CN218372103U

CN218372103U - Curing oven alternating loading attachment

Info

Publication number: CN218372103U
Application number: CN202221844904.9U
Authority: CN
Inventors: 赵云鹏
Original assignee: Foshan Yupeng Glass Technology Co ltd
Current assignee: Foshan Yupeng Glass Technology Co ltd
Priority date: 2022-07-18
Filing date: 2022-07-18
Publication date: 2023-01-24
Anticipated expiration: 2032-07-18

Abstract

The utility model discloses an alternating feeding device of a curing oven, which comprises a curing oven, wherein oven ports are arranged on the left side and the right side of the curing oven, and the alternating feeding device also comprises a first feeding device, a second feeding device and a guide rail assembly; the guide rail assembly comprises a first guide rail and a second guide rail which extend in parallel, the first guide rail is used for guiding a first feeding device to translate, the second guide rail is used for guiding a second feeding device to translate, the first feeding device comprises two first loading trolleys which are connected left and right and used for loading glass, and the second feeding device comprises two second loading trolleys which are connected left and right and used for loading glass. When the glass is heated and solidified in the solidifying furnace, the first loading trolley and the second loading trolley which are positioned at the first loading and unloading station and the second loading and unloading station can load the glass by utilizing the time during the solidification, so that the time for solidifying the glass is fully utilized, and the efficiency is improved.

Description

Curing oven alternating loading attachment

Technical Field

The utility model relates to a glass processing equipment field especially relates to a curing oven alternating loading attachment.

Background

The double-layer glass is generally formed by tightly bonding two pieces of glass by using glue, and then heating and curing the glue by using a curing oven so as to completely bond the glue between the two pieces of glass. Glass needs to be placed in the feeding frame before being heated and cured so that the glass can be stably placed, and after the glass is placed, the whole feeding frame enters the curing furnace for heating and curing. Because the glass is heavy and easy to break, and can not be conveyed by vacuum adsorption equipment, the glass needs to be conveyed and loaded by hands, the process consumes a long time, after the loading is completed, a curing furnace is needed to be heated and cured, then the glass is unloaded and loaded again, the process consumes a long time, and the efficiency is not improved.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a curing oven alternating feeding device which has a novel and reliable structure, can load glass by fully utilizing the curing time of the glass and can improve the efficiency.

In order to realize the above purpose, the utility model discloses the technical scheme who adopts is: the curing furnace alternate feeding device comprises a curing furnace, a first feeding device, a second feeding device and a guide rail assembly, wherein furnace openings are formed in the left side and the right side of the curing furnace; the guide rail assembly comprises a first guide rail and a second guide rail which extend in parallel, the first guide rail is used for guiding the first feeding device to translate, the second guide rail is used for guiding the second feeding device to translate, the guide rail assembly penetrates through the inside of the curing furnace and extends to the outside of furnace mouths on two sides, so that the guide rail assembly is sequentially provided with a first loading and unloading station, a curing station and a second loading and unloading station from left to right; the first feeding device comprises two first loading trolleys which are connected left and right and used for loading glass, the second feeding device comprises two second loading trolleys which are connected left and right and used for loading glass, the height of each second loading trolley is higher than that of each first loading trolley, and the first feeding device and the second feeding device alternately occupy a first loading station and a second loading station.

The beneficial effects of the utility model are that: the utility model discloses a curing oven alternating loading attachment, its guide rail assembly are equipped with first loading and unloading station, solidification station, second loading and unloading station, and wherein first loading and unloading station and second loading and unloading station set up outside the both sides fire door of curing oven, and the solidification station is located inside the curing oven. The first feeding device and the second feeding device alternately occupy the first loading and unloading station and the second loading and unloading station, one first loading trolley and one second loading trolley occupy the curing station at any time, and when the glass is heated and cured in the curing furnace, the first loading trolley and the second loading trolley positioned at the first loading and unloading station and the second loading trolley can load the glass by using the time during the curing period, so that the glass curing time is fully utilized, and the efficiency is improved.

Preferably, the feeding device further comprises a first driving mechanism for driving the first feeding device to translate, the first driving mechanism comprises a first rack, a first gear, a first reduction gearbox and a first driving motor, the first rack is fixed with the first feeding device and extends horizontally, the first gear is meshed with the first rack, an input shaft of the first reduction gearbox is connected with the first driving motor, and an output shaft of the first reduction gearbox is coaxially connected with the first gear. The first driving motor increases output torque through the first reduction gearbox and drives the first gear to rotate, and the first gear can drive the first rack to move when rotating so as to drive the first feeding device to move horizontally.

Preferably, the feeding device further comprises a second driving mechanism for driving the second feeding device to move horizontally, the second driving mechanism comprises a second rack, a second gear, a second reduction gearbox and a second driving motor, the second rack and the second feeding device are fixed and extend horizontally, the second gear and the second rack are meshed with each other, an input shaft of the second reduction gearbox is connected with the second driving motor, and an output shaft of the second reduction gearbox is coaxially connected with the second gear. The second driving motor increases the output torque through the first reduction gearbox and drives the second gear to rotate, and the second gear can drive the second rack to move when rotating so as to drive the second feeding device to move horizontally.

Preferably, the first guide rail is arranged at the inner side of the guide rail assembly, and the second guide rail is arranged at the outer side of the guide rail assembly.

Preferably, furnace mouths on two sides of the curing furnace are hinged with outwards-turned valves, and driving hydraulic cylinders for driving the valves to open and close are arranged on two sides of the valves.

Preferably, the first loading trolley and the second loading trolley are provided with trundles, grooves are formed in the middle of the trundles, and convex strips matched with the trundles are arranged on the upper surfaces of the first guide rail and the second guide rail.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partially enlarged view of the area a in fig. 1.

Fig. 3 is a bottom view of the present invention.

Fig. 4 is a partially enlarged view of a region B in fig. 3.

Fig. 5 is a partially enlarged view of the area C in fig. 3.

Fig. 6 is a side sectional view of the present invention.

Fig. 7 is a second side sectional view of the present invention.

Fig. 8 is a schematic view of the three-dimensional structure of the utility model hidden behind the curing oven.

The curing device comprises a curing furnace 1, a valve 11, a driving hydraulic cylinder 12, a first feeding device 2, a first loading trolley 21, a second feeding device 3, a second loading trolley 31, a guide rail assembly 441, a first guide rail 42, a second guide rail 43, a convex strip 51, a first rack 52, a first gear 52, a first reduction gearbox 53, a first driving motor 54, a second rack 61, a second gear 62, a second reduction gearbox 63, a second reduction gearbox 64, a second driving motor and a caster 7.

Detailed Description

The claimed technical solution of the present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 5 and 8, the alternate feeding device of the curing oven in the embodiment includes a curing oven 1, a first feeding device 2, a second feeding device 3, a guide rail assembly 4, a first driving mechanism for driving the first feeding device 2 to translate, and a second driving mechanism for driving the second feeding device 3 to translate.

The left side and the right side of the curing oven 1 are both provided with oven ports, the oven ports on the two sides of the curing oven 1 are hinged with outward-turning type valves 11, and the two sides of each valve 11 are provided with driving hydraulic cylinders 12 for driving the valves 11 to open and close.

The guide rail assembly 4 includes a first guide rail 41 and a second guide rail 42 extending parallel to each other, and the first guide rail 41 is disposed on the inner side of the guide rail assembly 4, and the second guide rail 42 is disposed on the outer side of the guide rail assembly 4. The first guide rail 41 is used for guiding the first feeding device 2 to translate, the second guide rail 42 is used for guiding the second feeding device 3 to translate, and furthermore, convex strips 43 are formed on the upper surfaces of the first guide rail 41 and the second guide rail 42. The guide rail assembly 4 penetrates through the interior of the curing oven 1 and extends out of oven openings at two sides, so that a first loading and unloading station, a curing station and a second loading and unloading station are sequentially formed on the guide rail assembly 4 from left to right.

The first feeding device 2 comprises two first loading trolleys 21 which are connected left and right and used for loading glass, and the two first loading trolleys 21 always occupy two adjacent stations of a first loading and unloading station, a curing station and a second loading and unloading station on the guide rail assembly 4. The second feeding device 3 comprises two second loading trolleys 31 which are connected left and right and used for loading glass, and the two second loading trolleys 31 always occupy two adjacent stations of the first loading and unloading station, the curing station and the second loading and unloading station on the guide rail assembly 4. And the first feeding device 2 and the second feeding device 3 alternately occupy the first loading and unloading station and the second loading and unloading station.

The second loading trolley 31 is higher than the first loading trolley 21, and the first guide rail 41 is arranged on the inner side of the guide rail assembly 4, and the second guide rail 42 is arranged on the outer side of the guide rail assembly 4, so that the first feeding device 2 and the second feeding device 3 can be prevented from colliding with each other.

In this embodiment, the first loading carriage 21 and the second loading carriage 31 are each provided with a caster 7, the middle of said caster 7 is slotted so as to engage with a protruding strip 43 on the upper surface of the first rail 41 and the second rail 42, and the first feeding device 2 and the second feeding device 3 can be guided to translate and be prevented from derailing by the cooperation of the protruding strip 43 and the caster 7.

The first driving mechanism comprises a first rack 51, a first gear 52, a first reduction gearbox 53 and a first driving motor 54, the first rack 51 is fixed with the first feeding device 2 and extends horizontally, the first gear 52 is meshed with the first rack 51, an input shaft of the first reduction gearbox 53 is connected with the first driving motor 54, and an output shaft of the first reduction gearbox 53 is coaxially connected with the first gear 52. In this embodiment, the number of the first reduction gearbox 53 and the first driving motor 54 is one, the number of the first rack 51 and the first gear 52 is two, and the first reduction gearbox 53 has two output shafts which are coaxially connected with the two first gears 52 respectively. The first driving motor 54 increases the output torque through the first reduction box 53 and drives the first gear 52 to rotate, and the first gear 52 can drive the first rack 51 to move when rotating, so as to drive the first feeding device 2 to translate.

The second driving mechanism comprises a second rack 61, a second gear 62, a second reduction gearbox 63 and a second driving motor 64, the second rack 61 and the second feeding device 3 are fixed and extend horizontally, the second gear 62 and the second rack 61 are meshed with each other, an input shaft of the second reduction gearbox 63 is connected with the second driving motor 64, and an output shaft of the second reduction gearbox 63 is coaxially connected with the second gear 62. In this embodiment, the number of the second rack 61, the second gear 62, the second reduction gearbox 63, and the second drive motor 64 is two, the second drive motor 64 increases the output torque through the first reduction gearbox 53 and drives the second gear 62 to rotate, and the second gear 62 can drive the second rack 61 to move when rotating, so as to drive the second feeding device 3 to translate.

The use of the alternate feeding device of the curing oven in this embodiment will now be described by taking a certain process cycle as an example, and the specific steps are as follows:

s1, referring to fig. 6, two first loading trolleys 21 of a first feeding device 2 respectively occupy a first loading and unloading station and a curing station, and two second loading trolleys 31 of a second feeding device 3 respectively occupy a second loading and unloading station and a curing station; the valve 11 of the curing oven 1 is closed, and simultaneously the interior of the curing oven 1 heats the glass loaded on the first loading trolley 21 and the second loading trolley 31 to cure the adhesive; in the process of heating and curing the curing oven 1, an operator carries out glass loading and unloading operations on the first loading trolley 21 and the second loading trolley 31 which are positioned on the first loading and unloading station and the second loading and unloading station, takes out and unloads the cured glass and loads unprocessed glass, and the first loading trolley 21 and the second loading trolley 31 are respectively positioned on the first loading and unloading station and the second loading and unloading station, so that the first loading trolley 21 and the second loading trolley 31 cannot be mutually blocked.

And S2, referring to FIG. 7, after the curing is finished, the first driving mechanism and the second driving mechanism respectively drive the first feeding device 2 and the second feeding device 3 to reversely translate, after the translation is in place, the two first loading trolleys 21 of the first feeding device 2 respectively occupy the second loading and unloading station and the curing station, and meanwhile, the two second loading trolleys 31 of the second feeding device 3 respectively occupy the first loading and unloading station and the curing station. At this time, the unprocessed glass is transferred to the curing furnace 1, and the processed glass is transferred to the first loading and unloading station and the second loading and unloading station. The valve 11 of the curing oven 1 is closed, and simultaneously, the interior of the curing oven 1 heats the glass loaded on the first loading trolley 21 and the second loading trolley 31 to cure the viscose; in the process of heating and curing in the curing furnace 1, the operator performs glass loading and unloading work on the first loading cart 21 and the second loading cart 31 located at the first loading and unloading station and the second loading cart 31, takes out the cured glass, unloads the glass, and loads unprocessed glass.

And S3, after the solidification is finished, returning to the step S1.

The above-described embodiments are merely preferred embodiments of the present invention, which are not intended to limit the present invention in any way. Those skilled in the art can make further changes and modifications to the invention, or modify equivalent embodiments to equivalent variations, without departing from the scope of the invention. Therefore, the equivalent changes made by the idea of the present invention are all covered in the protection scope of the present invention.

Claims

1. The utility model provides a curing oven alternating loading attachment, includes curing oven (1), its characterized in that: the left side and the right side of the curing oven (1) are provided with oven ports, and the curing oven also comprises a first feeding device (2), a second feeding device (3) and a guide rail assembly (4); the guide rail assembly (4) comprises a first guide rail (41) and a second guide rail (42) which extend in parallel, the first guide rail (41) is used for guiding the first feeding device (2) to translate, the second guide rail (42) is used for guiding the second feeding device (3) to translate, and the guide rail assembly (4) penetrates through the interior of the curing furnace (1) and extends to the outside of furnace mouths on two sides so that the guide rail assembly (4) is sequentially provided with a first loading and unloading station, a curing station and a second loading and unloading station from left to right; the glass loading device is characterized in that the first feeding device (2) comprises two first loading trolleys (21) which are connected left and right and are used for loading glass, the second feeding device (3) comprises two second loading trolleys (31) which are connected left and right and are used for loading glass, the height of each second loading trolley (31) is higher than that of each first loading trolley (21), and the first feeding device (2) and the second feeding device (3) alternately occupy a first loading and unloading station and a second loading and unloading station.

2. The curing oven alternate feeding device of claim 1, wherein: the feeding device is characterized by further comprising a first driving mechanism for driving the first feeding device (2) to move horizontally, the first driving mechanism comprises a first rack (51), a first gear (52), a first reduction gearbox (53) and a first driving motor (54), the first rack (51) and the first feeding device (2) are fixed and extend horizontally, the first gear (52) and the first rack (51) are meshed with each other, an input shaft of the first reduction gearbox (53) is connected with the first driving motor (54), and meanwhile an output shaft of the first reduction gearbox (53) is coaxially connected with the first gear (52).

3. The curing oven alternate feeding device of claim 1, wherein: the feeding device is characterized by further comprising a second driving mechanism for driving the second feeding device (3) to move horizontally, the second driving mechanism comprises a second rack (61), a second gear (62), a second reduction gearbox (63) and a second driving motor (64), the second rack (61) and the second feeding device (3) are fixed and extend horizontally, the second gear (62) and the second rack (61) are meshed with each other, an input shaft of the second reduction gearbox (63) is connected with the second driving motor (64), and meanwhile an output shaft of the second reduction gearbox (63) is coaxially connected with the second gear (62).

4. The curing oven alternate feeding device of claim 1, wherein: the first guide rail (41) is arranged on the inner side of the guide rail assembly (4), and the second guide rail (42) is arranged on the outer side of the guide rail assembly (4).

5. The curing oven alternate feeding device of claim 1, wherein: furnace mouths on two sides of the curing furnace (1) are hinged with outwards-turned valves (11), and driving hydraulic cylinders (12) for driving the valves (11) to open and close are arranged on two sides of the valves (11).

6. The curing oven alternate feeding device of claim 1, wherein: the first loading trolley (21) and the second loading trolley (31) are provided with trundles (7), grooves are formed in the middle of the trundles (7), and raised lines (43) matched with the trundles (7) are arranged on the upper surfaces of the first guide rail (41) and the second guide rail (42).