CN203751882U - Clamping transmission mechanism for edging of sheet glass - Google Patents

Abstract

The utility model discloses a clamping transmission mechanism for edging of a sheet glass. The clamping transmission mechanism comprises a belt transmission device and the glass, wherein the belt transmission device comprises a belt; the glass is displaced on the belt so as to move forward along with the belt; the clamping transmission mechanism for edging of the sheet glass further comprises an air pressure device and a high-pressure air source device, the air pressure device is installed right over the belt transmission device and faces the glass; the high-pressure air source device is connected with the air pressure device, so that air pressure generated by the high-pressure air source device can generate a pressure against the glass through the air pressure device so as to cling the glass to the belt. The clamping transmission mechanism for edging of the sheet glass disclosed by the utility model is applied to a deep processing industry of glasses; according to the clamping transmission mechanism, the high-pressure air source device provides a high-pressure air source, an air bag plate generates an air pressure, and the air pressure generates the pressure against the glass on the surface of the glass, so as to transfer the glass by the air pressure and by being clamped by the belt, in this way, the surface of the glass is not damaged by clamping and scratching; meanwhile, the clamping transmission mechanism is simple in structure, convenient to maintain, and low in a fault rate.

Description

A kind of plate glass edging clamps connecting gear

Technical field

When the utility model relates to a kind of glass edging, glass conveying mechanism, is a kind of mechanism that glass forwards during for glass edging.

Background technology

The now connecting gear when to glass edging, use is that spring leaf pressurizing block, upper and lower belt are adjusted pressure size by the adjustable height of clamping beam and carried out clamping glass transmission conventionally.Spring leaf is worked for a long time under the environment that has water, gets rusty easily, and arranges intensive, after appearance fracture, changes difficulty, by the transmission of upper and lower belt clamping glass, because there being glass dregs in water, in clamping transport process, easily glass is caused and crushes and scratch.The elastic force of spring can not be easy to reach requirement to the glass required pressure of different-thickness, often there will be heavy sheet glass not clamping, and thin glass easily clips broken.Therefore, how to address the above problem, become problem demanding prompt solution.Inventor has applied for the Chinese invention patent that publication number is 102699788 on May 11st, 2012, this invention is for glass deep processing industry, provide high-pressure water by high-pressure water device, produce water under high pressure through water spout, high pressure water jets produces pressure to glass on glass surface, and glass is transmitted under the compression of hydraulic pressure and belt.In order to make structure simpler, more convenient to operate, can also there is other frame mode of the same clan.

Utility model content

The purpose of this utility model be to provide a kind of simple in structure, operating efficiency is high, cost is low, fault is low, the edging connecting gear of stable performance.

For realizing above object, the technical scheme that the utility model has been taked is:

A kind of plate glass edging clamps connecting gear, it comprises belt drive unit, glass, described belt drive unit comprises belt, glass is positioned on belt so that glass is advanced forward with the motion of belt, this plate glass edging clamps connecting gear and further comprises pneumatic shuttle and high-pressure air source device, described pneumatic shuttle be installed on belt drive unit directly over and towards glass, high-pressure air source device is connected to realize air pressure that high-pressure air source device produces and by pneumatic shuttle, glass is produced to pressure glass is close on belt with pneumatic shuttle.

Described pneumatic shuttle comprises high-pressure air pipe geometrical clamp, high-pressure air pipe, air bag dish, described high-pressure air pipe is connected with the gentle discus of high-pressure air source device respectively, so that the air pressure that high-pressure air source device produces acts on by air bag dish is on glass, the junction of described high-pressure air pipe geometrical clamp clamping high-pressure air pipe and high-pressure air source device.

Gapped between described air bag dish lower edge and glass; The Leakage Gas that described gap causes is supplemented by high-pressure air source device, and the gases at high pressure that high-pressure air source device produces the gap location between air bag dish and glass form steady pressure.

Described air bag dish is multiple, and the direction of motion of the plurality of air bag rim belt is uniformly distributed on high-pressure air pipe.

Described high-pressure air source device comprises the air compressor machine and the transfer pipeline that is connected air compressor machine and high-pressure air pipe for generation of air pressure.

Described belt drive unit further comprises belt chute, belt guide rail beam and belt pulley, and belt is on belt pulley, and belt is arranged on belt chute top, and belt guide rail beam is arranged on belt chute below, and described glass is positioned on the surface of belt.

The utility model is for glass deep processing industry, provide high-pressure air source by high-pressure air source device, produce air pressure through air bag dish, air pressure produces pressure to glass on glass surface, glass is transmitted under the clamping of air pressure and belt, adopt the utility model to clamp and transmit glass, compared with prior art have the following advantages:

1, adopt high pressure gas pressed glass, can not cause and crush and scratch glass surface.

2, simple in structure, easy to maintenance, failure rate is low.

3, with respect to hydraulic pressure, air pressure is more clean, can not cause corrosion to glass, and meanwhile, source of the gas is more saved cost.

Brief description of the drawings

Below in conjunction with the specific embodiment in accompanying drawing, the utility model is described in further detail, understands intuitively its utility model essence, but do not form any restriction of the present utility model so that clearer.

Fig. 1 is the structural representation of the utility model specific embodiment;

Fig. 2 is the structural representation of pneumatic shuttle of the present utility model;

Fig. 3 is the structural representation of belt drive unit of the present utility model;

Fig. 4 is the structural representation of high-pressure air source device of the present utility model;

Fig. 5 is mechanics principle schematic diagram of the present utility model ();

Fig. 6 is mechanics principle schematic diagram of the present utility model (two).

In figure: 1, high-pressure air source device; 11, air compressor machine; 12, transfer pipeline; 2, pneumatic shuttle; 21, high-pressure air pipe geometrical clamp; 22, high-pressure air pipe; 23, air bag dish; 3, belt drive unit; 31, belt; 32, belt chute; 33, belt guide rail beam; 34, belt pulley; 4, glass.

Detailed description of the invention

Please refer to shown in Fig. 1, a kind of plate glass edging clamps connecting gear, it comprises belt drive unit 3, glass 4, belt drive unit 3 comprises belt 31, glass 4 is positioned on belt 31 so that glass 4 is advanced forward with the motion of belt 31, this plate glass edging clamps connecting gear and further comprises pneumatic shuttle 2 and high-pressure air source device 1, pneumatic shuttle 2 be installed on belt drive unit 3 directly over and towards glass 4, high-pressure air source device 1 is connected to realize air pressure that high-pressure air source device 1 produces and by pneumatic shuttle 2, glass 4 is produced to pressure glass is close on belt 31 with pneumatic shuttle 2.

Please refer to shown in Fig. 2, pneumatic shuttle 2 comprises high-pressure air pipe geometrical clamp 21, high-pressure air pipe 22, air bag dish 23, high-pressure air pipe 22 is connected with the gentle discus 23 of high-pressure air source device 1 respectively, so that the air pressure that high-pressure air source device 1 produces acts on glass 4 by air bag dish 23, high-pressure air pipe geometrical clamp 21 clamps the junction of high-pressure air pipe 22 and high-pressure air source device 1.

Please refer to shown in Fig. 3, belt drive unit 3 further comprises belt chute 32, belt guide rail beam 33 and belt pulley 34, belt 31 is on belt pulley 34, belt 31 is arranged on belt chute 32 tops, belt guide rail beam 33 is arranged on belt chute 32 belows, and glass 4 is positioned on the surface of belt 31.Air bag dish 23 is multiple, and the plurality of air bag dish 23 is uniformly distributed on high-pressure air pipe 22 along the direction of motion of belt 31.Between air bag dish 23 lower edges and glass 4, there is minim gap, air bag dish 23 is not directly contacted with glass 4.The Leakage Gas that this gap causes is supplemented by high-pressure air source device 1, and the gases at high pressure that high-pressure air source device 1 produces the gap location between air bag dish 23 and glass 4 form steady pressure.

Please refer to shown in Fig. 4, high-pressure air source device 1 comprises the air compressor machine 11 and the transfer pipeline 12 that is connected air compressor machine 11 and high-pressure air pipe 22 for generation of air pressure.

When the utility model specific works, the glass 4 in mechanism is driven and is entered from right to left pressure work district by belt drive unit 3, and before glass 4 does not enter pressure work district, the air compressor machine 11 in high-pressure air source device 1 is worked.Glass 4 enters after pneumatic shuttle 2, pressure-air in air bag dish 23 produces pressure to glass 4 surfaces, the upper surface of the belt 31 in glass 4 lower surfaces and belt drive unit 3 forms frictional force after producing pressure, and frictional force is enough to overcome the active component of the cutting force producing in emery wheel grinding process.

As shown in Figure 5,6, when the utility model work, concrete computational mathematics formula is: air pressure P is known, and long-pending S is known for high pressure gas pressure surface, and n is known for air bag dish number, and the coefficient of friction u of glass and belt is known, frictional force f=n*P*u/S.The cutting component F1 that emery wheel produces is relevant with grinding transfer rate with the depth of cut with F2, as long as adjust each parameter, it is met: frictional force f is greater than cutting component F1 and F2.

In sum, the utility model is as description and diagramatic content, make actual sample and through repeatedly use test, from test effect, provable the utility model can reach its desired object, above illustrated embodiment is only used for conveniently illustrating the utility model, not the utility model is done to any pro forma restriction, in any affiliated technical field, if not departing from the scope of technical characterictic that the utility model is carried, the equivalent embodiment that utilizes technology contents that the utility model discloses to make local change or modify, and do not depart from technical characterictic content of the present utility model, all still belong in the scope of the utility model technical characterictic.

Claims (4)

1. a plate glass edging clamps connecting gear, it comprises belt drive unit (3), glass (4), described belt drive unit (3) comprises belt (31), glass (4) is positioned over belt (31) above so that glass (4) is advanced forward with the motion of belt (31), it is characterized in that, this plate glass edging clamps connecting gear and further comprises pneumatic shuttle (2) and high-pressure air source device (1), described pneumatic shuttle (2) be installed on belt drive unit (3) directly over and towards glass (4), high-pressure air source device (1) is connected to realize the air pressure that high-pressure air source device (1) produces is close to belt (31) on glass by pneumatic shuttle (2) to glass (4) generation pressure with pneumatic shuttle (2).

2. plate glass edging according to claim 1 clamps connecting gear, it is characterized in that, described pneumatic shuttle (2) comprises high-pressure air pipe geometrical clamp (21), high-pressure air pipe (22), air bag dish (23), described high-pressure air pipe (22) is connected with the gentle discus of high-pressure air source device (1) (23) respectively, so that the air pressure that high-pressure air source device (1) produces acts on glass (4) above by air bag dish (23), the junction of described high-pressure air pipe geometrical clamp (21) clamping high-pressure air pipe (22) and high-pressure air source device (1).

3. plate glass edging according to claim 2 clamps connecting gear, it is characterized in that, described air bag dish (23) is multiple, and the plurality of air bag dish (23) is uniformly distributed on high-pressure air pipe (22) along the direction of motion of belt (31).

4. clamp connecting gear according to the plate glass edging described in claim 2 or 3, it is characterized in that, gapped between described air bag dish (23) lower edge and glass (4); The Leakage Gas that described gap causes is supplemented by high-pressure air source device (1), and the gases at high pressure that high-pressure air source device (1) produces the gap location between air bag dish (23) and glass (4) form steady pressure.