CN219384997U - Heat insulation taking-out device for glass hot working - Google Patents

Abstract

The utility model discloses a heat-insulating take-out device for glass heat processing, which relates to the technical field of glass heat processing and aims at solving the technical problem that the operation safety is difficult to ensure in the prior art.

Description

Heat insulation taking-out device for glass hot working

Technical Field

The utility model belongs to the field of glass hot working operation, and particularly relates to a heat insulation taking-out device for glass hot working.

Background

In glass processing, it is often necessary to use a thermal processing furnace, which is mainly used for heating and liquefying glass raw materials, and the loading and taking out of the furnace need to be directly operated by workers, so that the operation is very inconvenient, and meanwhile, potential safety hazards exist.

At present, operators can be scalded by direct unloading, and the potential safety hazard is great, so that a heat-insulating and taking-out device for glass hot working needs to be designed to ensure the working safety of the operators.

Therefore, in order to solve the problem that the daily heat insulation extraction device is difficult to ensure the operation safety after use, a solution is needed to improve the use scene of the heat insulation extraction device.

Disclosure of Invention

(1) Technical problem to be solved

Aiming at the defects of the prior art, the utility model aims to provide a heat insulation taking-out device for glass hot working, which aims to solve the technical problem that the operation safety is difficult to ensure in the prior art.

(2) Technical proposal

In order to solve the technical problems, the utility model provides the heat-insulating take-out device for glass hot processing, which comprises a frit furnace, wherein a lifting component which is symmetrical from front to back is arranged on the outer side of the frit furnace, the upper end of the lifting component is fixedly connected with a furnace cover, the center of the furnace cover is slidably connected with a stopper rod, the stopper rod is connected with the furnace cover through a push rod which is symmetrical from front to back, the lower end of the frit furnace is fixedly connected with a blanking channel, a slide way is arranged at the lower end of the frit furnace, and the upper end of the slide way is provided with the take-out component.

When the heat-insulating take-out device of the technical scheme is used, glass raw materials are put into a frit furnace, a lifting assembly is started to cover a furnace cover, a blanking channel is plugged by a stopper rod to heat the internal glass raw materials, after heating is completed, the stopper rod is driven by an electric push rod to move upwards, glass liquid flows into the take-out device from the blanking channel, after loading is completed, the take-out device is started, the glass raw materials are moved out of a slideway, and convenience is brought to operators.

Furthermore, the whole frit furnace adopts a conical design, and the frit furnace is of a double-layer design.

Further, the outer layer of the frit furnace is a heat insulation layer, the inner layer of the frit furnace is a crucible, and a heating pipe is arranged on the inner side of the frit furnace chamber.

Further, the lifting assembly comprises an outer barrel sleeve, a first motor, a transmission rod, a transmission sleeve, a limiting sliding groove and a limiting sliding block, wherein the first motor is arranged at the lower end of the inner side of the outer barrel sleeve, the transmission rod is arranged at the upper end of an output shaft of the first motor, the transmission sleeve is connected with the upper end of the transmission rod in a transmission manner, the opening of a furnace cover can be controlled, and the feeding of operators is facilitated.

Further, the limit sliding grooves which are symmetrically distributed are formed in the outer side of the transmission sleeve, limit sliding blocks which are symmetrically distributed are fixedly connected to the inner side of the outer cylinder sleeve, the limit sliding grooves are connected with the limit sliding blocks in a sliding mode, the closing of the furnace cover can be controlled, heat loss is avoided in the heating process, and meanwhile machining safety is improved.

Further, take out the subassembly and include second motor, threaded rod, thread bush, fly leaf, thermal-insulated heat preservation household utensils, first thermal-insulated heat preservation lid and the thermal-insulated heat preservation of second cover, the threaded rod is installed to second motor output shaft rear end, threaded rod outside transmission is connected with the thread bush, thread bush connecting plate upper end fixedly connected with fly leaf can full-automatic completion get the material process, lets operating personnel keep away from near the heating furnace, avoids scalding.

Further, the heat insulation and heat preservation household utensils have been placed to the movable plate upper end, both ends are installed respectively in heat insulation and heat preservation household utensils upper end front and back, and the design can be dismantled in the adoption, and the later stage is convenient for operation workman transport heat insulation and heat preservation household utensils.

(3) Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that: the heat insulation taking-out device can fully automatically complete a material taking process, so that an operator is far away from the vicinity of the heating furnace, scalding is avoided, meanwhile, a detachable design is adopted, the operator is convenient to carry the heat insulation and heat preservation vessel in the later stage, the lifting component for controlling the opening and closing of the furnace cover is arranged on the outer side of the frit furnace, the opening of the furnace cover can be controlled, the feeding of the operator is convenient, the closing of the furnace cover can be controlled, heat loss is avoided in the heating process, and meanwhile, the processing safety is improved.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of a heat insulation take-out device according to the present utility model;

FIG. 2 is a schematic view of an alternate perspective view of an embodiment of the insulated take-out apparatus of the present utility model;

FIG. 3 is a schematic cross-sectional view of a clinker furnace according to an embodiment of the heat-insulating removing device of the present utility model;

FIG. 4 is a schematic cross-sectional view of a lifting assembly of one embodiment of the insulated take-out apparatus of the present utility model;

FIG. 5 is a schematic view showing the removal of components in an embodiment of the insulated removal apparatus of the present utility model.

The marks in the drawings are: 1. a frit furnace; 2. a lifting assembly; 201. an outer cylinder sleeve; 202. a first motor; 203. a transmission rod; 204. a transmission sleeve; 205. limiting sliding grooves; 206. a limit sliding block; 3. a furnace cover; 4. a stopper rod; 5. a blanking channel; 6. a slideway; 7. taking out the assembly; 701. a second motor; 702. a threaded rod; 703. a thread sleeve; 704. a moving plate; 705. a heat insulation vessel; 706. a first heat insulation cover; 707. a second heat insulation cover; 8. a push rod; 11. a thermal insulation layer; 12. a crucible; 13. and (5) heating the pipe.

Detailed Description

The heat insulation taking-out device for glass thermal processing is characterized in that a three-dimensional structure schematic diagram is shown in fig. 1, a three-dimensional structure schematic diagram of another angle is shown in fig. 2, the heat insulation taking-out device comprises a frit furnace 1, a front-back symmetrical lifting component 2 is arranged on the outer side of the frit furnace 1, a furnace cover 3 is fixedly connected with the upper end of the lifting component 2, a stopper rod 4 is slidably connected to the central position of the furnace cover 3, the stopper rod 4 is fixedly connected with the furnace cover 3 through a push rod 8 which is arranged in a front-back symmetrical mode, a blanking channel 5 is fixedly connected to the lower end of the frit furnace 1, a slide way 6 is arranged at the lower end of the frit furnace 1, a taking-out component 7 is arranged at the upper end of the slide way 6, the outer layer of the frit furnace 1 is a heat insulation layer 11, a crucible 12 is arranged at the inner side of the furnace chamber of the frit furnace 1, a heating pipe 13 is arranged on the inner side of the frit furnace, and the inner part can be heated rapidly by adopting a double-layer design, and heat loss can be prevented.

The whole frit furnace 1 adopts a conical design, and the frit furnace 1 is of a double-layer design.

Meanwhile, the lifting assembly 2 comprises an outer barrel sleeve 201, a first motor 202, a transmission rod 203, a transmission sleeve 204, a limiting sliding groove 205 and a limiting sliding block 206, wherein the first motor 202 is arranged at the lower end of the inner side of the outer barrel sleeve 201, the transmission rod 203 is arranged at the upper end of an output shaft of the first motor 202, the transmission sleeve 204 is connected with the upper end of the transmission rod 203 in a transmission manner, the opening of the furnace cover 3 can be controlled, the feeding of operators is facilitated, the symmetrically distributed limiting sliding grooves 205 are formed in the outer side of the transmission sleeve 204, the symmetrically distributed limiting sliding blocks 206 are fixedly connected to the inner side of the outer barrel sleeve 201, the limiting sliding grooves 205 are connected with the limiting sliding blocks 206 in a sliding manner, the closing of the furnace cover 3 can be controlled, the heat loss is avoided in the heating process, and the processing safety is improved.

In addition, take out subassembly 7 includes second motor 701, threaded rod 702, thread bush 703, movable plate 704, thermal insulation and heat preservation household utensils 705, first thermal insulation and heat preservation lid 706 and second thermal insulation and heat preservation lid 707, threaded rod 702 is installed to second motor 701 output shaft rear end, threaded rod 702 outside transmission is connected with thread bush 703, thread bush 703 connecting plate upper end fixedly connected with movable plate 704 can accomplish the get material process fully automatically, lets the operating personnel keep away from near the heating furnace, avoid scalding, thermal insulation and heat preservation household utensils 705 have been placed to movable plate 704 upper end, thermal insulation and heat preservation household utensils 705 upper end front and back both ends are installed first thermal insulation and heat preservation lid 706 and second thermal insulation and heat preservation lid 707 respectively, adopt detachable design, later be convenient for operating personnel transport thermal insulation and heat preservation household utensils 705.

The schematic cross-sectional structure of the clinker furnace 1 of the heat-insulating extraction device is shown in fig. 3, the schematic cross-sectional view of the lifting assembly 2 is shown in fig. 4, and the schematic disassembly view of the extraction assembly 7 is shown in fig. 5.

When the heat insulation taking-out device of the technical scheme is used, glass raw materials are put into a frit furnace 1, a first motor 202 arranged on the inner side of an outer barrel 201 of a lifting assembly 2 is started, the first motor 202 positively rotates to drive a transmission rod 203 at the upper end to drive a transmission sleeve 204 in transmission connection to move downwards, a furnace cover 3 connected with the transmission sleeve 204 is covered, if the furnace cover 3 needs to be started, the first motor 202 is reversely operated, a blanking channel 5 is blocked by a stopper rod 4 to heat the internal glass raw materials, after heating is completed, an electric push rod 8 drives the stopper rod 4 to move upwards, glass liquid flows into a taking-out assembly 7 from the blanking channel 5, after loading is completed, the taking-out assembly 7 is started, a second motor 701 drives a threaded rod 702 arranged in a slide 6 to positively rotate, a threaded sleeve 703 in transmission connection with the outer side of the threaded rod 702 is outwards moved to drive a moving plate 704, after moving out, an operator closes a first heat insulation cover 706 with a second heat insulation cover 707, and a heat insulation vessel 705 is detached to carry.

Claims (7)

1. The utility model provides a thermal-insulated remove device of glass hot working, this thermal-insulated remove device includes the frit stove, its characterized in that, the elevating system of symmetry around installing in the frit stove outside, elevating system upper end fixedly connected with bell, bell central point puts sliding connection has stopper stick, through the push rod erection joint of symmetry around between stopper stick and the bell, frit stove lower extreme fixedly connected with unloading passageway, the slide is installed to frit stove lower extreme, take out the subassembly is installed to the slide upper end.

2. The apparatus according to claim 1, wherein the entire glass furnace is conical in design and the furnace is double-layered in design.

3. The device according to claim 1, wherein the outer layer of the frit furnace is a heat insulating layer, the inner layer of the frit furnace is a crucible, and a heating pipe is installed inside the frit furnace chamber.

4. The heat insulation take-out device for glass hot working according to claim 1, wherein the lifting assembly comprises an outer cylinder sleeve, a first motor, a transmission rod, a transmission sleeve, a limiting sliding groove and a limiting sliding block, the first motor is installed at the lower end of the inner side of the outer cylinder sleeve, the transmission rod is installed at the upper end of an output shaft of the first motor, and the transmission sleeve is connected at the upper end of the transmission rod in a transmission manner.

5. The heat insulation taking-out device for glass hot working according to claim 4, wherein symmetrically distributed limit sliding grooves are formed in the outer side of the transmission sleeve, symmetrically distributed limit sliding blocks are fixedly connected to the inner side of the outer cylinder sleeve, and the limit sliding grooves are in sliding connection with the limit sliding blocks.

6. The device for heat-insulating and taking out of glass hot working according to claim 1, wherein the taking-out assembly comprises a second motor, a threaded rod, a threaded sleeve, a moving plate, a heat-insulating vessel, a first heat-insulating cover and a second heat-insulating cover, the threaded rod is installed at the rear end of an output shaft of the second motor, the threaded sleeve is connected to the outer side of the threaded rod in a transmission manner, and the moving plate is fixedly connected to the upper end of a connecting plate of the threaded sleeve.

7. The heat insulation and taking-out device for glass heat processing according to claim 6, wherein a heat insulation and heat preservation vessel is placed at the upper end of the moving plate, and a first heat insulation and heat preservation cover and a second heat insulation and heat preservation cover are respectively installed at the front end and the rear end of the upper end of the heat insulation and heat preservation vessel.