CN217372075U - Glass self-positioning device - Google Patents

Abstract

The utility model discloses a glass self-positioning device, belonging to the technical field of positioning fixtures, which comprises a positioning frame, a positioning panel and two positioning mechanisms symmetrically arranged on the positioning panel; the positioning mechanism comprises a transverse positioning roller, a vertical positioning roller, a fixed positioning column and an adjustable positioning column; the transverse positioning roller, the vertical positioning roller and the adjustable positioning column are all connected with the positioning panel in a sliding manner; the positioning panel is connected with the positioning frame; the transverse positioning rollers and the vertical positioning rollers are driven to move by the gravity of the glass, so that the rapid positioning can be realized; the glass self-positioning device has the advantages of simple overall structure, low cost and convenient operation; the automatic positioning is realized, and the positioning efficiency and stability are also obviously improved; the problem of current locate mode need adopt specific requirement to put and need again be finely tuned by the manual work after putting glass has effectively been solved.

Description

Glass self-positioning device

Technical Field

The utility model belongs to the technical field of positioning fixture, in particular to self-align device of glass.

Background

The automobile glass is indispensable in automobile body accessories and mainly plays a role in protection. Therefore, before the glass is mounted, various properties of the glass are carefully tested.

With the progress of science and technology, the current glass detection is mostly carried out in a full-automatic and multifunctional mode; the method is characterized in that a plurality of sets of detection items are integrated, and a set of detection equipment is used for realizing a plurality of detections at one time, so that the detection efficiency can be effectively improved, but in order to ensure that the glass has certain stability during detection, the glass is usually ensured to be fixed at a proper position by a manual fine adjustment mode after being placed on the detection equipment; although the method can ensure the reliability of detection, the corresponding detection time is increased invisibly, so that the efficiency of the detection equipment cannot be maximized. Therefore, a positioning device capable of automatically positioning glass and ensuring positioning stability is required to be designed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problems that: how to provide a glass positioning device which can realize automatic positioning of glass and has positioning stability.

In order to solve the technical problem, the utility model discloses a technical scheme be: a glass self-positioning device comprises a positioning frame, a positioning panel and two positioning mechanisms symmetrically arranged on the positioning panel; the positioning mechanism comprises a transverse positioning roller, a vertical positioning roller, a fixed positioning column and an adjustable positioning column; the transverse positioning roller, the vertical positioning roller and the adjustable positioning column are all connected with the positioning panel in a sliding manner; the positioning panel is connected with the positioning frame.

The axes of the transverse positioning roller, the vertical positioning roller, the fixed positioning column and the adjustable positioning column are all perpendicular to the positioning panel.

Wherein, the included angle between the positioning panel and the horizontal plane is 70-80 degrees.

Wherein the vertical positioning roller is positioned below the horizontal positioning roller; in an initial state, the distance between the vertical positioning roller and the symmetry axis is smaller than the distance between the transverse positioning roller and the symmetry axis; the transverse positioning roller and the vertical positioning roller are positioned on the outer side of an area enclosed by the fixed positioning column and the adjustable positioning column.

The transverse positioning roller and the vertical positioning roller are both composed of a moving shaft and a roller wheel; the roller is rotationally connected with the movable shaft.

The positioning mechanism further comprises a transverse sliding chute, a first vertical sliding chute and a second vertical sliding chute which are arranged on the positioning panel;

a first vertical sliding chute and a second vertical sliding chute are arranged below the groove end of the transverse sliding chute close to the symmetry axis in parallel; the distance between the second vertical sliding groove and the symmetry axis is smaller than the distance between the first vertical sliding groove and the symmetry axis; the transverse sliding groove is connected with the transverse positioning roller in a sliding mode, and the first vertical sliding groove is connected with the vertical positioning roller in a sliding mode; the adjustable positioning column is connected with the second vertical sliding groove in a sliding mode.

Wherein, still be equipped with control panel on the locating rack.

Wherein, the bottom of locating rack is equipped with a plurality of universal wheels.

The beneficial effects of the utility model reside in that: the utility model provides a pair of glass is from positioner simple structure, low cost, gravity through glass self just can drive horizontal positioning roller and vertical positioning roller and remove, after horizontal positioning roller and vertical positioning roller removed extreme position, pushes glass to location panel again, makes glass contact the fixed reference column and the adjustable reference column of having transferred in advance, can realize the location fast. Compared with the traditional positioning mode, the glass does not need to be placed by adopting specific requirements and does not need to be finely adjusted by manpower after being placed, so that the automatic positioning can be realized while the positioning efficiency and the positioning stability are also improved.

Drawings

Fig. 1 is a schematic structural view of a glass self-positioning device according to an embodiment of the present invention;

FIG. 2 is a front view of a glass self-positioning device according to an embodiment of the present invention;

FIG. 3 is an enlarged view of FIG. 1 at A;

description of reference numerals:

1. a positioning frame; 11. a universal wheel;

2. a positioning panel; 21. a transverse chute; 22. a first vertical chute; 23. a second vertical chute;

3. a positioning mechanism; 31 a transverse positioning roller; 32. a vertical positioning roller; 33. fixing the positioning column; 34. an adjustable positioning column;

4. a movable shaft; 5. a roller; 6. a control panel.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

The utility model discloses the most crucial design lies in: through the cooperation between horizontal registration roller, vertical registration roller, fixed reference column and the adjustable reference column, can realize quick automatic positioning to glass.

Referring to fig. 1 to 3, the glass self-positioning device provided by the present invention comprises a positioning frame 1, a positioning panel 2 and two positioning mechanisms 3 symmetrically disposed on the positioning panel 2; the positioning mechanism 3 comprises a transverse positioning roller 31, a vertical positioning roller 32, a fixed positioning column 33 and an adjustable positioning column 34; the transverse positioning roller 31, the vertical positioning roller 32 and the adjustable positioning column 34 are all connected with the positioning panel 2 in a sliding manner; the positioning panel 2 is connected with the positioning frame 1.

From the above description, the beneficial effects of the present invention are: the glass self-positioning device is provided, the transverse positioning rollers 31 and the vertical positioning rollers 32 can be driven to move by the self gravity of glass, when the transverse positioning rollers 31 and the vertical positioning rollers 32 move to the limit positions, the glass is pushed to the positioning panel 2, so that the glass is in contact with the fixed positioning columns 33 and the adjustable positioning columns 34 which are adjusted in advance, and the glass of various types can be quickly positioned; this self-align device of glass low cost, simple structure, convenient operation, glass need not to adopt specific requirement to put and need not to finely tune by the manual work after putting again, consequently, when this design can realize automatic positioning, also obviously improved the efficiency and the stability of location.

Further, the axes of the horizontal positioning roller 31, the vertical positioning roller 32, the fixed positioning column 33 and the adjustable positioning column 34 are all perpendicular to the positioning panel 2.

From the above description, it can be seen that this design enables a more reliable and efficient glass positioning process.

Further, the included angle between the positioning panel 2 and the horizontal plane is 70-80 degrees.

From the above description, the positioning panel 2 forms a certain angle with the horizontal plane, so that the glass can be always tightly attached to the positioning device, and the positioning stability is further improved.

Further, the vertical positioning roller 32 is located below the horizontal positioning roller 31; in the initial state, the distance between the vertical positioning roller 32 and the symmetry axis of the same positioning mechanism 3 is smaller than the distance between the horizontal positioning roller 31 and the symmetry axis; the transverse positioning rollers 31 and the vertical positioning rollers 32 are positioned outside the area enclosed by the fixed positioning columns 33 and the adjustable positioning columns 34.

As is apparent from the above description, this layout can prevent the glass from interfering with the lateral registration rollers 31 or the vertical registration rollers 32 during the positioning, and this layout can perform the positioning work efficiently and quickly.

Further, the transverse positioning roller 31 and the vertical positioning roller 32 are both composed of a moving shaft 4 and a roller wheel 5; the roller 5 is rotationally connected with the movable shaft 4.

As can be seen from the above description, the roller 5 and the moving shaft 4 are in rotational fit, so that the friction force generated when the glass and the roller 5 move relatively can be reduced, and the positioning work can be completed quickly.

Further, the positioning mechanism further comprises a transverse sliding chute 21, a first vertical sliding chute 22 and a second vertical sliding chute 23 which are arranged on the positioning panel 2; a first vertical sliding chute 22 and a second vertical sliding chute 23 are arranged below the groove end of the transverse sliding chute 21 close to the symmetry axis in parallel; the distance between the second vertical sliding chute 23 and the symmetry axis is smaller than the distance between the first vertical sliding chute 22 and the symmetry axis; the transverse chute 21 is connected with the moving shaft 4 of the transverse positioning roller 31 in a sliding manner, and the first vertical chute 22 is connected with the moving shaft 4 of the vertical positioning roller 32 in a sliding manner; the adjustable positioning post 34 is slidably connected with the second vertical sliding chute 23.

From the above description, the design further ensures the positioning stability, makes the positioning process not easy to deviate, and can automatically adjust various types of glass.

Furthermore, a control panel 6 is also arranged on the positioning frame 1.

As can be seen from the above description, the horizontal positioning rollers 31, the vertical positioning rollers 32, the fixed positioning posts 33 and the adjustable positioning posts 34 can be arranged by the control panel 6 before the glass is placed.

Further, the bottom of the positioning frame 1 is provided with a plurality of universal wheels 11.

As can be seen from the above description, the design can facilitate the handling of the positioning device, and the position of the positioning device can be changed according to the requirements of various detection instruments.

The utility model discloses a glass is from positioning device can assist glass's location work.

The embodiment of the utility model discloses a do:

referring to fig. 1, a glass self-positioning device comprises a positioning frame 1, a positioning panel 2 and two positioning mechanisms 3 symmetrically arranged on the positioning panel 2; the positioning mechanism 3 comprises a transverse positioning roller 31, a vertical positioning roller 32, a fixed positioning column 33 and an adjustable positioning column 34; the transverse positioning roller 31, the vertical positioning roller 32 and the adjustable positioning column 34 are all connected with the positioning panel 2 in a sliding manner; the positioning panel 2 is connected with the positioning frame 1; the axes of the transverse positioning roller 31, the vertical positioning roller 32, the fixed positioning column 33 and the adjustable positioning column 34 are all perpendicular to the positioning panel 2; the included angle between the positioning panel 2 and the horizontal plane is 75 degrees; the positioning frame 1 is also provided with a control panel 6; the bottom of the positioning frame 1 is provided with a plurality of universal wheels 11.

Referring to fig. 2 to 3, the vertical registration roller 32 is located below the horizontal registration roller 31; in the initial state, the distance between the vertical positioning roller 32 and the symmetry axis is smaller than the distance between the transverse positioning roller 31 and the symmetry axis; the transverse positioning roller 31 and the vertical positioning roller 32 are positioned outside an area enclosed by the fixed positioning column 33 and the adjustable positioning column 34; the transverse positioning roller 31 and the vertical positioning roller 32 are both composed of a moving shaft 4 and a roller wheel 5; the roller 5 is rotationally connected with the movable shaft 4; the positioning mechanism 3 further comprises a transverse sliding chute 21, a first vertical sliding chute 22 and a second vertical sliding chute 23 which are arranged on the positioning panel 2; a first vertical sliding chute 22 and a second vertical sliding chute 23 are arranged below the groove end of the transverse sliding chute 21 close to the symmetry axis in parallel; the distance between the second vertical sliding chute 23 and the symmetry axis is smaller than the distance between the first vertical sliding chute 22 and the symmetry axis; the transverse chute 21 is connected with the moving shaft 4 of the transverse positioning roller 31 in a sliding manner, and the first vertical chute 22 is connected with the moving shaft 4 of the vertical positioning roller 32 in a sliding manner; the adjustable positioning post 34 is slidably connected with the second vertical sliding chute 23.

The utility model discloses a theory of operation does: corresponding parameters are set in advance by the control panel 6, the glass to be detected is placed on the positioning mechanism 3 manually or by a mechanical arm, the self gravity of the glass is utilized to drive the transverse positioning roller 31 and the vertical positioning roller 32 to move, and when the transverse positioning roller 31 and the vertical positioning roller 32 move to the limit positions, the glass is pushed to the positioning panel 2 to be contacted with the fixed positioning column 33 and the adjustable positioning column 34 which are adjusted in advance, so that the positioning of the glass is realized quickly.

In summary, the glass self-positioning device provided by the utility model has the advantages of simple overall structure, low cost and convenient operation; the transverse positioning rollers and the vertical positioning rollers are driven to move by the gravity of the glass, so that the rapid positioning can be realized; the glass self-positioning device has the advantages that automatic positioning is realized, positioning efficiency and stability are obviously improved, and the defects that the existing positioning mode needs to adopt specific requirements to place glass and needs to be manually finely adjusted after the glass is placed are overcome.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (8)

1. A glass self-positioning device is characterized by comprising a positioning frame, a positioning panel and two positioning mechanisms symmetrically arranged on the positioning panel; the positioning mechanism comprises a transverse positioning roller, a vertical positioning roller, a fixed positioning column and an adjustable positioning column; the transverse positioning roller, the vertical positioning roller and the adjustable positioning column are all connected with the positioning panel in a sliding manner; the positioning panel is connected with the positioning frame.

2. The glass self-positioning device of claim 1, wherein the axes of the lateral positioning roller, the vertical positioning roller, the fixed positioning post and the adjustable positioning post are all perpendicular to the positioning panel.

3. The glass self-positioning device of claim 1, wherein the angle between the positioning panel and the horizontal plane is 70 ° to 80 °.

4. The glass self-positioning apparatus of claim 1, wherein the vertical positioning rollers are located below the lateral positioning rollers; in an initial state, the distance between the vertical positioning roller and the symmetry axis is smaller than the distance between the transverse positioning roller and the symmetry axis; the transverse positioning roller and the vertical positioning roller are positioned on the outer side of an area enclosed by the fixed positioning column and the adjustable positioning column.

5. The glass self-positioning device according to claim 1, wherein the transverse positioning rollers and the vertical positioning rollers are both composed of moving shafts and rollers; the roller is rotationally connected with the movable shaft.

6. The glass self-positioning device according to claim 1, wherein the positioning mechanism further comprises a transverse chute, a first vertical chute and a second vertical chute provided on the positioning panel;

a first vertical sliding chute and a second vertical sliding chute are arranged below the groove end of the transverse sliding chute close to the symmetry axis in parallel; the distance between the second vertical sliding groove and the symmetry axis is smaller than the distance between the first vertical sliding groove and the symmetry axis; the transverse sliding groove is connected with the transverse positioning roller in a sliding mode, and the first vertical sliding groove is connected with the vertical positioning roller in a sliding mode; the adjustable positioning column is connected with the second vertical sliding groove in a sliding mode.

7. The glass self-positioning device of claim 1, wherein a control panel is further provided on the positioning frame.

8. The glass self-positioning device of claim 1, wherein the bottom of the positioning frame is provided with a plurality of universal wheels.

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