CN211249118U - Novel straight line slip table - Google Patents

Abstract

The utility model discloses a novel sharp slip table, include: a first guide rail; a second guide rail; the driving sliding rail is slidably arranged between the first guide rail and the second guide rail. In this way, the utility model discloses a novel linear sliding table drives the initiative slide rail through first motor and carries out longitudinal sliding, no longer needs components such as hold-in range or screw rod to drive the initiative slide rail and carry out longitudinal sliding, can effectively reduce linear sliding table's cost, and adopts the section bar as linear sliding table's guide rail and slide bar rail, can effectively reduce linear sliding table's weight, can obviously reduce cost, and promote linear sliding table's operational reliability, more durable, change in the maintenance.

Description

Novel straight line slip table

Technical Field

The utility model belongs to the technical field of the mechanical skill and specifically relates to a novel sharp slip table is related to.

Background

With the rapid development of science and technology, mechanical transmission equipment is widely applied to mechanical engineering and plays an increasingly important role. The linear sliding table is a mechanical structure capable of providing linear motion, can be used horizontally or vertically, and can also be combined into a specific motion mechanism for use.

At present, a linear sliding table on the market comprises a first sliding rail and a second sliding rail which are arranged at intervals, and a sliding rod which is arranged between the first sliding rail and the second sliding rail in a sliding manner. However, in the conventional method, the slide rod slides between the first slide rail and the second slide rail by means of the synchronous belt, and generally, the first slide rail and the second slide rail are longer, so that the length of the synchronous belt is also longer, and the cost of the linear slide table is high; in addition, the weight of the first sliding rail, the second sliding rail and the sliding rod is heavier, so that the whole weight of the linear sliding table is heavier, and the maneuvering performance is greatly reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a novel straight line slip table, utilizes the motor to drive the initiative slide rail and slide between first guide rail and second guide rail, can effectively reduce the cost of straight line slip table, and adopts the section bar as the slide rail and the slide bar of straight line slip table, can effectively reduce the weight of straight line slip table.

In order to solve the technical problem, the utility model discloses a technical scheme be: provide a novel straight line slip table, include: a first guide rail; the second guide rail is horizontally arranged at intervals with the first guide rail; the driving sliding rail is slidably arranged between the first guide rail and the second guide rail, and a sliding platform is movably arranged in the driving sliding rail; the first guide rail faces one side face of the second guide rail and is provided with a first containing sliding groove, the second guide rail faces one side face of the first guide rail and is provided with a second containing sliding groove, one end of the driving sliding rail is provided with a first roller which is slidably arranged in the first containing sliding groove, the other end of the driving sliding rail is provided with a second roller which is slidably arranged in the second containing sliding groove, one end of the driving sliding rail is provided with a first motor, and the rotating shaft of the first motor is connected with the first roller or the second roller so as to drive the driving sliding rail to slide between the first guide rail and the second guide rail through the first motor.

Furthermore, a first annular groove is formed in the wheel surface of the first roller in a surrounding mode, and a first protruding strip and a second protruding strip which are compatible with the first annular groove are arranged at the top and the bottom of the inner wall of the first accommodating sliding groove of the first guide rail at intervals.

Furthermore, a second annular groove is formed in the wheel surface of the second roller in a surrounding mode, and a third protruding strip and a fourth protruding strip which are compatible with the second annular groove are arranged at the top and the bottom of the inner wall of the second accommodating sliding groove of the second guide rail at intervals.

Further, sliding platform includes first backup pad and sets up second backup pad and the third backup pad of first backup pad both sides, wherein first backup pad the second backup pad with the third backup pad forms and is used for the parcel in the outer frame groove of acceping of initiative slide rail.

Furthermore, a first baffle and a second baffle which form a third accommodating sliding groove are arranged on the first side face of the driving sliding rail at intervals, and a third roller which is arranged in the third accommodating sliding groove in a sliding manner is arranged on the first supporting plate.

Furthermore, a third annular groove is formed in the outer wall of the third roller in a surrounding mode, a fifth protruding strip used for containing the third annular groove is arranged on one side face, facing the second baffle, of the first baffle, and a sixth protruding strip used for containing the third annular groove is arranged on one side face, facing the first baffle, of the second baffle.

Furthermore, a third baffle and a fourth baffle which form a fourth accommodating chute are arranged on the second side face of the driving slide rail at intervals, a fourth roller which is slidably arranged in the fourth accommodating chute is arranged on the second support plate, a fifth baffle and a sixth baffle which form a fifth accommodating chute are arranged on the third side face of the driving slide rail at intervals, and a fifth roller which is slidably arranged in the fifth accommodating chute is arranged on the third support plate.

Furthermore, the outer wall of the fourth roller is provided with a fourth annular groove in a surrounding manner, a third baffle plate faces towards a side face of the fourth baffle plate and is provided with a seventh convex strip for accommodating the fourth annular groove, an eighth convex strip for accommodating the fourth annular groove is arranged on a side face of the fourth baffle plate facing towards the third baffle plate, a fifth annular groove is arranged in a surrounding manner on the outer wall of the fifth roller, a ninth convex strip for accommodating the fifth annular groove is arranged on a side face of the fifth baffle plate facing towards the sixth baffle plate, and a tenth convex strip for accommodating the fifth annular groove is arranged on a side face of the sixth baffle plate facing towards the fifth baffle plate.

Furthermore, the third side of the active slide rail and the second side of the active slide rail are symmetrically arranged, and the middle of the active slide rail is arranged in a hollow shape.

Furthermore, the two ends of the first side face of the driving sliding rail are respectively provided with a first synchronizing wheel and a second synchronizing wheel, one end of the driving sliding rail is provided with a second motor connected with the first synchronizing wheel, a synchronous belt is arranged between the first synchronizing wheel and the second synchronizing wheel, the synchronous belt is arranged around the first baffle and the second baffle, and the second supporting plate or the third supporting plate is connected with the synchronous belt.

Be different from prior art, the utility model discloses the beneficial effect who gains is: the utility model discloses a novel sharp slip table includes: a first guide rail; the second guide rail is arranged at intervals with the first guide rail; the driving sliding rail is arranged between the first guide rail and the second guide rail in a sliding manner, and a sliding platform is movably arranged in the driving sliding rail; wherein, a first accommodating sliding groove is arranged on one side surface of the first guide rail facing the second guide rail, a second accommodating sliding groove is arranged on one side surface of the second guide rail facing the first guide rail, a first roller which can be slidably arranged in the first accommodating sliding groove is arranged at one end of the driving sliding rail, a second roller which can be slidably arranged in the second accommodating sliding groove is arranged at the other end of the driving sliding rail, a first motor is arranged at one end of the driving sliding rail, and a rotating shaft of the first motor is connected with the first roller so as to drive the first roller to slide in the first accommodating sliding groove through the first motor. In this way, the utility model discloses a novel linear sliding table drives the initiative slide rail through first motor and slides between first guide rail and second guide rail, no longer need bring in step and drive the initiative slide rail and slide, can effectively reduce linear sliding table's cost, and adopts the section bar as linear sliding table's slide rail and slide bar, can effectively reduce linear sliding table's weight, effectively improves the mobility ability.

Drawings

Fig. 1 is a schematic perspective view of a novel linear sliding table according to the present invention;

FIG. 2 is a first partial schematic view of the novel linear slide of FIG. 1;

fig. 3 is an enlarged schematic view of a partial region a in fig. 2;

FIG. 4 is a schematic structural view of a sliding platform of the novel linear sliding table in FIG. 1;

FIG. 5 is a schematic structural diagram of an active slide rail of the novel linear sliding platform shown in FIG. 1;

fig. 6 is a schematic structural view of a guide rail of the novel linear sliding table in fig. 1.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and embodiments.

The utility model discloses a novel linear sliding table, as shown in figures 1-6, this novel linear sliding table includes first guide rail 11, second guide rail 12 and initiative slide rail 13.

The second guide rail 12 is horizontally spaced from the first guide rail 11.

In the present embodiment, a first receiving sliding groove 110 is disposed on a side surface of the first rail 11 facing the second rail 12, and a second receiving sliding groove 120 is disposed on a side surface of the second rail 12 facing the first rail 11. It should be understood that the second guide rail 12 and the first guide rail 11 are formed by a section bar, the first guide rail 11 is provided with a first accommodating sliding groove 110, and the second guide rail 12 is provided with a second accommodating sliding groove 120, so that the second guide rail 12 is lighter than the first guide rail 11, and the novel linear sliding table can be made lighter.

The active slide rail 13 is slidably disposed between the first rail 11 and the second rail 12. In this embodiment, one end of the driving slide rail 13 is provided with a first roller 136 slidably disposed in the first accommodating slide groove 110, and the other end of the driving slide rail 13 is provided with a second roller 137 slidably disposed in the second accommodating slide groove 120.

It should be understood that the first roller 136 is rotatably disposed at one end of the active slide rail 13, and the second roller 137 is rotatably disposed at the other end of the active slide rail 13.

In this embodiment, a first motor 135 is disposed at one end of the active sliding rail 13, wherein a rotating shaft of the first motor 135 is connected to the first roller 136 or the second roller 137, so that the active sliding rail 13 is driven by the first motor 135 to slide between the first guiding rail 11 and the second guiding rail 12.

It should be understood that in the embodiment, the first motor 135 drives the first roller 136 or the second roller 137 to rotate so as to drive the active sliding rail 13 to slide between the first guide rail 11 and the second guide rail 12, so that it is no longer necessary to bring the active sliding rail to slide synchronously, and the cost of the linear sliding table can be effectively reduced.

In this embodiment, the wheel surface of the first roller 136 is circumferentially provided with a first annular groove, wherein the top and the bottom of the inner wall of the first accommodating sliding groove 110 of the first rail 11 are provided with a first protruding strip 111 and a second protruding strip 112 at intervals for matching with the first annular groove. It should be understood that the first protruding strips 111 and the second protruding strips 112 are symmetrically disposed at intervals, and the first protruding strips 111 and the second protruding strips 112 are disposed along the length of the first rail 11, so that the first roller 136 can only slide along the length direction of the first rail 11 and cannot fall off from the first accommodating sliding groove 110.

In this embodiment, the wheel surface of the second roller 137 is provided with a second annular groove, wherein the top and the bottom of the inner wall of the second accommodating sliding groove 120 of the second rail 12 are provided with a third protruding strip 121 and a fourth protruding strip 122 at intervals for matching the second annular groove. It should be understood that the third protruding strips 121 and the fourth protruding strips 122 are symmetrically disposed at intervals, and the third protruding strips 121 and the fourth protruding strips 122 are disposed along the length of the second rail 12, so that the second roller 137 can only slide along the length direction of the second rail 12 and cannot fall out of the second receiving sliding groove 120.

In the present embodiment, a sliding platform 14 is movably disposed in the active sliding rail 13. It will be appreciated that the sliding platform 14 is adapted to be coupled to the article to move the article along the active slide 13.

Specifically, the sliding platform 14 includes a first support plate 141, and a second support plate 142 and a third support plate 143 disposed at both sides of the first support plate 141. Preferably, the first support plate 141, the second support plate 142 and the third support plate 143 form a housing frame slot for wrapping outside the active slide rail 13.

Preferably, the first support plate 141 is vertically disposed to the second support plate 142 and the third support plate 143, respectively, and the first support plate 141, the second support plate 142 and the third support plate 143 are integrally formed.

In this embodiment, the active sliding rail 13 is rectangular, and preferably, the active sliding rail 13 includes a first side, a second side, a third side and a fourth side, where the first side and the fourth side are symmetrically disposed, and the second side and the third side are symmetrically disposed.

In this embodiment, the first side surface of the driving slide rail 13 is provided with a first baffle 1311 and a second baffle 1312 at an interval to form a third receiving chute, wherein the first supporting plate 141 is provided with a third roller 1411 slidably disposed in the third receiving chute. It should be understood that the third roller 1411 is rotatably disposed at an inner side surface of the first support plate 141.

Preferably, the outer wall of the third roller 1411 is circumferentially provided with a third annular groove, wherein a side of the first barrier 1311 facing the second barrier 1312 is provided with a fifth protruding strip 1313 for receiving the third annular groove, and a side of the second barrier 1312 facing the first barrier 1311 is provided with a sixth protruding strip 1314 for receiving the third annular groove. It should be understood that the fifth raised strips 1313 and the sixth raised strips 1314 are symmetrically spaced apart, and the fifth raised strips 1313 and the sixth raised strips 1314 are disposed along the length of the driving slide 13, so that the third roller 1411 can only slide along the length of the first side of the driving slide 13, and cannot fall out of the third receiving chute.

In this embodiment, the second side of the driving slide rail 13 is provided with a third baffle 1315 and a fourth baffle 1316 at an interval, which form a fourth receiving sliding slot, wherein the second supporting plate 142 is provided with a fourth roller 1421 slidably disposed in the fourth receiving sliding slot. It should be understood that the fourth roller 1421 is rotatably disposed on the inner side surface of the second support plate 142.

Preferably, the outer wall of the fourth roller 1421 is provided with a fourth annular groove, wherein a side of the third plate 1315 facing the fourth plate 1316 is provided with a seventh protruding strip 1317 for receiving the fourth annular groove, and a side of the fourth plate 1316 facing the third plate 1315 is provided with an eighth protruding strip 1318 for receiving the fourth annular groove. It should be understood that the seventh protruding strip 1317 and the eighth protruding strip 1318 are symmetrically spaced apart, and the seventh protruding strip 1317 and the eighth protruding strip 1318 are disposed along the length of the active sliding rail 13, so that the fourth roller 1421 can only slide along the length of the second side of the active sliding rail 13, and cannot fall out of the fourth receiving chute.

In the present embodiment, a fifth baffle 1319 and a sixth baffle 1320 forming a fifth receiving chute are disposed at an interval on the third side of the driving slide rail 13, wherein the third supporting plate 143 is provided with a fifth roller 1431 slidably disposed in the fifth receiving chute. It should be understood that the fifth roller 1431 is rotatably disposed at the inner side surface of the third support plate 143.

Preferably, the outer wall of the fifth roller 1431 is provided with a fifth annular groove around, wherein a side of the fifth baffle 1319 facing the sixth baffle 1320 is provided with a ninth protruding strip 1321 for receiving the fifth annular groove, and a side of the sixth baffle 1320 facing the fifth baffle 1319 is provided with a tenth protruding strip 1322 for receiving the fifth annular groove. It should be understood that the ninth protruding strip 1321 and the tenth protruding strip 1322 are symmetrically disposed at intervals, and the ninth protruding strip 1321 and the tenth protruding strip 1322 are disposed along the length of the active sliding rail 13, so that the fifth roller 1431 can only slide along the length direction of the third side surface of the active sliding rail 13, and cannot fall out of the fifth receiving sliding groove.

In this embodiment, the middle of the active sliding rail 13 is hollow, so that the weight of the active sliding rail 13 is light, and the weight of the linear sliding table can be light.

Further, a first synchronizing wheel 131 and a second synchronizing wheel 132 are respectively disposed at two ends of the first side of the driving slide rail 13, wherein a synchronous belt 133 is disposed between the first synchronizing wheel 131 and the second synchronizing wheel 132, so that the first synchronizing wheel 131 or the second synchronizing wheel 132 drives the synchronous belt 133 to rotate. Further, the second support plate 142 or the third support plate 143 is connected to the timing belt 133 to move the sliding platform 14 through the timing belt 133.

Preferably, the timing belt 133 is disposed around the outside of the first barrier 1311 and the second barrier 1312. It should be understood that the first and second synchronizing wheels 131 and 132 are disposed outside both ends of the first and second barrier 1311 and 1312, respectively.

In this embodiment, one end of the driving slide rail 13 is provided with a second motor 134 connected to the first synchronous wheel 131, so that the second motor 134 drives the first synchronous wheel 131 to rotate.

In this embodiment, the first baffle 1311 and the second baffle 1312 are respectively disposed perpendicular to the first side of the active sliding rail 13, the third baffle 1315 and the fourth baffle 1314 are respectively disposed perpendicular to the second side of the active sliding rail 13, and the fifth baffle 1319 and the sixth baffle 1320 are respectively disposed perpendicular to the third side of the active sliding rail 13. Preferably, active sled 13, first baffle 1311, second baffle 1312, third baffle 1315, fourth baffle 1314, fifth baffle 1319, and sixth baffle 1320 are integrally formed.

To sum up, the utility model discloses a novel linear sliding table drives the initiative slide rail through first motor and slides between first guide rail and second guide rail, no longer need bring in step and drive the initiative slide rail and slide, can effectively reduce linear sliding table's cost, and adopts the section bar as linear sliding table's slide rail and slide bar, can effectively reduce linear sliding table's weight, effectively improves the mobility ability.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A novel straight line slip table which characterized in that includes:

a first guide rail;

the second guide rail is horizontally arranged at intervals with the first guide rail;

the driving sliding rail is slidably arranged between the first guide rail and the second guide rail, and a sliding platform is movably arranged in the driving sliding rail;

the first guide rail faces one side face of the second guide rail and is provided with a first containing sliding groove, the second guide rail faces one side face of the first guide rail and is provided with a second containing sliding groove, one end of the driving sliding rail is provided with a first roller which is slidably arranged in the first containing sliding groove, the other end of the driving sliding rail is provided with a second roller which is slidably arranged in the second containing sliding groove, one end of the driving sliding rail is provided with a first motor, and the rotating shaft of the first motor is connected with the first roller or the second roller so as to drive the driving sliding rail to slide between the first guide rail and the second guide rail through the first motor.

2. The novel linear sliding table according to claim 1, wherein a first annular groove is circumferentially formed on the wheel surface of the first roller, and a first protruding strip and a second protruding strip compatible with the first annular groove are arranged at intervals on the top and the bottom of the inner wall of the first accommodating sliding groove of the first guide rail.

3. The novel linear sliding table according to claim 2, wherein a second annular groove is circumferentially formed on the wheel surface of the second roller, and third and fourth protruding strips for matching the second annular groove are arranged at intervals on the top and bottom of the inner wall of the second accommodating sliding groove of the second guide rail.

4. The novel linear sliding table according to claim 1, wherein the sliding platform includes a first supporting plate, and a second supporting plate and a third supporting plate disposed on two sides of the first supporting plate, wherein the first supporting plate, the second supporting plate and the third supporting plate form a containing frame groove for wrapping the driving sliding rail.

5. The novel linear sliding table according to claim 4, wherein a first baffle and a second baffle forming a third accommodating sliding groove are arranged at intervals on the first side surface of the driving sliding rail, and the first supporting plate is provided with a third roller slidably arranged in the third accommodating sliding groove.

6. The novel linear sliding table according to claim 5, wherein a third annular groove is circumferentially formed in an outer wall of the third roller, a fifth raised strip for accommodating the third annular groove is arranged on a side surface of the first baffle plate facing the second baffle plate, and a sixth raised strip for accommodating the third annular groove is arranged on a side surface of the second baffle plate facing the first baffle plate.

7. The novel linear sliding table according to claim 5, wherein a third baffle and a fourth baffle forming a fourth accommodating sliding groove are arranged at intervals on the second side surface of the driving sliding rail, the second supporting plate is provided with a fourth roller slidably arranged in the fourth accommodating sliding groove, a fifth baffle and a sixth baffle forming a fifth accommodating sliding groove are arranged at intervals on the third side surface of the driving sliding rail, and the third supporting plate is provided with a fifth roller slidably arranged in the fifth accommodating sliding groove.

8. The novel linear sliding table according to claim 7, wherein a fourth annular groove is circumferentially formed in an outer wall of the fourth roller, a seventh raised strip for accommodating the fourth annular groove is arranged on a side surface of the third baffle facing the fourth baffle, an eighth raised strip for accommodating the fourth annular groove is arranged on a side surface of the fourth baffle facing the third baffle, a fifth annular groove is circumferentially formed in an outer wall of the fifth roller, a ninth raised strip for accommodating the fifth annular groove is arranged on a side surface of the fifth baffle facing the sixth baffle, and a tenth raised strip for accommodating the fifth annular groove is arranged on a side surface of the sixth baffle facing the fifth baffle.

9. The novel linear sliding table according to claim 7, wherein the third side surface of the active sliding rail and the second side surface of the active sliding rail are symmetrically disposed, and the middle portion of the active sliding rail is hollow.

10. The novel linear sliding table according to claim 7, wherein a first synchronizing wheel and a second synchronizing wheel are respectively disposed at two ends of a first side surface of the driving sliding rail, a second motor connected to the first synchronizing wheel is disposed at one end of the driving sliding rail, a synchronous belt is disposed between the first synchronizing wheel and the second synchronizing wheel, the synchronous belt is disposed around the first baffle and the second baffle, and the second support plate or the third support plate is connected to the synchronous belt.

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