CN112876051A - Constant-temperature working chamber for preparing glassware - Google Patents

Abstract

The invention discloses a constant-temperature working chamber for preparing glassware, and relates to the technical field of glassware manufacturing. The invention includes a substrate; a supporting frame is vertically fixed on the upper surface of the substrate; a plurality of material carrying plates are fixedly inserted in the inner side of the supporting frame side by side from top to bottom; the two opposite sides of the supporting frame are provided with constant temperature boxes; the constant temperature box is arranged on the upper surface of the substrate in a sliding manner; two opposite side walls of the constant temperature box along the sliding direction are provided with first open structures; a heater is fixedly arranged in the thermostat; an air box is fixed at a first open structure where the two thermostats are separated, and a turbulence assembly is arranged in each thermostat; a second open structure is arranged on one side wall of the air box close to the first open structure of the constant temperature box; the inside of the wind box is provided with a circulating air assembly. The glass ware constant-temperature device is reasonable in structural design and convenient and fast to use, effectively improves the constant temperature during the preparation of the glass ware, and has high market application value.

Description

Constant-temperature working chamber for preparing glassware

Technical Field

The invention belongs to the technical field of glassware manufacture, and particularly relates to a constant-temperature working chamber for preparing glassware.

Background

The glassware is a colorless transparent ware made of soda-lime-silicate glass, and the iron content in the glass is generally lower than 0.02%. The glassware is subjected to further processing by using thermostatic equipment during the preparation process of the glassware. Constant temperature equipment for glassware preparation among the prior art not only structural design is complicated, wastes time and energy when using, can not realize carrying out continuous constant temperature operation to glassware moreover, has influenced the production efficiency of enterprise. Therefore, there is a need to develop a thermostatic workcell for the preparation of glassware in order to solve the above-mentioned problems.

Disclosure of Invention

The present invention aims to solve the problems set out in the background art mentioned above, by providing a thermostatic workcell for the preparation of glassware.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a constant-temperature working chamber for preparing glassware, which comprises a substrate; a supporting frame is vertically fixed on the upper surface of the substrate; a plurality of horizontally arranged material carrying plates are fixedly inserted in parallel from top to bottom on the inner side of the supporting frame; a thermostat is arranged on two opposite sides of the supporting frame; the constant temperature box is arranged on the upper surface of the substrate in a sliding manner; two opposite side walls of the constant temperature box along the sliding direction are respectively provided with a first open structure; at least one heater is fixedly arranged in the constant temperature box; an air box is fixed at a first open structure where the two thermostats are separated from each other, and a turbulence assembly is arranged inside each thermostat; a second open structure is arranged on one side wall of the air box close to the first open structure of the constant temperature box; and a circulating air assembly is arranged in the air box.

Further, the turbulent flow component comprises a driving ring which is rotatably arranged at a first open structure; the driving ring is arranged between the constant temperature box and the air box; and a plurality of spoiler blades are vertically fixed on one surface of the driving ring close to the supporting frame along the annular direction.

Further, the spoiler blade is of a T-shaped structure.

Furthermore, the circulating air assembly comprises a bearing plate vertically fixed at the second open structure and a movable plate slidably arranged in the air box; the movable plate is arranged in parallel with the bearing plate; a ventilation opening is respectively formed in one surface of the movable plate, which is parallel to the bearing plate; a first diaphragm which is matched with the vent hole of the bearing plate is fixed at the vent hole; a plurality of first nozzles are uniformly distributed and connected on one surface of the first membrane; a second diaphragm which is matched with the movable plate is fixed at the vent of the movable plate; a plurality of second nozzles are uniformly distributed and connected on one surface of the second diaphragm; the first diaphragm is connected with the second diaphragm through an elastic telescopic cylinder.

Furthermore, an air supply chamber is formed between the movable plate and one side wall of the air box far away from the constant temperature box; one side wall of the air supply chamber is connected with one side edge of the support frame through at least one air pipe.

Furthermore, the turbulent flow component and the circulating air component share one power component for synchronous driving; the power assembly is arranged in the air box.

Furthermore, the power assembly comprises a pair of transmission shafts symmetrically arranged at two opposite sides of the elastic telescopic cylinder; one end of the transmission shaft is rotatably inserted in the bearing plate, and a transmission gear corresponding to the driving ring is fixed at the other end of the transmission shaft; a plurality of teeth meshed with the transmission gear are uniformly distributed on the outer wall of the driving ring along the annular direction; a cylindrical cam is axially fixed at the other end of the transmission shaft; a guide post corresponding to the movable plate is inserted in the curve groove of the cylindrical cam; one end of the guide post is fixed on the movable plate.

The invention has the following beneficial effects:

the invention arranges the glassware on the material carrying plate, then a first open structure close to the two thermostats is respectively jointed with two opposite side walls of the supporting frame, so that the glassware on the material carrying plate is arranged in the thermostats, then the turbulence blades are driven to rotate in the constant temperature box by rotating the driving ring, so that the temperature in the constant temperature box can be disturbed to a certain degree, the phenomenon of temperature stratification in the constant temperature box is avoided, meanwhile, the movable plate is moved in a reciprocating way to convey the air quantity in the elastic telescopic cylinder to the literature, and the air is supplied to the elastic telescopic cylinder through the air conveying pipe, thereby realizing the temperature circulation in the constant temperature box, effectively ensuring the temperature balance in the constant temperature box, having reasonable structural design and convenient use, and the constant temperature property during the preparation of the glassware is effectively improved, and the method has higher market application value.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a thermostatic chamber for the preparation of glassware in accordance with the present invention;

FIG. 2 is a side view of the structure of FIG. 1;

FIG. 3 is a schematic view of a supporting frame of the present invention mounted on a substrate;

FIG. 4 is a schematic view showing the structure of the incubator of the present invention connected to an air box;

FIG. 5 is a schematic structural view of the driving ring, the supporting plate, the movable plate and the elastic telescopic cylinder installed in the bellows according to the present invention;

FIG. 6 is a schematic view of the connection structure between the driving ring, the supporting plate, the movable plate and the elastic telescopic cylinder according to the present invention;

FIG. 7 is a schematic structural diagram of the connection among the supporting plate, the movable plate, the elastic telescopic cylinder and the transmission shaft according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-a base plate, 2-a support frame, 3-a thermostat, 4-a heater, 5-an air box, 6-a drive ring, 7-a bearing plate, 8-a movable plate, 9-a first membrane, 10-a first nozzle, 11-a second membrane, 12-a second nozzle, 13-an elastic telescopic cylinder, 14-an air pipe, 15-a transmission shaft, 16-a transmission gear, 17-a cylindrical cam, 201-a bearing plate and 601-a turbulence blade.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 7, the present invention is a constant temperature chamber for preparing glassware, including a substrate 1; a supporting frame 2 is vertically fixed on the upper surface of the base plate 1; a plurality of horizontally arranged material carrying plates 201 are fixedly inserted in the inner side of the supporting frame 2 from top to bottom side by side; a thermostat 3 is arranged on two opposite sides of the supporting frame 2; the thermostat 3 is arranged on the upper surface of the substrate 1 in a sliding manner; two opposite side walls of the constant temperature box 3 along the sliding direction are respectively provided with a first open structure; a heater 4 is fixedly arranged at the four corners inside the constant temperature box 3; the heater 4 adopts a conventional electric heater in the field; an air box 5 is fixed at a first open structure where the two thermostats 3 are separated, and a turbulence assembly is arranged inside the thermostats 3; a second open structure is arranged on one side wall of the air box 5 close to the first open structure of the constant temperature box 3; the inside of the wind box 5 is provided with a circulating air component. During the use, through placing glassware on carrying flitch 201, then do close motion with two thermostats 3 for a first open structure that two thermostats 3 are close is laminated mutually with a relative both sides wall of carriage 2 respectively, thereby makes the glassware that carries on flitch 201 arrange in thermostats 3, and then has realized the constant temperature processing to glassware.

As shown in fig. 2 or fig. 4, the spoiler assembly includes a driving ring 6 rotatably installed at a first open structure; the drive ring 6 is provided between the incubator 3 and the air box 5; a plurality of spoiler blades 601 are vertically fixed on one surface of the driving ring 6 close to the supporting frame 2 along the annular direction; the spoiler blade 601 has a T-shaped structure. The plurality of turbulence blades 601 are driven to rotate in the incubator 3 by rotating the driving ring 6, so that the temperature in the incubator 3 can be disturbed to a certain degree, and the phenomenon of temperature stratification in the incubator 3 is avoided.

As shown in fig. 1-2 and 5-7, the circulating air assembly includes a supporting plate 7 vertically fixed at the second open structure and a movable plate 8 slidably mounted in the wind box 5; the movable plate 8 is arranged in parallel with the bearing plate 7; a ventilation opening with a circular structure is respectively formed on one surface of the movable plate 8 parallel to the bearing plate 7; the ventilation opening is arranged coaxially with the drive ring 6; a first diaphragm 9 which is matched with the vent of the bearing plate 7 is fixed at the vent; the first diaphragm 9 is a rubber sheet with a circular structure; a plurality of first nozzles 10 are uniformly distributed and connected on one surface of the first membrane 9; the first nozzle 10 adopts a conventional one-way air nozzle in the field, and the air outlet end of the first nozzle is arranged in the constant temperature box 3; a second diaphragm 11 which is matched with the movable plate 8 is fixed at the vent; the second diaphragm 11 is a rubber sheet with a circular structure; a plurality of second nozzles 12 are uniformly distributed and connected on one surface of the second membrane 11; the second nozzle 12 adopts a conventional one-way air tap in the field, and the air outlet end of the second nozzle is arranged in the elastic telescopic cylinder 13; the first diaphragm 9 is connected with the second diaphragm 11 through an elastic telescopic cylinder 13; the elastic telescopic cylinder 13 is made of rubber; an air supply chamber is formed between the movable plate 8 and one side wall of the air box 5 far away from the constant temperature box 3; one side wall of the air supply chamber is connected with one side edge of the support frame 2 through a pair of air pipes 14; after a first open structure close to the two thermostats 3 is respectively attached to two opposite side walls of the supporting frame 2, the air delivery pipe 14 can deliver the air quantity in the thermostats 3 to the air supply cavity, so that air supply to the air supply cavity is realized.

As shown in fig. 5-7, the turbulent flow component and the circulating air component share one power component for synchronous driving; the power assembly is arranged in the air box 5; the power assembly comprises a pair of transmission shafts 15 symmetrically arranged at two opposite sides of the elastic telescopic cylinder 13; one end of the transmission shaft 15 is inserted on the bearing plate 7 in a rotating way, and a transmission gear 16 corresponding to the driving ring 6 is fixed at the end of the transmission shaft 15; a plurality of teeth meshed with the transmission gear 16 are uniformly distributed on the outer wall of the driving ring 6 along the annular direction; a cylindrical cam 17 is axially fixed at the other end of the transmission shaft 15; a guide post corresponding to the movable plate 8 is inserted in the curved groove of the cylindrical cam 17; one end of the guide post is fixed on the movable plate 8; the other end of the transmission shaft 15 is connected to an output shaft of a driving motor; the driving motor is fixedly arranged on the air box 5. Through rotating the transmission shaft 15, can drive the drive ring 6 through the transmission gear 16 and rotate the time, can also drive fly leaf 8 reciprocating motion in bellows 5 through cylindrical cam 17 to make vortex blade 601 carry out certain disturbance to the air current of thermostated container 3, still can flow back the tolerance in the flexible section of thick bamboo 13 of elasticity to thermostated container 3 in the while, and then realized temperature cycle, guaranteed the temperature equilibrium in the thermostated container 3 effectively.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (7)

1. A thermostatic workcell for the preparation of glassware, characterized by comprising a base plate (1); a supporting frame (2) is vertically fixed on the upper surface of the base plate (1); a plurality of horizontally arranged material carrying plates (201) are fixedly inserted in parallel from top to bottom on the inner side of the supporting frame (2);

a thermostat (3) is arranged on two opposite sides of the supporting frame (2); the constant temperature box (3) is arranged on the upper surface of the substrate (1) in a sliding manner; two opposite side walls of the constant temperature box (3) along the sliding direction are respectively provided with a first open structure; at least one heater (4) is fixedly arranged in the constant temperature box (3);

an air box (5) is fixed at a first open structure where the two thermostats (3) are separated, and a turbulence assembly is arranged in each thermostat (3); a second open structure is arranged on one side wall of the air box (5) close to the first open structure of the constant temperature box (3); the inside of the air box (5) is provided with a circulating air assembly.

2. A thermostatic working chamber for making glassware according to claim 1, in which the spoiler assembly includes a drive ring (6) rotatably mounted at a first open configuration; the driving ring (6) is arranged between the constant temperature box (3) and the air box (5); and a plurality of spoiler blades (601) are vertically fixed on one surface of the driving ring (6) close to the supporting frame (2) along the annular direction.

3. A thermostatic working chamber for the preparation of glassware according to claim 2, characterized in that the spoiler blades (601) have a T-shaped configuration.

4. The thermostatic working chamber for preparing glassware according to claim 2 or 3, characterized in that the circulating air assembly includes a carrying plate (7) vertically fixed at the second open structure and a moving plate (8) slidably mounted in the air box (5); the movable plate (8) is arranged in parallel with the bearing plate (7); a ventilation opening is respectively formed on one surface of the movable plate (8) which is parallel to the bearing plate (7); a first diaphragm (9) which is matched with the bearing plate is fixed at the vent of the bearing plate (7); a plurality of first nozzles (10) are uniformly distributed and connected on one surface of the first membrane (9); a second diaphragm (11) which is matched with the movable plate is fixed at the vent of the movable plate (8); a plurality of second nozzles (12) are uniformly distributed and connected on one surface of the second membrane (11); the first diaphragm (9) and the second diaphragm (11) are connected through an elastic telescopic cylinder (13).

5. A thermostatic working chamber for the preparation of glassware according to claim 4, characterized in that a blowing chamber is formed between the movable plate (8) and a side wall of the air box (5) remote from the thermostatic chamber (3); one side wall of the air supply chamber is connected with one side edge of the support frame (2) through at least one air conveying pipe (14).

6. The thermostatic working chamber for preparing the glassware of claim 4, wherein a power assembly is shared between the spoiler assembly and the circulating air assembly for synchronous driving; the power assembly is arranged in the air box (5).

7. A thermostatic working chamber for making glassware according to claim 6 in which the power assembly includes a pair of drive shafts (15) symmetrically disposed on opposite sides of the resilient bellows (13); one end of the transmission shaft (15) is inserted on the bearing plate (7) in a rotating way, and a transmission gear (16) corresponding to the driving ring (6) is fixed at the end of the transmission shaft (15); a plurality of teeth meshed with the transmission gear (16) are uniformly distributed on the outer wall of the driving ring (6) along the annular direction; a cylindrical cam (17) is axially fixed at the other end of the transmission shaft (15); a guide column corresponding to the movable plate (8) is inserted in a curved groove of the cylindrical cam (17); one end of the guide post is fixed on the movable plate (8).

Images