CN110745550A - Float glass longitudinal interlayer slicing anti-skid knocking equipment - Google Patents

Abstract

The invention discloses a float glass longitudinal interlayer slicing anti-slip knocking device, which structurally comprises an operation box and a control pocket box, wherein the operation box is welded on the outer surface of a conveying slicing grid, the conveying slicing grid is connected with the control pocket box, a foam soft sheet is clamped by float glass in the control box and is clamped into a slicing pocket groove, the control pocket box is arranged in an inner groove, when the control pocket box is arranged in the inner groove, a pocket layer is stressed by stretching towards two sides, a supported strip supported by the support strip can swing towards two sides and is used for supporting most of the stressed area, a side layer plays a role of reaction to the support strip, the support strip and a swinging strip play a role of reverse pulling along the change of the surface radian of the support strip and can be attached along the change, so as to assist in fixing the adsorbed force, a fixed stressed point is played by a fixed ball, and a reverse pulling force is played by the support strip and the swinging strip, so that the float glass can be pulled and returned to the position in, when the bottom end is clamped into the foam film, the foam film slips in the transportation process, so that the foam film cannot slip out to collide with peripheral glass.

Description

Float glass longitudinal interlayer slicing anti-skid knocking equipment

Technical Field

The invention belongs to the field of glass production, and particularly relates to a piece separation anti-slip knocking device for float glass longitudinal separation layers.

Background

Its float glass produces through the tin liquor, and is comparatively level, and it is fixed its bottom through vertically evenly placing, all can place one deck foam film between every float glass, lets the in-process that can not transport again between its float glass produce the striking damage.

Based on the findings of the inventor, the existing float glass longitudinal sheet separation equipment mainly has the following defects, such as:

its glass is fixed in the end partially, and has the interlayer between, and at the in-process of operation, glass and foam film skid easily, and the scope of the soft layer of roll-off foam, fixed bottom position, top can sway for take place slight striking with the float glass who is close, thereby cause unnecessary damage.

Therefore, the anti-skid knocking device for the longitudinal partition separation of the float glass needs to be provided.

Disclosure of Invention

In order to solve the problem that in the prior art, glass is fixed at a partial bottom end, an interlayer is arranged between the glass and the foam soft sheet, the glass and the foam soft sheet are easy to slip and slide out of the range of the foam soft layer in the operation process, the bottom end position is fixed, and the upper side of the glass is swung, so that the glass slightly collides with the close float glass, and unnecessary damage is caused.

The invention relates to a purpose and an effect of a piece of anti-skid knocking equipment for float glass longitudinal interlayer separation, which are achieved by the following specific technical means:

the structure of the device comprises an operation box, a control bag box, a conveying and slicing grid and a slicing bag groove.

The operation box welds in carrying the extraordinarily surface of burst, carry the burst check and be connected with the control pocket case, carry burst check bottom and be connected with burst pocket groove upper surface.

The burst pocket groove comprises a return plate, a pocket layer, an extension clamping layer and a bottom pocket, wherein the return plate is connected with the pocket layer, the pocket layer is embedded into the bottom pocket, and the extension clamping layer is installed inside the bottom pocket.

As a further improvement of the invention, the pocket layer comprises a conveying groove, two clamping corners, two tightening arcs, two side layers, two supported strips and two inner grooves, wherein the clamping corners are embedded in the conveying groove, the tightening arcs are supported on the outer surfaces of the supported strips, the supported strips are installed in the side layers, the inner grooves are embedded in the side layers, and the tightening arcs are two.

As a further improvement of the invention, the side layer comprises an adhesion support angle, a fixed point block and a middle groove, the adhesion support angle is connected with the fixed point block, the middle groove is embedded in the fixed point block, and the adhesion support angles are uniformly distributed in the horizontal direction.

As a further improvement of the invention, the adhesion support angle comprises a sticking support arc, a pocket arc, two pendulum direction strips, a fixed ball, a separation fixed block and a main force support, wherein the sticking support arc is connected with the pocket arc, one end of the pocket arc, which is far away from the sticking support arc, is connected with the pendulum direction strips, the pendulum direction strips are arranged on the outer surface of the fixed ball, the fixed ball is embedded in the separation fixed block, the main force support is connected with the separation fixed block, the pendulum direction strips are provided with two, the fixed ball is of a ball structure, and the sticking support arc is provided with six and three in a group.

As a further improvement of the invention, the main force support comprises an inner included angle, an adhesion strip, three support strips, a return edge and two point support heads, the inner included angle is abutted against the outer surface of the adhesion strip, the adhesion strip is connected with the support strips, one end of each support strip, far away from the adhesion strip, is connected with the point support heads, the support strips penetrate through the inner portions of the return edges, the number of the support strips is three, the point support heads are of a spherical structure, and the number of the inner included angles is two.

As a further improvement of the invention, the support strip comprises a semicircular support, an outer elastic flexible strip and a middle fixed core, the middle fixed core is connected with the semicircular support, the semicircular support is arranged inside the outer elastic flexible strip, the semicircular support is of a semicircular arc structure, and the middle fixed core is of an oval structure.

Compared with the prior art, the invention has the following beneficial effects:

the float glass inside the glass sheet will clamp down the foam film, the foam film will be clamped into the sheet separating pocket groove, the sheet separating pocket groove will be placed inside the inner groove, when the sheet separating pocket groove is placed inside the glass sheet, the pocket layer will be stressed by the force stretching to the two sides, the supported strip will swing to the two sides to support most of the stressed area, the side layer will exert the reaction force to the strip, the supported strip will have a certain resistance, the stress point is fixed by the spacing block, the approximate position of the connected object is fixed, the supporting arc is adsorbed on the glass surface, the surface of the contacted object can be adhered along the change of the surface radian, the adsorption force is fixed along the change of the surface radian, the fixed ball exerts the fixed stress point, and has a reverse back tension force, the adhesion strip will change along the glass direction, the distribution of the strip can separate the surface adhered to the external object, and change along the concave-convex change of the surface, the support strip and the swinging strip play a role in reversely pulling force, the glass is pulled to return in time, the glass cannot slide out of the foam film at the bottom end, and when the foam film is clamped into the float glass at the bottom end, the float glass is absorbed by slipping in the transportation process, and cannot slide out to collide with peripheral glass.

Drawings

FIG. 1 is a schematic structural view of a float glass longitudinal interlayer slicing anti-slip knocking device of the present invention.

FIG. 2 is a schematic diagram of a right-view internal structure of a slice pocket groove according to the present invention.

FIG. 3 is a schematic diagram of a right-view interior structure of a pocket layer according to the present invention.

FIG. 4 is a schematic top view of a side layer according to the present invention.

FIG. 5 is a schematic view of an elevation view of an internal structure of an adhesive fillet according to the present invention.

Fig. 6 is a schematic front view of an internal structure of a main force support according to the present invention.

Fig. 7 is a schematic front view of an internal structure of a carrier strip according to the present invention.

In the figure: operation box-11, control pocket box-22, conveying splitting grid-33, splitting pocket slot-44, return plate-a 1a, pocket layer-a 2a, extension card layer-a 3a, bottom pocket-a 4a, conveying slot-mm 1, clamping angle-mm 2, back stretching arc-mm 3, side layer-mm 4, butt strip-mm 5, inner groove-mm 6, adhesion supporting angle-www 1, fixed point block-www 2, middle groove-www 3, adhesion supporting arc-g 1, pocket arc-g 2, swinging strip-g 3, fixed ball-g 4, isolation block-g 5, main force support-g 6, inner clamping angle-a 9, adhesion strip-a 22, supporting strip-a 33, return edge-a 44, point supporting head-a 55, semi-circle supporting head-a-01 a, outer elastic strip-01 c and middle elastic strip-01-c.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 7:

the invention provides a float glass longitudinal interlayer slicing anti-skid knocking device which structurally comprises an operation box 11, a control pocket box 22, a conveying slicing grid 33 and a slicing pocket groove 44.

The operation box 11 welds and is carried piecemeal check 33 surface, carry and divide the piece check 33 to be connected with control pocket case 22, carry and divide piece check 33 bottom and divide piece pocket groove 44 upper surface to be connected.

Piece pocket groove 44 includes back board a1a, pocket layer a2a, extends card layer a3a, end pocket a4a, back board a1a is connected with pocket layer a2a, pocket layer a2a imbeds inside end pocket a4a, it installs inside end pocket a4a to extend card layer a3 a.

The pocket layer a2a comprises a conveying groove mm1, a clamping angle mm2, a back-tightening arc mm3, a side layer mm4, a supported strip mm5 and an inner groove mm6, the clamping angle mm2 is embedded in the conveying groove mm1, the back-tightening arc mm3 abuts against the outer surface of the supported strip mm5, the supported strip mm5 is installed in the side layer mm4, the inner groove mm6 is embedded in the side layer mm4, the clamping angle mm2 is provided with two clamping angles, the back-tightening arc mm3 is provided with two clamping angles 2, two ends of the clamping angles are connected and used for expanding the force with one fixed end, the stressed end of the clamping angles has a certain reaction distance, the supported strip mm5 is used for supporting most of the stressed area, and the back-tightening arc mm3 can be stressed when the connected part is stressed and swings towards one side direction, so that the whole piece of the back-tightening arc is provided with the force in one direction, and when the back-tightening arc loses resistance, the back-tightening arc is driven.

The side layer mm4 comprises an adhesion bracket angle www1, a fixed point block www2 and a middle groove www3, wherein the adhesion bracket angle www1 is connected with the fixed point block www2, the middle groove www3 is embedded in the fixed point block www2, the adhesion bracket angles www1 are uniformly distributed in the horizontal direction, the fixed point block www2 can hold the general approximate position and give a certain stressed base to the general approximate position, and the adhesion bracket angle www1 plays a role in adhesion smoothness according to the force applied by the outside.

The adhesion support angle www1 comprises an adhesion support arc g1, a pocket arc g2, a swing direction strip g3, a fixed ball g4, a fixed block g5 and a main force support g6, wherein the adhesion support arc g1 is connected with the pocket arc g2, one end, far away from the adhesion support arc g1, of the pocket arc g2 is connected with the swing direction strip g3, the swing direction strip g3 is installed on the outer surface of the fixed ball g4, the fixed ball g4 is embedded in the fixed block g5, the main force support g6 is connected with the fixed block g5, the swing direction strip g3 is provided with two, the fixed ball g4 is of a spherical structure, the adhesion support arc g1 is provided with six and three in one group, the fixed block g5 fixes the approximate position of a jointed object, the swing direction strip g3 can be dragged in the opposite direction of the applied force, the reverse pull force acts, the adhesion support arc g1 can contact with the surface along the arc, and the adhered object can change along the change.

The main force support g6 comprises an inner included angle a11, an adhesive strip a22, a support strip a33, a return edge a44 and a point support head a55, wherein the inner included angle a11 abuts against the outer surface of the adhesive strip a22, the adhesive strip a22 is connected with a support strip a33, one end, away from the adhesive strip a22, of the support strip a33 is connected with the point support head a55, the support strip a33 penetrates through the return edge a44, three support strips a33 are arranged, the point support head a55 is of a spherical structure, two inner included angles a11 are arranged, the inner included angle a11 controls the distance between the two joint ends, the point support head a55 fixes the stress point of the joint end and enables the joint end to have a return direction, and the distribution of the adhesive strip a22 can be separated from and adhered to the surface of an external object and changes along with the concave-convex change of the surface.

The support strip a33 comprises a semicircular support 01a, an outer elastic flexible strip 01b and a middle fixed core 01c, the middle fixed core 01c is connected with the semicircular support 01a, the semicircular support 01a is installed inside the outer elastic flexible strip 01b, the semicircular support 01a is of a semicircular arc structure, the middle fixed core 01c is of an oval structure, the semicircular support 01a can swing along with the direction of stress, the middle fixed core 01c is connected with the semicircular support 01a to prevent the semicircular support 01a from being excessively soft and loose, and the outer elastic flexible strip 01b changes according to the swing change of the internal stress and plays a role in supporting.

The specific use mode and function of the embodiment are as follows:

in the invention, by operating the operation box 11, the control pocket box 22 conveys the treated float glass into the conveying splitting grid 33, the float glass in the control pocket box can clamp the foam film, the foam film is clamped into the splitting pocket groove 44 and is placed into the inner groove mm6, when the float glass is placed into the control pocket box, the pocket layer a2a is stressed by stretching to two sides, the pocket layer a1a holds the float glass and fixes the float glass with a certain force, the extending clamp layer a3a fixes the bottom pocket a4a with the bottom end, when the pocket layer a2a is stressed, the supported strip mm5 supported by the pocket layer a2 swings to two sides, the side layer mm4 acts as a reaction force to the pocket layer, the supported strip mm5 has a certain resistance, the float glass can be better attached to the surface of the float glass, the clamping angle mm2 at the bottom end controls the swinging direction of the pocket layer, the pocket layer a1 does not swing excessively, when the pocket glass placed in the middle groove wwwwwwW 4 adheres to the float glass surface 1, the float glass 1, the force bearing point is fixed by a separating and fixing block g5, a sticky supporting arc g1 is adsorbed on the surface of glass and is used for assisting in fixing the adsorption force, the suction force of an adhesion strip a22 is separated, when the glass shakes and shifts, a pocket arc g2 which is mainly connected with the sticky supporting arc g1 drags a swinging strip g3 to swing, a fixed ball g4 plays a role in fixing the point stressed and has reverse back tension force, the adhesion strip a22 can change along the direction of the glass at the same time, so that a semicircular support 01a and a middle fixing core 01c are dragged to swing, an outer elastic strip 01b of the semi-circular support can follow the fixed ball g4 together, the adhesion strip a22 and the glass adsorbed by the sticky supporting arc g1 are dragged out, and when the adhesion strip a22 and the sticky supporting arc g1 swing, the supporting strip a33 and the swinging strip g3 play a role in reverse pulling force, the glass is timely pulled and restored to prevent the bottom end of the glass from sliding out from a soft foam sheet.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. The utility model provides a vertical interlayer burst antiskid of float glass strikes equipment which the structure includes control box (11), control pocket case (22), carries and divides piece check (33), burst pocket groove (44), its characterized in that:

the operation box (11) is welded on the outer surface of the conveying and slicing lattice (33), the conveying and slicing lattice (33) is connected with the control pocket box (22), and the bottom end of the conveying and slicing lattice (33) is connected with the upper surface of the slicing pocket groove (44);

slicing pocket groove (44) include back board (a1a), pocket layer (a2a), extend card layer (a3a), end pocket (a4a), back board (a1a) is connected with pocket layer (a2a), pocket layer (a2a) imbeds inside end pocket (a4a), it installs inside end pocket (a4a) to extend card layer (a3 a).

2. The float glass longitudinal spacer sheet anti-slip rapping device of claim 1, wherein: pocket layer (a2a) includes conveyer trough (mm1), card angle (mm2), returns and struggles at an angle (mm3), side layer (mm4), receives to support strip (mm5), interior groove (mm6), card angle (mm2) are embedded into inside conveyer trough (mm1), it props at an angle (mm3) and supports to receive to support strip (mm5) surface to return, receive to support strip (mm5) and install inside side layer (mm4), the inside embedding of side layer (mm4) has interior groove (mm 6).

3. The float glass longitudinal spacer sheet anti-slip rapping device of claim 2, wherein: the side layer (mm4) comprises an adhesion supporting angle (www1), a fixed point block (www2) and a middle groove (www3), wherein the adhesion supporting angle (www1) is connected with the fixed point block (www2), and the middle groove (www3) is embedded in the fixed point block (www 2).

4. The float glass longitudinal spacer sheet anti-slip rapping device of claim 3, wherein: the adhering bracket angle (www1) comprises an adhering bracket arc (g1), a pocket arc (g2), a swinging strip (g3), a fixed ball (g4), a separating and fixing block (g5) and a main force bracket (g6), wherein the adhering bracket arc (g1) is connected with the pocket arc (g2), one end, far away from the adhering bracket arc (g1), of the pocket arc (g2) is connected with the swinging strip (g3), the swinging strip (g3) is installed on the outer surface of the fixed ball (g4), the fixed ball (g4) is embedded into the separating and fixing block (g5), and the main force bracket (g6) is connected with the separating and fixing block (g 5).

5. The float glass longitudinal partition slicing anti-slip knocking device as claimed in claim 4, wherein: the main force support (g6) comprises an inner included angle (a11), an adhesion strip (a22), a support strip (a33), a return edge (a44) and a point support head (a55), wherein the inner included angle (a11) abuts against the outer surface of the adhesion strip (a22), the adhesion strip (a22) is connected with the support strip (a33), one end, away from the adhesion strip (a22), of the support strip (a33 is connected with the point support head (a55), and the support strip (a33) penetrates through the inner portion of the return edge (a 44).

6. The float glass longitudinal spacer sheet anti-slip rapping device of claim 5, wherein: hold in the palm strip (a33) including the semicircle hold in the palm (01a), play gentle strip (01b) outward, well solid core (01c) hold in the palm (01a) with the semicircle and be connected, the semicircle holds in the palm (01a) and installs in the outer flexible strip (01b) inside of playing.

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