CN108406298B - Box type V-shaped guide rail adjusting device and method - Google Patents

Abstract

The invention discloses a box-type V-shaped guide rail adjusting device, which is characterized in that: the assembling and adjusting device comprises a guide rail positioning tool and a lower guide rail positioning seat; the box-type V-shaped guide rail comprises an upper guide rail and a V-shaped lower guide rail, the upper guide rail and the lower guide rail are respectively arranged on the upper inner side surface and the lower inner side surface of the box body, and the V-shaped lower guide rail comprises a supporting part and a guiding part which are mutually separated; the lower ends of the guide rail positioning tool and the lower guide rail positioning seat can slide and support on the supporting part of the V-shaped lower guide rail along the guiding part of the V-shaped lower guide rail, and the lower guide rail positioning seat is used for positioning and straightening the V-shaped lower guide rail; the upper end of the guide rail positioning tool is also in sliding fit with the upper guide rail and is used for positioning and adjusting the upper guide rail. The invention has simple structure and convenient operation, and can improve the assembly precision and efficiency.

Description

Box type V-shaped guide rail adjusting device and method

Technical Field

The invention belongs to the technical field of mechanical assembly process equipment, and particularly relates to a box-type V-shaped guide rail adjusting device and method.

Background

The guide rail is installed in the open environment in a single group, and the guide rail installation and detection are simpler and more convenient, but the guide rail is installed in the box, on the one hand, because the operation space in the box is narrow, and the installation and adjustment are all carried out in a semi-closed state, under the condition, the traditional installation and adjustment device and method are difficult to meet the operation convenience.

On the other hand, the existing adjustment device and method, for example, a four-rail adjustment detection device and detection method disclosed in the applicant's prior patent application CN201710547954.8 (CN 107202558 a), all concern how to accurately detect the already installed rails, however, due to the influence of factors such as the machining errors of the rails themselves and the accumulated errors of the existing assembly technology, the installation of the rails is difficult to achieve the requirement of higher and higher assembly accuracy, resulting in longer assembly and adjustment period of the rails and higher defective rate and rejection rate; if the guide rail is not installed in place and the accuracy is not high, even if the later detection accuracy is high, the fact cannot be changed, readjustment and debugging are time-consuming and labor-consuming, repeated detection is needed for reaching the standard, and the efficiency is low.

Therefore, a technology for ensuring the installation accuracy at the front installation stage of the guide rail is urgently needed in the industry.

Disclosure of Invention

Aiming at least one of the defects or the improvement demands of the prior art, the invention provides a box type V-shaped guide rail assembling and adjusting device and method, which have the advantages of simple structure, convenient operation, capability of improving the assembly precision and efficiency, capability of ensuring the assembly precision in the lead installation stage of the guide rail, and no need of leaving the difficult problem to the subsequent precision detection and repeated adjustment links.

In order to achieve the above object, according to one aspect of the present invention, there is provided a box-type V-shaped rail adjustment device, the adjustment device including a rail positioning tool and a lower rail positioning seat;

the box-type V-shaped guide rail comprises an upper guide rail and a V-shaped lower guide rail, the upper guide rail and the lower guide rail are respectively arranged on the upper inner side surface and the lower inner side surface of the box body, and the V-shaped lower guide rail comprises a supporting part and a guiding part which are mutually separated;

the lower ends of the guide rail positioning tool and the lower guide rail positioning seat can slide and support on the supporting part of the V-shaped lower guide rail along the guiding part of the V-shaped lower guide rail, and the lower guide rail positioning seat is used for positioning and straightening the V-shaped lower guide rail;

the upper end of the guide rail positioning tool is also in sliding fit with the upper guide rail and is used for positioning and adjusting the upper guide rail.

Preferably, the supporting part of the V-shaped lower guide rail comprises two inclined plane bodies which are locally arranged on the upper surface of the V-shaped lower guide rail;

the guide part of the V-shaped lower guide rail comprises an independent guide groove II arranged at the bottom of the middle of the V-shaped lower guide rail.

Preferably, the bevel body is made of wear-resistant material and is removable for replacement.

Preferably, the lower guide rail positioning seat consists of an upper plane, a lower arc surface and a boss II;

wherein the lower arc surface is tangent to the supporting part of the V-shaped lower guide rail, in particular to the inclined surface body;

the boss II is arranged at the central position of the lower surface of the lower arc surface and is matched with the guide part of the V-shaped lower guide rail in a sliding manner, in particular to the guide groove II in a sliding manner;

the upper surface of the upper plane is carved with scale marks for positioning and straightening.

Preferably, the guide rail positioning tool comprises a body, an upper guide rail positioning seat and a lower guide rail guiding seat, wherein a plurality of groups of upper guide rail positioning seats and lower guide rail guiding seats are respectively arranged on the upper side and the lower side of the body; wherein, the liquid crystal display device comprises a liquid crystal display device,

the outer circular surface of the body is tangent to the supporting part of the V-shaped lower guide rail, in particular to the inclined surface body;

the first guide groove of the upper guide rail positioning seat is matched with the upper guide rail in a sliding way;

the boss I of the lower guide rail guide seat is matched with the guide part of the V-shaped lower guide rail in a sliding manner, and particularly is matched with the guide groove II in a sliding manner.

Preferably, the body of the guide rail positioning tool further comprises an internal support and a traction and positioning shaft, the internal support is used for fixing the traction and positioning shaft at the axle center of the outer circular surface, the traction and positioning shaft axially extends out of the outer circular surface cylinder, the extending part is used as a traction end, and the extreme end of the extending part is used as a positioning point.

Preferably, the adjusting device further comprises a high-precision platform and an adjusting cushion block, and the box body is placed on the high-precision platform through the adjusting cushion block.

In order to achieve the above object, according to a second aspect of the present invention, there is also provided a method for assembling and debugging a box rail using the assembling and debugging device as described above, the method comprising the steps of:

step one, mounting a V-shaped lower guide rail on the lower inner side surface of a box body, and performing rough adjustment and positioning;

step two, placing the lower guide rail positioning seat on the V-shaped lower guide rail for matching installation, wherein the installation requires that the lower end of the lower guide rail positioning seat is matched with the guiding part of the V-shaped lower guide rail in a sliding way, particularly matched with the second guiding groove in a sliding way, and tangential with the supporting part of the V-shaped lower guide rail, particularly tangential with the inclined plane body; adopting a collimator to carry out fine adjustment positioning and alignment on the V-shaped lower guide rail, and ensuring the position degree and the integral straightness of the V-shaped lower guide rail;

step three, taking out the lower guide rail positioning seat, putting the guide rail positioning tool on a V-shaped lower guide rail in the box body for matching installation, wherein the installation requires that the lower end of the guide rail positioning tool is matched with the guiding part of the V-shaped lower guide rail in a sliding way, particularly matched with the second guide groove in a sliding way, and tangential with the supporting part of the V-shaped lower guide rail, particularly tangential with the inclined surface body;

step four, the upper guide rail is matched and installed at the upper end of the guide rail positioning tool, and coarse adjustment positioning and initial fixing are carried out;

fifth, the traction guide rail positioning tool slides back and forth along the upper guide rail and the V-shaped lower guide rail, the relative position of the upper guide rail is finely adjusted, the guide rail positioning tool is ensured to slide freely in the box body, finally the upper guide rail is fastened, and the guide rail positioning tool is taken down.

Preferably, before step one, the box is placed on the high precision platform by means of the adjustment block.

Preferably, after the fifth step, the method further includes a sixth step of rechecking the mounting accuracy of the assembled box V-shaped rail.

The above-described preferred technical features may be combined with each other as long as they do not collide with each other.

In general, the above technical solutions conceived by the present invention have the following beneficial effects compared with the prior art:

1. the box type V-shaped guide rail assembling and adjusting device and method have the advantages of simple structure, low cost and convenient operation, can reduce the assembling and adjusting period, and improve the assembly precision and efficiency;

2. the installation precision can be ensured in the front installation stage of the guide rail, and the difficult problem is not required to be left in the subsequent precision detection and repeated adjustment links;

3. the invention adopts the V-shaped lower guide rail form, forms three-point support in the same section with the upper guide rail, can ensure the position stability of the loaded objects in the box body only by the upper guide rail and the lower guide rail, greatly reduces the mounting accumulated error by reducing the number of the guide rails, lightens the workload of the subsequent precision detection link, saves the mounting and adjusting time, improves the efficiency and also increases the available space for the box body;

4. the V-shaped lower guide rail supporting part and the guide part which are designed separately run independently and are not interfered with each other, so that the loss and deformation of the lower guide rail are effectively avoided, the supporting precision and stability of the loading object and the adjusting device are improved, the service life is prolonged, the maintenance and use cost is reduced, and the integral use time is further prolonged through the design of wear-resistant materials and detachable replacement;

5. the lower guide rail positioning seat provided by the invention can ensure the installation precision of the V-shaped lower guide rail and is used as an installation foundation and precision reference of other parts of the guide rail assembly.

Drawings

FIG. 1 is a schematic view of the structure of the upper and V-shaped lower guide rails in the box body;

FIG. 2 is a schematic structural view of the guide rail positioning tool of the present invention;

FIG. 3 is a right side schematic view of FIG. 2;

FIG. 4 is a schematic top view of the structure of FIG. 2;

FIG. 5 is a schematic view of the structure of the lower rail seat of the present invention;

FIG. 6 is a schematic view of the bottom structure of FIG. 5;

FIG. 7 is a schematic diagram of the assembly and adjustment of the tank of the present invention on a high precision platform;

FIG. 8 is a schematic view of an adjustable V-shaped lower track of the present invention;

fig. 9 is a schematic view of the mounting and adjusting upper rail of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention. In addition, the technical features of the embodiments of the present invention described below may be combined with each other as long as they do not collide with each other. The present invention will be described in further detail with reference to the following embodiments.

As a preferred embodiment of the present invention, as shown in fig. 1-9, the present invention provides a box-type V-shaped guide rail adjusting device, which includes a guide rail positioning tool and a lower guide rail positioning seat 5.

As shown in fig. 1, the box-type V-shaped guide rail to be adjusted is composed of an upper guide rail 2 and a V-shaped lower guide rail 3, which are respectively mounted on the upper and lower inner sides of the box body 1, and in this embodiment, the box body 1 is rectangular. Compared with the mode of multiple guide rails in the prior art, the number is numerous, the mounting accumulated error is increased, and the later-stage precision detection task is heavy; the invention adopts the V-shaped lower guide rail form, forms three-point support in the same section with the upper guide rail, can ensure the position stability of the loaded objects in the box body only by the upper guide rail and the lower guide rail, greatly reduces the mounting accumulated error by reducing the number of the guide rails, lightens the workload of the subsequent precision detection link, saves the mounting and adjusting time, improves the efficiency and also increases the available space for the box body.

In the prior art, the same rectangular lower guide rail structure (or other guide rail structures) is used as a supporting body of a loading object and an adjusting device and is also used as a friction body for sliding guiding, so that the self gravity of the loading object and the adjusting device and repeated friction sliding cause abrasion consumption, deformation and damage of the lower guide rail, and further the supporting precision and stability of the loading object are seriously affected.

As shown in fig. 1, the V-shaped lower rail 3 is specially designed to include a supporting portion and a guiding portion which are disposed apart from each other, without affecting each other. Preferably, the support part of the V-shaped lower guide rail 3 comprises two inclined surface bodies 3.2 locally arranged on the upper surface of the V-shaped lower guide rail 3, and the inclined surface bodies 3.2 are made of wear-resistant materials and can be detachably replaced. The guiding part of the V-shaped lower guide rail 3 comprises an independent guiding groove II 3.1 arranged at the bottom of the middle of the V-shape. Through V type lower guideway supporting part and the direction part of separation design, two parts independent operation, each other noninterference have effectively avoided the loss deformation of lower guideway, have improved loading thing and the support precision and the stability of installing and adjusting device, have prolonged life, through wear-resisting material and the design of removable change, have reduced maintenance and use cost, have further expanded whole use duration.

As shown in fig. 5-9, the lower ends of the guide rail positioning tool and the lower guide rail positioning seat 5 can be slidably supported on the supporting portion of the V-shaped lower guide rail 3 along the guiding portion of the V-shaped lower guide rail 3, and the lower guide rail positioning seat 5 is used for positioning and aligning the V-shaped lower guide rail 3. As shown in fig. 5, 6 and 8, preferably, the lower rail positioning seat 5 is composed of an upper plane, a lower arc surface 5.1 and a boss two 5.2; wherein the lower arc surface 5.1 is tangential to the supporting part of the V-shaped lower guide rail 3, in particular to the inclined surface body 3.2; the boss II 5.2 is arranged at the central position of the lower surface of the lower arc surface 5.1 and is in sliding fit with the guide part of the V-shaped lower guide rail 3, in particular to the guide groove II 3.1; the upper surface of the upper plane is carved with scale marks for positioning and straightening. The first installation component of the guide rail assembly, namely the V-shaped lower guide rail, is of critical installation precision, and the lower guide rail positioning seat provided by the invention can ensure the installation precision of the V-shaped lower guide rail and is used as an installation basis and precision reference of other components of the guide rail assembly.

As shown in fig. 2-4 and 9, the upper end of the guide rail positioning tool is also in sliding fit with the upper guide rail 2, so as to position and adjust the upper guide rail 2. Preferably, the guide rail positioning tool comprises a body 4.1, an upper guide rail positioning seat 4.2 and a lower guide rail guiding seat 4.3; the body 4.1 is made of cast aluminum, and the length of the body is designed to be 1/3 of the length of the box body 1, so that the body can be conveniently carried; a plurality of groups of upper guide rail positioning seats 4.2 and lower guide rail guiding seats 4.3 are respectively arranged on the upper side and the lower side of the body 4.1; wherein the outer circular surface 4.1.1 of the body 4.1 is tangential to the supporting part of the V-shaped lower guide rail 3, in particular to the inclined surface body 3.2; the first guide groove 4.2.1 of the upper guide rail positioning seat 4.2 is matched with the upper guide rail 2 in a sliding way; the boss I4.3.1 of the lower guide rail guide seat 4.3 is in sliding fit with the guide part of the V-shaped lower guide rail 3, in particular with the guide groove II 3.1.

As shown in fig. 2, the body 4.1 of the guide rail positioning tool further includes an inner body support 4.1.2 and a traction and positioning shaft 4.1.3, the inner body support 4.1.2 fixes the traction and positioning shaft 4.1.3 at the axle center of the outer circular surface 4.1.1, the traction and positioning shaft 4.1.3 axially extends out of the cylinder body of the outer circular surface 4.1.1, the extending part is used as a traction end, the most end part of the extending part is used as a positioning point, the effect is particularly obvious under the condition that the box body forms a matrix, only the extending end positioning point of the traction and positioning shaft is required to be detected, the assembly precision detection task of a plurality of guide rails of a plurality of box bodies can be completed at one time, the detection time is shortened, and the detection efficiency is improved.

The adjusting device also comprises a high-precision platform 6 and an adjusting cushion block 7, wherein the box body 1 is placed on the high-precision platform 6 through the adjusting cushion block 7.

As another preferred embodiment of the present invention, the present invention also provides a method for assembling and debugging a box-type guide rail by using the assembling and debugging device as described above, the method comprising the steps of:

step one, a V-shaped lower guide rail 3 is arranged on the lower inner side surface of the box body 1, and coarse adjustment and positioning are performed.

Step two, placing the lower guide rail positioning seat 5 on the V-shaped lower guide rail 3 for matching installation, wherein the installation requires that the lower end of the lower guide rail positioning seat 5 is matched with the guiding part of the V-shaped lower guide rail 3 in a sliding manner, particularly matched with the second guide groove 3.1 in a sliding manner, and tangential with the supporting part of the V-shaped lower guide rail 3, particularly tangential with the inclined surface body 3.2; and the V-shaped lower guide rail is subjected to fine adjustment, positioning and alignment by adopting a collimator, so that the position degree and the overall straightness of the V-shaped lower guide rail 3 are ensured.

Specifically, as the boss II 5.2 of the lower guide rail positioning seat 5 is matched with the guiding part of the V-shaped lower guide rail 3 in a sliding manner, particularly matched with the guiding groove II 3.1 in a sliding manner, the lower arc surface 5.1 of the lower guide rail positioning seat 5 is tangential to the supporting part of the V-shaped lower guide rail 3, particularly tangential to the inclined surface body 3.2, and a collimator is adopted to align with scale marks on the upper plane of the lower guide rail positioning seat 5, the V-shaped lower guide rail is positioned and straightened, and the overall straightness of the V-shaped lower guide rail 3 is ensured.

And step three, taking out the lower guide rail positioning seat 5, putting the guide rail positioning tool on the V-shaped lower guide rail 3 in the box body 1 for matching installation, wherein the installation requires that the lower end of the guide rail positioning tool is matched with the guiding part of the V-shaped lower guide rail 3 in a sliding manner, particularly matched with the guiding groove II 3.1 in a sliding manner, and tangential with the supporting part of the V-shaped lower guide rail 3, particularly tangential with the inclined surface body 3.2.

And step four, the upper guide rail 2 is matched and installed at the upper end of the guide rail positioning tool, and coarse adjustment positioning and initial fixing are performed.

Fifthly, the traction guide rail positioning tool slides back and forth along the upper guide rail 2 and the V-shaped lower guide rail 3, the relative position of the upper guide rail 2 is finely adjusted, the guide rail positioning tool is ensured to slide freely in the box body, the upper guide rail 2 is fastened finally, and the guide rail positioning tool is taken down.

Preferably, before step one, the box 1 is placed on the high precision platform 6 by means of the adjustment block 7.

Preferably, after the fifth step, the method further includes a sixth step of rechecking the mounting accuracy of the assembled box V-shaped rail. Particularly, under the condition that the boxes form a matrix, only the positioning points of the extending ends of the traction and positioning shafts are required to be detected, so that the assembly precision detection task of a plurality of guide rails of a plurality of boxes can be completed at one time, the detection time is shortened, and the detection efficiency is improved.

The assembly debugging method can ensure the installation precision in the front installation stage of the guide rail, and the difficult problem is not required to be left in the subsequent precision detection and repeated adjustment links.

It will be readily appreciated by those skilled in the art that the foregoing description is merely a preferred embodiment of the invention and is not intended to limit the invention, but any modifications, equivalents, improvements or alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (8)

1. The utility model provides a box V type guide rail dress transfers device which characterized in that: the assembling and adjusting device comprises a guide rail positioning tool and a lower guide rail positioning seat (5);

the assembled and adjusted box-type V-shaped guide rail consists of an upper guide rail (2) and a V-shaped lower guide rail (3), and is respectively arranged on the upper inner side surface and the lower inner side surface of the box body (1), wherein the V-shaped lower guide rail (3) comprises a supporting part and a guiding part which are mutually separated;

the lower ends of the guide rail positioning tool and the lower guide rail positioning seat (5) can slide and support on the supporting part of the V-shaped lower guide rail (3) along the guiding part of the V-shaped lower guide rail (3), and the lower guide rail positioning seat (5) is used for positioning and straightening the V-shaped lower guide rail (3);

the upper end of the guide rail positioning tool is also in sliding fit with the upper guide rail (2) and is used for positioning and adjusting the upper guide rail (2);

the guide rail positioning tool comprises a body (4.1), an upper guide rail positioning seat (4.2) and a lower guide rail guide seat (4.3), wherein the outer circular surface (4.1.1) of the body (4.1) is tangent to the inclined surface body (3.2) of the V-shaped lower guide rail (3);

the first guide groove (4.2.1) of the upper guide rail positioning seat (4.2) is matched with the upper guide rail (2) in a sliding way;

the boss I (4.3.1) of the lower guide rail guide seat (4.3) is matched with the guide groove II (3.1) of the V-shaped lower guide rail (3) in a sliding manner;

the lower guide rail positioning seat (5) consists of an upper plane, a lower arc surface (5.1) and a boss II (5.2);

wherein the lower arc surface (5.1) is tangent to the inclined surface body (3.2) of the V-shaped lower guide rail (3);

the boss II (5.2) is arranged at the central position of the lower surface of the lower arc surface (5.1) and is in sliding fit with the guide groove II (3.1) of the V-shaped lower guide rail (3), and graduation lines for positioning and straightening are engraved on the upper surface of the upper plane (5.3).

2. The box-type V-rail adjusting apparatus according to claim 1, wherein: the supporting part of the V-shaped lower guide rail (3) comprises two inclined plane bodies (3.2) which are locally arranged on the upper surface of the V-shaped lower guide rail (3);

the guiding part of the V-shaped lower guide rail (3) comprises an independent guiding groove II (3.1) arranged at the middle bottom of the V-shaped lower guide rail.

3. The box-type V-rail adjusting apparatus according to claim 2, wherein: the bevel body (3.2) is made of wear-resistant material and can be detached and replaced.

4. The box-type V-rail adjusting apparatus according to claim 1, wherein: the guide rail positioning tool comprises a guide rail positioning tool body (4.1) and is characterized in that the guide rail positioning tool body (4.1.1) further comprises a body inner support (4.1.2) and a traction and positioning shaft (4.1.3), the traction and positioning shaft (4.1.3) is fixed on the axis of the outer circular surface (4.1.1) through the body inner support (4.1.2), the traction and positioning shaft (4.1.3) axially extends out of the outer circular surface (4.1.1) cylinder body, the extending part serves as a traction end, and the end part of the extending part serves as a positioning point.

5. The box V-rail adjustment apparatus according to any one of claims 1-4, wherein: the assembling and adjusting device further comprises a high-precision platform (6) and an adjusting cushion block (7), wherein the box body (1) is placed on the high-precision platform (6) through the adjusting cushion block (7).

6. A method of assembling and debugging a box rail using the assembling and debugging device according to any one of claims 1-5, the method comprising the steps of:

step one, a V-shaped lower guide rail (3) is arranged on the lower inner side surface of a box body (1) and coarse adjustment and positioning are carried out;

step two, placing the lower guide rail positioning seat (5) on the V-shaped lower guide rail (3) for matching installation, wherein the installation requires that the lower end of the lower guide rail positioning seat (5) is matched with a guide groove II (3.1) of the V-shaped lower guide rail (3) in a sliding manner and is tangent to an inclined surface body (3.2) of the V-shaped lower guide rail (3); adopting a collimator to carry out fine adjustment positioning and alignment on the V-shaped lower guide rail, and ensuring the position degree and the integral straightness of the V-shaped lower guide rail (3);

step three, taking out the lower guide rail positioning seat (5), putting the guide rail positioning tool on a V-shaped lower guide rail (3) in the box body (1) for matching installation, wherein the installation requires that the lower end of the guide rail positioning tool is matched with a second guide groove (3.1) of the V-shaped lower guide rail (3) in a sliding manner and is tangential with an inclined surface body (3.2) of the V-shaped lower guide rail (3);

step four, the upper guide rail (2) is matched and installed at the upper end of the guide rail positioning tool, and coarse adjustment positioning and initial fixing are carried out;

fifthly, the traction guide rail positioning tool slides back and forth along the upper guide rail (2) and the V-shaped lower guide rail (3), the relative position of the upper guide rail (2) is finely adjusted, the guide rail positioning tool is ensured to slide freely in the box body, the upper guide rail (2) is fastened, and the guide rail positioning tool is taken down.

7. The method of assembly commissioning of claim 6, wherein: before the first step, the box body (1) is placed on a high-precision platform (6) through an adjusting cushion block (7).

8. The method of assembly commissioning of claim 6, wherein: and step five, further comprising a step six of rechecking the mounting precision of the assembled box-type V-shaped guide rail.