CN220398461U - Device for detecting parallel guide rails of equipment - Google Patents

Abstract

The utility model belongs to the field of parallel detection equipment guide rails and discloses a device for detecting equipment guide rail parallelism, which comprises a base, wherein a guide rail installation groove is formed above the base, one side of the guide rail installation groove is provided with a guide rail, a magnetic meter is arranged on the guide rail, a sliding block for placing the magnetic meter is connected onto the guide rail in a sliding manner, and a reference block for referencing the magnetic meter is fixedly connected onto the base. A device for detecting equipment guide rail is parallel can be used for detecting whether equipment guide rail is parallel, if the guide rail is unparallel, the work that equipment was made does not satisfy the design requirement, and the device for detecting equipment guide rail is parallel can solve above-mentioned problem, through detecting whether the guide rail is parallel, can get rid of producing the problem of the work that does not satisfy the design requirement because of the guide rail is unparallel, through seting up the fixed slot on the slider, can firmly fix the magnetometer, ensures measurement data's accuracy and stability.

Description

Device for detecting parallel guide rails of equipment

Technical Field

The utility model relates to the field of detecting equipment guide rail parallelism, in particular to a device for detecting equipment guide rail parallelism.

Background

The guide rail is a sliding contact guide rail used between connecting equipment and a basic structure, is commonly used in industrial automation equipment such as machine tools, robots, aerospace equipment and the like, and has important influence on the precision, efficiency and stability of the equipment in design and manufacture.

The industrial guide rail is mostly made of steel, and in a long-term use process, as friction exists between two contact surfaces directly, different degrees of abrasion can be generated between the guide rail and equipment, so that the guide rail of the equipment is not parallel, and the precision and the production efficiency of the equipment for producing articles are affected.

However, in the prior art, the guide rail may be deformed due to external force, temperature change and other factors during use, and the guide rail may be not parallel due to improper installation of the guide rail, such as incorrect installation angle and position, so that whether the guide rail is parallel or not is detected by a device for detecting the parallel of the guide rail of the equipment, and correction is performed.

Disclosure of Invention

The present utility model is intended to provide solutions to existing problems.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a device for detecting equipment guide rail is parallel, includes the base, guide rail mounting groove has been seted up to the base top, the guide rail is installed to one side of guide rail mounting groove, be equipped with the magnetometer on the guide rail, sliding connection has the slider that is used for placing the magnetometer on the guide rail, fixedly connected with is used for making the benchmark piece of reference for the magnetometer on the base.

Preferably, the magnetic meter comprises a main body, a connecting rod is arranged on the main body, a magnetic meter pointer is arranged at the other end of the connecting rod, and a switch for starting the magnetic meter is arranged on the main body.

Preferably, the four corners on the sliding block are provided with fixing grooves for fixing the magnetic meter.

Preferably, an auxiliary block for assisting the magnetometer to detect the parallel of the guide rails is arranged on the other side of the guide rail mounting groove.

Preferably, the guide rail mounting groove is provided with a hole for mounting other equipment.

Preferably, a connecting block for connecting the reference block and the guide rail mounting groove is arranged between the guide rail mounting groove and the reference block.

Preferably, the guide rail is provided with a mounting groove for mounting other dies.

Preferably, the guide rail is designed in an I shape.

Preferably, the width of the guide rail mounting groove is the same as the width of the base, and the width of the reference block is the same as the width of the groove in the guide rail mounting groove.

Compared with the prior device, the utility model has the following beneficial effects:

by adopting the magnetic meter to measure, the measurement work can be efficiently completed, and the complicated and error of the traditional manual measurement is avoided.

Through seting up the fixed slot on the slider, can firmly fix the magnetometer, ensure measured data's accuracy and stability, also can conveniently dismantle and change the magnetometer to convenient maintenance and maintenance.

Through the sliding connection design of the sliding blocks, the measuring process is more flexible, and the guide rail and the magnetic meter can be conveniently detached and replaced, so that the magnetic meter is easy to maintain.

The guide rail is designed into the I shape, the I-shaped track structure is more stable relative to the track structures with other shapes, deformation or fracture is not easy to occur, good safety is achieved, meanwhile, due to the design of the I-shaped track, the sliding block can be better fixed on the guide rail, the sliding block cannot fall off easily, good stability is achieved, and compared with the track structures with other shapes, the I-shaped track is lower in cost, and is more economical and practical in construction and maintenance cost

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a right side view of the present utility model;

FIG. 3 is a schematic diagram of the front view of the present utility model;

fig. 4 is an enlarged schematic view of the structure of fig. 1 according to the present utility model.

Reference numerals: 1. a base; 2. a guide rail installation groove; 201. an auxiliary block; 202. an opening; 3. a guide rail; 301. a mounting groove; 4. a slide block; 401. a fixing groove; 5. a magnetic meter; 501. a main body; 502. a connecting rod; 503. a magnetic meter pointer; 504. a switch; 6. a reference block; 7. and (5) connecting a block.

Detailed Description

The utility model is further described below with reference to the drawings and embodiments:

the specific implementation process is as follows: referring to fig. 1-4, a device for detecting parallel of equipment guide rails includes a base 1, a guide rail mounting groove 2 is formed above the base 1, a guide rail 3 is mounted on one side of the guide rail mounting groove 2, a magnetic meter 5 is arranged on the guide rail 3, measurement is performed by adopting the magnetic meter 5, measurement work can be efficiently completed, complicated and error of traditional manual measurement is avoided, parallelism of the guide rail 3 can be accurately measured by mounting the magnetic meter 5 on the guide rail 3, a reference block 6 for referencing the magnetic meter 5 is fixedly connected to the base 1, accuracy and stability of measured data can be ensured by fixedly connecting a reference block 6 for referencing the magnetic meter 5 to the base 1, a slide block 4 for placing the magnetic meter 5 is slidingly connected to the guide rail 3, and the magnetic meter 5 is placed by the slide block 4.

The magnetic meter 5 comprises a main body 501, a connecting rod 502 is arranged on the main body 501, a magnetic meter pointer 503 is arranged at the other end of the connecting rod 502, the magnetic meter 5 can accurately measure the parallelism of the guide rail 3 through the connecting rod 502 and the pointer 503, a switch 504 for starting the magnetic meter 5 is arranged on the main body 501, and the magnetic meter 5 can be started through the switch 504 for convenient and quick measurement.

The fixed slot 401 for fixing the magnetic meter 5 is formed in the four corners of the sliding block 4, the magnetic meter 5 can be firmly fixed through the fixed slot 401 formed in the sliding block 4, so that the stability of the magnetic meter 5 is improved, the magnetic meter 5 can be conveniently detached and replaced due to the stability of the magnetic meter 5, and the maintenance is convenient, and meanwhile, the stability of the whole system is enhanced.

The opposite side of guide rail mounting groove 2 is equipped with and is used for assisting the magnetic meter 5 to detect the parallel auxiliary block 201 of guide rail 3, through being equipped with at the opposite side of guide rail mounting groove 2 and being used for assisting the magnetic meter 5 to detect the parallel auxiliary block 201 of guide rail 3, can improve the detection precision of magnetic meter 5, ensure the accuracy of measured data, also can measure conveniently and swiftly, improve measurement efficiency, can change conveniently and maintain magnetic meter 5 when magnetic meter 5 damages simultaneously, reduce maintenance cost and time.

The hole 202 for installing other equipment is formed in the guide rail installation groove 2, other equipment can be installed conveniently, the cost and time for installing other equipment are reduced, the stability and reliability of the equipment are guaranteed, the failure rate is reduced, the attractiveness of a product can be improved, and the competitiveness of the product is increased.

A connecting block 7 for connecting the reference block 6 with the guide rail mounting groove 2 is provided between the guide rail mounting groove 2 and the reference block 6. Through being provided with the connecting block 7 that is used for connecting benchmark piece 6 and guide rail mounting groove 2 between guide rail mounting groove 2 and benchmark piece 6, can guarantee stability and the reliability of equipment, reduce the fault rate, improve the wholeness of device, also can conveniently change and maintain benchmark piece 6 and guide rail mounting groove 2, reduce maintenance cost and time, the design of connecting block 7 can improve the aesthetic degree of product, increases the competitiveness of product.

The mounting groove 301 for mounting other dies is formed in the guide rail 3, and the dies can be mounted and dismounted more conveniently by forming the mounting groove 301 in the guide rail 3, so that the flexibility and convenience of die mounting are improved, the stability and service life of the dies are improved, the usability and reliability of the dies are improved, the attractiveness of the whole device is improved, and the competitiveness of products is improved.

The guide rail 3 is designed into the I shape, and the I-shaped track structure is more stable for the track structure of other shapes, is difficult to deform or fracture, has good security, and simultaneously the design of I-shaped track can let slider 4 better fix on the guide rail 3 make slider 4 can not drop easily, has good stability, and the I-shaped track is lower than the track cost of other shapes, and is more economical and practical in construction and maintenance cost.

The width of the guide rail mounting groove 2 is the same as that of the base 1, the width of the reference block 6 is the same as that of the groove in the guide rail mounting groove 2, and the cost of the device in construction and maintenance can be reduced by controlling the sizes of the guide rail mounting groove 2 and the reference block 6.

Working principle: the guide rail mounting groove 2 is mounted and fixed on the base 1, the guide rail 3 is mounted and fixed on the guide rail mounting groove 2, the slide block 4 is mounted on the guide rail 3, and finally the magnetic meter 5 is adsorbed on the slide block 4. The magnetic meter pointer 503 is contacted with the reference block 6, the sliding block 4 is pushed and pulled manually, and the parallel of the guide rail mounting groove 2 is adjusted by looking at the jumping direction of the magnetic meter pointer 503.

The working process comprises the following steps: the base 1 is placed in place and mounted on the desired basis using screws or other fixing means. Ensuring that the base 1 is firm and stable.

The rail mounting groove 2 is placed on the base 1 and is fixed to the base 1 using screws or other fixing means. Ensuring the stable fixation of the guide rail installation groove 2.

The guide rail 3 is placed on the guide rail mounting groove 2 and is fixed to the guide rail mounting groove 2 using screws or other fixing means. Ensuring that the guide rail 3 is firmly attached to the guide rail mounting groove 2.

The slider 4 is mounted to the guide rail 3. This may involve inserting the slider 4 into a channel of the guide rail 3 or making the connection using a fixing means such as a screw. Ensuring that the slide 4 can move freely on the guide rail 3.

The magnetic base portion of the magnetic meter 5 is aligned with the magnetic surface on the slider 4 and is attracted to the slider 4. Ensuring that the magnetic meter 5 is firmly attached to the slider 4.

The position of the magnetometer 5 is adjusted so that the magnetometer pointer 503 is in contact with the reference block 6. Ensuring that the contact of the hands 503 with the reference block 6 is stable and reliable.

Since the magnetometer hands 503 are connected with the slider 4 and the slider 4 is connected with the guide rail 3, the jumping direction of the magnetometer hands 503 is observed by manually pushing and pulling the slider 4. The parallelism of the rail mounting groove 2 can be judged based on the jumping direction. If the runout of the magnetometer hands 503 is unstable or deviates from the reference block 6, an adjustment is required.

The guide rail mounting groove 2 is fine-tuned using appropriate tools and methods depending on the runout direction of the magnetometer hands 503.

The foregoing is merely exemplary of the present utility model, and specific technical solutions and/or features that are well known in the art have not been described in detail herein. It should be noted that, for those skilled in the art, several variations and modifications can be made without departing from the technical solution of the present utility model, and these should also be regarded as the protection scope of the present utility model, which does not affect the effect of the implementation of the present utility model and the practical applicability of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (9)

1. Device for detecting the parallelism of equipment guide rails, comprising a base (1), characterized in that: the novel magnetic meter is characterized in that a guide rail mounting groove (2) is formed in the upper portion of the base (1), a guide rail (3) is mounted on one side of the guide rail mounting groove (2), a magnetic meter (5) is arranged on the guide rail (3), a sliding block (4) for mounting the magnetic meter (5) is connected to the guide rail (3) in a sliding mode, and a reference block (6) for referencing the magnetic meter (5) is fixedly connected to the base (1).

2. An apparatus for detecting equipment rail parallelism according to claim 1, wherein: the magnetic meter (5) comprises a main body (501), a connecting rod (502) is arranged on the main body (501), a magnetic meter pointer (503) is arranged at the other end of the connecting rod (502), and a switch (504) for starting the magnetic meter (5) is arranged on the main body (501).

3. An apparatus for detecting equipment rail parallelism according to claim 1, wherein: four corners on the sliding block (4) are provided with fixing grooves (401) for fixing the magnetic meter (5).

4. An apparatus for detecting equipment rail parallelism according to claim 1, wherein: an auxiliary block (201) for assisting the magnetometer (5) to detect the parallelism of the guide rail (3) is arranged on the other side of the guide rail mounting groove (2).

5. An apparatus for detecting equipment rail parallelism according to claim 1, wherein: and the guide rail mounting groove (2) is provided with a hole (202) for mounting other equipment.

6. An apparatus for detecting equipment rail parallelism according to claim 1, wherein: a connecting block (7) used for connecting the reference block (6) with the guide rail mounting groove (2) is arranged between the guide rail mounting groove (2) and the reference block (6).

7. An apparatus for detecting equipment rail parallelism according to claim 1, wherein: the guide rail (3) is provided with a mounting groove (301) for mounting other dies.

8. An apparatus for detecting equipment rail parallelism according to claim 1, wherein: the guide rail (3) is I-shaped.

9. An apparatus for detecting equipment rail parallelism according to claim 1, wherein: the width of the guide rail mounting groove (2) is the same as that of the base (1), and the width of the reference block (6) is the same as that of the groove in the guide rail mounting groove (2).