CN215806112U - Integrated sliding seat for linear module - Google Patents

Abstract

The utility model discloses an integrated sliding seat for a linear module, which comprises an integrated sliding seat body and a load mounting surface arranged on the upper surface of the integrated sliding seat body; four sliding block locking mounting holes are formed in the middle of the load mounting surface, and a plurality of load positioning mounting holes are formed in one sides of the four sliding block locking mounting holes; the lower surface of the integrated sliding seat body is a sliding block mounting surface, a step hole is formed in the lower portion of the integrated sliding seat body in a penetrating mode, and the step hole comprises a lead screw nut positioning hole and a lead screw avoiding hole; one surface perpendicular to the lead screw nut positioning hole is a lead screw nut mounting surface; magnet installation cavities are formed in two ends above the step holes, and steel belt installation cavities are formed above the magnet installation cavities. The steel belt installation cavity is integrally formed by injection molding, assembly parts can be effectively reduced, the cost is low, the inner cavity of the steel belt installation cavity is of an arc-shaped structure, steel belt friction can be reduced, the structure is further simplified, and the operation is convenient.

Description

Integrated sliding seat for linear module

Technical Field

The utility model belongs to the technical field of linear modules, and particularly relates to an integrated sliding seat for a linear module.

Background

Most of the structures of the slide seat of the closed linear module at home and abroad at present are that the structure of connecting the slide seat and the guide rail slide block is a part, and the other part of the structure is used for covering the steel belt after the steel belt is installed; one structure is that a roller is adopted to guide and position a steel belt, and the upper part of the roller is connected with another mounting plate; one structure is that a sliding seat is adopted, a groove is formed in the middle of the sliding seat, a steel belt is arranged in the groove, and a connecting plate directly covers the steel belt and a steel belt gap above the steel belt; the two structures all adopt two parts to form the whole sliding seat, and the structure in the prior art increases the part cost and is complex to install.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an integrated sliding seat for a linear module, aiming at overcoming the defects in the prior art, and solving the problems of complex installation and high cost caused by the fact that the sliding seat in the prior art is composed of two parts.

In order to achieve the purpose, the utility model adopts the technical scheme that:

an integrated sliding seat for a linear module comprises an integrated sliding seat body and a load mounting surface arranged on the upper surface of the integrated sliding seat body; four sliding block locking mounting holes are formed in the middle of the load mounting surface, and a plurality of load positioning mounting holes are formed in one sides of the four sliding block locking mounting holes;

the lower surface of the integrated sliding seat body is a sliding block mounting surface, a step hole is formed in the lower portion of the integrated sliding seat body in a penetrating mode, and the step hole comprises a lead screw nut positioning hole and a lead screw avoiding hole; one surface perpendicular to the lead screw nut positioning hole is a lead screw nut mounting surface; magnet installation cavities are formed in two ends above the step holes, and steel belt installation cavities are formed above the magnet installation cavities.

Furthermore, four slider locking mounting holes run through the integral type slide body and set up.

Furthermore, four load positioning and mounting holes are formed in the load mounting surface.

The four load positioning mounting holes are in threaded fit with positioning screws (or other threaded fixing structures) and used for realizing the positioning of the load.

Further, the aperture of the lead screw nut positioning hole is larger than that of the lead screw avoiding hole.

Further, the magnet installation cavity is a rectangular groove.

The rectangular groove body is matched with the magnet in shape, so that the magnet is convenient to fixedly mount.

Further, the steel belt installation cavity is an arc-shaped cavity with smooth inside.

The interior is smooth, and the adoption arc structure can effectively reduce the friction of steel band.

The integrated sliding seat for the linear module provided by the utility model has the following beneficial effects:

the integral structure of the utility model adopts injection molding and integral molding, can reduce assembly parts, has low cost, and the inner cavity of the steel belt mounting cavity adopts an arc structure, can reduce steel belt friction, further simplifies the structure and has convenient operation.

Drawings

FIG. 1 is a side view of a carriage axle of an integrated carriage for a linear die set.

Figure 2 is a cross-sectional view of a carriage of an integrated carriage for a linear die set.

FIG. 3 is a front view of a carriage of the integrated carriage for the linear die set.

Wherein, 2, the integral slide carriage body; 201. a steel belt mounting cavity; 202. a screw nut positioning hole; 203. a magnet mounting cavity; 204. a screw hole is locked by a screw rod nut; 205. a load positioning mounting hole; 206. an induction sheet mounting hole; 207. the slide block locks the mounting hole; 208. a slide block piece mounting hole; 209. a load mounting surface; 210. a slider mounting surface; 211. a lead screw nut mounting surface; 212. the lead screw dodges the hole.

Detailed Description

The following description of the embodiments of the present invention is provided to facilitate the understanding of the present invention by those skilled in the art, but it should be understood that the present invention is not limited to the scope of the embodiments, and it will be apparent to those skilled in the art that various changes may be made without departing from the spirit and scope of the utility model as defined and defined in the appended claims, and all changes that come within the meaning and range of equivalency of the claims are to be embraced therein.

According to an embodiment of the application, referring to fig. 1-3, the one-piece sliding seat for the linear module of the present disclosure comprises an one-piece sliding seat body 2, and a steel belt mounting cavity 201, a screw nut positioning hole 202, a magnet mounting cavity 203, a screw nut locking screw hole 204, a load positioning mounting hole 205, an induction sheet mounting hole 206, a slider locking mounting hole 207, a sliding seat separation blade mounting hole 208, a load mounting surface 209, a slider mounting surface 210, a screw nut mounting surface 211, and a screw avoidance hole 212 are formed in the one-piece sliding seat body 2.

The above structure will be described in detail below, and specifically includes:

the upper surface of integral type slide body 2 is for being used for the load installation face 209 of fixed mounting load, and four slider locking mounting holes 207 are seted up to the intermediate position of load installation face 209, and four slider locking mounting holes 207 run through integral type slide body 2 and set up for cooperate locking lever (or other locking device) locking to be fixed in on the slider.

And one side of the four slider locking mounting holes 207 is provided with a plurality of load positioning mounting holes 205, preferably four load positioning mounting holes 205 are provided in the present embodiment, and the four load positioning mounting holes 205 are in threaded fit with positioning screws (or other threaded fixing structures) for realizing the positioning of the load.

The lower surface of the integrated sliding seat body 2 is a sliding block mounting surface 210, a step hole is formed in the lower portion of the integrated sliding seat body 2 in a penetrating mode and comprises a lead screw nut positioning hole 202 and a lead screw avoiding hole 212, the larger diameter of the step hole is the lead screw nut positioning hole 202, the lead screw nut positioning hole 202 is used for fixedly accommodating a lead screw nut, and the smaller diameter of the step hole is the lead screw avoiding hole 212.

The surface perpendicular to the lead screw nut positioning hole 202 is a lead screw nut mounting surface 211, and a lead screw nut locking screw hole 204 is formed in the lead screw nut mounting surface 211 and used for being matched with a screw to lock a lead screw nut.

Magnet installation cavity 203 is all seted up at the both ends that are located the step hole top, and magnet installation cavity 203 is rectangular groove for the holding installation of magnet, and the rectangular groove body agrees with the shape of magnet, the fixed mounting of the magnet of being convenient for.

The steel belt mounting cavity 201 is formed above the magnet mounting cavity 203, and the steel belt mounting cavity 201 is an arc-shaped cavity with smooth inside and is used for mounting and accommodating a steel belt.

The steel belt installation cavity 201 is smooth inside, adopts an arc-shaped structure, and can effectively reduce the friction of the steel belt by matching the shape of the steel belt in a free bending state.

The side surface above the integrated sliding seat body 2 is provided with an induction sheet mounting hole 206, and an induction sheet is fixedly mounted in the induction sheet mounting hole 206.

And the other side surface above the integrated sliding seat body 2 is provided with a sliding seat separation blade mounting hole 208 for fixedly mounting a sliding seat separation blade and shielding an external gap of the steel belt mounting cavity 201.

The integral structure of the utility model is integrally formed by injection molding, and compared with the two parts in the prior art, the utility model can effectively reduce the number of assembled parts and reduce the cost.

And the inner cavity of the steel belt mounting cavity 201 adopts an arc-shaped structure, so that the friction of the steel belt can be reduced, the structure is further simplified, and the operation is convenient.

While the present invention has been described in detail with reference to the embodiments, the scope of the present invention should not be limited to the embodiments. Various modifications and changes may be made by those skilled in the art without inventive step within the scope of the appended claims.

Claims (6)

1. The utility model provides a straight line is integral type slide for module which characterized in that: the integrated sliding seat comprises an integrated sliding seat body and a load mounting surface arranged on the upper surface of the integrated sliding seat body; four sliding block locking mounting holes are formed in the middle of the load mounting surface, and a plurality of load positioning mounting holes are formed in one sides of the four sliding block locking mounting holes;

the lower surface of the integrated sliding seat body is a sliding block mounting surface, a step hole is formed in the lower portion of the integrated sliding seat body in a penetrating mode, and the step hole comprises a lead screw nut positioning hole and a lead screw avoiding hole; one surface perpendicular to the lead screw nut positioning hole is a lead screw nut mounting surface; magnet installation cavities are formed in two ends above the step holes, and steel belt installation cavities are formed above the magnet installation cavities.

2. The one-piece skate of claim 1, wherein: and four sliding block locking and mounting holes penetrate through the integrated sliding seat body.

3. The one-piece skate of claim 1, wherein: and four load positioning mounting holes are formed in the load mounting surface.

4. The one-piece skate of claim 1, wherein: the aperture of the screw rod nut positioning hole is larger than that of the screw rod avoiding hole.

5. The one-piece skate of claim 1, wherein: the magnet installation cavity is a rectangular groove.

6. The one-piece skate of claim 1, wherein: the steel belt mounting cavity is an arc-shaped cavity with smooth inside.

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