CN206375811U - A kind of lamp-holder glass insulator shear - Google Patents

Abstract

The utility model discloses a kind of lamp-holder glass insulator shear, rotation material separating disc including cooling water pond and on cooling water pond, provided with a shearing distribution block above the rotation material separating disc, it is described to rotate the material-distributing hole that material separating disc is evenly distributed several up/down perforations, the shearing distribution block correspondence material-distributing hole circumferential position is provided with a charging aperture flowed into for liquid glass, it is described rotation material separating disc can relative shear distribution block and cooling water pond rotate, liquid glass enters after material-distributing hole via charging aperture to be rotated material separating disc rotation and glass is cut with shearing distribution block formation shearing, the circumferential position of the cooling water pond correspondence material-distributing hole is provided with a material-dropping hole, glass after cutting enters after material-distributing hole is transported to the receiving hopper with falling into lower section after material-dropping hole correspondence position by material-dropping hole by rotation material separating disc.The utility model has not only reached the temperature of reduction equipment but also can greatly reduce the fried glass risk of glass after shaping.

Description

A kind of lamp-holder glass insulator shear

Technical field

The utility model is related to lamp holder process equipment, more particularly to lamp-holder glass insulator process equipment.

Background technology

As shown in figure 4, existing lamp-holder glass insulator shearing equipment, provided with a pair of Swing Arms 10, divides on Swing Arm 10 A pair of scissors 101 are not installed, the top of scissors 101 is respectively mounted 1 fulcrum water pipe 102.It is separately installed with Swing Arm 10 One bearing 103, when eccentric wheel 104 goes to big end, Swing Arm 10 is opened, when going to small end, the drawing on Swing Arm Spring 105 closes up Swing Arm, allows the scissors being symmetrically installed that glass is cut, and glass falls into compacting in mould.

But, there is following defect in prior art：

1st, improve before structure because cooling water be directly to drop on scissors, so have water entrance stay on glass, and After shaping, fried glass probability can increase greatly the insulator of this glass after pressing.

2nd, the structure before improving is to shear glass by the scissors of 1 pair of relative motion, so for this to shaver Installation clearance requirement it is very high, it is few when many when causing the amount of glass under scissors so that finished product pressure often because that installs is bad Formal rate declines when processed.Also because this cut mode, shearing trace can be left in glass surface, equally causes the risk of fried glass.

3rd, the structural repair before improving is frequently and installation accuracy requires high after maintenance, and the access times of scissors are few, pass through Scissors can only just be renewed by repairing several times, add production finished product.

Utility model content

Technical problem to be solved in the utility model is just to provide a kind of lamp-holder glass insulator shear, reduces into This, improves efficiency, and reduce the fried glass risk of glass after shaping.

In order to solve the above technical problems, the utility model is adopted the following technical scheme that：A kind of lamp-holder glass insulator shearing Provided with a shearing above device, including cooling water pond and the rotation material separating disc on cooling water pond, the rotation material separating disc Distribution block, the rotation material separating disc is evenly distributed the material-distributing hole of several up/down perforations, the shearing distribution block correspondence point Hole circumferential position is expected provided with a charging aperture flowed into for liquid glass, and the rotation material separating disc can relative shear distribution block and cold But water pond is rotated, and liquid glass enters after material-distributing hole via charging aperture to be rotated material separating disc rotation and sheared with shearing distribution block formation Glass is cut, the circumferential position of the cooling water pond correspondence material-distributing hole is provided with a material-dropping hole, and the glass after cutting, which enters, to be divided Material hole after by rotation material separating disc be transported to after material-dropping hole correspondence position by material-dropping hole fall into lower section receiving hopper.

Preferably, the cooling water pond is formed by upper cooler pan and lower cooler pan split, the upper cooler pan is cold with But cooling water channel is offered on disk, the cooling water pond is provided with circulating water intake and circulating water outlet.

Preferably, the cooling water channel is twist distributed around cooling water disk center.

Pass perpendicularly through cooling water pond preferably, being additionally provided with one and rotate the rotary shaft of sub-material disk center, the rotary shaft Fixed with rotation material separating disc and drive the relatively cool water pond of rotation material separating disc to rotate.

The technical solution adopted in the utility model, after liquid glass is entered by charging aperture, is rotated by rotation material separating disc, Shear, glass is cut, the glass after cutting enters after material-distributing hole by rotation point because rotating material separating disc and shearing distribution block formation Charging tray is transported, and is fallen into enter in mould after receiving hopper by material-dropping hole and is suppressed.

Its advantage is embodied in：

1. because cooling water is in cooling water pond, to be not directly contacted with glass, institute had both reached reduction in this way The fried glass risk of glass after shaping can greatly reduces in the temperature of equipment again.

2. shearing, distribution block is installed simply with rotation material separating disc and precision is good.

3. rotating material separating disc to only need to after plain grinding and can reuse after use, one piece of rotation sub-material can be accomplished substantially Disk is forever used, because the material thickness that plain grinding is once ground off can not almost be remembered.

Brief description of the drawings

The utility model is further described with reference to the accompanying drawings and detailed description：

Fig. 1 is dimensional structure diagram of the present utility model；

Fig. 2 is front view of the present utility model；

Fig. 3 is overlooking the structure diagram of the present utility model；

Fig. 4 is the lamp-holder glass insulator shear structural representation used in the prior art.

Embodiment

As shown in Figure 1 to Figure 3, a kind of lamp-holder glass insulator shear, including cooling water pond 3 and stacking are located at cooling Rotation material separating disc 2 on water pond 3, the top of rotation material separating disc 2 is provided with a shearing distribution block 1, rotation material separating disc 2 edge The material-distributing hole 21 of up/down perforation is circumferentially evenly equipped with, shearing distribution block 1 correspondence material-distributing hole 21 circumferential position is provided with a feed flow The charging aperture 11 that state glass is flowed into, the circumferential position of the cooling water pond 3 correspondence material-distributing hole is provided with a material-dropping hole 31, material-dropping hole 31 lower sections are provided with a receiving hopper 4.After liquid glass is entered by charging aperture 11, rotated, divided because rotating by rotation material separating disc 2 Charging tray 2 is sheared with the shearing formation of distribution block 1, glass is cut, the glass after cutting enters after material-distributing hole 21 by rotation material separating disc 2 Transport, after the material-distributing hole 21 aligns with material-dropping hole 31, glass is fallen into by material-dropping hole 31 enters mould internal pressure after receiving hopper 4 System.

Wherein, the cooling water pond 3 is formed by upper cooler pan 302 and the lower split of cooler pan 301, and the upper cooler pan is with Cooling water channel is offered on cooler pan, the two ends of the cooling water pond correspondence cooling water channel go out provided with circulating water intake and recirculated water Mouth 32, the cooling water channel is twist distributed around cooling water disk center, and upper cooler pan 302 and lower cooler pan 301 are opened respectively If the cooling water channel of half subdivision, and form complete cooling water channel after upper cooler pan 302 and the lower split of cooler pan 301.

Cooling water enters from circulating water intake, and is advanced along spiral cooling water channel, finally from the row of circulating water outlet 32 Go out, circulating water intake formation circulation is again introduced into after cooling, cooling water is cooled down when cooling down flowing in water pond 3 to glass. It is to have reached to reduce the temperature of equipment again in this way because cooling water with glass is to be not directly contacted with cooling water pond The fried glass risk of glass after shaping can greatly reduces.

Pass perpendicularly through cooling water pond 3 in addition, being additionally provided with one in the frame of the mechanism and rotate the rotation at the center of material separating disc 2 Axle, the rotary shaft is fixed with rotation material separating disc and drives the relatively cool water pond of rotation material separating disc to rotate.Distribution block is sheared with turning Dynamic material separating disc installs that simple and precision is good, rotates material separating disc and only needs to after plain grinding and can reuse after use, substantially can be with Accomplish forever to use, do not remember because the material thickness that plain grinding is once ground off can almost be ignored.

Claims (4)

1. a kind of lamp-holder glass insulator shear, it is characterised in that：Turning including cooling water pond and on cooling water pond Provided with a shearing distribution block above dynamic material separating disc, the rotation material separating disc, the rotation material separating disc has been evenly distributed some The material-distributing hole of individual up/down perforation, the shearing distribution block correspondence material-distributing hole circumferential position is provided with one for entering that liquid glass is flowed into Material mouth, the rotation material separating disc can relative shear distribution block and cooling water pond rotate, liquid glass enters sub-material via charging aperture Material separating disc is rotated behind hole to rotate and cut glass with shearing distribution block formation shearing, the week of the cooling water pond correspondence material-distributing hole To position provided with a material-dropping hole, the glass after cutting is transported to position corresponding with material-dropping hole after entering material-distributing hole by rotation material separating disc Postpone the receiving hopper that lower section is fallen into by material-dropping hole.

2. a kind of lamp-holder glass insulator shear according to claim 1, it is characterised in that：It is described cooling water pond by Upper cooler pan and lower cooler pan split are formed, and cooling water channel, the cooling water are offered on the upper cooler pan and lower cooler pan Disk is provided with circulating water intake and circulating water outlet.

3. a kind of lamp-holder glass insulator shear according to claim 2, it is characterised in that：The cooling water channel encloses Twist it is distributed around cooling water disk center.

4. a kind of lamp-holder glass insulator shear according to claim 1, it is characterised in that：One is additionally provided with vertically to wear Supercooling water pond and the rotary shaft for rotating sub-material disk center, the rotary shaft are fixed with rotating material separating disc and drive rotation material separating disc Relatively cool water pond is rotated.