CN219692010U - Linear guide upper slider adjusting assembly - Google Patents

Abstract

The utility model relates to a slider adjusting part on linear guide, including linear guide and the slider of setting on linear guide, still include mount pad, damping strip, execution piece, bulb plunger and holding screw, linear guide's both sides all are equipped with one section damping strip, the execution piece is set up in damping strip top, the through-hole is all seted up to execution piece top both sides, the bulb plunger screw in the through-hole, its head ball is connected with damping strip terminal surface contact the holding hole is seted up to execution piece's both sides, the holding screw wears to establish the holding hole and is connected with bulb plunger's screw rod end contact; the utility model has the advantages of simple and reasonable structure, solved because linear guide itself low friction resistance, linear guide is in slope or when vertically, and the slider on the linear guide breaks away from the slide rail easily, causes the risk that the ball drops and the slider motion to the structure on the slider when detecting the assigned position, and the slider can not reliably guarantee the drawback of position.

Description

Linear guide upper slider adjusting assembly

Technical Field

The utility model relates to the field of automatic transmission equipment, in particular to a sliding block adjusting assembly on a linear guide rail.

Background

The linear motion system can improve production efficiency and reduce labor intensity. The linear guide rail is realized through the rolling of the steel ball, the relative friction resistance of the guide rail is small, and the difference between the dynamic friction resistance and the static friction resistance is small, so the linear guide rail can be conveniently applied to various precise machinery and instruments, such as a coordinate measuring machine, an altimeter, a microscope and the like due to the linear motion characteristic of the linear guide rail. Because the friction resistance is small, when the linear guide rail is inclined or vertical, the sliding block on the linear guide rail is easy to separate from the sliding rail, so that the risk of falling off of the ball is caused; when the slider moves to a designated position to detect the structure on the slider, the slider needs to be ensured not to move during detection, and a special stop mechanism is generally required to be added, so that the equipment structure is often complicated, the workload is increased for designers and assembly staff, and the maintenance work is increased, thereby increasing the cost.

Disclosure of Invention

The utility model aims to solve the defects, and provides the upper sliding block adjusting component of the linear guide rail, which has a simple and reasonable structure and is convenient to adjust.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides a slider adjusting part on linear guide, includes linear guide and sets up the slider on linear guide, its characterized in that: still include mount pad, damping strip, execution piece, bulb plunger and holding screw, linear guide's both sides all are equipped with one section damping strip, two sections damping strip and slider all set firmly on the mount pad, the execution piece is set up in damping strip top, the through-hole is all seted up to execution piece top both sides, the through-hole opening end is just to damping strip terminal surface setting, the bulb plunger is twisted in the through-hole, its head ball is connected with damping strip terminal surface contact the fastening hole is seted up to the both sides of execution piece, fastening hole and through-hole are on same cross section, holding screw wears to establish the screw rod end contact connection of fastening hole and bulb plunger.

As the preferable technical scheme, the upper end face of the damping strip is provided with a limiting groove body, and two ends of the execution block are arranged above the limiting groove body.

As the preferable technical scheme, the through hole is internally cast with the thread compound and is used for coating the screw end of the ball plunger, so that the friction force between the ball plunger and the wall surface of the through hole is increased.

The beneficial effects of the utility model are as follows: the sliding block locking position is simple and reasonable in structure and convenient to adjust, and meanwhile, the defect that the sliding block cannot reliably guarantee the position when the sliding block moves to a specified position to detect the structure on the sliding block due to the fact that the sliding block on the linear guide rail is easy to separate from a sliding rail when the linear guide rail is inclined or vertical due to low friction resistance of the linear guide rail.

Drawings

FIG. 1 is an exploded view of a slider adjustment assembly for linear guides in accordance with the present utility model;

fig. 2 is an assembly view of a slider adjustment assembly for linear guide according to the present utility model.

In the figure: 1-linear guide rail, 2-slider, 3-mount pad, 4-damping strip, 4-1-spacing cell body, 5-executive block, 5-1-through hole, 5-2-fastening hole, 6-bulb plunger, 7-holding screw.

Detailed Description

For a further understanding and appreciation of the structural features and advantages achieved by the present utility model, the following description is provided in connection with the accompanying drawings, which are presently preferred embodiments and are incorporated in the accompanying drawings, in which:

the embodiment of the utility model provides a sliding block adjusting assembly on a linear guide rail, which comprises a linear guide rail 1, a sliding block 2 arranged on the linear guide rail 1, an installation seat 3, damping strips 4, an execution block 5, a ball plunger 6 and a set screw 7, wherein one section of damping strip 4 is arranged on two sides of the linear guide rail 1, two sections of damping strips 4 and the sliding block 2 are fixedly arranged on the installation seat 3, the execution block 5 is arranged above the damping strip 4, through holes 5-1 are formed in two sides above the execution block 5, the opening ends of the through holes 5-1 are opposite to the end surfaces of the damping strips 4, the ball plunger 6 is screwed into the through holes 5-1, head balls of the ball plunger 6 are in contact connection with the end surfaces of the damping strips 4, the two sides of the execution block 5 are provided with fastening holes 5-2, the fastening holes 5-2 and the through holes 5-1 are in the same cross section, and the set screw 7 is penetrated with the fastening holes 5-2 and the screw rod ends of the ball plunger 6 in a contact connection mode.

In this embodiment, the upper end surface of the damping strip 4 is provided with a limiting groove 4-1, and two ends of the execution block 5 are arranged above the limiting groove 4-1.

In this embodiment, the screw thread compound is cast into the through hole 5-1 to cover the screw end of the ball plunger 6, thereby increasing the friction with the wall surface of the through hole.

The specific working principle of the device is as follows: the ball plunger 6 is screwed up by an inner hexagonal wrench tool, and the friction force between the ball and the spring in the ball plunger 6 is utilized to increase the friction force between the ball at the head of the ball plunger 6 and the damping strip 4 on the premise of not losing the accuracy and the friction force of the linear guide rail 1, so that the position of the execution block 5 is ensured to be not actuated under the condition of micro vibration or external force application of the sliding block 2; meanwhile, after the ball plunger 6 is adjusted to achieve the required friction force, the set screw 7 is screwed down, so that the deformation of the spring in the ball plunger 6 is unchanged, and the constant friction force between the ball of the head of the ball plunger 6 and the damping strip 4 is ensured.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, but rather the equivalent variations and modifications in shape, construction, characteristics and spirit according to the scope of the claims should be construed to be included in the scope of the claims.

Claims (3)

1. The utility model provides a slider adjusting part on linear guide, includes linear guide and sets up the slider on linear guide, its characterized in that: still include mount pad, damping strip, execution piece, bulb plunger and holding screw, linear guide's both sides all are equipped with one section damping strip, two sections damping strip and slider all set firmly on the mount pad, the execution piece is set up in damping strip top, the through-hole is all seted up to execution piece top both sides, the through-hole opening end is just to damping strip terminal surface setting, the bulb plunger is twisted in the through-hole, its head ball is connected with damping strip terminal surface contact the fastening hole is seted up to the both sides of execution piece, fastening hole and through-hole are on same cross section, holding screw wears to establish the screw rod end contact connection of fastening hole and bulb plunger.

2. The linear guide upper slider adjustment assembly of claim 1, wherein: the upper end face of the damping strip is provided with a limiting groove body, and two ends of the execution block are erected above the limiting groove body.

3. The linear guide upper slider adjustment assembly of claim 1, wherein: and a thread compound and a screw end for coating the ball plunger are cast in the through hole.