CN217102640U - Hollow glass production line four-glass three-cavity structure - Google Patents

Abstract

The utility model discloses a cavity glass production line four glass three cavity structures relates to glass production facility field, to current ordinary cavity glass production line lifting device, has been difficult to satisfy the problem of the safe hoist and mount of four glass three cavity structure glass, now proposes following scheme, and it includes cavity glass and the hoist and mount mechanism who is used for cavity glass hoist and mount, hoist and mount mechanism includes sucking disc, connecting rod, cushion and hoist and mount piece, just the sucking disc adsorbs fixedly with cavity glass, the connecting rod is connected with the sucking disc casing, and two sets of the connecting rod is eight style of calligraphy about sucking disc symmetric distribution, two sets of sucking discs are symmetric distribution about cavity glass, cavity glass's bottom is provided with two sets of cushions, just the connecting rod bottom is articulated with the cushion. The utility model discloses novel structure, the device is effectual has solved current ordinary cavity glass production line lifting device, has been difficult to satisfy the problem of four glasss three chamber structure glass's safe hoist and mount.

Description

Hollow glass production line four-glass three-cavity structure

Technical Field

The utility model relates to a glass production facility field especially relates to a cavity glass production line four glasss three chamber structures.

Background

Cavity glass indicates to use double-deck or multiple glazing board cooperation holding strip vacuole formation, utilize the cavity can reach good syllable-dividing effect, mainly use two glass single chambeies at present, three glass two chambeies are main, the glass of four-glass three-cavity structure need be used to some special environment, four-glass three cavities are structurally just to the further stack in three glass two chambeies, but at the volume, thickness and dead weight will surpass many than conventional cavity glass, ordinary cavity glass production line lifting device, it hangs the safe hoist and mount of four-glass three-cavity structure glass to have been difficult to satisfy, consequently, in order to solve above-mentioned problem, we have proposed a cavity glass production line four-glass three-cavity structure.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of cavity glass production line four glasss three chamber structures has solved current ordinary cavity glass production line lifting device, has been difficult to satisfy the problem of four glasss three chamber structure glass's safe hoist and mount.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a cavity glass production line three cavity structures of four glasses, includes cavity glass and the hoisting machine who is used for cavity glass hoist and mount to construct, hoisting machine constructs including sucking disc, connecting rod, cushion and hoist and mount piece, just the sucking disc adsorbs fixedly with cavity glass, the connecting rod is connected with the sucking disc casing, and is two sets of the connecting rod is eight style of calligraphy about sucking disc symmetric distribution, two sets of sucking discs are symmetric distribution about cavity glass, cavity glass's bottom is provided with two sets of cushions, just the connecting rod bottom is articulated with the cushion.

Preferably, one side of the sucker, which is far away from the hollow glass, is vertically provided with two groups of short columns, the connecting rod is provided with round holes, the round holes are uniformly distributed along the length direction of the connecting rod, and the short columns are sleeved with the round holes.

Preferably, the two sides of the hollow glass are both provided with a support rod, the two ends of the support rod are bent vertically, and the two ends of the support rod are respectively sleeved with the round holes of the two groups of connecting rods.

Preferably, the end of the short column is hinged with a circular plate, and the short column and the hinged shaft of the circular plate are eccentrically connected in a horizontal direction in an offset mode.

Preferably, the cross-sectional profile of hoist and mount piece is the T type, just hoist and mount hole has been seted up to the hoist and mount piece, hoist and mount piece and the casing fixed connection of sucking disc, just the hoist and mount piece is located between two sets of short columns.

Preferably, a non-slip mat is arranged between the top end of the cushion block and the hollow glass, and a protective sleeve made of rubber is arranged between the connecting rod and the short column.

The utility model has the advantages that:

1. two groups of soft hoisting belts are often used for hooking two corners of a glass plate in a crossed manner in the traditional glass hoisting, the stress of the contact part of the glass plate and the hoisting belts is not uniform (the edge is stressed maximally, the middle part is stressed minimally), the bottom of hollow glass in the device can be fully contacted with a cushion block, the stress is uniform, the damage to the edge of the glass can be avoided, and the glass hoisting device is safe and reliable.

2. The support rods are inserted into the round holes in the two groups of connecting rods, so that the device forms an A-shaped structure, the cushion block is prevented from sliding towards the middle after the device lifts the hollow glass, and the lifting is safe and stable.

3. The short column of the device is hinged with the circular plate through the eccentric hinge, and the circular plate is dislocated with the tail end of the short column when naturally drooping under the action of gravity, so that the connecting rod can be prevented from being separated from the short column, and the structure is simple and reliable.

In conclusion, the device effectively solves the problem that the existing common hollow glass production line hoisting equipment is difficult to meet the safe hoisting of the glass with the four-glass three-cavity structure.

Drawings

Fig. 1 is a schematic structural view of the glass clamping device.

Fig. 2 is a schematic view of the structure of the present invention in partial section.

Fig. 3 is an enlarged view of a structure in fig. 2 according to the present invention.

Reference numbers in the figures: 1. hollow glass; 2. a hoisting mechanism; 201. a suction cup; 202. a short column; 203. a circular plate; 204. a protective sleeve; 205. a connecting rod; 206. a circular hole; 207. hoisting the blocks; 208. hoisting holes; 209. a stay bar; 210. cushion blocks; 211. provided is a non-slip mat.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a hollow glass production line four-glass three-cavity structure comprises a hollow glass 1 and a hoisting mechanism 2 for hoisting the hollow glass 1, wherein the hoisting mechanism 2 comprises a sucker 201, a connecting rod 205, a cushion block 210 and a hoisting block 207, the sucker 201 and the hollow glass 1 are fixedly adsorbed, the connecting rod 205 is connected with a shell of the sucker 201, two groups of the connecting rods 205 are symmetrically distributed around the sucker 201 in a splayed shape, the two groups of the suckers 201 are symmetrically distributed around the hollow glass 1, two groups of the cushion blocks 210 are arranged at the bottom end of the hollow glass 1, and the bottom end of the connecting rod 205 is hinged to the cushion block 210; two groups of soft hoisting belts are often used for hooking two corners of a glass plate in a crossing manner in the traditional glass hoisting, the stress of the contact part of the glass plate and the hoisting belts is not uniform (the edge stress is the largest, the middle stress is the smallest), the bottom of hollow glass 1 in the device can be fully contacted with a cushion block 210, the stress is uniform, the damage to the edge of the glass can be avoided, and the glass hoisting device is safe and reliable.

Two groups of short columns 202 are vertically arranged on one side, away from the hollow glass 1, of the sucker 201, round holes 206 are formed in the connecting rod 205, the round holes 206 are uniformly distributed along the length direction of the connecting rod 205, the short columns 202 are sleeved with the round holes 206, support rods 209 are arranged on two sides of the hollow glass 1, two ends of each support rod 209 are vertically bent, and two ends of each support rod 209 are respectively sleeved with the round holes 206 of the two groups of connecting rods 205; the stay bar 209 is inserted into the round holes 206 on the two groups of connecting rods 205, so that the device forms an A-shaped structure, the cushion block 210 is prevented from sliding towards the middle after the device lifts the hollow glass 1, and the lifting is safe and stable.

The end of the short column 202 is hinged with a circular plate 203, the short column 202 and the hinged shaft of the circular plate 203 are offset horizontally and eccentrically connected, the short column 202 of the device passes through the eccentric hinged circular plate 203, the circular plate 203 is dislocated with the end of the short column 202 when naturally drooping by gravity, and the connecting rod 205 can be prevented from being separated from the short column 202.

The cross-sectional profile of hoist and mount piece 207 is the T type, just hoist and mount hole 208 has been seted up to hoist and mount piece 207, hoist and mount piece 207 and sucking disc 201's casing fixed connection, just hoist and mount piece 207 is located between two sets of short columns 202, be provided with slipmat 211 between cushion 210 top and cavity glass 1, just be provided with the protective sheath 204 of rubber material between connecting rod 205 and the short column 202.

The working principle is as follows: as shown in fig. 1, the device is sleeved with a hollow glass 1, the hollow glass 1 can be directly pressed on two groups of cushion blocks 210, a support rod 209 is inserted into a round hole 206 on two groups of connecting rods 205, so that the device forms an a-shaped structure, the cushion block 210 is prevented from sliding towards the middle after the device lifts the hollow glass 1, the lifting is safe and stable, a suction disc 201 and the hollow glass 1 are fixedly adsorbed, a lifting rope is connected with a lifting hole 208 on a lifting block 207, the device and the hollow glass 1 are lifted, and the device is obviously more stable compared with the conventional soft lifting belt commonly used in the glass lifting scheme.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a three cavity structures in cavity glass production line four glasss, includes cavity glass (1) and hoist and mount mechanism (2) that are used for cavity glass (1) hoist and mount, its characterized in that, hoist and mount mechanism (2) are including sucking disc (201), connecting rod (205), cushion (210) and hoist and mount piece (207), just sucking disc (201) adsorb fixedly with cavity glass (1), connecting rod (205) and sucking disc (201) shell coupling, and two sets of connecting rod (205) are eight style of calligraphy about sucking disc (201) symmetric distribution, two sets of sucking disc (201) are symmetric distribution about cavity glass (1), the bottom of cavity glass (1) is provided with two sets of cushion (210), just connecting rod (205) bottom is articulated with cushion (210).

2. The four-glass three-cavity structure of the hollow glass production line as claimed in claim 1, wherein two groups of short columns (202) are vertically arranged on one side of the suction cup (201) away from the hollow glass (1), the connecting rod (205) is provided with round holes (206), the round holes (206) are uniformly distributed along the length direction of the connecting rod (205), and the short columns (202) are sleeved with the round holes (206).

3. The four-glass three-cavity structure of the hollow glass production line as claimed in claim 2, wherein two sides of the hollow glass (1) are provided with support rods (209), two ends of each support rod (209) are bent vertically, and two ends of each support rod (209) are respectively sleeved with the round holes (206) of the two groups of connecting rods (205).

4. The four-glass three-cavity structure of the hollow glass production line as claimed in claim 2, wherein the end of the short column (202) is hinged with a circular plate (203), and the hinged axis of the short column (202) and the hinged axis of the circular plate (203) are offset horizontally to form an eccentric connection.

5. The four-glass three-cavity structure of the hollow glass production line as claimed in claim 2, wherein the cross-sectional profile of the hoisting block (207) is T-shaped, the hoisting block (207) is provided with a hoisting hole (208), the hoisting block (207) is fixedly connected with the shell of the suction cup (201), and the hoisting block (207) is located between the two short columns (202).

6. The four-glass three-cavity structure of the hollow glass production line as claimed in claim 1, wherein a non-slip pad (211) is arranged between the top end of the pad block (210) and the hollow glass (1), and a protective sleeve (204) made of rubber is arranged between the connecting rod (205) and the short column (202).

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