CN106404413B - A kind of sliding rail coasting test equipment - Google Patents

Abstract

The invention discloses a kind of sliding rail coasting test equipment, including glidepath fixed mechanism and upper sliding rail to slide fluency testing agency；Glidepath fixed mechanism is located at the side that upper sliding rail slides fluency testing agency.It includes pedestal, slide, slide plate that upper sliding rail, which slides fluency testing agency, and slide is slidably mounted on pedestal, and slide plate is mounted on slide；The left and right ends of slide plate are installed by force measuring machine respectively.According to the above technical scheme, the glidepath in sliding rail to be detected is horizontally fixed on glidepath fixed mechanism；For force measuring machine positioned at slide plate left end when pushing upper sliding rail to the right, digital displaying push-and-pull tensiometer detects the size of thrust；For force measuring machine positioned at slide plate right end when pushing upper sliding rail to the left, digital displaying push-and-pull tensiometer detects the size of thrust.If the digital displaying push-and-pull tensiometer detection resulting value in two force measuring machines does not meet predetermined value, producer can be adjusted the matching relationship between upper sliding rail and glidepath, so that user can be conveniently used sliding rail.

Description

A kind of sliding rail coasting test equipment

Technical field:

The present invention relates to the production equipments of automotive seat front-and-back adjusting device, before a kind of car seat Upper sliding rail slides the detection device of smooth degree in glidepath in sliding rail in regulating device afterwards.

Background technique:

It is generally known, the seat at car front row can front and back adjust, the seat slide installation is on the slide rail, wherein described Sliding rail includes the upper sliding rail being slidably matched, glidepath, the ball item being embedded between sliding rail and glidepath, the upper sliding rail peace Mounted in the bottom of seat, the glidepath is mounted on the bottom plate of car.

As shown in Figure 1 and Figure 2, the sliding rail d in a kind of car front seat front-and-back adjusting device, sliding rail d include upper sliding rail A, upper sliding rail a set slide slot a1；Glidepath b is installed, the bottom of glidepath b is welded with multiple bolts in the slide slot of upper sliding rail B1, glidepath are equipped with pin hole；Ball c is equipped between the inner sidewall and glidepath b of the slide slot a1 of upper sliding rail a；Glidepath b Strip groove in set locker e, when locker e is in lock state, upper sliding rail can not be relatively moved along glidepath, Push the end of locker, locker, that is, in the unlocked state, at this point, upper sliding rail can edge under the action of extraneous thrust Glidepath is mobile.

Before sliding rail d factory, producer need to test the upper sliding rail a smooth degree slided in glidepath b, with Just user can be conveniently used sliding rail d, to adjust the front-rear position of front-row seats.

Summary of the invention:

The purpose of the present invention: providing a kind of dynameter, which can be in car front seat front-and-back adjusting device The upper sliding rail of sliding rail slides required thrust in glidepath and is detected, so that producer is between upper sliding rail and glidepath Matching relationship is adjusted, and then allows users to easily use sliding rail.

The invention provides the following technical scheme:

A kind of sliding rail coasting test equipment, comprising: glidepath fixed mechanism, upper sliding rail slide fluency testing agency；Institute It states glidepath fixed mechanism and is located at the side that upper sliding rail slides fluency testing agency；

The glidepath fixed mechanism includes support body, support assembly, a pair of of fixture, and the support assembly is mounted on On support body, the pair of fixture is mounted on the two sides of support body, and glidepath is clamped on support assembly by a pair of of fixture；Institute The centre that fixture acts on glidepath end is stated, the width of fixture is less than the width of glidepath strip groove；

It includes pedestal, electric cylinders, slide, the first cylinder, slide plate, the slide that the upper sliding rail, which slides fluency testing agency, It is slidably mounted on pedestal, electric cylinders are mounted on the base, and electric cylinders driving slide moves left and right on pedestal, the slide plate slides On slide, the first cylinder is mounted on slide for cooperation, and the first cylinder driving slide plate moves forward and backward on slide；The slide plate In long strip, the left end of slide plate and right end install force measuring machine respectively, and two force measuring machines are oppositely arranged, and force measuring machine includes branch Frame, the second cylinder, push unit, digital displaying push-and-pull tensiometer, the bracket are fixed on slide plate, and the second cylinder is fixed on bracket, Push unit is slidably mounted on bracket, and the piston rod of the second cylinder connects push unit, and the second cylinder drives push unit left It moves right, digital displaying push-and-pull tensiometer is mounted on push unit.

According to the above technical scheme, the glidepath in sliding rail to be detected is horizontally fixed on glidepath fixed mechanism of the present invention On, the end that a fixture in a pair of of fixture of glidepath both ends centre pushes locker in glidepath is acted on, Locker, that is, in the unlocked state, at this point, upper sliding rail can be moved along glidepath under the action of extraneous thrust；Start to detect, First cylinder driving slide plate moves forward to predetermined position, at this point, the push unit for being located at slide plate left end is located at the left end of upper sliding rail, Push unit positioned at slide plate right end is located at the right end of upper sliding rail；Later, the second cylinder driving positioned at slide plate left end is located at The push unit of left end moves to right, and contacts the push unit positioned at slide plate left end with the left end of upper sliding rail；Later, electric cylinders driving is slided Seat moves horizontally to the right, and the force measuring machine positioned at slide plate left end drives upper sliding rail in glidepath to right translation, upper sliding rail to During right translation, power needed for sliding rail is big in the digital displaying push-and-pull tensiometer detection promotion in the force measuring machine of slide plate left end It is small；After upper sliding rail is moved to right end, the push unit that the second cylinder driving positioned at slide plate right end is located at right end is moved to left, and is made Push unit positioned at slide plate right end is contacted with the right end of upper sliding rail；Later, electric cylinders driving slide moves horizontally to the left, is located at and slides The force measuring machine of plate right end drives upper sliding rail in glidepath to left, in upper sliding rail to the left translation motion, is located at slide plate The size of power needed for digital displaying push-and-pull tensiometer detection in the force measuring machine of right end pushes upper sliding rail.

Through the above technical solutions, if the digital displaying push-and-pull tensiometer detection resulting value in two force measuring machines does not meet predetermined number Value, producer can be adjusted the matching relationship between upper sliding rail and glidepath, so that user can be conveniently used sliding rail.

As the present invention to a kind of explanation of glidepath fixed mechanism, the support assembly includes the first supporting element and the Two supporting elements, the first supporting element and the second supporting element are arranged on the two sides of support body, set on the first supporting element and the second supporting element There are a positioning pin and location hole, the pin hole of the positioning pin and glidepath cooperates, the bolt welded on the location hole and glidepath Cooperation；The pair of fixture includes the first fixture and the second fixture, and the first fixture is located at the side of the first supporting element, the second fixture Positioned at the side of the second supporting element, the first supporting element and the second supporting element are between the first fixture and the second fixture.

As the present invention to a kind of explanation of glidepath fixed mechanism, the support body includes that the first transverse slat and second are horizontal Plate；First fixture and the second fixture include straight line lifting cylinder, elevating lever, fixture block, spring；The straight line lifting cylinder It is fixed on the first transverse slat, elevating lever activity plugs on the second transverse slat, and the piston rod of elevating lever bottom and straight line lifting cylinder connects It connects；The spring is vertically installed at the side on the second transverse slat and being located at elevating lever；The fixture block includes fixture block body, driving point Branch is replied by branch, clamping branch, and the driving branch, clamping branch, reply branch are located on fixture block body, and the fixture block is whole In fan blade shape, fixture block body is articulated on the second transverse slat, and driving branch is against the top of elevating lever, replys the top that branch is against spring Portion, when driving branch to be lifted by elevating lever, the end of glidepath is clamped on support assembly by clamping branch.

As the present invention to a kind of explanation of glidepath fixed mechanism, second transverse slat is equipped with push pin device, described Push pin device includes the upper top gas cylinder being fixed on the second transverse slat, the thimble being fixed on top gas cylinder piston rod, upper top gas cylinder Drive thimble lifting.After glidepath is fixed on support assembly by the first fixture and the second fixture, upper top gas cylinder driving top Needle uplink, thimble are from bottom to top withstood in the pin hole of glidepath, prevent glidepath from sliding a fluency testing agency left side in upper sliding rail It is translated when sliding rail in right translation.

A kind of explanation of fluency testing agency is slided to upper sliding rail as the present invention, the push unit includes first sliding Block, the second sliding block, pushing block, axial load overload protective device, the bracket is equipped with guide rail, before the first sliding block and the second sliding block It is sequentially slidably mounted on guide rail, is spaced a distance between the first sliding block and the second sliding block afterwards, the pushing block is fixed on On one sliding block, the axial load overload protective device is mounted on the second sliding block, the front end of axial load overload protective device with push away Block connection, the tail end of axial load overload protective device are connect with digital displaying push-and-pull tensiometer, and digital displaying push-and-pull tensiometer is mounted on the second sliding block On.

A kind of explanation of fluency testing agency is slided to upper sliding rail as the present invention, the force measuring machine is located at slide plate two The front side at end, the slide plate centre are equipped with supporting plate, fibre optical sensor are installed on supporting plate, fibre optical sensor is for before detecting slide plate Whether sliding rail is fixed on the glidepath fixed mechanism of side.As described above, slide plate moves on slide, when fibre optical sensor is examined It surveys to slide plate front there are when sliding rail, slide plate stops movement, at this point, two force measuring machines are located at sliding rail to be detected just Left and right ends.

A kind of explanation of fluency testing agency is slided to upper sliding rail as the present invention, is fixedly mounted on the base side wall First locating piece installs the second locating piece on the slide side wall, and the first locating piece and the second locating piece are triangular in shape, work as cunning For seat when being slided on pedestal to predetermined position, the apex angle of the first locating piece is opposite with the apex angle of the second locating piece.As described above, Staff can accurately and intuitively judge whether slide reaches predetermined station.

Detailed description of the invention:

Following further describes the present invention with reference to the drawings:

Fig. 1 is the structural schematic diagram of sliding rail d involved by the present invention；

Fig. 2 is the right view of Fig. 1；

Fig. 3 is a kind of structural schematic diagram of sliding rail coasting test equipment of the present invention；

Fig. 4 is the structural schematic diagram of glidepath fixed mechanism 20 in Fig. 3；

Fig. 5 is the left view of Fig. 4；

Fig. 6 is the schematic perspective view of glidepath fixed mechanism 20 in Fig. 4；

Fig. 7 is to overlook the upper sliding rail in Fig. 3 to slide the resulting structural schematic diagram of fluency testing agency 10；

Fig. 8 slides the resulting structural schematic diagram of fluency testing agency 10 depending on the upper sliding rail to be right in Fig. 3；

Fig. 9 is the schematic perspective view that upper sliding rail slides fluency testing agency 10 in Fig. 3；

Figure 10 is the structural schematic diagram of force measuring machine 16 in Fig. 7, Fig. 8, Fig. 9；

Figure 11 is enlarged drawing at A in Fig. 9；

Figure 12 is the structural representation that upper sliding rail a described in Fig. 1 is moved to right end by force measuring machine 16 in Fig. 7, Fig. 8, Fig. 9 Figure；

Figure 13 is the structural representation that upper sliding rail a described in Fig. 1 is moved to left end by force measuring machine 16 in Fig. 7, Fig. 8, Fig. 9 Figure.

Symbol description in figure:

A, upper sliding rail；A1, slide slot；B, glidepath；B1, weld bolt；C, ball item；D, sliding rail；E, locker；

10, upper sliding rail slides fluency testing agency；11, pedestal；111, the first locating piece；12, electric cylinders；13, slide； 131, the second locating piece；14, the first cylinder；15, slide plate；16, force measuring machine；161, bracket；162, the second cylinder；163, it elapses Device；1631, the first sliding block；1632, the second sliding block；1633, pushing block；1634, axial load overload protective device；164, digital display pushes away Tensiometer；165, guide rail；17, supporting plate；171, fibre optical sensor.

20, glidepath fixed mechanism；21, support body；211, the first transverse slat；212, the second transverse slat；22, support assembly； 221, the first supporting element；222, the second supporting element；23, fixture；231, the first fixture；232, the second fixture；233, straight line is gone up and down Cylinder；234, elevating lever；235, fixture block；236, spring；237, branch is driven；238, branch is clamped；239, branch is replied.

Specific embodiment:

Such as Fig. 3, a kind of sliding rail coasting test equipment, comprising: glidepath fixed mechanism 20, upper sliding rail slide fluency detection Mechanism 10；The glidepath fixed mechanism is located at the side that upper sliding rail slides fluency testing agency.

In conjunction with fig. 4 to fig. 6, the glidepath fixed mechanism 20 includes support body 21, support assembly 22, a pair of of fixture 23, the support assembly is mounted on support body, and the pair of fixture is mounted on the two sides of support body, and a pair of of fixture will glide Rail b is clamped on support assembly.

In glidepath fixed mechanism 20, in conjunction with fig. 4 to fig. 6, the fixture 23 acts on the centre of the end glidepath b, The width of fixture is less than the width of glidepath strip groove.

In glidepath fixed mechanism 20, such as Fig. 5, the support assembly 22 includes the first supporting element 221 and the second support Part 222, the first supporting element and the second supporting element are arranged on the two sides of support body 21, and the first supporting element and the second supporting element are equipped with The pin hole of positioning pin and location hole, the positioning pin and glidepath b cooperate, the bolt b1 welded on the location hole and glidepath Cooperation；The pair of fixture 23 includes the first fixture 231 and the second fixture 232, and the first fixture is located at the side of the first supporting element, Second fixture is located at the side of the second supporting element, the first supporting element and the second supporting element be located at the first fixture and the second fixture it Between.

In glidepath fixed mechanism 20, such as Fig. 5, the support body 21 includes the first transverse slat 211 and the second transverse slat 212；Institute Stating the first fixture 231 and the second fixture 232 includes straight line lifting cylinder 233, elevating lever 234, fixture block 235, spring 236；Institute It states straight line lifting cylinder to be fixed on the first transverse slat, elevating lever activity plugs on the second transverse slat, and elevating lever bottom and straight line are gone up and down The piston rod of cylinder connects；The spring is vertically installed at the side on the second transverse slat and being located at elevating lever；The fixture block includes Fixture block body, clamping branch 238, replys branch 239 at driving branch 237, and the driving branch, clamping branch, reply branch are located at On fixture block body, the fixture block is integrally in fan blade shape, and fixture block body is articulated on the second transverse slat, and driving branch is against the top of elevating lever The top that branch is against spring is replied in portion, and when driving branch to be lifted by elevating lever, the end of glidepath b is pressed from both sides in clamping branch It holds on support combination part 22.

In glidepath fixed mechanism 20, such as Fig. 5, second transverse slat 212 is equipped with push pin device 24, the push pin device Including the upper top gas cylinder 241 being fixed on the second transverse slat, the thimble 242 being fixed on upper top gas cylinder piston rod, upper top gas cylinder is driven Dynamic thimble lifting.

In conjunction with Fig. 7 to Fig. 9, the upper sliding rail slide fluency testing agency 10 include pedestal 11, electric cylinders 12, slide 13, First cylinder 14, slide plate 15, the slide are slidably mounted on pedestal, and electric cylinders are mounted on the base, and electric cylinders drive slide the bottom of at It is moved left and right on seat, the slide plate slides cooperation is on slide, and the first cylinder is mounted on slide, and the first cylinder drives slide plate It is moved forward and backward on slide.The slide plate is in long strip, and the left end of slide plate and right end install force measuring machine 16, two surveys respectively Force mechanisms are oppositely arranged, and force measuring machine includes bracket 161, the second cylinder 162, push unit 163, digital displaying push-and-pull tensiometer 164, institute It states bracket to be fixed on slide plate, the second cylinder is fixed on bracket, and push unit is slidably mounted on bracket, the work of the second cylinder Stopper rod connects push unit, and the second cylinder driving push unit moves left and right, and digital displaying push-and-pull tensiometer is mounted on push unit.

Upper sliding rail slides in fluency testing agency 10, such as Figure 10, the push unit 163 include the first sliding block 1631, Second sliding block 1632, pushing block 1633, axial load overload protective device 1634, the bracket 161 are equipped with guide rail 165, and first is sliding Block and the second sliding block are slidably mounted on guide rail with tandem, are spaced a distance between the first sliding block and the second sliding block, The pushing block is fixed on the first sliding block, and the axial load overload protective device is mounted on the second sliding block, axial load overload The front end of protector is connect with pushing block, and the tail end of axial load overload protective device is connect with digital displaying push-and-pull tensiometer 164, digital display push-and-pull Power meter is mounted on the second sliding block.

Upper sliding rail slides in fluency testing agency 10, and in conjunction with Fig. 7 to Fig. 9, the force measuring machine 16 is located at 15 liang of slide plate The front side at end, the slide plate centre are equipped with supporting plate 17, fibre optical sensor 171 are installed on supporting plate, fibre optical sensor is for detecting Whether clamping has sliding rail d on glidepath fixed mechanism 20 in front of slide plate.

Upper sliding rail slides in fluency testing agency 10, and in conjunction with Fig. 9, Figure 11, is fixedly mounted on 11 side wall of pedestal A positioning block 111 installs the second locating piece 131 on 13 side wall of slide, and the first locating piece and the second locating piece are in triangle Shape, when slide is slided on pedestal to predetermined position, the apex angle of the first locating piece is opposite with the apex angle of the second locating piece.

The workflow of sliding rail coasting test equipment of the present invention is as follows:

Glidepath b in first, sliding rail d to be detected is horizontally fixed on glidepath fixed mechanism 20, acts on glidepath A fixture in a pair of of fixture 23 of both ends centre pushes the end of locker e in glidepath b, and locker e is It is in the unlocked state, at this point, upper sliding rail a can be moved along glidepath b under the action of extraneous thrust；

The second, the first cylinder 14 driving slide plate 15 moves forward to predetermined position, at this point, being located at the push unit of 15 left end of slide plate 163 at the left end of upper sliding rail a, and the push unit 163 positioned at 15 right end of slide plate is located at the right end of upper sliding rail a；

Third, the push unit 163 that the second cylinder 162 driving positioned at 15 left end of slide plate is located at left end move to right, make to be located at The push unit of slide plate left end is contacted with the left end of upper sliding rail a；Later, electric cylinders 12 drive slide 13 to move horizontally to the right, are located at The force measuring machine 16 of slide plate left end drives upper sliding rail a in glidepath b to right translation, in upper sliding rail to the right translation motion, position The size of power needed for the detection of digital displaying push-and-pull tensiometer 164 in the force measuring machine of slide plate left end pushes upper sliding rail, such as Figure 12 institute Show；

4th, after upper sliding rail a is moved to right end, the second cylinder 162 driving positioned at 15 right end of slide plate is located at right end Push unit 163 move to left, contact the push unit positioned at slide plate right end with the right end of upper sliding rail a；Later, electric cylinders 12 drive Slide 13 moves horizontally to the left, drives upper sliding rail a in glidepath b to left positioned at the force measuring machine 16 of slide plate right end, To the left in translation motion, the detection of digital displaying push-and-pull tensiometer 164 in the force measuring machine of 15 right end of slide plate pushes sliding upper sliding rail The size of power needed for rail, as shown in figure 13.

The above content is only better embodiment of the invention, for those of ordinary skill in the art, according to the present invention Thought, there will be changes in the specific implementation manner and application range, and the content of the present specification should not be construed as to this hair Bright limitation.

Claims (3)

1. a kind of sliding rail coasting test equipment, comprising: glidepath fixed mechanism (20), upper sliding rail slide fluency testing agency (10)；The glidepath fixed mechanism is located at the side that upper sliding rail slides fluency testing agency；

The glidepath fixed mechanism (20) includes support body (21), support assembly (22), a pair of of fixture (23), the support Sub-assembly is mounted on support body, and the pair of fixture is mounted on the two sides of support body, and glidepath (b) is clamped in by a pair of of fixture On support assembly；

It includes pedestal (11), electric cylinders (12), slide (13), the first cylinder that the upper sliding rail, which slides fluency testing agency (10), (14), slide plate (15), the slide are slidably mounted on pedestal, and electric cylinders are mounted on the base, and electric cylinders drive slide on pedestal It moves left and right, the slide plate slides cooperation is on slide, and the first cylinder is mounted on slide, and the first cylinder drives slide plate in cunning It is moved forward and backward on seat；

It is characterized by:

In glidepath fixed mechanism (20), the fixture (23) acts on the centre of glidepath (b) end, and the width of fixture is small In the width of glidepath strip groove；

Upper sliding rail slides in fluency testing agency (10), and the slide plate is in long strip, and the left end of slide plate and right end are installed respectively Force measuring machine (16), two force measuring machines are oppositely arranged, and force measuring machine includes bracket (161), the second cylinder (162), passage dress (163), digital displaying push-and-pull tensiometer (164) are set, the bracket is fixed on slide plate, and the second cylinder is fixed on bracket, push unit It is slidably mounted on bracket, the piston rod of the second cylinder connects push unit, and the second cylinder driving push unit moves left and right, number Aobvious pull and push dynamometer is mounted on push unit；

In glidepath fixed mechanism (20), the support assembly (22) includes the first supporting element (221) and the second supporting element (222), the first supporting element and the second supporting element are arranged on the two sides of support body (21), set on the first supporting element and the second supporting element There are positioning pin and location hole, the pin hole of the positioning pin and glidepath (b) cooperates, the spiral shell welded on the location hole and glidepath Bolt (b1) cooperation；The pair of fixture (23) includes the first fixture (231) and the second fixture (232), and the first fixture is located at first The side of supporting element, the second fixture are located at the side of the second supporting element, and the first supporting element and the second supporting element are located at the first fixture And second between fixture；

In glidepath fixed mechanism (20), the support body (21) includes the first transverse slat (211) and the second transverse slat (212)；It is described First fixture (231) and the second fixture (232) include straight line lifting cylinder (233), elevating lever (234), fixture block (235), bullet Spring (236)；The straight line lifting cylinder is fixed on the first transverse slat, and elevating lever activity plugs on the second transverse slat, elevating lever bottom It is connect with the piston rod of straight line lifting cylinder；The spring is vertically installed at the side on the second transverse slat and being located at elevating lever；Institute It states fixture block to include fixture block body, driving branch (237), clamping branch (238), reply branch (239), the driving branch, clamping Branch, reply branch are located on fixture block body, and the fixture block is integrally in fan blade shape, and fixture block body is articulated on the second transverse slat, driving point Branch is against the top of elevating lever, replys the top that branch is against spring, and when driving branch to be lifted by elevating lever, clamping branch will The end of glidepath (b) is clamped on support combination part (22)；

In glidepath fixed mechanism (20), second transverse slat (212) is equipped with push pin device (24), and the push pin device includes The upper top gas cylinder (241) being fixed on the second transverse slat, the thimble (242) being fixed on top gas cylinder piston rod, upper top gas cylinder drive Dynamic thimble lifting；

Upper sliding rail slides in fluency testing agency (10), and the push unit (163) slides including the first sliding block (1631), second Block (1632), pushing block (1633), axial load overload protective device (1634), the bracket (161) are equipped with guide rail (165), the One sliding block and the second sliding block are slidably mounted on guide rail with tandem, be spaced between the first sliding block and the second sliding block it is certain away from From the pushing block is fixed on the first sliding block, and the axial load overload protective device is mounted on the second sliding block, axial load mistake The front end for carrying protector is connect with pushing block, and the tail end of axial load overload protective device is connect with digital displaying push-and-pull tensiometer (164), digital display Pull and push dynamometer is mounted on the second sliding block.

2. a kind of sliding rail coasting test equipment as described in claim 1, it is characterised in that: upper sliding rail slides fluency detection machine In structure (10), the force measuring machine (16) is located at the front side at slide plate (15) both ends, and the slide plate centre is equipped with supporting plate (17), branch Fibre optical sensor (171) are installed on plate, fibre optical sensor be used to detect on glidepath fixed mechanism (20) in front of slide plate whether Clamping has sliding rail (d).

3. a kind of sliding rail coasting test equipment as described in claim 1, it is characterised in that: upper sliding rail slides fluency detection machine It in structure (10), is fixedly mounted the first locating piece (111) on pedestal (11) side wall, installs second on slide (13) side wall Locating piece (131), the first locating piece and the second locating piece are triangular in shape, when slide is slided on pedestal to predetermined position, The apex angle of first locating piece is opposite with the apex angle of the second locating piece.