CN211712026U - Glass loading attachment - Google Patents

Abstract

The utility model discloses a glass loading attachment, include: a base; the storage bin is fixed on the base, an accommodating groove is formed in the storage bin, a feed inlet and a discharge outlet are formed in the accommodating groove, and a baffle plate is arranged on one side of the accommodating groove; the pushing device comprises a pushing plate and a driving device, the pushing plate is arranged on the containing groove, the containing groove is formed in one side of the discharge hole, the pushing plate faces the discharge groove, the depth of the discharge groove is not larger than the thickness of a single piece of glass, the distance between the stop plate and the bottom surface of the discharge groove is larger than the thickness of the single piece of glass and smaller than the sum of the thicknesses of the two pieces of glass, and the driving device can drive the pushing plate to move, so that the discharge grooves are alternately formed in two sides of the stop plate. The utility model discloses can reduce drive arrangement's required precision, reduce the manufacturing cost of equipment, facilitate promotion.

Description

Glass loading attachment

Technical Field

The utility model relates to a glass attenuate field especially relates to a glass loading attachment.

Background

The glass thinning process is to thin the thicker glass to the required thickness by a physical method or a chemical method. The physical grinding thinning is to use polishing powder and pure water to form polishing liquid, flow through between the machine platform tray and the panel glass under certain pressure, and make hard abrasive particles directly contact the surface of the glass substrate by means of the relative motion of the operation of the machine platform, so as to grind the surface of the panel glass, thereby thinning the panel glass.

At present, panel glass's material loading makes panel glass pile together usually, sets up drive arrangement in the panel glass below of piling up, through making panel glass rise one by one, reaches the purpose of panel glass material loading one by one, however, this kind of mode is high to drive arrangement's precision requirement, needs accurate control panel glass's rise height, and overall cost is high, is unfavorable for using widely, consequently treats to improve.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a glass loading attachment can reduce drive arrangement's required precision, reduces the manufacturing cost of equipment, facilitate promotion.

In a first aspect, an embodiment of the present invention provides a glass loading device, including: a base; the storage bin is fixed on the base, an accommodating groove is formed in the storage bin, a feed inlet and a discharge outlet are formed in the accommodating groove, and a baffle plate is arranged on one side of the accommodating groove; the pushing device comprises a pushing plate and a driving device, the pushing plate is arranged on the containing groove, the containing groove is formed in one side of the discharge hole, the pushing plate faces the discharge groove, the depth of the discharge groove is not larger than the thickness of a single piece of glass, the distance between the stop plate and the bottom surface of the discharge groove is larger than the thickness of the single piece of glass and smaller than the sum of the thicknesses of the two pieces of glass, and the driving device can drive the pushing plate to move, so that the discharge grooves are alternately formed in two sides of the stop plate.

The utility model discloses glass loading attachment has following beneficial effect at least: through set up feed inlet and discharge gate on the storage tank, set up the scraping wings in one side of discharge gate, set up the blown down tank on the scraping wings, through arranging the glass that piles up in the storage tank, under the effect of glass self gravity, the glass that piles up falls into the storage tank one by one, because the degree of depth of blown down tank is less than monolithic glass's thickness, only once one glass falls into the blown down tank, and the striker plate of storage tank one side is greater than monolithic glass's thickness with the distance of the bottom surface of blown down tank, and be less than the sum of two glass's thickness, therefore under drive arrangement's drive, only once one glass shifts out from the storage tank, make glass separate one by one from this, can normal material loading, therefore, drive arrangement only need promote the scraping wings reciprocating motion can, need not higher precision, therefore, and can reduce cost, and convenient to popularize and use.

According to the utility model discloses a glass loading attachment of other embodiments, be provided with the blowing groove on the lateral wall of storage tank.

According to the utility model discloses a glass loading attachment of other embodiments, the blowing groove has communicated the feed inlet with the discharge gate.

According to the utility model discloses a glass loading attachment of other embodiments, be provided with on the scraping wings and dodge the hole, the feed bin is through passing the fixed column of dodging the hole is fixed on the base.

According to the utility model discloses a glass loading attachment of other embodiments, blevile of push still includes guide rail and slider, the guide rail is fixed on the base, the slider is fixed on the scraping wings, the guide rail with slider sliding fit.

According to the utility model discloses a glass loading attachment of other embodiments, drive arrangement is the cylinder, the scraping wings is fixed on the output of cylinder.

According to the utility model discloses a glass loading attachment of other embodiments, the storage tank is the cuboid form.

Drawings

Fig. 1 is an isometric view of a loading device of a first embodiment;

FIG. 2 is an exploded view of the charging device of FIG. 1;

fig. 3 is a right side view of the loading device of fig. 1.

Detailed Description

The conception and the resulting technical effects of the present invention will be described clearly and completely with reference to the following embodiments, so that the objects, features and effects of the present invention can be fully understood. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention.

In the description of the embodiments of the present invention, if an orientation description is referred to, for example, the directions or positional relationships indicated by "upper", "lower", "front", "rear", "left", "right", etc. are based on the directions or positional relationships shown in the drawings, only for convenience of description and simplification of description, but not for indicating or implying that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the embodiments of the present invention, if a feature is referred to as being "disposed", "fixed", "connected", or "mounted" on another feature, it can be directly disposed, fixed, or connected to the other feature or indirectly disposed, fixed, connected, or mounted on the other feature. In the description of the embodiments of the present invention, if "a plurality" is referred to, it means one or more, if "a plurality" is referred to, it means two or more, if "greater than", "less than" or "more than" is referred to, it is understood that the number is not included, and if "more than", "less than" or "within" is referred to, it is understood that the number is included. If reference is made to "first" or "second", this should be understood to distinguish between features and not to indicate or imply relative importance or to implicitly indicate the number of indicated features or to implicitly indicate the precedence of the indicated features.

Referring to fig. 1 to 3, fig. 1 is an isometric view of a loading device of a first embodiment, fig. 2 is an exploded view of the loading device of fig. 1, and fig. 3 is a right side view of the loading device of fig. 1. The feeding device of this embodiment includes feed bin subassembly 100, blevile of push 200 and base 300, and feed bin subassembly 100 includes feed bin 110 and fixed column 120, is provided with storage tank 113 in the feed bin 110, and storage tank 113 is provided with feed inlet 114 in the one end of Y axle positive direction, and storage tank 113 is provided with discharge gate 115 in the one end of Y axle negative direction, and stacked glass can be put into from feed inlet 114 to follow the ejection of compact of discharge gate 115.

The pushing device 200 comprises a pushing plate 210, a driving device 220 and a guide rail assembly 230, wherein the pushing plate 210 is fixed at the output end of the driving device 220, the pushing plate 210 can make reciprocating linear motion along the X-axis direction under the driving of the driving device 220, a discharging groove 213 is arranged on one side of the pushing plate 210 facing the storage bin 110, the depth of the discharging groove 213 is not more than the thickness of a single piece of glass, and therefore, only one piece of glass can be loaded in the discharging groove 213.

Meanwhile, the accommodating groove 113 is provided with the baffle plate 111 on one side of the positive direction of the X axis, and the distance between one end of the baffle plate 111 in the negative direction of the Y axis and the bottom surface 214 of the discharge groove 213 is larger than the thickness of a single piece of glass and smaller than the sum of the thicknesses of the two pieces of glass, so that when the pushing plate 210 moves along the positive direction of the X axis, the pushing wall 212 of the discharge groove 213 only pushes the bottommost glass to move out of the accommodating groove 113, and the rest glass above the bottommost glass is blocked by the baffle plate 111, thereby realizing the discharge of the single piece of glass.

In this embodiment, the material baffle 111 is further provided with a placing groove 112, the placing groove 112 is communicated with the material inlet 114 and the material outlet 115, and by the placing groove 112, stacked glass is conveniently placed into the accommodating groove 113, so that the glass is prevented from colliding with the material pushing plate 210, and the glass is damaged.

In this embodiment, the driving device 220 is an air cylinder, the material pushing plate 210 is fixed on an expansion link of the air cylinder, and the air cylinder is arranged, so that the discharge chute 213 alternately appears on both sides of the material blocking plate 111, and the discharge of a single piece of glass is continuously realized.

In another embodiment, the driving device 220 may also be a linear motor, and the material pushing plate 210 is fixed on the output end of the linear motor.

In order to bear the weight of the material pushing plate 210 and the stacked glass and ensure the stable operation of the feeding device of the embodiment, two sets of guide rail assemblies 230 are arranged in parallel, each guide rail assembly 230 comprises a sliding block 231 and a guide rail 232, wherein the sliding block 231 is fixed on the material pushing plate 210, the guide rails 232 are fixed on the base 300, the sliding blocks 231 and the guide rails 232 are in sliding fit, and by arranging the guide rail assemblies 230, the friction force between the material pushing plate 210 and the base 300 can be reduced, and the material pushing plate 210 and the stacked glass can be supported.

Be provided with along the X axle direction on the scraping wings 210 and dodge hole 211, the one end and the feed bin 110 fixed connection of fixed column 120 in the Y axle positive direction, the fixed column 120 passes after dodging hole 211 at the one end of the Y axle negative direction, with base 300 fixed connection, the fixed column 120 can adopt threaded connection with the fixed connection of feed bin 110, interference fit can be adopted with the fixed connection of base 300 to the fixed column 120 (opening the hole that the diameter is less than fixed column 120 diameter at base 300 promptly, the fixed column 120 is embedded into the hole), perhaps, the both ends of fixed column 120 respectively with feed bin 110, base 300 welded fastening. In this embodiment, the avoiding hole 211 is provided with two places, the fixed columns 120 are provided with four, two fixed columns 120 penetrate through the avoiding hole 211 of one place, and the four fixed columns 120 jointly realize the support fixation of the stock bin 110.

In another embodiment, the base 300 may also be fixedly connected to the bin 110 through connecting seats disposed on two sides of the Z-axis direction, and the connecting seats avoid the material pushing plate 210, for example, the connecting seats are configured into a U shape, and two ends of the connecting seats are respectively locked and fixed to the bin 110 and the base 300.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art. Furthermore, the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

Claims (7)

1. A glass loading device, comprising:

a base;

the storage bin is fixed on the base, an accommodating groove is formed in the storage bin, a feed inlet and a discharge outlet are formed in the accommodating groove, and a baffle plate is arranged on one side of the accommodating groove;

the pushing device comprises a pushing plate and a driving device, the pushing plate is arranged on the containing groove, the containing groove is formed in one side of the discharge hole, the pushing plate faces the discharge groove, the depth of the discharge groove is not larger than the thickness of a single piece of glass, the distance between the stop plate and the bottom surface of the discharge groove is larger than the thickness of the single piece of glass and smaller than the sum of the thicknesses of the two pieces of glass, and the driving device can drive the pushing plate to move, so that the discharge grooves are alternately formed in two sides of the stop plate.

2. The glass loading device according to claim 1, wherein a discharge chute is provided on a side wall of the accommodating groove.

3. The glass loading device according to claim 2, wherein the discharge chute communicates the feed port and the discharge port.

4. The glass loading device according to claim 1, wherein the pushing plate is provided with an avoiding hole, and the bin is fixed on the base through a fixing column penetrating through the avoiding hole.

5. The glass loading device according to claim 1, wherein the pushing device further comprises a guide rail and a sliding block, the guide rail is fixed on the base, the sliding block is fixed on the pushing plate, and the guide rail and the sliding block are in sliding fit.

6. The glass loading device according to claim 1, wherein the driving device is a cylinder, and the material pushing plate is fixed on an output end of the cylinder.

7. The glass loading device according to claim 1, wherein the accommodating groove has a rectangular parallelepiped shape.

Images