provided with between the first translation plates and float plate, the lower end of every root lifting guidepost is separately fixed in float plate, upper end passes the first translation plates and lifting guidepost can be elevated at vertical direction, the first elastic construction is provided with between every root lifting guidepost and the first translation plates, the second elastic construction is provided with between every root lifting guidepost and float plate, buffer structure comprises horizontally disposed at least one buffer spring, and one end of buffer spring acts on the first elevating bracket, and the other end acts in the first translation plates.

Above-mentioned in the Multifunctional test equipment of test pulley, the first described elastic construction comprise be arranged in the first translation plates and be enclosed within lifting guidepost periphery orienting sleeve, lifting guidepost is arranged with the first spring, the first described spring one end acts on the round boss at lifting guidepost top, and the other end acts on the upper end of orienting sleeve; Second elastic construction comprises the second spring be set on lifting guidepost, and one end of the second described spring acts in the first translation plates, and the other end acts in float plate.

Above-mentioned in the Multifunctional test equipment of test pulley, the first described elevating bracket is provided with cantilever slab, first translation plates is arranged on cantilever slab by slide construction, extension block is respectively equipped with in the both sides of the first translation plates, described cantilever slab is positioned at above float plate and the two ends of float plate lay respectively at below extension block, described lifting guidepost is each passed through described extension block and lower end is fixed in float plate, and described orienting sleeve lower end is fixed on extension block.Slide construction comprises the structure of guide rail in conjunction with slide block.

Above-mentioned in the Multifunctional test equipment of test pulley, described face runout proving installation comprises two guiding erection columns be vertically arranged on test platform, two guiding erection columns are provided with holder, be provided with above holder be horizontally disposed with and with the second lifter plate of being slidably connected of guiding erection column, the second described lifter plate is connected with second lift actuator that the second lifter plate can be driven to be elevated at vertical direction, second lifter plate is provided with the second translation plates be connected of sliding with the second lifter plate, second described translation plates one end is provided with the face runout measuring head be positioned at below the second translation plates, face runout measuring head is connected with the second sensor element be positioned at above the second translation plates, the second horizontal drive mechanism that the second translation plates described in driving moves in the horizontal direction is provided with between the second described lifter plate and the second translation plates.

Above-mentioned in the Multifunctional test equipment of test pulley, described groove is jumped proving installation and is comprised the 3rd mount pad, 3rd mount pad has the 3rd translating base by horizontally-guided anatomical connectivity, the 3rd described mount pad is provided with the 3rd horizontal driver that the 3rd translating base described in driving moves back and forth in the horizontal direction, 3rd translating base is provided with can at the 3rd elevating bracket of vertical direction lifting, 3rd elevating bracket is provided with groove jump measuring head and jump with groove the 3rd sensor element that measuring head is connected, be provided with the 3rd elevating bracket described in driving between the 3rd described translating base and the 3rd elevating bracket be elevated at vertical direction and the 3rd lift drive mechanism fixing between the 3rd translating base and the 3rd elevating bracket can be made when the 3rd elevating bracket is elevated to the position of setting.3rd horizontal driver is cylinder or oil cylinder.

Above-mentioned in the Multifunctional test equipment of test pulley, described frame side is provided with storage bin hopper, and frame is provided with the cover body be positioned at above test platform, warning device cover body being provided with controller and being connected with controller.

Above-mentioned in the Multifunctional test equipment of test pulley, described lifting drives structure comprises some lift actuator be arranged in frame, described lift actuator is connected with lifting driving ring, between frame and lifting driving ring, be provided with guide frame; Described guide frame comprises the orienting sleeve one of some circle distribution on lifting driving ring, frame is provided with some with described orienting sleeve one guidepost one one to one, and described guidepost one inserts in orienting sleeve one and guidepost one and orienting sleeve one are slidably connected.

Above-mentioned in the Multifunctional test equipment of test pulley, be respectively equipped with in the end, one end that each L clevis gripping members is distributed in internal expanding collet chuck periphery and anti-ly hinder structure; Anti-structure of hindering comprises and is arranged on the interior flexible pin that each L clevis gripping members is distributed in one end tip inside of internal expanding collet chuck periphery, and is arranged on the outer flexible pin in outside.

Above-mentioned in the Multifunctional test equipment of test pulley, described internal expanding driving mechanism comprises the internal expanding driver that setting is connected with internal expanding collet chuck on the rotating pan and by linkage structure.

Above-mentioned in the Multifunctional test equipment of test pulley, the first described horizontal drive mechanism comprises two the first orienting sleeves be separately positioned on the first mount pad, in each first orienting sleeve, be equipped with first guidepost respectively, the first translation plates is fixed on the corresponding one end of two first guideposts; The other end corresponding at two first guideposts is provided with the first limiting plate, and the first limiting plate is provided with the first distance adjustment bar, and the first distance adjustment bar is threaded with the first limiting plate, and the first distance adjustment bar can regulate the displacement of the first translation plates.

Above-mentioned in the Multifunctional test equipment of test pulley, the first described lift drive mechanism comprises the first lifting driving stem rotating and be arranged on the first elevating bracket, first translation plates is provided with and is enclosed within the first lifting driving stem and is elevated with first the first actuating sleeve that driving stem is threaded, the first actuating sleeve circumference is fixing.

Above-mentioned in the Multifunctional test equipment of test pulley, the second described horizontal drive mechanism comprises the fixed support be arranged in the second translation plates, second sensor element is arranged on fixed support, fixed support is provided with the second horizontal drive bar be rotationally connected with fixed support, second lifter plate is installed with the second actuating sleeve be enclosed within the second horizontal drive bar, and the second horizontal drive bar is threaded with the second actuating sleeve.

Above-mentioned in the Multifunctional test equipment of test pulley, the 3rd described lift drive mechanism comprises the 3rd lifting driving stem be arranged on the 3rd elevating bracket, 3rd translating base is provided with the 3rd actuating sleeve be enclosed within the 3rd lifting driving stem, and the 3rd lifting driving stem and the 3rd actuating sleeve screw thread connect.

Above-mentioned in the Multifunctional test equipment of test pulley, described first sensor parts, the second sensor element are connected with controller respectively with the 3rd sensor element.Controller is provided with display screen.

Compared with prior art, this advantage of Multifunctional test equipment being used for test pulley is: 1, design is more reasonable, and belt pulley is easy to dismounting, shortens the test duration and practical.2, structure is simple and be easy to manufacture.3, belt pulley is fixed in test process, ensure that the accuracy of follow-up test result.4, can test the multiple project of test that needs of flat-belt pulley, avoid clamping and dismounting frequently, virtually improve the accuracy of test result.5, highly versatile.

Accompanying drawing explanation

Fig. 1 is the perspective view that the utility model provides.

Fig. 2 is the structural representation that the utility model provides.

Fig. 3 is the structural representation that belt pulley that the utility model provides is fixed.

Fig. 4 is the A place structure for amplifying schematic diagram in Fig. 1 of providing of the utility model.

Fig. 5 is the L clevis gripping members structural representation that the utility model provides.

Fig. 6 is the floating type proving installation structural representation that the utility model provides.

Fig. 7 is the structural representation that the inserted sheet that provides of the utility model inserts in wheel body process.

Fig. 8 is the face runout proving installation structural representation that the utility model provides.

Fig. 9 is that the groove that the utility model provides jumps proving installation structural representation.

In figure, wheel body 11, bearing 12, frame 2, test platform 21, cover body 22, controller 23, warning device 24, storage bin hopper 25, rotating disc 3, internal expanding collet chuck 31, internal expanding driver 32, wheel body clamp system 4, L clevis gripping members 41, interior flexible pin 41a, outer flexible pin 41b, stage clip 42, degree of tightness control gear 43, lifting driving ring 43a, lift actuator one 43b, orienting sleeve one 43c, guidepost one 43d, floating type proving installation 5, first mount pad 51, first translating base 52, first elevating bracket 53, cantilever slab 53a, first lift drive mechanism 54, first lifting driving stem 54a, first actuating sleeve 54b, first translation plates 55, first sensor parts 55a, extension block 55b, inserted sheet 56, first horizontal drive mechanism 57, first orienting sleeve 57a, first guidepost 57b, first limiting plate 57c, first translation actuators 57d, first distance adjustment bar 57e, buffer structure 58, buffer spring 58a, elastic mechanism 59, float plate 59a, lifting guidepost 59b, orienting sleeve 59c, first spring 59d, round boss 59e, second spring 59f, face runout proving installation 6, guiding erection column 61, holder 62, second lifter plate 63, second lift actuator 64, second translation plates 65, face runout measuring head 66, second sensor element 67, second horizontal drive mechanism 68, fixed support 68a, second horizontal drive bar 68b, groove jumps proving installation 7, 3rd mount pad 71, 3rd translating base 72, 3rd horizontal driver 73, 3rd elevating bracket 74, groove jumps measuring head 75, 3rd sensor element 76, 3rd lift drive mechanism 77, 3rd lifting driving stem 77a.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in more detail.

As Figure 1-5, this is used for the Multifunctional test equipment of test pulley, the bearing 12 that belt pulley comprises wheel body 11 and is arranged in wheel body 11, this equipment comprises the frame 2 with test platform 21, storage bin hopper 24 is provided with in frame 2 side, frame 2 is provided with the cover body 22 be positioned at above test platform 21, the warning device 24 cover body 22 being provided with controller 23 and being connected with controller 23.

Horizontally disposed rotating disc 3 is provided with in test platform 21 central area, the internal expanding collet chuck 31 vertically arranged is provided with in the axial centre of rotating disc 3, described internal expanding collet chuck 31 with described internal expanding collet chuck 31 can be driven when bearing 12 is enclosed within internal expanding collet chuck 31 to expand outwardly thus internal expanding collet chuck 31 and the fixing internal expanding driving mechanism of bearing 12 are connected, internal expanding driving mechanism comprises the internal expanding driver 32 that setting is connected with internal expanding collet chuck on the rotating pan and by linkage structure.Internal expanding driver 32 is cylinder or oil cylinder.

Wheel body 11 circumference can be clipped in outer being arranged with of internal expanding collet chuck 31 thus making the wheel body clamp system 4 that between wheel body 11 and bearing 12, circumference is fixing.Particularly, the wheel body clamp system 4 of the present embodiment comprises the L clevis gripping members 41 that some even circumferentials are distributed in internal expanding collet chuck 31 periphery, the middle part of each L clevis gripping members 41 is hinged on rotating disc 3 respectively, one end of each L clevis gripping members 41 is distributed in internal expanding collet chuck 31 periphery, at least one stage clip 42 that described L clevis gripping members 41 can be made to be clipped in wheel body 11 circumference is provided with between the other end and rotating disc 3, the L clevis gripping members 41 frame 2 is provided with described in driving rotates and forces stage clip 42 to compress thus make L clevis gripping members 41 depart from the degree of tightness control gear 43 of wheel body 11.

Degree of tightness control gear 43 comprises the lifting driving ring 43a be positioned at above described L clevis gripping members 41, and described lifting driving ring 43a is elevated the lifting drives structure that driving ring 43a is elevated at vertical direction and is connected with can drive.Secondly, lifting drives structure comprises some lift actuator one 43b be arranged in frame, and described lift actuator one 43b is connected with lifting driving ring, between frame and lifting driving ring, be provided with guide frame; Described guide frame comprises orienting sleeve one 43c of some circle distribution on lifting driving ring, frame is provided with some with described orienting sleeve guidepost one 43d one to one, and described guidepost inserts in orienting sleeve and guidepost and orienting sleeve are slidably connected.Lift actuator one 43b is cylinder or oil cylinder.

Prioritization scheme, is respectively equipped with in the end, one end that each L clevis gripping members is distributed in internal expanding collet chuck periphery and anti-ly hinders structure; Anti-structure of hindering comprises and is arranged on the interior flexible pin 41a that each L clevis gripping members is distributed in one end tip inside of internal expanding collet chuck periphery, and is arranged on the outer flexible pin 41b in outside.

Test platform 21 is also provided be positioned at described wheel body clamp system 4 peripheral and for the distance of the groove on test bearing 12 end face and wheel body 11 floating type proving installation 5, jump proving installation 7 for the face runout proving installation 6 of testing wheel body 11 face runout and the groove of beating for testing wheel body 11 groove.

As shown in fig. 6-7, particularly, floating type proving installation 5 comprises the first mount pad 51, first mount pad 51 is provided with the first translating base 52, first translating base 52 is provided with the first elevating bracket 53, the first described elevating bracket 53 is connected with first lift drive mechanism 54 that the first elevating bracket 53 can be driven to be elevated at vertical direction, first elevating bracket 53 is provided with the first translation plates 55 be slidably connected with the first elevating bracket 53, first translation plates 55 is provided with inserted sheet 56 and described first translating base 52 with the first translating base 52 can be driven to move back and forth in the horizontal direction thus make inserted sheet 56 insert or exit the first horizontal drive mechanism 57 of the groove on wheel body 11, be provided with between the first described translation plates 55 and inserted sheet 56 and can force described inserted sheet 56 automatic capturing when time in the groove that inserted sheet 56 inserts on wheel body 11 thus make the elastic mechanism 59 that inserted sheet 56 contacts with the bottom land of the groove on wheel body 11, the buffer structure 58 that described inserted sheet 56 can be prevented constantly to be pushed into after inserted sheet 56 contacts with the bottom land of the groove on wheel body 11 is provided with between the first described elevating bracket 53 and the first translation plates 55, first translation plates 55 is provided with the first sensor parts 55a be connected with inserted sheet 56.First lift drive mechanism comprises the first lifting driving stem 54a rotating and be arranged on the first elevating bracket, first translation plates is provided with and is enclosed within the first lifting driving stem and is elevated with first the first actuating sleeve 54b that driving stem is threaded, the first actuating sleeve circumference is fixing.First lift drive mechanism 54 can adjust the height of inserted sheet 56, expands usable range.

First horizontal drive mechanism comprises two the first orienting sleeve 57a be separately positioned on the first mount pad, a first guidepost 57b is equipped with respectively in each first orienting sleeve, first translation plates is fixed on the corresponding one end of two first guideposts, first mount pad 51 is provided with the first translation actuators 57d be connected with the first translating base 52, and the first translation actuators 57d is cylinder or oil cylinder; The other end corresponding at two first guideposts is provided with the first limiting plate 57c, first limiting plate is provided with the first distance adjustment bar 57e, first distance adjustment bar is threaded with the first limiting plate, and the first distance adjustment bar can regulate the displacement of the first translation plates.

Prioritization scheme, the elastic mechanism 59 of the present embodiment comprises the float plate 59a be arranged on below the first translation plates 55, described inserted sheet 56 is arranged on float plate 59a, two lifting guidepost 59b vertically arranged are provided with between the first translation plates 55 and float plate 59a, the lower end of every root lifting guidepost 59b is separately fixed on float plate 59a, upper end passes the first translation plates 55 and lifting guidepost 59b can be elevated at vertical direction, the first elastic construction is provided with between every root lifting guidepost 59b and the first translation plates 55, the second elastic construction is provided with between every root lifting guidepost 59b and float plate 59a, one end that buffer structure 58 comprises horizontally disposed at least one buffer spring 58a, buffer spring 58a acts on the first elevating bracket 53, and the other end acts in the first translation plates 55.

First elastic construction comprise be arranged in the first translation plates 55 and be enclosed within lifting guidepost 59b periphery orienting sleeve 59c, lifting guidepost 59b is arranged with the first spring 59d, first described spring 59d one end acts on the round boss 59e at lifting guidepost 59b top, and the other end acts on the upper end of orienting sleeve 59c; Second elastic construction comprises the second spring 59f be set on lifting guidepost 59b, and one end of the second described spring 59f acts in the first translation plates 55, and the other end acts on float plate 59a.

In addition, first elevating bracket 53 is provided with cantilever slab 53a, first translation plates 55 is arranged on cantilever slab 53a by slide construction, extension block 55b is respectively equipped with in the both sides of the first translation plates 55, described cantilever slab 53a is positioned at above float plate 59a and the two ends of float plate 59a and lays respectively at below extension block 55b, described lifting guidepost 59b is each passed through described extension block 55b and lower end is fixed on float plate 59a, and described orienting sleeve 59c lower end is fixed on extension block 55b.

As shown in Figure 8, particularly, the face runout proving installation 6 of the present embodiment comprises two guiding erection columns 61 be vertically arranged on test platform 21, two guiding erection columns 61 are provided with holder 62, be provided with above holder 62 be horizontally disposed with and with the second lifter plate 63 of being slidably connected of guiding erection column 61, the second described lifter plate 63 is connected with second lift actuator 64 that the second lifter plate 63 can be driven to be elevated at vertical direction, and the second lift actuator 64 is cylinder or oil cylinder; Second lifter plate 63 is provided with the second translation plates 65 be connected of sliding with the second lifter plate 63, second described translation plates 65 one end is provided with the face runout measuring head 66 be positioned at below the second translation plates 65, face runout measuring head 66 is connected with the second sensor element 67 be positioned at above the second translation plates 65, between the second described lifter plate 63 and the second translation plates 65, is provided with the second horizontal drive mechanism 68 that the second translation plates 65 described in driving moves in the horizontal direction.Second lifter plate 63 is provided with two guiding body 63a be set on guiding erection column 61, and guiding body 63a is slidably connected with guiding erection column 61.

Second horizontal drive mechanism comprises the fixed support 68a be arranged in the second translation plates, second sensor element is arranged on fixed support, fixed support is provided with the second horizontal drive bar 68b be rotationally connected with fixed support, second lifter plate is installed with the second actuating sleeve 68c be enclosed within the second horizontal drive bar, and the second horizontal drive bar is threaded with the second actuating sleeve.Holder 62 is provided with the spacing head 62a be positioned at below the second lifter plate 63, holder 62 is provided with and is connected with spacing head 62a and can drives the second lifting regulating rod 62b that spacing head 62a is elevated at vertical direction, the second lifting regulating rod 62b is threaded with holder 62.

As shown in Figure 9, particularly, the groove of the present embodiment is jumped proving installation 7 and is comprised the 3rd mount pad 71, 3rd mount pad 71 has the 3rd translating base 72 by horizontally-guided anatomical connectivity, the 3rd described mount pad 71 is provided with the 3rd horizontal driver 73 that the 3rd translating base 72 described in driving moves back and forth in the horizontal direction, 3rd translating base 72 is provided with can at the 3rd elevating bracket 74 of vertical direction lifting, 3rd elevating bracket 74 is provided with groove jump measuring head 75 and jump with groove the 3rd sensor element 76 that measuring head 75 is connected, be provided with the 3rd elevating bracket 74 described in driving between the 3rd described translating base 72 and the 3rd elevating bracket 74 be elevated at vertical direction and the 3rd lift drive mechanism 77 fixing between the 3rd translating base 72 and the 3rd elevating bracket 74 can be made when the 3rd elevating bracket 74 is elevated to the position of setting.3rd horizontal driver 73 is cylinder or oil cylinder.

Horizontally-guided structure comprise two levels be located on the 3rd mount pad 71 horizontally-guided cover 71a, a horizontally-guided bar 71b is equipped with respectively in each horizontally-guided cover 71a, 3rd translating base 72 is arranged on the corresponding one end of two horizontally-guided bar 71b, the other end corresponding at two horizontally-guided bar 71b is provided with anticreep plate 71c, and anticreep plate 71c is provided with the spacing adjuster bar 71d that can contact with the 3rd mount pad 71.Spacing adjuster bar 71d can regulate the distance of the 3rd translating base 72 movement outward.

3rd lift drive mechanism comprises the 3rd lifting driving stem 77a be arranged on the 3rd elevating bracket, and the 3rd translating base is provided with the 3rd actuating sleeve be enclosed within the 3rd lifting driving stem, and the 3rd lifting driving stem and the 3rd actuating sleeve screw thread connect.First sensor parts, the second sensor element are connected with controller respectively with the 3rd sensor element.Controller is provided with display screen.3rd lifting driving stem 77a can expand usable range further.

The principle of work of the present embodiment dismounting belt pulley is as follows:

Unloading process is as follows: when the lifting driving ring 43a described in lift actuator one 43b pulled down moves down, lifting driving ring 43a can drive L clevis gripping members 41 to rotate certain angle to make L clevis gripping members 41 depart from wheel body 11, and then internal expanding collet chuck 31 bounces back thus can by dismantling belt pulleys;

Installation process is as follows: be set on internal expanding collet chuck 31 by the bearing 12 in wheel body, drive internal expanding collet chuck 31 to expand outwardly by internal expanding driver 32 and the bearing of wheel body is fixed, at this moment when lift actuator one 43b moves up, the wheel body circumference be enclosed within internal expanding collet chuck 31 is clamped by L clevis gripping members 41 under the screen resilience effect of stage clip 42, namely completes installation.

The principle of floating type proving installation is as follows: after belt pulley is fixed, drive the first elevating bracket 53 to move by the first horizontal drive mechanism 57 thus make inserted sheet 56 insert the groove on wheel body 11 and contact with the cell body of groove, in the process inserted, automatic capturing is carried out by elastic mechanism 59 pairs of grooves, prevent inserted sheet 56 be constantly pushed into thus damage wheel body by buffer structure 58, first sensor parts 55a records the distance of the groove on bearing 12 end face and wheel body 11.

Make inserted sheet 56 exit groove on wheel body 11 by the first horizontal drive mechanism 57, namely complete test.

The principle of face runout proving installation is as follows: the second lift actuator 64 drives the second translation plates 65 to be elevated thus makes face runout measuring head 66 contact wheel body end face or away from wheel body end face, record beating of wheel body end face by the second sensor element 67.

It is as follows that groove jumps the principle of proving installation: drive the 3rd elevating bracket 74 to move by the 3rd horizontal driver 73 thus make groove jump measuring head 75 and jump with groove groove that the 3rd sensor element 76 that measuring head 75 is connected records wheel body groove and to beat data.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Although more employ wheel body 11 herein, bearing 12, frame 2, test platform 21, cover body 22, controller 23, warning device 24, storage bin hopper 25, rotating disc 3, internal expanding collet chuck 31, internal expanding driver 32, wheel body clamp system 4, L clevis gripping members 41, interior flexible pin 41a, outer flexible pin 41b, stage clip 42, degree of tightness control gear 43, lifting driving ring 43a, lift actuator one 43b, orienting sleeve one 43c, guidepost one 43d, floating type proving installation 5, first mount pad 51, first translating base 52, first elevating bracket 53, cantilever slab 53a, first lift drive mechanism 54, first lifting driving stem 54a, first actuating sleeve 54b, first translation plates 55, first sensor parts 55a, extension block 55b, inserted sheet 56, first horizontal drive mechanism 57, first orienting sleeve 57a, first guidepost 57b, first limiting plate 57c, first translation actuators 57d, first distance adjustment bar 57e, buffer structure 58, buffer spring 58a, elastic mechanism 59, float plate 59a, lifting guidepost 59b, orienting sleeve 59c, first spring 59d, round boss 59e, second spring 59f, face runout proving installation 6, guiding erection column 61, holder 62, second lifter plate 63, second lift actuator 64, second translation plates 65, face runout measuring head 66, second sensor element 67, second horizontal drive mechanism 68, fixed support 68a, second horizontal drive bar 68b, groove jumps proving installation 7, 3rd mount pad 71, 3rd translating base 72, 3rd horizontal driver 73, 3rd elevating bracket 74, groove jumps measuring head 75, 3rd sensor element 76, 3rd lift drive mechanism 77, the terms such as the 3rd lifting driving stem 77a, but do not get rid of the possibility using other term.These terms are used to be only used to describe and explain essence of the present utility model more easily; The restriction that they are construed to any one additional is all contrary with the utility model spirit.

Claims (10)

1. the Multifunctional test equipment for test pulley, belt pulley comprises wheel body (11) and is arranged on the bearing (12) in wheel body (11), this equipment comprises the frame (2) with test platform (21), it is characterized in that, described test platform (21) central area is provided with horizontally disposed rotating disc (3), the internal expanding collet chuck (31) vertically arranged is provided with in the axial centre of rotating disc (3), described internal expanding collet chuck (31) described internal expanding collet chuck (31) can be driven to expand outwardly with when being enclosed within when bearing (12) on internal expanding collet chuck (31) thus the internal expanding driving mechanism that internal expanding collet chuck (31) and bearing (12) are fixed is connected, wheel body (11) circumference can be clipped in outer being arranged with of internal expanding collet chuck (31) thus making the wheel body clamp system (4) that between wheel body (11) and bearing (12), circumference is fixing, test platform (21) is also provided with and is positioned at the peripheral and floating type proving installation (5) of distance for the groove on test bearing (12) end face and wheel body (11) of described wheel body clamp system (4), for testing the face runout proving installation (6) of wheel body (11) face runout, and for testing groove jumping proving installation (7) that wheel body (11) groove is beated.

2. the Multifunctional test equipment for test pulley according to claim 1, it is characterized in that, described wheel body clamp system (4) comprises some even circumferentials and is distributed in the peripheral L clevis gripping members (41) of internal expanding collet chuck (31), the middle part of each L clevis gripping members (41) is hinged on rotating disc (3) respectively, one end of each L clevis gripping members (41) is distributed in internal expanding collet chuck (31) periphery, at least one stage clip (42) that described L clevis gripping members (41) can be made to be clipped in wheel body (11) circumference is provided with between the other end and rotating disc (3), the L clevis gripping members (41) frame (2) is provided with described in driving rotates and forces stage clip (42) to compress thus make L clevis gripping members (41) depart from the degree of tightness control gear (43) of wheel body (11).

3. the Multifunctional test equipment for test pulley according to claim 2, it is characterized in that, described degree of tightness control gear (43) comprises the lifting driving ring (43a) being positioned at described L clevis gripping members (41) top, and described lifting driving ring (43a) is elevated the lifting drives structure that driving ring (43a) is elevated at vertical direction and is connected with can drive.

4. the Multifunctional test equipment for test pulley according to claim 1 or 2 or 3, it is characterized in that, described floating type proving installation (5) comprises the first mount pad (51), first mount pad (51) is provided with the first translating base (52), first translating base (52) is provided with the first elevating bracket (53), described the first elevating bracket (53) is connected with first lift drive mechanism (54) that the first elevating bracket (53) can be driven to be elevated at vertical direction, first elevating bracket (53) is provided with the first translation plates (55) be slidably connected with the first elevating bracket (53), first translation plates (55) is provided with inserted sheet (56) and described the first translating base (52) with the first translating base (52) can be driven to move back and forth in the horizontal direction thus make inserted sheet (56) insert or exit first horizontal drive mechanism (57) of the groove on wheel body (11), be provided with between described the first translation plates (55) and inserted sheet (56) and described inserted sheet (56) automatic capturing can be forced when time in the groove that inserted sheet (56) inserts on wheel body (11) thus make the elastic mechanism (59) that inserted sheet (56) contacts with the bottom land of the groove on wheel body (11), the buffer structure (58) that described inserted sheet (56) can be prevented constantly to be pushed into after inserted sheet (56) contacts with the bottom land of the groove on wheel body (11) is provided with between described the first elevating bracket (53) and the first translation plates (55), first translation plates (55) is provided with the first sensor parts (55a) be connected with inserted sheet (56).

5. the Multifunctional test equipment for test pulley according to claim 4, it is characterized in that, described elastic mechanism (59) comprises the float plate (59a) being arranged on the first translation plates (55) below, described inserted sheet (56) is arranged in float plate (59a), two lifting guideposts (59b) vertically arranged are provided with between the first translation plates (55) and float plate (59a), the lower end of every root lifting guidepost (59b) is separately fixed in float plate (59a), upper end passes the first translation plates (55) and lifting guidepost (59b) can be elevated at vertical direction, the first elastic construction is provided with between every root lifting guidepost (59b) and the first translation plates (55), the second elastic construction is provided with between every root lifting guidepost (59b) and float plate (59a), buffer structure (58) comprises horizontally disposed at least one buffer spring (58a), one end of buffer spring (58a) acts on the first elevating bracket (53), and the other end acts in the first translation plates (55).

6. the Multifunctional test equipment for test pulley according to claim 5, it is characterized in that, the first described elastic construction comprises that to be arranged on the first translation plates (55) upper and be enclosed within the peripheral orienting sleeve (59c) of lifting guidepost (59b), lifting guidepost (59b) is arranged with the first spring (59d), described the first spring (59d) one end acts on the round boss (59e) at lifting guidepost (59b) top, and the other end acts on the upper end of orienting sleeve (59c); Second elastic construction comprises the second spring (59f) be set in lifting guidepost (59b), one end of described the second spring (59f) acts in the first translation plates (55), and the other end acts in float plate (59a).

7. the Multifunctional test equipment for test pulley according to claim 6, it is characterized in that, described the first elevating bracket (53) is provided with cantilever slab (53a), first translation plates (55) is arranged on cantilever slab (53a) by slide construction, extension block (55b) is respectively equipped with in the both sides of the first translation plates (55), described cantilever slab (53a) is positioned at float plate (59a) top and the two ends of float plate (59a) lay respectively at extension block (55b) below, described lifting guidepost (59b) is each passed through described extension block (55b) and lower end is fixed in float plate (59a), described orienting sleeve (59c) lower end is fixed on extension block (55b).

8. the Multifunctional test equipment for test pulley according to claim 1 or 2 or 3, it is characterized in that, described face runout proving installation (6) comprises two guiding erection columns (61) be vertically arranged on test platform (21), two guiding erection column (61) are provided with holder (62), be provided with in holder (62) top be horizontally disposed with and with guiding erection column (61) the second lifter plate (63) of being slidably connected, described the second lifter plate (63) is connected with second lift actuator (64) that the second lifter plate (63) can be driven to be elevated at vertical direction, second lifter plate (63) is provided with the second translation plates (65) be connected of sliding with the second lifter plate (63), described the second translation plates (65) one end is provided with the face runout measuring head (66) being positioned at the second translation plates (65) below, face runout measuring head (66) is connected with the second sensor element (67) being positioned at the second translation plates (65) top, the second horizontal drive mechanism (68) that the second translation plates (65) described in driving moves in the horizontal direction is provided with between described the second lifter plate (63) and the second translation plates (65).

9. the Multifunctional test equipment for test pulley according to claim 1 or 2 or 3, it is characterized in that, described groove is jumped proving installation (7) and is comprised the 3rd mount pad (71), 3rd mount pad (71) has the 3rd translating base (72) by horizontally-guided anatomical connectivity, the 3rd described mount pad (71) is provided with the 3rd horizontal driver (73) that the 3rd translating base (72) described in driving moves back and forth in the horizontal direction, 3rd translating base (72) is provided with can at the 3rd elevating bracket (74) of vertical direction lifting, 3rd elevating bracket (74) is provided with groove jump measuring head (75) and jump with groove the 3rd sensor element (76) that measuring head (75) is connected, be provided with the 3rd elevating bracket (74) described in driving between the 3rd described translating base (72) and the 3rd elevating bracket (74) be elevated at vertical direction and the 3rd lift drive mechanism (77) fixing between the 3rd translating base (72) and the 3rd elevating bracket (74) can be made when the 3rd elevating bracket (74) is elevated to the position of setting.

10. the Multifunctional test equipment for test pulley according to claim 1 or 2 or 3, it is characterized in that, described frame (2) side is provided with storage bin hopper (25), frame (2) is provided with the cover body (22) being positioned at test platform (21) top, the warning device (24) cover body (22) being provided with controller (23) and being connected with controller (23).