CN209130042U - High loading Multishaft adjusting device - Google Patents

Abstract

The utility model provides a kind of high loading Multishaft adjusting device, it includes: a stacked X-axis seat up and down, one Y-axis seat, and provide two slide rail groups of the X-axis seat and the Y-axis seat slide displacement, two slide rail groups are arranged in pairs or groups respectively is installed on the X-axis seat and the Y-axis seat, including a sliding block, two limit sliding rails, and two support sliding rail, above-mentioned slide rail group is equipped with two support sliding rails in the stress surface of sliding block, and it is equipped with cone slot collocation sliding unit and reaches sliding mode, when enabling the sliding block forced-slip, it can be by two support sliding rails with the support torque with loading direction, the sliding block is not only enabled steadily to slide on two support sliding rails, also pass through the support of two support sliding rails, ensure the sliding precision between the sliding block and two sides limit sliding rail, the case where avoiding dislocation modification generation, lift structure applies upper stability, precision it is steady Extension that is qualitative and helping service life.

Description

High loading Multishaft adjusting device

Technical field

The utility model particularly relates to a kind of high loading Multishaft adjusting device about a kind of measurement platform structure.

Background technique

Existing measurement platform structure, please refer to the X-axis shown in Figure 12, Figure 13, Figure 14, being stacked including about one 40, one Y-axis seat 50 of seat, and the X-axis seat 40 and two slide rail groups 60 of 50 slide displacement of Y-axis seat, the X-axis seat 40 are provided Including the top base 41 and a top plate 42 matched, which sets the first sliding-rail groove 411 of an X axis in top surface, The Y-axis seat 50 includes the bottom base 51 and a bottom plate 52 matched, which sets the second cunning of a Y-axis in bottom surface Track slot 511, and the Y-axis seat 50 is stacked at the top base 41 of the X-axis seat 40, and the fixation that is mutually locked with bottom base 51；Two should Slide rail group 60 slides on the sliding block 62 between two limit sliding rails 61, the wherein two limit including two limit sliding rails 61 and one Position sliding rail 61 is fixedly arranged on the both ends of first sliding-rail groove 411, the second sliding-rail groove 511, and is formed between two limit sliding rails 61 One sliding slot 63 sets installation so that the sliding block 62 is sliding, and 62 two sides of sliding block utilize sliding unit 64 and two 61 knots of limit sliding rail It closes and interlocks, the top plate 42 and bottom plate 52 are finally mounted on 62 surface of sliding block respectively again, pass through two slide rail groups whereby 60 make the X-axis seat 40 and Y-axis seat 50 respectively reaches the displacement operating state of X-axis and Y-axis.

It sees above-mentioned existing structure in detail to be not difficult to realize that it has remained a little shortcoming, main cause is returned as follows: described above Structure, slide rail group 60 only provides the sliding motion of the sliding block 62 with two limit sliding rails 61, in order to promote the sliding block 62 in two Smooth slippage degree between a limit sliding rail 61, the sliding block 62 is only with single by sliding between two side ends and two limit sliding rails 61 The combination of member 64, which is formed, to be interlocked, and is suspended at first sliding-rail groove 411, the second sliding-rail groove 511, therefore, when top plate 41 carries weight When object carries out loading displacement, top plate 41 understands the sinking of sliding block 62 that press because of loading, and then makes sliding block 62 and two limits sliding Sliding position between rail 61 generates potential difference, causes the sliding unit 64 to deform, increases by 62 resistance to sliding of sliding block, so that sliding is steady The reduction of qualitative, precision stability and smooth degree but will cause to damage between the sliding block 62 and limit sliding rail 61 when serious broken Bad, the consumption of accelerated service life lacks practicability.

Utility model content

The utility model purpose to be solved is to provide a kind of high loading for above-mentioned missing of the existing technology Multishaft adjusting device.

Above-mentioned high loading Multishaft adjusting device, it includes: a stacked X-axis seat, a Y-axis seat up and down, and the X-axis is provided Two slide rail groups of seat and the Y-axis seat slide displacement, which includes the top base and a top plate matched, on this Pedestal in the first sliding-rail groove of the recessed X axis of top surface centre, then by the first sliding-rail groove two sides be equipped with depth be shallower than this Two the first guide grooves of one sliding-rail groove, and first sliding-rail groove also sets one first support slot through the top base down；The Y-axis seat Including the bottom base and a bottom plate matched, the bottom base in the second sliding-rail groove of the recessed Y-axis of bottom surface centre, then Two shallower the second guide grooves of depth are equipped with by the second sliding-rail groove two sides, and second sliding-rail groove also up runs through the bottom base If one second support slot, and the Y-axis seat is stacked at the top base of the X-axis seat with bottom base, and the fixation that is mutually locked；Two cunnings Rail group is arranged in pairs or groups respectively is installed on the X-axis seat and the Y-axis seat, including one is slideably located in first sliding-rail groove, the second cunning The sliding block of track slot, two be fixedly arranged on two the first guide grooves, the limit sliding rail of the second guide groove and two are located in first support The support sliding rail of slot, the second support slot, wherein the shoe surface respectively in conjunction with the top plate and the bottom plate, and with two sides with Two limit sliding rail contact slides, and the slider surface to the surface of the first support slot, the second support slot then respectively with two branch Sliding rail contact slide is supportted, and respectively this is installed on the first support slot, the support sliding rail of the second support slot abuts each other contact.

Preferably, two first guide grooves, the second guide groove surface are equipped with multiple combined holes, and two of two slide rail groups Limit sliding rail align equipped with multiple perforation, and arrange in pairs or groups screw by the limit sliding rail it is sealed be fixed on the first guide groove matched, Second guide groove.

Preferably, the central surface of the top plate and bottom plate is respectively formed a protrusion, and combination bore is equipped with by the protrusion, as It is used in conjunction with the sliding block of the slide rail group.

Preferably, being equipped with a cone slot between the sliding block two sides and two limit sliding rails of two slide rail groups, and pass through These cone slots are folded with sliding unit.

Preferably, one front of sliding block of two slide rail groups is equipped with two cone slots, and two support sliding rail fronts are It is correspondingly provided with a cone slot, and is folded with sliding unit by these cone slots.

The effect of compareing prior art: the slide rail group is additionally provided with two support sliding rails in the stress surface of sliding block, and is equipped with cone Slot collocation sliding unit reaches sliding mode, can be by two support sliding rails with loading when enabling the sliding block forced-slip The support torque in direction not only enables the sliding block steadily to slide on two support sliding rails, also sliding via two supports The support of rail, it is ensured that the case where sliding block and two sides limit the sliding precision between sliding rail, avoid dislocation modification generation, lift structure Using upper stability, the stability of precision and the extension for helping service life.

Detailed description of the invention

Fig. 1: for the perspective view of the utility model.

Fig. 2: for the exploded view of the utility model.

Fig. 3: for the exploded view of the slide rail group of the utility model.

Fig. 4: schematic diagram is indicated for the top view of the utility model and each section.

Fig. 5: for the A-A schematic cross-sectional view of the utility model.

Fig. 6: for the B-B schematic cross-sectional view of the utility model.

Fig. 7: for the schematic diagram of the C-C section view of the utility model not operated.

Fig. 8: for the slide displacement schematic diagram of the C-C section view of the utility model.

Fig. 9: for the schematic diagram of the D-D section view of the utility model not operated.

Figure 10: for the slide displacement schematic diagram of the D-D section view of the utility model.

Figure 11: for the operating state perspective view of the utility model.

Figure 12: for existing exploded view.

Figure 13: for existing cross-sectional view.

Figure 14: for existing slide displacement schematic diagram.

In figure:

[ the utility model ]

10 X-axis seats；11 top bases；111 first sliding-rail grooves；112 first guide grooves；113 combined holes；114 first Support slot；12 top plates；121 protrusions；122 combination bores；20 Y-axis seats；21 bottom bases；211 second sliding-rail grooves；212 second lead Slot；213 combined holes；214 second support slots；22 bottom plates；221 protrusions；222 combination bores；30 slide rail groups；31 sliding blocks； 311 perforatings；312 first cone slots；313 thirds bore slot；32 limit sliding rails；321 perforation；322 screws；323 second cones Slot；33 support sliding rails；331 the 4th cone slots；34 sliding units；35 sliding units；

[ prior art ]

40 X-axis seats；41 top bases；411 first sliding-rail grooves；42 top plates；50 Y-axis seats；51 bottom bases；511 second Sliding-rail groove；52 bottom plates；60 slide rail groups；61 limit sliding rails；62 sliding blocks；63 sliding slots；64 sliding units.

Specific embodiment

The utility model is described in further detail in the following with reference to the drawings and specific embodiments, so that those skilled in the art The utility model can be better understood and can be practiced, but illustrated embodiment is not as the restriction to the utility model.

Cooperate shown in Fig. 4, Fig. 5 firstly, first please referring to Fig. 1, Fig. 2, Fig. 3, a kind of high loading Multishaft adjusting device, it includes A stacked X-axis seat 10, a Y-axis seat 20 up and down, and the X-axis seat 10 and two cunnings of 20 slide displacement of Y-axis seat are provided Rail group 30, the X-axis seat 10 include the top base 11 and a top plate 12 matched, and the top base 11 is recessed in top surface centre First sliding-rail groove 111 of one X axis, then be equipped with depth by 111 two sides of the first sliding-rail groove and be shallower than the two of first sliding-rail groove 111 A first guide groove 112, which is equipped with multiple combined holes 113, and first sliding-rail groove 111 also runs through down The top base 11 sets one first support slot 114, which forms a protrusion in face of the central surface of first sliding-rail groove 111 121, and multiple combination bores 122 are equipped with by the protrusion 121, which includes the bottom base 21 and a bottom plate matched 22, which sets in the second sliding-rail groove 211 of the recessed Y-axis of bottom surface centre, then by 211 two sides of the second sliding-rail groove There are two the second guide grooves 212 that depth is shallower, which is equipped with multiple combined holes 213, and second sliding-rail groove 211 also up set one second support slot 214 through the bottom base 21, which faces the central table of second sliding-rail groove 211 Face forms a protrusion 221, and is equipped with combination bore 222 by the protrusion 221, and the Y-axis seat 20 is stacked at the X-axis seat with bottom base 21 10 top base 11, and the fixation that is mutually locked, two slide rail groups 30 are arranged in pairs or groups respectively is installed on the X-axis seat 10 and the Y-axis seat 20, including one be slideably located in first sliding-rail groove, sliding block 31, two of the second sliding-rail groove 111,211 be fixedly arranged on two First guide groove 112, the limit sliding rail 32 of the second guide groove 212 and two are located in first support slot 114, second support The support sliding rail 33 of slot 214, wherein 31 surface of sliding block be equipped with multiple perforatings 311, and respectively with the top plate 12 and the bottom Plate 22 combines, and two limit sliding rails 32 align and are equipped with multiple perforation 321, and screw 322 of arranging in pairs or groups is locked sliding rail 32 is limited The first guide groove 112 matched, the second guide groove 212 are fixed in conjunction, and 31 two sides of sliding block are equipped with one first cone slot 312, And two limit sliding rails 32 are correspondingly provided with one second cone slot 323, and bore 323 sandwiched of slot by the first cone slot 312, second There is sliding unit 34 to reach slide displacement state, and the sliding block 31 is in face of the end of first support slot 114, the second support slot 214 Face is additionally provided with two third cone slots 313, and two 33 end faces of support sliding rail are correspondingly provided with one the 4th cone slot 331, by this The third cone cone slot 331 of slot the 313, the 4th is folded with sliding unit 35 and reaches slide displacement, and respectively this is located in the first support slot 114, the support sliding rail 33 of the second support slot 214 abuts each other contact.

The composition of its structure and application, then please refer to Fig. 2, Fig. 4, Fig. 5, Fig. 6 and cooperate Fig. 7, Fig. 8, Fig. 9, Figure 10, Tu11Suo Show, top base 11 and the bottom base 21 are first stacked and rest against conjunction by the X-axis seat 10 and the Y-axis seat 20, and latch fitting is recycled to give Sealed fixation makes the second sliding-rail groove 211 of the first sliding-rail groove 111 and the bottom base 21 of the top base 11 be staggered to form cross Shape, two slide rail groups 30 are located in the top base 11 and bottom base 21 respectively, then distinctly connect the top plate 12 and bottom plate 22, two support sliding rails 33 of the wherein two slide rail group 30, which are distinctly installed with, limits first support slot 114, the second support slot In 214, and two limit sliding rails 32 are distinctly arranged in first guide groove 112, in the second guide groove 212 and cooperate screw 322 right Neat combined hole 113,213 sealed fixations, then the sliding block 31 is slidedly arranged on first sliding-rail groove, in the second sliding-rail groove 111,211, also The first of periphery cone slot 312, third cone slot 313 are arranged in pairs or groups the second of sliding unit 34,35 and two limit sliding rails 32 respectively The 4th cone 331 clamping of the slot sliding for boring slot 323 and two support sliding rails 33, finally again divides the top plate 12 and bottom plate 22 Do not correspond to the X, Y-axis seat 10,20 is locked in the perforating 311 of the sliding block 31, enable the X-axis seat 10 that can reach by the slide rail group 30 X-axis displacement state between top base 11 and top plate 12, and utilize the limit sliding rail 32 of two sides and the support sliding rail 33 of upper end The sliding stability of the sliding block 31 is promoted, and the Y-axis seat 20 then reaches bottom base 21 and bottom plate 22 by another slide rail group 30 Between Y-axis displacement state, also with two sides limit sliding rail 32 and lower end support sliding rail 33 promoted the sliding block 31 cunning Dynamic stability provides the support effect of the sliding block 31 more really, by above structure, to complete a kind of high loading multiaxis adjustment dress It sets.

By means of the structure of above-mentioned specific embodiment, following benefits can be obtained: the slide rail group 30 in sliding block 31 stress surface also Equipped with two support sliding rails 33, the cone collocation sliding unit 35 of slot 331 of slot the 313, the 4th is also bored by third and reaches sliding mode, is enabled When 31 forced-slip of sliding block, it can not only make this by two support sliding rails 33 with the support torque with loading direction Sliding block 31 can steadily slide on two support sliding rails 33, also via the support of two support sliding rails 33, it is ensured that the sliding block 31 and two sides limit sliding rail 32 between sliding precision, avoid dislocation modification the case where generation, lift structure using upper stability, The stability of precision and the extension for helping service life.

Embodiment described above is only preferred embodiments for fully illustrating the utility model, the utility model Protection scope it is without being limited thereto.Those skilled in the art made equivalent substitute or change on the basis of the utility model It changes, both is within the protection scope of the present invention.The protection scope of the utility model is subject to claims.

Claims (5)

1. a kind of high loading Multishaft adjusting device, which is characterized in that include an X-axis seat stacked up and down, a Y-axis seat, Yi Jiti For two slide rail groups of the X-axis seat and the Y-axis seat slide displacement, which includes the top base matched and a top Plate, the top base are equipped with depth as shallow in the first sliding-rail groove of the recessed X axis of top surface centre, then by the first sliding-rail groove two sides In two the first guide grooves of first sliding-rail groove, and first sliding-rail groove is also down through the top base and then setting one first Support slot；The Y-axis seat includes the bottom base and a bottom plate matched, and the bottom base is in the recessed Y-axis of bottom surface centre Second sliding-rail groove, then two shallower the second guide grooves of depth are equipped with by the second sliding-rail groove two sides, and second sliding-rail groove is also past It is upper to be equipped with one second support slot in turn through the bottom base, and the X-axis seat is stacked at the bottom base of the Y-axis seat with top base, and Be mutually locked fixation；Two slide rail groups are arranged in pairs or groups respectively is installed on the X-axis seat and the Y-axis seat, including one is slideably installed with It is fixedly arranged on the limit sliding rail of two first guide grooves, the second guide groove in first sliding-rail groove, the sliding block of the second sliding-rail groove, two, And two support sliding rails for being located in first support slot, the second support slot, wherein the shoe surface respectively with the top plate with And the bottom plate combines, and with two sides and two limit sliding rail contact slides, and the slider surface is to the first support slot, the second support The surface of slot then respectively with two support sliding rail contact slides, and is respectively installed on the support of the first support slot, the second support slot Sliding rail abuts each other contact.

2. high loading Multishaft adjusting device according to claim 1, which is characterized in that two first guide grooves, second are led The surface of slot is equipped with multiple combined holes, and two limit sliding rails of two slide rail groups align and are equipped with multiple perforation, and arrange in pairs or groups Screw is fixed on the first guide groove matched, the second guide groove for the limit sliding rail is sealed.

3. high loading Multishaft adjusting device according to claim 1, which is characterized in that the central table of the top plate and bottom plate Face is respectively formed a protrusion, and is equipped with combination bore by the protrusion, uses as the sliding block in conjunction with the slide rail group.

4. high loading Multishaft adjusting device according to claim 1, which is characterized in that the two of the sliding block of two slide rail groups Side is equipped with one first cone slot, and two limit sliding rails are all provided with one second cone slot, and pass through the first cone slot folder, the second cone slot It is folded with sliding unit.

5. high loading Multishaft adjusting device according to claim 1, which is characterized in that the one of the sliding block of two slide rail groups End face is equipped with two third cone slots, and two support sliding rail end faces are correspondingly provided with one the 4th cone slot, and pass through the third Cone slot, the 4th cone slot are folded with sliding unit.