CN111288114A

CN111288114A - Cross sliding shockproof platform

Info

Publication number: CN111288114A
Application number: CN201811495365.0A
Authority: CN
Inventors: 李茂碷
Original assignee: Meiya Precision Co ltd
Current assignee: Meiya Precision Co ltd
Priority date: 2018-12-07
Filing date: 2018-12-07
Publication date: 2020-06-16

Abstract

The invention discloses a cross sliding shockproof platform which is provided with two combined sliding units, wherein each sliding unit is provided with a sliding guide piece and a sliding piece, so that one sliding piece can slide in a reciprocating manner towards the horizontal direction of an X axis, and the other sliding piece can slide in a reciprocating manner towards the horizontal direction of a Y axis; in particular, the sliding guide member has a base, a plurality of vertical support rollers arranged circumferentially between the upper and lower surfaces of the base and adapted to be cyclically rolled, and two sets of lateral guide means provided at both side edges of the base, the lateral guide means having a circulator and a plurality of lateral support rollers arranged in the circulator and adapted to be cyclically rolled; therefore, the vertical supporting rollers are abutted against the bottom surface of the sliding part for circular rolling guidance, and the lateral supporting rollers are abutted against the two side edges of the sliding part for circular rolling guidance.

Description

Cross sliding shockproof platform

Technical Field

The invention relates to a sliding shockproof platform, in particular to a cross sliding shockproof platform.

Background

Earthquake is one of the main natural disasters on the earth, once the intensity of earthquake reaches a certain degree, great property loss and casualties are often caused to people, and the property loss is mainly caused by collapse of buildings and collapse of heavy furniture objects, even if the buildings do not collapse, once the racks for displaying articles in the house are collapsed, in addition to the physical damage of crushing and smashing of the racks and the articles caused by the persons in the house, other many displayed articles or high-price articles also have the damage, therefore, the buildings, precision machines and high-price article display cabinets brought by the earthquake can be provided with the anti-vibration device at the bottom.

A cross-shaped anti-vibration platform is known, such as a cross-shaped sliding platform of the prior patent application (as shown in taiwan patent TWM500786 and chinese patent CN 204551785U), which mainly comprises a sliding seat body, two guide rails slidably disposed above and below the sliding seat body, retainers respectively disposed between the sliding seat body and the two guide rails, and a plurality of rollers mounted on each retainer; therefore, the rollers arranged in parallel are supported between the sliding seat body and the load surface of each guide rail, and the rollers arranged in parallel or in a cross way are supported between the sliding seat body and the two sides of each guide rail, so that the sliding seat body and the two guide rails can slide linearly, the shaking force of an earthquake is further counteracted, and the safety of buildings or other objects is ensured.

However, the rollers and balls of the cross sliding table are not a circular rolling technology, and therefore, the stroke of the cross sliding table may be limited; further, in order to change the roller and the ball to the circulation rolling mode, it is a difficult problem to maintain the rollers without mutual collision interference and friction, and to overcome the difficulty of machining.

Disclosure of Invention

The invention aims to provide a cross sliding shockproof platform, which further achieves the purposes that rollers can roll in an infinite circulation manner, the rollers cannot collide with each other and interfere with each other, the manufacturing and the assembly are simple and easy, and the like.

In order to achieve the above object, a preferred embodiment of the cross sliding anti-vibration platform of the present invention comprises: two combined sliding units, each sliding unit is provided with a sliding guide piece and a sliding piece which is combined on the sliding guide piece in a sliding way, one sliding piece of the two sliding units can slide back and forth towards the X-axis horizontal direction, and the other sliding piece of the two sliding units can slide back and forth towards the Y-axis horizontal direction; the sliding guide part is provided with a horizontally arranged base, a plurality of vertical supporting rollers which are circularly arranged between the upper surface and the lower surface of the base and roll, and two groups of lateral guide devices which are arranged at two side edges of the upper surface of the base; the lateral guide device is provided with a circulator and a plurality of lateral support rollers which are arranged on the circulator for circular rolling; the sliding part is a straight strip-shaped member or a straight plate-shaped member, the sliding part is combined on the base in a sliding way, the vertical supporting roller is abutted against one bottom surface of the sliding part for circular rolling guidance, and the lateral supporting roller is abutted against two side edges of the sliding part for circular rolling guidance.

In the cross sliding shockproof platform, the vertical supporting rollers are round rollers, and two ends of each roller are respectively provided with a rotating shaft; and the sliding guide also has two chains which respectively link the rotating shafts at both ends of each roller.

In the cross sliding shockproof platform, the upper surface and the lower surface of the base are respectively provided with a first roller supporting surface extending to two ends of the base, and two ends of the base are respectively provided with a guiding arc surface connecting the first roller supporting surfaces on the upper surface and the lower surface; and the vertical supporting rollers are arranged on the first roller supporting surfaces on the upper surface and the lower surface of the base and the guiding arc surfaces at two ends in a surrounding way.

In the cross sliding shockproof platform, the upper surface and the lower surface of the base are respectively provided with a roller groove extending to two ends of the base, and the bottom surface of the roller groove forms the first roller supporting surface.

In the cross-shaped sliding shockproof platform, two ends of the base are respectively combined with an internal circulation guide block, and the internal circulation guide block is provided with the guide arc surface connected with the first roller supporting surface.

In the cross sliding shockproof platform, two ends of the base of the sliding guide piece are respectively combined with a protective cover, and the vertical supporting rollers at two ends of the base are covered by the protective covers.

In the cross-shaped sliding anti-vibration platform, the bottom surfaces of the bases of the sliding guides of the two sliding units are combined together.

In the cross sliding shockproof platform, two side edges of the upper surface and the lower surface of the base respectively protrude out of a straight rail strip, and the side surface of the straight rail strip is provided with a load rail communicated with two ends; and the circulator of the lateral guide device is combined on the straight track strip, and the lateral support roller rolls through the load track.

In the cross sliding shockproof platform, the circulator of the lateral guiding device is provided with two cover bodies and a retainer, the two cover bodies are correspondingly combined and are formed by plastic, and the retainer is formed by steel wires; the combined surface corresponding to each cover body is respectively concavely provided with an unloaded rail and a retainer fixing groove, two ends of the unloaded rail are bent and connected with the loaded rail, and the lateral supporting rollers are arranged on the unloaded rail and the loaded rail; the retainer extends through the load rail to block the lateral support roller, and both ends of the retainer are fitted into a retainer fixing groove.

In the cross sliding shockproof platform, the lateral supporting rollers are spherical balls.

The cross sliding shockproof platform can be fixed below a foundation column, a precision machine tool, a kitchen cabinet or other articles of a building, so that the cross sliding shockproof platform can slide towards the X-axis and the Y-axis in a reciprocating mode in the horizontal direction, and shaking force generated when an earthquake occurs is further counteracted. The sliding guide of the present invention has a structure in which the vertical support rollers and the lateral support rollers roll cyclically, and thus has a large stroke. And the two sides of the vertical supporting rollers can be subjected to chain connection, so that the vertical supporting rollers are kept parallel, and the condition of mutual collision or interference during rolling can be avoided. In addition, the lateral guide device adopts a separable structure to be assembled on two side edges of the upper surface of the base, the material and the manufacturing process are different from those of the base, the whole sliding guide piece is not required to be processed by metal, the manufacturing cost can be reduced, and the effects of simple manufacturing and assembly and the like are achieved.

Drawings

The features and advantages of the present invention are described in detail below with reference to the accompanying drawings:

fig. 1 is a perspective view of a first preferred embodiment of the present invention.

Fig. 2 is an exploded view of the sliding guide separated from two sliding members according to the first preferred embodiment of the present invention.

Fig. 3 is an exploded view showing two identical sliding guides separated from each other according to the first preferred embodiment of the present invention.

FIG. 4 is a cross-sectional view taken along the X-axis direction of the first preferred embodiment of the present invention.

FIG. 5 is a cross-sectional view of the first preferred embodiment of the present invention in the Y-axis direction.

Fig. 6 is an exploded view of the components of the sliding guide according to the first preferred embodiment of the present invention.

Fig. 7 is an exploded view of the components of the lateral guidance device according to the first preferred embodiment of the present invention.

Fig. 8 is a perspective view illustrating a second preferred embodiment of the present invention.

Fig. 9 is an exploded view of the sliding guide separated from two sliding members according to the second preferred embodiment of the present invention.

Fig. 10 is an exploded view of the protective cover of the second preferred embodiment of the present invention in a separated state.

Fig. 11 is an exploded view showing two identical sliding guides separated from each other according to a second preferred embodiment of the present invention.

FIG. 12 is a cross-sectional view taken along the X-axis of the first preferred embodiment of the present invention.

Part name in the figure:

10a, 10b sliding units; 1a, 1b sliding guides; 11 a base; 111 a first roller bearing surface;

112 roller grooves; 113 guiding the arc surface; 114 internal circulation guide block; 115 a protective cover;

116 a straight rail bar; 117 a load rail; 118 an outer circulation guide block; 12 vertically supporting the roller;

121 a rotating shaft; 13 a lateral guide device; 131 a circulator; 132 laterally supporting the roller;

133 a cover body; 134 a retainer; 135 no-load orbit; 136 a retainer securing groove;

14 chains; 2a, 2b slide; 21 roller grooves; x X axial direction; y Y axial direction.

Detailed Description

The present invention is further described with reference to the following drawings and specific examples so that those skilled in the art can better understand the present invention and can practice the present invention, but the examples are not intended to limit the present invention.

Referring to fig. 1 and 2, a cross sliding anti-vibration platform according to a first preferred embodiment of the present invention is a cross sliding anti-vibration platform for supporting anti-vibration devices of building pillars, precision machines, kitchen cabinets or other objects, wherein the preferred embodiment comprises: two sets of

slide units

10a, 10b of the same construction and combined together, each

slide unit

10a, 10b having a slide guide 1a, 1b, and a

slide member

2a, 2b slidably coupled to the slide guide 1a, 1 b; when the bottom surfaces of the sliding guides 1a and 1b of the two sets of

sliding units

10a and 10b are combined together in a 90-degree staggered manner, one sliding part 2a of the two sets of sliding

units

10a and 10b can slide back and forth towards the horizontal direction of the X axis, and the other sliding part 2b of the two sets of sliding

units

10a and 10b can slide back and forth towards the horizontal direction of the Y axis; therefore, when the earthquake-proof and shock-proof bearing is used for bearing objects such as building pillars, the earthquake-proof and shock-proof bearing can be used for offsetting shaking force in each direction during earthquake through sliding in the X-axis horizontal direction and the Y-axis horizontal direction, preventing the shaking force of the earthquake from being transmitted to the borne objects such as the building pillars, precision machines and cabinets, and further achieving the functions of shock resistance and shock insulation.

Particularly, referring to fig. 3, the sliding guides 1a and 1b and the

sliding elements

2a and 2b of the two sets of

sliding units

10a and 10b have the same structure, except that the bottom surfaces of the two sliding guides 1a and 1b are combined together in a 90 ° staggered manner, so that the two

sliding elements

2a and 2b slide back and forth in the staggered direction of the X axis and the Y axis. As shown in fig. 6, the sliding guides 1a and 1b respectively have a horizontally disposed base 11, a plurality of vertical supporting rollers 12 circularly arranged between the upper and lower surfaces of the base 11 to form a row and roll circularly, and two sets of lateral guiding devices 13 disposed on two sides of the upper surface of the base 11; the bases 11 of the two sets of sliding

units

10a and 10b are arranged to intersect in the direction of 90 °, and the bottom surfaces of the two bases 11 are joined together, so that the vertical supporting rollers 12 of the upper sliding guide 1a slide in the X-axis horizontal direction (as shown in fig. 2 and 4), and the vertical supporting rollers 12 of the lower sliding guide 1b slide in the Y-axis horizontal direction (as shown in fig. 2 and 5). Referring to fig. 6, the lateral guides 13 each have a circulator 131 and a plurality of lateral support rollers 132 arranged to circulate in the circulator 131. The sliding

members

2a and 2b are straight members or straight plate members, the sliding

members

2a and 2b are slidably coupled to each base 11, so that the vertical support rollers 12 are respectively abutted against a bottom surface of the sliding

members

2a and 2b for circular rolling guidance, and the lateral support rollers 132 are abutted against the roller grooves 21 on both sides of the sliding

members

2a and 2b for circular rolling guidance, whereby the sliding member 2a can be reciprocally slid toward the X-axis horizontal direction, and the other sliding member 2b can be reciprocally slid toward the Y-axis horizontal direction.

Referring to fig. 6, it is necessary that the vertical support rollers 12 be arranged in at least one row and surround the base 11 between the upper and lower surfaces thereof, and preferably, a three-row or two-row configuration as shown in the drawings can be implemented. And the vertical supporting rollers 12 are preferably circular rollers, each of which can provide linear support for the sliding

members

2a and 2b, thereby providing greater vertical load capacity. In order to maintain the distance between each vertical supporting roller 12 and avoid collision interference during rolling, the invention is further provided with a rotating shaft 121 at each end of each roller, and is further provided with two chains 14 respectively, so that the two chains 14 are respectively linked with the rotating shaft 121 at each end of each roller, thereby the vertical supporting rollers 12 in each row are kept parallel to each other through the chains 14, and the rollers 12 are prevented from collision interference during rolling.

Referring to fig. 6, in one of the above preferred embodiments of the base 11, a first roller supporting surface 111 extending to both ends thereof may be respectively disposed on the upper and lower surfaces thereof, and specifically, a roller groove 112 extending to both ends thereof may be respectively disposed on the upper and lower surfaces of the base 111, and the first roller supporting surface 111 is formed by using the bottom surface of the roller groove 112. And the base 11 is provided at both ends thereof with guide arc surfaces 113 connecting the upper and lower first roller supporting surfaces 111, respectively. Therefore, the vertical supporting rollers 12 are arranged around the first roller supporting surface 111 on the upper surface and the lower surface of the base 11 and the guiding arc surfaces 113 at the two ends, and the vertical supporting rollers 12 are made to roll circularly by the guiding action of the guiding arc surfaces 113. In one preferred embodiment of the guiding arc surface 112, an inner circulation guide block 114 is screwed to the two ends of the base 11 corresponding to the roller grooves 112, and the inner circulation guide block 114 has the guiding arc surface 113 connected to the first roller supporting surface 111. Furthermore, two ends of the base 11 can be respectively assembled with a protection cover 115, and the vertical supporting rollers 12 at two ends of the base 11 can be covered by the protection covers 115.

Referring to fig. 4, 5, 6 and 7, in order to assemble the lateral guiding device 13 on the base 11, and reduce the cost of the lateral guiding device 13 and improve the manufacturing and assembling simplicity of the lateral guiding device 13, the preferred embodiment of the present invention implements the base 11 as a rectangular block made of metal, except for the first roller supporting surface 111 and the roller groove 112, and the two sides of the upper surface and the lower surface of the base 11 are respectively processed into a protruding straight rail 116, and the side of the straight rail 116 has a load track 117 connecting the two ends. The circulator 131 of the lateral guiding device 13 can be made by plastic injection molding, and has two correspondingly combined and plastic molded covers 133 and a retainer 134 made of steel wire; a non-load rail 135 and a retainer fixing groove 136 are respectively concavely formed on the corresponding combination surface of each cover 133; the two ends of the unloaded rail 135 are bent and connected to the loaded rail 117, and the lateral support rollers 132 are arranged on the unloaded rail 135 and the loaded rail 117, so that the lateral support rollers 132 roll through the loaded rail 117; further, the lateral support rollers 132 are spherical balls, and the retainer 134 has its wires extended through the load rail 117 to block the lateral support rollers 132, both ends of the retainer 134 being fitted in a retainer fixing groove 136; therefore, the invention can reduce the cost and improve the manufacturing and assembling simplicity of the circulator 131 formed by plastic injection molding, and the load rail 117 of the straight rail 116 of the base 11 is made of metal material, so that the mechanical performance of bearing the load can be kept.

Referring to fig. 8 to 12, there are shown two preferred embodiments of the cross sliding anti-vibration platform of the present invention, which also have two sets of sliding

units

10a, 10b of the same structure and combined together, each sliding

unit

10a, 10b also has a sliding guide 1a, 1b and a sliding

member

2a, 2b slidably combined with the sliding guide 1a, 1b, so that one of the sliding members 2a can slide back and forth in the X-axis horizontal direction, and the other sliding member 2b of the two sets of

sliding units

10a, 10b can slide back and forth in the Y-axis horizontal direction, and its structure is basically the same as that of the first embodiment. The present embodiment is different from the first embodiment in that the chain 14 is not provided between each of the vertical support rollers 12 of the sliding guides 1a, 1b, so that the structure is simplified, but the

sliding members

2a, 2b are also guided to slide back and forth in the X-axis horizontal direction and the Y-axis horizontal direction, respectively, together with the lateral guide 13. Since the chain 14 is not used for guiding in this embodiment, an external circulation end block 118 (as shown in fig. 11 and 12) is further provided at each end of the base 11 to communicate the first roller supporting surface 111 with the roller groove 112, so that the external circulation end block 118 and the internal circulation end block 114 are opposite to each other, thereby forming a path for vertically supporting the rotation of the rollers 12, and achieving the function of endless circulation. In addition, the protective cover 115 in the second embodiment is different in shape and configuration from those in the first embodiment, but the function, purpose and function thereof are the same as those of the protective cover 115 in the first embodiment.

When the cross sliding shockproof platform is used, the sliding part 2b at the lower part is fixed on the ground or other foundations, and the sliding part 2a at the upper part is fixed under a foundation column, a precision machine tool, a kitchen cabinet or other articles of a building, so that the cross sliding shockproof platform can slide towards the X-axis and the Y-axis in a reciprocating mode, and shaking force during earthquake is further counteracted. The sliding guides 1a, 1b of the present invention have a structure in which the vertical support rollers 12 and the lateral support rollers 132 are circularly rolled, and thus have a large stroke; the chains 14 can be used for linking the two sides of the vertical supporting rollers 12, so that the vertical supporting rollers 12 are kept parallel, and the condition of mutual collision or interference during rolling can be avoided. In addition, the lateral guiding device 13 is assembled on the two sides of the base 11 by a separable structure, the material and the manufacturing process are different from those of the base 11, the whole sliding guiding pieces 1a and 1b do not need to be processed by metal, the manufacturing cost can be reduced, and the effects of simple manufacture and assembly and the like can be achieved.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.

Claims

1. A cross-shaped sliding anti-vibration platform, comprising: two combined sliding units, each sliding unit is provided with a sliding guide piece and a sliding piece which is combined on the sliding guide piece in a sliding way, the sliding piece of one sliding unit can slide back and forth towards the X-axis horizontal direction, and the other sliding piece of the two sliding units can slide back and forth towards the Y-axis horizontal direction; the sliding guide part is provided with a base arranged along a horizontal plane, a plurality of vertical supporting rollers which are circularly arranged between the upper surface and the lower surface of the base and roll circularly, and two groups of lateral guide devices arranged at two side edges of the upper surface of the base; the lateral guide device is provided with a circulator and a plurality of lateral support rollers which are arranged on the circulator for circular rolling; the sliding part is a straight strip-shaped member or a straight plate-shaped member, the sliding part is combined on the base in a sliding way, the vertical supporting roller is abutted against one bottom surface of the sliding part for circular rolling guidance, and the lateral supporting roller is abutted against two side edges of the sliding part for circular rolling guidance.

2. The cross-shaped sliding anti-vibration platform as claimed in claim 1, wherein the vertical supporting rollers are circular rollers, each of which has a rotating shaft at both ends; the sliding guide also has two chains that respectively link the rotating shafts at both ends of each roller.

3. The cross-sliding anti-vibration platform as claimed in claim 1, wherein the base is provided at upper and lower sides thereof with first roller support surfaces extending to both ends thereof, respectively, and the base is provided at both ends thereof with guide arc surfaces connecting the first roller support surfaces at the upper and lower sides thereof, respectively; the vertical supporting rollers are arranged around the first roller supporting surfaces on the upper surface and the lower surface of the base and the guiding arc surfaces at two ends.

4. The cross-sliding anti-vibration platform as claimed in claim 1 or 3, wherein the base is provided with a roller groove extending to both ends of the base at the upper and lower sides thereof, respectively, and the bottom surface of the roller groove constitutes the first roller supporting surface.

5. The cross-sliding anti-vibration platform of claim 3, wherein an inner circulation guide block is coupled to each end of the base, and the inner circulation guide block has the guide arc surface connected to the first roller support surface.

6. The cross-sliding anti-vibration platform of claim 3, wherein a protection cover is combined to each end of the base of the sliding guide, and covers the vertical support rollers at each end of the base.

7. The cross-sliding anti-seismic platform according to claim 1 or 3, wherein the bottom surfaces of the bases of the sliding guides of the two sliding units are coupled together.

8. The cross-shaped sliding anti-vibration platform as claimed in claim 1, wherein a straight rail bar protrudes from both sides of the upper and lower surfaces of the base, and the side surface of the straight rail bar has a load track connecting both ends of the straight rail bar; the circulators of the lateral guide means are incorporated in the straight rail, and the lateral support rollers roll through the load track.

9. The cross-sliding anti-seismic platform of claim 8, wherein the circulator of the lateral guide device has two covers and a retainer, the two covers are correspondingly assembled and formed of plastic, and the retainer is made of steel wire; the combined surface corresponding to each cover body is respectively concavely provided with an unloaded rail and a retainer fixing groove, two ends of the unloaded rail are bent and connected with the loaded rail, and the lateral supporting rollers are arranged on the unloaded rail and the loaded rail; the retainer extends through the load rail to block the lateral support roller, and both ends of the retainer are fitted into the retainer fixing grooves.

10. The cross-slide anti-seismic platform according to claim 1, 8 or 9, wherein the lateral support rollers are spherical balls.