CN111673572A - Glass processing positioning structure, equipment and method - Google Patents

Abstract

The invention discloses a glass processing positioning structure, equipment and a method thereof, wherein the distance between two plate bodies is adjusted according to the length of glass to be processed; adjusting the distance between the two L-shaped limiting plates on each plate body according to the width of the glass to be processed; placing glass to be processed in a glass placing area formed by enclosing the four L-shaped limiting plates, and keeping four bottom corners of the glass to be processed to be respectively abutted against the corresponding L-shaped limiting plates; and pressing the pressing plate to be in contact with the glass to be processed, then rotating the rotating plate to enable the second hole body to be superposed with the first hole body, then penetrating one end of a second locking bolt through the second hole body and inserting the second locking bolt into the first hole body, and rotating the second locking bolt to enable the second locking bolt to be in threaded fit with the pressing plate to complete the positioning of the glass to be processed, so that the fixed clamping of the plane glass with different sizes is realized.

Description

Glass processing positioning structure, equipment and method

Technical Field

The invention relates to the technical field of glass processing, in particular to a glass processing positioning structure, equipment and a method.

Background

Glass is an amorphous inorganic non-metallic material, and is generally prepared by using various inorganic minerals (such as quartz sand, borax, boric acid, barite, barium carbonate, limestone, feldspar, soda ash and the like) as main raw materials and adding a small amount of auxiliary raw materials. When processing plane glass, need utilize positioning device to fix it, can appear removing when avoiding glass to add man-hour, the atress is inhomogeneous to lead to glass broken, but current positioning device can not fix the centre gripping to the plane glass of equidimension not.

Disclosure of Invention

The invention aims to provide a glass processing positioning structure, equipment and a method thereof, and aims to solve the technical problem that positioning equipment in the prior art cannot fixedly clamp plane glass with different sizes.

In order to achieve the purpose, the glass processing positioning structure comprises two supporting assemblies and two positioning assemblies, wherein each supporting assembly comprises a U-shaped frame and a sliding rod, the sliding rod is fixedly connected with the U-shaped frame, and a groove body with threads is formed in the length extending direction of the sliding rod;

the positioning device comprises two positioning assemblies, wherein the two positioning assemblies are arranged between two adjacent sliding rods, each positioning assembly comprises a plate body and two groups of limiting parts, two ends of the plate body are respectively sleeved on the two sliding rods, through holes are formed in two ends of the plate body, a sliding groove and an extension groove communicated with the sliding groove are formed in the length extension direction of the plate body, and the two groups of limiting parts are arranged at two ends of the plate body;

every group spacing part includes positioning bolt, slider, first locking bolt and L type limiting plate, positioning bolt's one end run through the through-hole with cell body threaded connection, the slider with plate body sliding connection, and be located in the spout, the screw hole has on the slider, the one end of first locking bolt runs through extend the groove, and insert extremely in the screw hole with slider threaded connection, L type limiting plate with slider fixed connection, and be located the top of plate body, the slide rail has on the L type limiting plate.

Each group of limiting part further comprises a sliding part, a pressing plate, a rod body, a rotating plate and a second locking bolt, wherein the sliding part is connected with the L-shaped limiting plate in a sliding mode and is located in the sliding rail, the pressing plate is fixedly connected with the sliding part, a first hole body is formed in the pressing plate, the rod body is fixedly connected with the L-shaped limiting plate and is located above the L-shaped limiting plate, the rotating plate is connected with the rod body in a rotating mode, a second hole body is formed in the rotating plate, one end of the second locking bolt penetrates through the second hole body and is inserted into the first hole body and the pressing plate in threaded connection, and the second locking bolt is connected with the second hole body in threaded connection.

The number of the first hole bodies and the number of the second hole bodies are multiple, and the axial center line of each first hole body and the corresponding axial center line of each second hole body are located on the same straight line.

Wherein, every all be provided with the elastic gasket on the plate body.

Wherein, every all be provided with first anti-skidding line on the elastic pad.

Each group of limiting parts further comprises a patch, and the patch is fixedly connected with the pressing plate and is positioned at one end, facing the plate body, of the pressing plate.

Wherein each patch is provided with a second anti-skid stripe.

The invention also provides glass processing positioning equipment which comprises a glass processing positioning structure and supporting legs, wherein the supporting legs are fixedly connected with the U-shaped frame and are positioned below the U-shaped frame.

The glass processing positioning equipment further comprises a fixing rod, wherein two ends of the fixing rod are fixedly connected with the two U-shaped frames respectively and are located between the two adjacent U-shaped frames.

The invention also provides a glass processing and positioning method, which comprises the following steps:

adjusting the distance between the two plate bodies according to the length of the glass to be processed;

adjusting the distance between the two L-shaped limiting plates on each plate body according to the width of the glass to be processed;

placing glass to be processed in a glass placing area formed by enclosing the four L-shaped limiting plates, and keeping four bottom corners of the glass to be processed to be respectively abutted against the corresponding L-shaped limiting plates;

and pressing the pressing plate to be in contact with the glass to be processed, then rotating the rotating plate to enable the second hole body to be superposed with the first hole body, then penetrating one end of a second locking bolt through the second hole body and inserting the second locking bolt into the first hole body, and rotating the second locking bolt to enable the second locking bolt to be in threaded fit with the pressing plate so as to complete the positioning of the glass to be processed.

The invention has the beneficial effects that: enabling the two plate bodies to slide on the sliding rod according to the length of the glass to be processed, and then adjusting the distance between the two plate bodies; sliding the two L-shaped limiting plates on each plate body in the sliding chute according to the width of the glass to be processed, and then adjusting the distance between the two L-shaped limiting plates on each plate body; placing glass to be processed in a glass placing area formed by enclosing four L-shaped limiting plates, keeping four bottom corners of the glass to be processed to be respectively abutted against the corresponding L-shaped limiting plates, then utilizing one end of a positioning bolt to penetrate through the through hole to be in threaded connection with the groove body, fixing the positions of the two plate bodies, then utilizing one end of a first locking bolt to penetrate through the extension groove and be inserted into the threaded hole to be in threaded connection with the sliding block, fixing the positions of the two L-shaped limiting plates on each plate body, then pressing the pressing plate to be in contact with the glass to be processed, then rotating the rotating plate to enable the second hole body to be overlapped with the first hole body, then penetrating one end of a second locking bolt through the second hole body and being inserted into the first hole body, rotating the second locking bolt to enable the second locking bolt to be in threaded fit with the pressing plate, and finishing the positioning of the glass to be processed, thereby realizing the fixed clamping of the plane glass with different sizes.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a glass processing positioning structure of the present invention.

FIG. 2 is an isometric view of the glass working positioning structure of the present invention.

Fig. 3 is a side view of the glass working positioning structure of the present invention.

Fig. 4 is a structural sectional view taken along line a-a of fig. 3.

Fig. 5 is a front view of the glass working positioning structure of the present invention.

Fig. 6 is a structural sectional view taken along line B-B of fig. 5.

FIG. 7 is a schematic view showing the overall structure of the glass working positioning apparatus of the present invention.

FIG. 8 is a flow chart of the steps of the glass processing positioning method of the present invention.

1-supporting component, 11-U-shaped frame, 12-sliding rod, 121-groove body, 2-positioning component, 21-plate body, 211-through hole, 212-sliding groove, 213-extending groove, 214-elastic gasket, 215-first anti-skid grain, 22-limiting component, 221-positioning bolt, 222-sliding block, 223-first locking bolt and 224-L-shaped limiting plate, 225-threaded hole, 226-sliding rail, 227-sliding piece, 228-pressing plate, 229-rod body, 230-rotating plate, 231-second locking bolt, 232-first hole body, 233-second hole body, 234-patch, 235-second anti-skid grain, 3-supporting leg, 4-fixing rod, 5-spring, 6-L-shaped supporting rod and 7-buffer supporting pad.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 6, the present invention provides a glass processing positioning structure, including two support assemblies 1 and two positioning assemblies 2, where the two support assemblies 1 are disposed oppositely, each support assembly 1 includes a U-shaped frame 11 and a slide bar 12, the slide bar 12 is fixedly connected to the U-shaped frame 11, and a groove 121 with threads is formed in a length extending direction of the slide bar 12;

the number of the positioning assemblies 2 is two, two positioning assemblies 2 are arranged between two adjacent sliding rods 12, each positioning assembly 2 comprises a plate body 21 and two groups of limiting parts 22, two ends of the plate body 21 are respectively sleeved on the two sliding rods 12, through holes 211 are formed in two ends of the plate body 21, a sliding groove 212 and an extending groove 213 communicated with the sliding groove 212 are formed in the length extending direction of the plate body 21, and the two groups of limiting parts 22 are arranged at two ends of the plate body 21;

each set of the position limiting members 22 includes a positioning bolt 221, a slider 222, a first locking bolt 223 and an L-shaped position limiting plate 224, one end of the positioning bolt 221 penetrates through the through hole 211 to be in threaded connection with the groove body 121, the slider 222 is in sliding connection with the plate body 21 and is located in the sliding groove 212, the slider 222 is provided with a threaded hole 225, one end of the first locking bolt 223 penetrates through the extending groove 213 and is inserted into the threaded hole 225 to be in threaded connection with the slider 222, the L-shaped position limiting plate 224 is fixedly connected with the slider 222 and is located above the plate body 21, and the L-shaped position limiting plate 224 is provided with a sliding rail 226.

In this embodiment, the outer surface walls of the positioning bolt 221, the first locking bolt 223 and the second locking bolt 231 are all provided with threads, when glass needs to be processed, the distance between the two plate bodies 21 is adjusted according to the length of the glass to be processed, that is, the two plate bodies 21 slide along the length extension direction of the slide rod 12, and after the distance between the two plate bodies 21 is adjusted to a suitable proportion, the suitable proportion refers to the distance between two corresponding L-shaped limit plates 224 along the length direction of the U-shaped frame 11, which is consistent with the length of the glass to be processed; then, the distance between the two L-shaped limit plates 224 on each plate body 21 is adjusted according to the width of the glass to be processed, that is, the L-shaped limit plates 224 are shifted, so that the slider 222 moves in the chute 212, thereby realizing the position movement of the L-shaped limit plates 224, when the distance between the two L-shaped limit plates 224 on each plate body 21 is adjusted to be consistent with the width of the glass to be processed, the glass to be processed is placed in a glass placing area formed by enclosing the four L-shaped limit plates 224, four bottom angles of the glass to be processed are respectively kept to be abutted against the corresponding L-shaped limit plates 224, then the positioning bolt 221 penetrates through the through hole 211, the positioning bolt 221 is screwed and tightened, so that the threads on the positioning bolt 221 are engaged with the threads on the groove body 121, and one end of the positioning bolt 221, which is far away from the groove body 121, is abutted against the plate body 21, this allows the position of the plate 21 to be defined.

And then, one end of the first locking bolt 223 penetrates through the extension groove 213 and is inserted into the threaded hole 225, the first locking bolt 223 is screwed and tightened, so that one end of the first locking bolt 223 is in threaded connection with the slider 222, and the other end of the first locking bolt 223 and the plate body 21 are abutted against each other, so that the positions of the two L-shaped limit plates 224 on each plate body 21 are fixed, and thus the distance between the two L-shaped limit plates 224 on each plate body 21 is limited, so that the positioning of the glass to be processed is realized, and the positioning device can be suitable for positioning plane glasses with different sizes.

Further, each set of the position-limiting members 22 further includes a sliding member 227, a pressing plate 228, a rod 229, a rotating plate 230 and a second locking bolt 231, the sliding member 227 is slidably connected to the L-shaped position-limiting plate 224 and is located in the sliding rail 226, the pressing plate 228 is fixedly connected to the sliding member 227, the pressing plate 228 has a first hole 232, the rod 229 is fixedly connected to the L-shaped position-limiting plate 224 and is located above the L-shaped position-limiting plate 224, the rotating plate 230 is rotatably connected to the rod 229, the rotating plate 230 has a second hole 233, one end of the second locking bolt 231 penetrates through the second hole 233 and is inserted into the first hole 232 to be in threaded connection with the pressing plate 228, and the second locking bolt 231 is in threaded connection with the second hole 233.

In the present embodiment, after the position between the two plate bodies 21 and the positions of the two L-shaped position-limiting plates 224 on each of the plate bodies 21 are locked according to the length and the width of the glass to be processed, and the glass to be processed is placed in the glass placement area formed by enclosing the four L-shaped position-limiting plates 224, and four bottom corners of the glass to be processed are respectively kept in contact with the corresponding L-shaped position-limiting plates 224, then the pressing plate 228 is pressed, so that the slider 227 moves toward one end of the plate body 21 along the direction of the sliding rail 226, thereby driving the pressing plate 228 to move toward one end of the glass to be processed, until the pressing plate 228 comes into contact with the glass to be processed, the pressing plate 228 is stopped being pressed, then the rotating plate 230 is rotated, so that the rotating plate 230 is rotated above the pressing plate 228, and the second hole 233 is kept to coincide with the first hole 232, then, one end of the second locking bolt 231 penetrates through the second hole body 233 and is inserted into the first hole body 232, the second locking bolt 231 is rotated to be in threaded fit with the pressing plate 228, and positioning of the glass to be processed is completed. And still can set up spring 5 in the slide rail 226, the both ends of spring 5 respectively with slider 227 with L type limiting plate 224 fixed connection, when clamp plate 228 is not pressed, spring 5 is in the natural state, when clamp plate 228 is compressed, spring 5 is in the shrink state, after glass location processing is accomplished, with second locking bolt 231 takes off the back, under the effect of spring 5 self restoring force, can support and hold slider 227 moves towards the one end of keeping away from plate body 21, thereby drive clamp plate 228 automatic re-setting, and then brought the convenience for the location operation of follow-up glass of waiting to process. In addition every U type frame 11's middle part still sets up auxiliary stay subassembly 1, auxiliary stay subassembly 1 includes L type connecting rod and buffering and props up pad 7, L type branch 6 one end with U type frame 11 rotates to be connected, L type branch 6 the other end with buffering props up pad 7 fixed connection, just buffering props up pad 7 and treats the contact of processing glass bottom, through L type branch 6 set up and can treat processing glass's middle part both sides and play certain supporting role for treat that processing glass can be positioned more firmly, buffering props up pad 7 simultaneously and adopts sponge material to make, can treat processing glass and play better protection effect, reduce the vibration that produces in the glass course of working, avoid glass broken.

Further, the number of the first hole 232 and the second hole 233 is plural, and the axial center line of each first hole 232 and the corresponding axial center line of each second hole 233 are all in the same straight line.

In this embodiment, the number of the first hole 232 and the second hole 233 is set to be plural, so that the pressing plate 228 can be provided with the plural second locking bolts 231, and thus the pressing plate 228 and the plate body 21 can better clamp the glass to be processed, the clamping is firmer, and the glass is prevented from shaking during processing, so that the quality of the processed glass is uneven, and even the stress of the glass is uneven in severe cases, which causes the glass to be broken.

Further, each of the plate bodies 21 is provided with an elastic pad 214. Each elastic gasket 214 is provided with a first anti-slip pattern 215.

In this embodiment, the elastic gaskets 214 are made of rubber materials, and can protect the clamping portions of the glass to a certain extent, and each of the elastic gaskets 214 is provided with the first anti-slip patterns 215, so that the contact area between the elastic gaskets 214 and the glass can be increased, and a good anti-slip effect is achieved, and the positioning of the glass is more stable.

Further, each set of the position limiting members 22 further includes a patch 234, and the patch 234 is fixedly connected to the pressing plate 228 and is located at an end of the pressing plate 228 facing the plate body 21. Each patch 234 has a second non-slip pattern 235 thereon.

In this embodiment, the paster 234 can adopt rubber, silica gel or sponge material to make, the setting of paster 234 can play certain guard action to glass's centre gripping position, in addition every set up on the paster 234 the second antiskid line 235 can increase area of contact between paster 234 and the glass has good anti-skidding effect, makes glass's location is more stable firm, and difficult the emergence is rocked or is removed.

Referring to fig. 7, the present invention further provides a glass processing positioning apparatus, which includes a glass processing positioning structure, and further includes supporting legs 3, wherein the supporting legs 3 are fixedly connected to the U-shaped frame 11 and are located below the U-shaped frame 11.

In the embodiment, the support legs 3 are arranged to have a good support effect on the glass processing positioning equipment.

Further, the glass processing positioning device further comprises a fixing rod 4, wherein two ends of the fixing rod 4 are fixedly connected with the two U-shaped frames 11 respectively and are located between the two adjacent U-shaped frames 11.

In this embodiment, the dead lever 4 sets up adjacent two between the U type frame 11, can increase adjacently the structural connection intensity between the supporting leg 3 makes glass processing positioning device is more stable, and difficult emergence is rocked during glass processing.

Referring to fig. 8, the present invention further provides a glass processing and positioning method, including the following steps:

s1: the distance between the two plate bodies 21 is adjusted according to the length of the glass to be processed;

s2: adjusting the distance between the two L-shaped limiting plates 224 on each plate body 21 according to the width of the glass to be processed;

s3: placing the glass to be processed in a glass placing area formed by enclosing the four L-shaped limiting plates 224, and keeping four bottom corners of the glass to be processed to be respectively abutted against the corresponding L-shaped limiting plates 224;

s4: pressing the pressing plate 228 to be in contact with the glass to be processed, then rotating the rotating plate 230 to make the second hole body 233 coincide with the first hole body 232, then penetrating one end of the second locking bolt 231 through the second hole body 233 and inserting into the first hole body 232, and rotating the second locking bolt 231 to be in threaded fit with the pressing plate 228 to complete the positioning of the glass to be processed.

When glass needs to be processed, the distance between the two plate bodies 21 is adjusted according to the length of the glass to be processed, that is, the two plate bodies 21 slide along the length extension direction of the slide rod 12, and after the distance between the two plate bodies 21 is adjusted to a proper proportion, the proper proportion refers to the distance between the two corresponding L-shaped limiting plates 224 along the length direction of the U-shaped frame 11, and the distance is consistent with the length of the glass to be processed; then, the distance between the two L-shaped limit plates 224 on each plate body 21 is adjusted according to the width of the glass to be processed, that is, the L-shaped limit plates 224 are shifted, so that the slider 222 moves in the chute 212, thereby realizing the position movement of the L-shaped limit plates 224, when the distance between the two L-shaped limit plates 224 on each plate body 21 is adjusted to be consistent with the width of the glass to be processed, the glass to be processed is placed in a glass placing area formed by enclosing the four L-shaped limit plates 224, four bottom angles of the glass to be processed are respectively kept to be abutted against the corresponding L-shaped limit plates 224, then the positioning bolt 221 penetrates through the through hole 211, the positioning bolt 221 is screwed and tightened, so that the threads on the positioning bolt 221 are engaged with the threads on the groove body 121, and one end of the positioning bolt 221, which is far away from the groove body 121, is abutted against the plate body 21, this allows the position of the plate 21 to be defined.

And then, one end of the first locking bolt 223 penetrates through the extension groove 213 and is inserted into the threaded hole 225, the first locking bolt 223 is screwed and tightened, so that one end of the first locking bolt 223 is in threaded connection with the slider 222, and the other end of the first locking bolt 223 and the plate body 21 are abutted against each other, so that the positions of the two L-shaped limit plates 224 on each plate body 21 are fixed, and thus the distance between the two L-shaped limit plates 224 on each plate body 21 is limited, so that the positioning of the glass to be processed is realized, and the positioning device can be suitable for positioning plane glasses with different sizes.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A glass processing positioning structure, which is characterized in that,

the device comprises two supporting assemblies and a positioning assembly, wherein the two supporting assemblies are arranged oppositely, each supporting assembly comprises a U-shaped frame and a sliding rod, the sliding rod is fixedly connected with the U-shaped frame, and a groove body with threads is formed in the length extending direction of the sliding rod;

the positioning device comprises two positioning assemblies, wherein the two positioning assemblies are arranged between two adjacent sliding rods, each positioning assembly comprises a plate body and two groups of limiting parts, two ends of the plate body are respectively sleeved on the two sliding rods, through holes are formed in two ends of the plate body, a sliding groove and an extension groove communicated with the sliding groove are formed in the length extension direction of the plate body, and the two groups of limiting parts are arranged at two ends of the plate body;

every group spacing part includes positioning bolt, slider, first locking bolt and L type limiting plate, positioning bolt's one end run through the through-hole with cell body threaded connection, the slider with plate body sliding connection, and be located in the spout, the screw hole has on the slider, the one end of first locking bolt runs through extend the groove, and insert extremely in the screw hole with slider threaded connection, L type limiting plate with slider fixed connection, and be located the top of plate body, the slide rail has on the L type limiting plate.

2. The glass processing positioning structure of claim 1,

every group stop part still includes slider, clamp plate, the body of rod, changes board and second locking bolt, the slider with L type limiting plate sliding connection, and be located in the slide rail, the clamp plate with slider fixed connection, the first hole body has on the clamp plate, the body of rod with L type limiting plate fixed connection, and be located the top of L type limiting plate, change the board with the body of rod rotates and connects, it has the second hole body to change on the board, the one end of second locking bolt is run through the second hole body, and insert extremely the first hole body with clamp plate threaded connection, just the second locking bolt with second hole body threaded connection.

3. The glass processing positioning structure of claim 2,

the number of the first hole bodies and the number of the second hole bodies are multiple, and the axial center line of each first hole body and the corresponding axial center line of each second hole body are located on the same straight line.

4. The glass processing positioning structure of claim 2,

each plate body is provided with an elastic gasket.

5. The glass processing positioning structure of claim 4,

each elastic gasket is provided with a first anti-slip pattern.

6. The glass processing positioning structure of claim 5,

each group of limiting parts further comprises a patch, and the patch is fixedly connected with the pressing plate and is positioned at one end, facing the plate body, of the pressing plate.

7. The glass processing positioning structure of claim 6,

each patch is provided with a second anti-skid stripe.

8. A glass processing positioning apparatus comprising the glass processing positioning structure according to claim 7,

the support legs are fixedly connected with the U-shaped frame and are positioned below the U-shaped frame.

9. The glass processing positioning apparatus of claim 8,

the glass processing positioning equipment further comprises a fixing rod, wherein two ends of the fixing rod are fixedly connected with the two U-shaped frames respectively and are located between the two adjacent U-shaped frames.

10. The glass processing positioning apparatus of claim 9, wherein a glass processing positioning method comprises the steps of:

adjusting the distance between the two plate bodies according to the length of the glass to be processed;

adjusting the distance between the two L-shaped limiting plates on each plate body according to the width of the glass to be processed;

placing glass to be processed in a glass placing area formed by enclosing the four L-shaped limiting plates, and keeping four bottom corners of the glass to be processed to be respectively abutted against the corresponding L-shaped limiting plates;

and pressing the pressing plate to be in contact with the glass to be processed, then rotating the rotating plate to enable the second hole body to be superposed with the first hole body, then penetrating one end of a second locking bolt through the second hole body and inserting the second locking bolt into the first hole body, and rotating the second locking bolt to enable the second locking bolt to be in threaded fit with the pressing plate so as to complete the positioning of the glass to be processed.

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