CN213672857U - Movable slide - Google Patents

Abstract

The utility model discloses a movable slide seat, which comprises a mounting seat, a processing table and a driving mechanism, wherein one end surface of the mounting seat is formed into a processing surface, the processing table is arranged on the processing surface, and the processing table can move along a processing direction; the driving mechanism is used for driving the processing table to move along the processing direction, and the processing table can extend out of two sides of the mounting seat after moving along the processing direction. The utility model discloses a movable slide, its accessible actuating mechanism drive the processing platform, and the processing platform can bear different work pieces and carry out the processing operation, and the processing platform motion makes the range of processing great relatively.

Description

Movable slide

Technical Field

The utility model relates to a machine tool technical field especially relates to a movable slide.

Background

At present, mechanical processing is mainly realized through a numerical control machine tool, a main shaft on the machine tool moves to a processing table after being assembled with a cutter, and processing is carried out at different positions of the processing table in the moving process. However, in the conventional machining process, the position of the machining table is fixed, and the machining is mainly realized depending on the displacement of the spindle, so that the machining range is limited.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a movable slide, its accessible actuating mechanism drives the processing platform, and the processing platform can bear different workpieces and carry out processing operation, and the motion of the processing platform makes the processing range relatively great.

The purpose of the utility model is realized by adopting the following technical scheme:

a movable sliding seat comprises a mounting seat, a processing table and a driving mechanism, wherein one end face of the mounting seat is formed into a processing surface, the processing table is mounted on the processing surface, and the processing table can move along a processing direction; the driving mechanism is used for driving the processing table to move along the processing direction, and the processing table can extend out of two sides of the mounting seat after moving along the processing direction.

Furthermore, the driving mechanism comprises a motor, a screw rod, a nut and a guide assembly, a groove is formed in the processing surface, the motor is mounted on the mounting seat, and the screw rod is pivoted in the groove and is synchronously connected with a rotating shaft of the motor; the lead screw extends along the machining direction; the nut threads are sleeved outside the screw rod; the guide assembly is used for guiding the nut to move along the machining direction in the rotating process of the screw rod; the processing table is connected with the nut.

Further, the guide assembly comprises a guide rail and a guide block, wherein the guide rail is arranged on the processing surface and extends along the processing direction; the guide block is connected to the bottom end of the processing table, and the guide block is sleeved outside the guide rail in a sliding mode.

Further, the bottom end of the processing table is connected with the nut through a supporting seat; the width of the supporting seat is gradually reduced from top to bottom; the bottom of the supporting seat is provided with a concave position for the nut to be embedded in.

Furthermore, a plurality of reinforcing rib plates are arranged in the groove and distributed at intervals in the machining direction; the reinforcing rib plate comprises a first reinforcing section and two second reinforcing sections, the two second reinforcing sections are respectively fixed on two side walls of the groove, and the first reinforcing section is connected between the two second reinforcing ends and fixed with the bottom wall of the groove.

Further, the side portion of the processing table extends toward the outside of the groove and is formed as a shielding portion; the shielding part is gradually inclined outwards from top to bottom.

Furthermore, the mounting seat and the processing table are manufactured by adopting an integral forming process.

Furthermore, a hollow-out position is arranged inside the mounting seat.

Compared with the prior art, the beneficial effects of the utility model reside in that: the machining table can be driven by the driving mechanism, different workpieces can be borne by the machining table for machining operation, and the machining table can extend out of two sides of the mounting seat after moving along the machining direction and is matched with the movement of a machining spindle on a machine tool, so that the machining range is relatively large.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the mounting base of the present invention;

fig. 3 is a schematic structural view of the processing table of the present invention.

In the figure: 10. a mounting seat; 11. a groove; 12. reinforcing rib plates; 20. a processing table; 21. a supporting seat; 211. a concave position; 22. a shielding portion; 30. a drive mechanism; 31. a screw rod; 32. a nut; 33. a guide rail; 34. and a guide block.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

as shown in fig. 1, 2 and 3, the movable slide carriage includes a mounting base 10, a processing table 20 and a driving mechanism 30, wherein one end surface of the mounting base 10 is formed as a processing surface, the processing table 20 is mounted on the processing surface, and the processing table 20 is driven by the driving mechanism 30 to move along a processing direction and can extend out from two sides of the mounting base 10 after the processing table 20 moves along the processing direction.

On the basis of the structure, use the utility model discloses a during movable slide, the mountable of mount pad 10 is on the lathe, and the work piece of treating processing is placed on processing platform 20, and the processing main shaft on the processing lathe can move to processing platform 20 department under the drive drives on the lathe and process. Meanwhile, the driving mechanism 30 drives the processing table 20 to move in coordination with the movement of the processing spindle, so that the processing range of the processing spindle is wider. And the processing table 20 is used for extending from two sides of the mounting seat 10 after moving along the processing direction, and the processing range is not limited to the whole area of the processing table 20 and is relatively large.

Of course, the processing station 20 may carry different workpieces for processing operations.

In this embodiment, the driving mechanism 30 includes a motor, a screw rod 31, a nut 32 and a guiding component, a groove 11 may be formed on the processing surface, the motor is mounted on the mounting base 10, and the screw rod 31 is pivoted in the groove 11 and synchronously connected with a rotating shaft of the motor. The screw 31 extends in the machine direction, and a nut 32 is screwed onto the screw 31. Under the guidance of the guide assembly, the nut 32 is movable in the machining direction during the rotation of the screw 31, and the machining table 20 is connected to the nut 32.

On the basis of the structure, when the processing table 20 is driven, the motor can drive the screw rod 31 to rotate, the nut 32 rotates along with the screw rod 31 in the rotating process, the rotating motion of the nut 32 can be limited by the guide assembly and moves along the processing direction under the guide of the guide assembly, so that the processing table 20 connected with the nut 32 is driven to move, and the processing table 20 can flexibly move through the transmission and guide system of the screw rod 31.

Of course, the driving mechanism 30 is installed in the groove 11 to prevent the driving mechanism 30 from being exposed, and to prevent the structure from being exposed to block the reciprocating motion of the processing table 20.

More specifically, the guide assembly includes a guide rail 33 and a guide block 34, the guide rail 33 being mounted on the work surface, the guide rail 33 being extendable in the machine direction. Correspondingly, the guide block 34 is connected to the bottom end of the processing table 20, and the guide block 34 is slidably sleeved outside the guide rail 33. In this way, during the rotation of the nut 32, the rotation movement is limited by the sliding fit between the guide block 34 and the guide rail 33, and the guide block 34 can move along the guide rail 33, thereby driving the movement of the processing table 20, and the structure is stable.

Of course, the guide assembly may also be implemented by a sliding fit of the guide sleeve and the guide rod.

Further, the bottom end of the processing table 20 may be connected to the nut 32 through the support base 21, and the width of the support base 21 is gradually decreased from top to bottom, that is, the support base 21 has an inverted trapezoid structure, so that the formed support structure is more stable. Specifically, a concave position 211 can be arranged at the bottom end of the supporting seat 21, when the nut 32 is assembled with the processing table 20, the nut 32 can be embedded in the concave position 211 at the bottom end of the supporting seat 21, the formed assembly structure is more stable, and the connection between the nut 32 and the concave position 211 can be selected as welding.

Furthermore, a plurality of reinforcing rib plates 12 can be arranged in the groove 11, the reinforcing rib plates 12 are distributed at intervals in the machining direction, the reinforcing rib plates 12 can reinforce the internal structure of the groove 11, and the strength of the groove 11 is prevented from being influenced by the installation of the driving mechanism 30.

The concrete reinforcing rib plate 12 comprises a first reinforcing section and two second reinforcing sections, the two second reinforcing sections are respectively fixed on two side walls of the groove 11, the first reinforcing section is connected between the two second reinforcing ends and fixed with the bottom wall of the groove 11, namely the first reinforcing section and the two second reinforcing ends can be connected from two sides to the middle part for reinforcing, and the formed strength is higher.

Furthermore, the side of the processing table 20 extends toward the outside of the groove 11 and forms a shielding portion 22, and the shielding portion 22 is gradually inclined outward from top to bottom, so that the shielding portion 22 can shield the outside of the groove 11 during the reciprocating motion of the processing table 20, and the influence of the impurities such as external dust and water entering the groove 11 and affecting the precision of the driving mechanism 30 can be reduced. The shielding portion 22 is inclined outward from top to bottom, so that the gap between the processing platform 20 and the processing surface of the mounting base 10 can be relatively reduced, and the dustproof and waterproof effects are better.

Further, the mounting seat 10 and the processing table 20 are both manufactured by adopting an integral forming process, so that the overall strength is higher, and the bearing performance of the processing table 20 and the mounting seat 10 is improved.

Further, a hollow-out position is arranged inside the mounting seat 10, so that the weight of the mounting seat 10 is reduced.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.

Claims (8)

1. A movable sliding seat is characterized by comprising a mounting seat, a processing table and a driving mechanism, wherein one end face of the mounting seat is formed into a processing surface, the processing table is mounted on the processing surface, and the processing table can move along a processing direction; the driving mechanism is used for driving the processing table to move along the processing direction, and the processing table can extend out of two sides of the mounting seat after moving along the processing direction.

2. The movable carriage as claimed in claim 1, wherein the driving mechanism includes a motor, a lead screw, a nut and a guiding assembly, the processing surface is provided with a groove, the motor is mounted on the mounting base, and the lead screw is pivoted in the groove and synchronously connected with a rotating shaft of the motor; the lead screw extends along the machining direction; the nut threads are sleeved outside the screw rod; the guide assembly is used for guiding the nut to move along the machining direction in the rotating process of the screw rod; the processing table is connected with the nut.

3. The mobile slide of claim 2, wherein said guide assembly includes a guide rail mounted on a work surface and extending in said machine direction, and a guide block; the guide block is connected to the bottom end of the processing table, and the guide block is sleeved outside the guide rail in a sliding mode.

4. The mobile slide of claim 2, wherein a bottom end of the machining station is coupled to the nut through a support base; the width of the supporting seat is gradually reduced from top to bottom; the bottom of the supporting seat is provided with a concave position for the nut to be embedded in.

5. The movable carriage according to claim 2, wherein a plurality of stiffener plates are provided in the recess, the plurality of stiffener plates being spaced apart in the machine direction; the reinforcing rib plate comprises a first reinforcing section and two second reinforcing sections, the two second reinforcing sections are respectively fixed on two side walls of the groove, and the first reinforcing section is connected between the two second reinforcing ends and fixed with the bottom wall of the groove.

6. The mobile carriage of any of claims 2-5, wherein a side of the machining table extends toward an outside of the groove and is formed as a curtain; the shielding part is gradually inclined outwards from top to bottom.

7. The mobile slide according to any one of claims 1 to 5, wherein the mounting block and the machining station are formed in an integral molding process.

8. The mobile slide as claimed in any one of claims 1 to 5, in which a void is provided within the mount.

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