CN117163874B - Lifting device for be used for glass machinery - Google Patents

Abstract

The invention relates to a lifting device for glass machinery, which is applied to the field of glass machinery, and comprises a supporting lifting mechanism and an easy-to-mould glass fixing die holder, wherein the easy-to-mould glass fixing die holder has extremely strong adaptability, and an easy-to-mould glass clamping bag in the easy-to-mould glass fixing die holder can be adaptively deformed and adjusted according to the shape of glass, so that the easy-to-mould glass fixing die holder can effectively fix glass with various shapes, further can effectively prevent the glass from falling off in the lifting process, not only can reduce loss, but also can improve production safety, and in addition, a plurality of easy-to-mould glass fixing die holders can be respectively used for glass with various shapes, so that the lifting device in the application can also be simultaneously used for glass with various shapes, thereby greatly improving practicability; the rapid hardening effect-improving component can play a role of cooling, accelerate cooling and hardening of the molding filling body, and further improve the efficiency of adjusting the glass-fixing die holder easy to mold; the fixing effect on the glass can be enhanced by the glass supporting head and the like, and the glass is further prevented from falling.

Description

Lifting device for be used for glass machinery

Technical Field

The invention relates to a lifting device, in particular to a lifting device for glass machinery, which is applied to the field of glass machinery.

Background

Glass machinery primarily refers to the mechanical equipment used in the glass production and processing. Glass machines are mainly divided into two main categories: glass cold treatment equipment and glass heat treatment equipment. The glass cold treatment equipment mainly comprises a glass cleaning machine, a glass edging machine, a glass sanding machine and the like and is used for treating the surface of glass; the glass heat treatment equipment mainly comprises a tempering furnace, a hot bending furnace and the like and is used for treating the internal structure of glass.

In the production and processing of glass, a lifting device is often required to lift the glass upwards so as to send the glass into a glass machine for subsequent treatment and processing, and when lifting, the glass is required to be fixed to a certain extent to prevent the glass from falling.

The same production line can produce various glass according to the requirements of customers, different glass has different shapes, such as straight plates, curved surfaces and the like, the lifting device in the prior art is difficult to adaptively adjust according to the shape of the glass, the fixing effect on some special-shaped glass is poor, the phenomenon that the glass falls easily occurs, not only economic loss can be caused, but also staff can be injured easily. Therefore, we propose a lifting device for a glass machine.

Disclosure of Invention

Aiming at the prior art, the technical problems to be solved by the invention are as follows: lifting devices in the prior art are difficult to adaptively adjust according to the shape of glass, have poor fixing effect on some special-shaped glass, and are easy to fall off.

In order to solve the problems, the invention provides a lifting device for glass machinery, which comprises a supporting lifting mechanism, wherein the supporting lifting mechanism comprises a fixed base, a lifting cylinder is fixedly installed on the fixed base, the output end of the lifting cylinder is fixedly connected with a box-type lifting seat, a cavity is formed in the box-type lifting seat, a controller is fixedly installed on one side of the fixed base, a plurality of plastic glass fixing mold bases are arranged on the box-type lifting seat, each plastic glass fixing mold base comprises a pair of plastic glass clamping bags, a pair of bag abutting plates and a heating adjusting box fixedly installed in the box-type lifting seat, the plastic glass clamping bags are made of elastic heat insulation materials, a heater is fixedly installed in the heating adjusting box, a pair of heat conducting plates are inserted through the outer walls of the top ends of the heating adjusting box, the bottom ends of the heat conducting plates are respectively corresponding to the pair of plastic glass clamping bags, plastic filling bodies are filled in the plastic glass clamping bags, the top ends of the heat conducting plates penetrate through the outer walls of the bottom ends of the corresponding plastic glass clamping bags and extend to be embedded into the plastic filling bodies, the plastic filling bodies are made of paraffin and the plastic filling bodies are electrically connected with the air cylinder and the controller.

In the lifting device for glass machinery, the glass clamping bag in the glass fixing mold base can be adaptively deformed and adjusted according to the shape of glass, so that the glass fixing mold base can effectively fix glass in various shapes, and further the falling phenomenon of the glass in the lifting process can be effectively prevented.

As a further improvement of the application, a pair of easily-molded glass clamping sacs are positioned between a pair of bag supporting plates, and are respectively fixedly connected with the pair of bag supporting plates, and are fixedly installed at the top ends of the box-type lifting seats.

As a further improvement of the application, a plurality of missile assisting rods are fixedly arranged on the heat conducting plate, the missile assisting rods are positioned in the glass sacs which are easy to mold, and the missile assisting rods are made of elastic heat conducting materials, so that the heat conducting efficiency of the missile assisting rods can be improved, and the molded filling body is melted and softened more quickly.

As a further improvement of the application, the melting point of the molding filling body is 50-75 ℃, and the box-type lifting seat and the heating adjusting box are made of heat insulation materials, so that heat loss can be reduced.

As another improvement of the application, a quick-hardening effect lifting assembly is arranged in the heating adjusting box and comprises a sealing partition plate, two heat insulation sleeves and a heat conduction plate, wherein the sealing partition plate is fixedly connected with the inner wall of the heating adjusting box in a sealing mode, the two heat insulation sleeves are respectively sleeved on the pair of heat conduction plates and are in sliding sealing connection with the heat conduction plates, the heat insulation sleeves penetrate through the sealing partition plate and are in sliding sealing connection with the sealing partition plate, the heat insulation sleeves are made of heat insulation materials, the top ends of the heat insulation sleeves are propped against the inner wall of the top end of the heating adjusting box, and cooling water is filled above the sealing partition plate.

As the supplementary of another improvement of this application, quick-hardening effect subassembly still includes to run through and inlays the electric telescopic link of establishing on the outer wall of heating adjustment case top, and electric telescopic link's output fixedly connected with gangbar, the both ends of gangbar respectively with two insulation cover fixed connection, electric telescopic link and controller electricity are connected, and quick-hardening effect subassembly can play a cooling effect, the cooling hardening of moulding filling body with higher speed.

As another improvement of the glass sealing device, a pair of glass sealing heads are arranged between a pair of bag sealing plates, connecting sliding rods are fixedly connected to the left side and the right side of the glass sealing heads, sliding grooves matched with the connecting sliding rods are formed in the bag sealing plates, the connecting sliding rods penetrate through the sliding grooves and are in sliding connection with the connecting sliding rods, fixing effects on glass can be enhanced by the glass sealing heads, and glass falling is further prevented.

As a further improvement supplement of the application, the outer wall of the connecting slide rod is sleeved with the fixing sleeve, and the fixing sleeve is in threaded connection with the connecting slide rod, so that the fixing effect of the glass supporting head on glass can be improved.

In summary, the setting of the glass die holder is consolidated through easily moulding for the glass die holder is consolidated to easily moulding has extremely strong adaptability, and the glass bag that easily moulds in the glass die holder is consolidated to easily moulding can carry out adaptive deformation, regulation according to the shape of glass, thereby makes the glass die holder that easily moulds admittedly can carry out effective fixation to the glass of various shapes, and then can effectively prevent that glass from taking place to drop phenomenon in the lift process, not only reducible loss, can also improve the security of production, in addition, a plurality of glass die holders that easily mould admittedly can be used for multiple glass of different shapes respectively, so that elevating gear in this application still can be used for multiple glass of different shapes simultaneously, the practicality has been improved greatly; through the arrangement of the rapid hardening effect lifting assembly, the rapid hardening effect lifting assembly can play a role in cooling, so that the cooling and hardening of the molding filling body are accelerated, and the efficiency of adjusting the glass die holder easy to mold can be improved; the fixing effect on the glass can be enhanced by the glass supporting head and the like, and the glass is further prevented from falling.

Drawings

Fig. 1 is a schematic perspective view of a lifting device for a glass machine according to a first embodiment of the present application;

fig. 2 is a schematic front view of a lifting device for a glass machine according to a first embodiment of the present application;

FIG. 3 is a schematic cross-sectional view of a box lift seat according to a first embodiment of the present application;

FIG. 4 is a schematic cross-sectional view of a heating conditioning tank in a first embodiment of the present application;

FIG. 5 is a schematic cross-sectional view of a glass bulb in a first embodiment of the present application;

fig. 6 is a schematic top view of a box-type lifting seat according to a second embodiment of the present application;

FIG. 7 is an enlarged schematic view of the structure of FIG. 6A of the present application;

fig. 8 is a schematic side view of the capsule-supporting plate according to the second embodiment of the present application.

The reference numerals in the figures illustrate:

101. a fixed base; 102. a lifting cylinder; 103. a box-type lifting seat; 104. a controller; 201. the glass bag is easy to mold and clamp; 202. a bag supporting plate; 203. a heating adjusting box; 204. a heater; 205. a heat conductive plate; 206. shaping the filling body; 207. a missile assisting rod; 301. a sealing separator; 302. a heat insulating sleeve; 303. cooling water; 304. an electric telescopic rod; 305. a linkage rod; 401. a glass supporting head; 402. connecting a slide bar; 403. a chute; 404. a fixed head sleeve.

Detailed Description

Two embodiments of the present application are described in detail below with reference to the accompanying drawings.

First embodiment:

fig. 1-5 show a lifting device for glass machinery, comprising a supporting lifting mechanism, wherein the supporting lifting mechanism comprises a fixed base 101, a lifting cylinder 102 is fixedly installed on the fixed base 101, the output end of the lifting cylinder 102 is fixedly connected with a box-type lifting seat 103, a cavity is formed in the box-type lifting seat 103, one side of the fixed base 101 is fixedly installed with a controller 104, a plurality of plastic glass fixing mold bases are arranged on the box-type lifting seat 103, the plastic glass fixing mold bases comprise a pair of plastic glass clamping bags 201, a pair of bag abutting plates 202 and a heating adjusting box 203 fixedly installed in the box-type lifting seat 103, the pair of plastic glass clamping bags 201 are positioned between the pair of bag abutting plates 202, the pair of plastic glass clamping bags 201 are respectively fixedly connected with the pair of bag abutting plates 202, the plastic glass clamping bags 201 and the bag abutting plates 202 are fixedly installed at the top ends of the box-type lifting seat 103, the plastic glass clamping bags 201 are made of elastic heat insulation materials, a heater 204 is fixedly arranged in the heating adjustment box 203, a pair of heat conducting plates 205 are inserted through the outer wall of the top end of the heating adjustment box 203, the pair of heat conducting plates 205 respectively correspond to the pair of easily-molded glass bags 201, the bottom ends of the heat conducting plates 205 are propped against the heater 204, the easily-molded glass bags 201 are filled with molded filling bodies 206, the top ends of the heat conducting plates 205 penetrate through the outer wall of the bottom ends of the corresponding easily-molded glass bags 201 and extend into the molded filling bodies 206, the heat conducting plates 205 are made of heat conducting materials, the molded filling bodies 206 are made of paraffin, the lifting cylinder 102 and the heater 204 are electrically connected with the controller 104, the heater 204 is started by the controller 104, the heater 204 starts heating, the heat conducting plates 205 can guide heat to the molded filling bodies 206, the temperature of the molded filling bodies 206 is increased, after a certain time, the temperature of the molded filling bodies 206 is increased to the melting point, the glass is inserted between the two glass sacs 201, the glass is deformed according to the shape of the glass, the glass sacs 201 deform into a shape matched with the glass under the extrusion of the glass, after the plastic filling body 206 is cooled and hardened, a clamping groove matched with the glass shape is formed between the two glass sacs 201, then the glass can be effectively fixed through the clamping groove, when the shape of the glass is changed, namely, when another glass is produced and processed, the glass sacs 201 deform and are adjusted again by the method, so that the glass holder can be suitable for the glass with various shapes, and the glass holder has extremely strong adaptability through the setting of the glass holder.

Referring to fig. 3-5, a plurality of missile assisting rods 207 are fixedly installed on the heat conducting plate 205, the missile assisting rods 207 are located in the glass sacs 201 which are easy to clamp, the missile assisting rods 207 are made of elastic heat conducting materials, the missile assisting rods 207 can improve heat conducting efficiency, the plastic filling body 206 is enabled to be melted and softened more quickly, the melting point of the plastic filling body 206 is 50-75 ℃, the box-type lifting seat 103 and the heating adjusting box 203 are made of heat insulating materials, and heat loss can be reduced.

Referring to fig. 2 and 4, a quick-hardening effect-improving component is disposed in the heating adjustment box 203, the quick-hardening effect-improving component includes a sealing partition 301 that is fixedly connected with an inner wall of the heating adjustment box 203 in a sealing manner, two heat-insulating sleeves 302 that are respectively sleeved on a pair of heat-conducting plates 205, the heat-insulating sleeves 302 are slidably and sealingly connected with the heat-conducting plates 205, the heat-insulating sleeves 302 penetrate through the sealing partition 301 and are slidably and sealingly connected with the heat-conducting plates, the heat-insulating sleeves 302 are made of heat-insulating materials, top ends of the heat-insulating sleeves 302 are abutted against an inner wall of a top end of the heating adjustment box 203, cooling water 303 is filled above the sealing partition 301, the quick-hardening effect-improving component further includes an electric telescopic rod 304 that penetrates through an outer wall embedded on the top end of the heating adjustment box 203, an output end of the electric telescopic rod 304 is fixedly connected with a linkage rod 305, two ends of the linkage rod 305 are fixedly connected with the two heat-insulating sleeves 302 respectively, when the electric telescopic rod 304 is electrically connected with the controller 104 and heats the molding filler 206, heat is difficult to transfer into the cooling water 303 under the heat insulation effect of the heat insulation sleeve 302, but after glass is inserted between the two plastic-easy glass-clamping bags 201, related personnel can start the electric telescopic rod 304 through the controller 104, so that the electric telescopic rod 304 drives the heat insulation sleeve 302 to move downwards by a certain distance through the linkage rod 305, and the heat-conducting plate 205 can be contacted with the cooling water 303, so that the heat in the molding filler 206 can be guided to the cooling water 303 by the heat-conducting plate 205.

Second embodiment:

fig. 6-8 show a lifting device for glass machinery, unlike the first embodiment, a pair of glass propping heads 401 are arranged between a pair of glass propping plates 202, connecting sliding rods 402 are fixedly connected to the left side and the right side of each glass propping head 401, sliding grooves 403 matched with the connecting sliding rods 402 are formed on the glass propping plates 202, the connecting sliding rods 402 penetrate through the sliding grooves 403 and are in sliding connection with the connecting sliding rods, after glass is inserted between two glass easy-molding glass clamping bags 201, after the molding filling bodies 206 are cooled and hardened, the glass propping heads 401 are pushed to make the glass propping heads 401 move forward between the two glass easy-molding glass clamping bags 201 until the glass propping heads 401 prop against the glass, and after the molding filling bodies 206 are cooled and hardened, the glass propping heads 401 can be clamped and fixed, so that the glass propping heads 401 and the like can strengthen the fixing effect on the glass, and further prevent the glass from falling.

Referring to fig. 7, a fixing sleeve 404 is sleeved on the outer wall of the connecting slide bar 402, the fixing sleeve 404 is in threaded connection with the connecting slide bar 402, after the glass supporting head 401 is propped against glass, the fixing sleeve 404 is rotated to tightly prop against the bag supporting plate 202, friction force between the fixing sleeve 404 and the bag supporting plate 202 can play a certain role in fixing the glass supporting head 401, accidental sliding of the glass supporting head 401 is prevented, and accordingly fixing effect of the glass supporting head 401 on the glass can be improved.

The scope of protection of the above-described embodiments employed in the present application is not limited to the above-described embodiments, and various changes made by those skilled in the art without departing from the spirit of the present application are still within the scope of protection of the present invention.

Claims (4)

1. The lifting device for the glass machinery comprises a supporting lifting mechanism, wherein the supporting lifting mechanism comprises a fixed base (101), a lifting cylinder (102) is fixedly installed on the fixed base (101), the output end of the lifting cylinder (102) is fixedly connected with a box-type lifting seat (103), the lifting device is characterized in that a cavity is formed in the box-type lifting seat (103), a controller (104) is fixedly installed on one side of the fixed base (101), a plurality of easily-molded glass mold bases are arranged on the box-type lifting seat (103), each easily-molded glass mold base comprises a pair of easily-molded glass-clamping sacs (201), a pair of bag-supporting plates (202) and a heating regulating box (203) fixedly installed in the box-type lifting seat (103), the easily-molded glass-clamping sacs (201) are made of elastic heat insulation materials, a heater (204) is fixedly installed in the heating regulating box (203), a pair of heat conducting plates (205) are embedded in a penetrating mode on the outer walls of the top ends of the heating regulating box (203), the pair of easily-molded glass-clamping plates (205) correspond to the easily-molded glass-clamping sacs (205) respectively, the bottom ends of the easily-molded glass-clamping plates (201) are filled with the heat conducting plates (206) and filled in the corresponding glass-molded glass-clamping bodies (201) in a filling mode, the heat conducting plate (205) is made of a heat conducting material, the shaping filler (206) is made of paraffin, and the lifting cylinder (102) and the heater (204) are electrically connected with the controller (104);

the pair of easily-molded glass bags (201) are positioned between the pair of bag supporting plates (202), the pair of easily-molded glass bags (201) are fixedly connected with the pair of bag supporting plates (202) respectively, and the easily-molded glass bags (201) and the bag supporting plates (202) are fixedly arranged at the top ends of the box-type lifting seats (103);

a plurality of missile assisting rods (207) are fixedly arranged on the heat conducting plate (205), the missile assisting rods (207) are positioned in the glass bag (201) which is easy to mold, and the missile assisting rods (207) are made of elastic heat conducting materials;

a pair of glass propping heads (401) are arranged between the pair of the bag propping plates (202), the left side and the right side of each glass propping head (401) are fixedly connected with a connecting sliding rod (402), the bag propping plates (202) are provided with sliding grooves (403) matched with the connecting sliding rods (402), and the connecting sliding rods (402) penetrate through the sliding grooves (403) and are in sliding connection with the sliding grooves (403);

the outer wall of the connecting slide bar (402) is sleeved with a fixed head sleeve (404), and the fixed head sleeve (404) is in threaded connection with the connecting slide bar (402).

2. The lifting device for glass machinery according to claim 1, wherein the melting point of the molding filling body (206) is 50-75 ℃, and the box-type lifting seat (103) and the heating adjusting box (203) are made of heat insulation materials.

3. The lifting device for glass machinery according to claim 1, wherein a rapid hardening effect lifting assembly is arranged in the heating adjustment box (203), the rapid hardening effect lifting assembly comprises a sealing partition plate (301) in sealing and fixing connection with the inner wall of the heating adjustment box (203), and two heat insulation sleeves (302) respectively sleeved on a pair of heat conduction plates (205), the heat insulation sleeves (302) are in sliding and sealing connection with the heat conduction plates (205), the heat insulation sleeves (302) penetrate through the sealing partition plate (301) and are in sliding and sealing connection with the heat conduction plates, the heat insulation sleeves (302) are made of heat insulation materials, the top ends of the heat insulation sleeves (302) are propped against the inner wall of the top end of the heating adjustment box (203), and cooling water (303) is filled above the sealing partition plate (301).

4. The lifting device for a glass machine according to claim 3, wherein the rapid hardening effect improving assembly further comprises an electric telescopic rod (304) which is inserted through the outer wall of the top end of the heating adjusting box (203), the output end of the electric telescopic rod (304) is fixedly connected with a linkage rod (305), two ends of the linkage rod (305) are respectively fixedly connected with two heat insulation sleeves (302), and the electric telescopic rod (304) is electrically connected with the controller (104).