阅读说明：本技术 一种宽幅钛锌板及其生产工艺 (Wide titanium zinc plate and production process thereof ) 是由 刘德进 于 2021-01-12 设计创作，主要内容包括：本发明提供一种宽幅钛锌板及其生产工艺,该生产工艺包括以下步骤：将镀锌板卷辊放置在放卷设备的固定架上,再将镀锌板卷辊的一端放置在接片设备上,然后启动接片设备,使得镀锌板与界面膜的初步连接；然后让接片后的镀锌板和界面膜通过纠偏器进行校正,将纠偏后的镀锌板和界面膜通过预热机进行预热,预热温度控制在120℃-160℃；将预热后的镀锌板和界面膜通过加热炉进行加热,加热炉的温度控制在290℃-330℃。该宽幅钛锌板及其生产工艺,通过设置成型工作压块、成型工作槽孔和成品受力推块,使得本发明具有自动成品出料的功能,有效提高了成品出料机构的实用性,同时加工工艺简单,节能环保,可大范围使用。(The invention provides a wide titanium zinc plate and a production process thereof, wherein the production process comprises the following steps: placing a galvanized plate roll on a fixed frame of an unreeling device, placing one end of the galvanized plate roll on a splicing device, and starting the splicing device to preliminarily connect the galvanized plate with an interface film; then correcting the spliced galvanized plate and the interface film through a deviation corrector, and preheating the corrected galvanized plate and the interface film through a preheating machine, wherein the preheating temperature is controlled to be 120-160 ℃; and (3) heating the preheated galvanized plate and the interface film by a heating furnace, wherein the temperature of the heating furnace is controlled to be 290-330 ℃. According to the wide titanium zinc plate and the production process thereof, the forming working pressing block, the forming working slotted hole and the finished product stress pushing block are arranged, so that the wide titanium zinc plate has the function of automatically discharging finished products, the practicability of a finished product discharging mechanism is effectively improved, and meanwhile, the wide titanium zinc plate is simple in processing process, energy-saving and environment-friendly and can be used in a large range.)

1. A wide width titanium zinc plate is characterized in that: this broad width titanium zinc sheet is provided with bearing structure including the galvanized sheet body that has the cavity in the cavity of this galvanized sheet body, and bearing structure is X shape and comprises a connecting portion and four supporting parts, and the supporting part all is connected with connecting portion, and the supporting part is inconsistent with the upper wall and the lower wall of cavity respectively.

2. The process for producing a wide titanium zinc plate according to claim 1, wherein: the production process comprises the following steps:

placing a galvanized plate roll on a fixed frame of an unreeling device, placing one end of the galvanized plate roll on a splicing device, and starting the splicing device to enable the galvanized plate to be preliminarily connected with an interface film;

step two, correcting the spliced galvanized plate and the interface film through a deviation corrector, and preheating the corrected galvanized plate and the interface film through a preheating machine, wherein the preheating temperature is controlled to be 120-160 ℃;

step three, heating the preheated galvanized plate and the interface film through a heating furnace, controlling the temperature of the heating furnace to be 290-330 ℃, then feeding the heated galvanized plate and the interface film into a hot laminating machine for hot laminating, and controlling the temperature of the hot laminated film to be 270-300 ℃;

fourthly, the film surface of the galvanized plate after film pasting is embossed in an embossing machine, the embossed galvanized plate is cooled by clean water, and then the galvanized plate is dried by air in a fan area;

and fifthly, sending the dried galvanized plate into an edge trimmer for trimming, fixing the head of the trimmed galvanized plate with a winding roller, and finally packaging the wound galvanized plate coil.

3. The process for producing a wide titanium zinc plate according to claim 2, wherein: the finished product discharging device is used in the production process and comprises a feeding connecting rack (1), a compression fixing case (2) is installed at the lower end of the feeding connecting rack (1), a working slotted hole (3) is formed in the compression fixing case (2), a telescopic case (4) is installed in the working slotted hole (3), a telescopic connecting shaft (5) is installed at the left end of the telescopic case (4), a forming working pressing block (6) is installed at one end, away from the telescopic case (4), of the telescopic connecting shaft (5), a machining forming case (7) is installed at the lower end of the feeding connecting rack (1), a forming working slotted hole (8) is formed at the right end of the machining forming case (7), and a feeding working slotted hole (9) is formed at the upper end of the forming working slotted hole (8), a positioning groove hole (10) has been seted up to the left end of shaping work slotted hole (8), No. two positioning groove holes (11) have been seted up to the one end that a shaping work slotted hole (8) was kept away from to a positioning groove hole (10), No. two work slotted holes (12) have been seted up to the one end that a positioning groove hole (10) was kept away from to No. two positioning groove holes (11), the internally mounted of No. two work slotted holes (12) has No. two flexible quick-witted casees (13), No. two flexible connecting axle (14) are installed to the right-hand member of No. two flexible quick-witted casees (13), No. two flexible connecting axle (14) are kept away from the one end of No. two flexible quick-witted casees (13) and are installed finished product atress ejector pad (15), the one end of reinforced connection frame (.

4. The finished product take-off device of claim 3, wherein: the first telescopic case (4) is installed inside the first working slot hole (3), and the first telescopic case (4) is matched with the first working slot hole (3).

5. The finished product take-off device of claim 3, wherein: the forming working pressing block (6) is arranged inside the forming working slotted hole (8), and the forming working pressing block (6) is matched with the forming working slotted hole (8).

6. The finished product take-off device of claim 3, wherein: the second telescopic case (13) is installed inside the second working slot hole (12), and the second telescopic case (13) is matched with the second working slot hole (12).

7. The finished product take-off device of claim 3, wherein: the second telescopic connecting shaft (14) penetrates through the inside of the second positioning slotted hole (11), and the second telescopic connecting shaft (14) is matched with the second positioning slotted hole (11).

8. The finished product take-off device of claim 3, wherein: the finished product stress pushing block (15) is installed inside the first positioning slotted hole (10), and the finished product stress pushing block (15) is matched with the first positioning slotted hole (10).

Technical Field

The invention relates to the technical field of titanium-zinc plates, in particular to a wide titanium-zinc plate and a production process thereof.

Background

The use of titanium-zinc sheet roofing/wall coverings has been known for almost two hundred years and has become very popular in large cities in europe, such as paris in france, london in uk, roman in italy, and many buildings use titanium-zinc sheets as roofing materials. Applications in asian areas are also rapidly developing.

The existing wide titanium zinc plate and the production process thereof have simple structure and have many defects which need to be improved, thereby reducing the use performance.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention tries to overcome the defects, so the invention provides the wide titanium zinc plate and the production process thereof, and the effect of improving the service performance is achieved by improving a finished product discharging device.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a this broad width titanium zinc sheet of broad width titanium zinc sheet is including the galvanized sheet body that has the cavity, is provided with bearing structure in the cavity of this galvanized sheet body, and bearing structure is X shape and comprises a connecting portion and four supporting parts, and the supporting part all is connected with connecting portion, and the supporting part is inconsistent with the upper wall and the lower wall of cavity respectively.

The production process of the wide titanium-zinc plate comprises the following steps:

placing a galvanized plate roll on a fixed frame of an unreeling device, placing one end of the galvanized plate roll on a splicing device, and starting the splicing device to enable the galvanized plate to be preliminarily connected with an interface film;

step two, correcting the spliced galvanized plate and the interface film through a deviation corrector, and preheating the corrected galvanized plate and the interface film through a preheating machine, wherein the preheating temperature is controlled to be 120-160 ℃;

step three, heating the preheated galvanized plate and the interface film through a heating furnace, controlling the temperature of the heating furnace to be 290-330 ℃, then feeding the heated galvanized plate and the interface film into a hot laminating machine for hot laminating, and controlling the temperature of the hot laminated film to be 270-300 ℃;

fourthly, the film surface of the galvanized plate after film pasting is embossed in an embossing machine, the embossed galvanized plate is cooled by clean water, and then the galvanized plate is dried by air in a fan area;

and fifthly, sending the dried galvanized plate into an edge trimmer for trimming, fixing the head of the trimmed galvanized plate with a winding roller, and finally packaging the wound galvanized plate coil.

Preferably, a finished product discharging device is used in the production process, the finished product discharging device comprises a feeding connecting frame, a compression fixed case is mounted at the lower end of the feeding connecting frame, a first working slot hole is formed in the compression fixed case, a first telescopic case is mounted in the first working slot hole, a first telescopic connecting shaft is mounted at the left end of the first telescopic case, a forming working pressing block is mounted at one end, away from the first telescopic case, of the first telescopic connecting shaft, a processing forming case is mounted at the lower end of the feeding connecting frame, a forming working slot hole is formed at the right end of the processing forming case, a feeding working slot hole is formed at the upper end of the forming working slot hole, a first positioning slot hole is formed at the left end of the forming working slot hole, a second positioning slot hole is formed at one end, away from the forming working slot hole, of the first positioning slot hole, no. two location slotted holes keep away from the one end of a location slotted hole and seted up No. two work slotted holes, the internally mounted of No. two work slotted holes has No. two flexible quick-witted casees, No. two flexible connecting axles are installed to the right-hand member of flexible quick-witted case, No. two flexible connecting axles keep away from the one end of No. two flexible quick-witted cases and install finished product atress ejector pad, the one end that reinforced connection frame was kept away from to the machine-shaping quick-witted case is installed and is carried fixing device.

Preferably, the first telescopic case is installed inside the first working slot, and the first telescopic case is matched with the first working slot.

Preferably, the molding working pressing block is installed inside the molding working slot, and the molding working pressing block and the molding working slot are matched.

Preferably, the second telescopic case is installed inside the second working slot, and the second telescopic case is matched with the second working slot.

Preferably, the second telescopic connecting shaft penetrates through the inside of the second positioning slot hole, and the second telescopic connecting shaft and the second positioning slot hole are matched.

Preferably, the finished product stress pushing block is installed inside the first positioning slot hole, and the finished product stress pushing block is matched with the first positioning slot hole.

(III) advantageous effects

The invention provides a wide titanium zinc plate and a production process thereof. The method has the following beneficial effects:

1. according to the wide titanium zinc plate and the production process thereof, the forming working pressing block, the forming working groove hole and the finished product stress pushing block are arranged, so that the wide titanium zinc plate forming machine has the function of automatically discharging finished products, the practicability of a finished product discharging mechanism is effectively improved, when the wide titanium zinc plate forming machine is used, the first telescopic machine case inside the compression fixing machine case is started, the first telescopic connecting shaft drives the forming working pressing block to be matched with the forming working groove hole to perform wide titanium zinc plate forming processing work, the second telescopic machine case inside the second working groove hole is started, the second telescopic connecting shaft is driven to perform telescopic work inside the second positioning groove hole, the finished product stress pushing block is driven to be separated from the inside of the first positioning groove hole, the processed wide titanium zinc plate is well and automatically ejected, and the working efficiency and the service performance are improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

fig. 3 is an enlarged view of the invention at a.

In the figure: the device comprises a feeding connecting rack 1, a compression fixing case 2, a working slot hole 3, a telescopic case 4, a telescopic connecting shaft 5, a forming working pressing block 6, a processing forming case 7, a forming working slot hole 8, a feeding working slot hole 9, a positioning slot hole 10, a positioning slot hole 11, a working slot hole 12, a telescopic case 13, a telescopic connecting shaft 14, a finished product stress pushing block 15 and a conveying fixing device 16.

Detailed Description

According to the first aspect of the invention, the invention provides a wide titanium zinc plate and a production process thereof, as shown in fig. 1-3, a finished product discharging device is used in the production process, the finished product discharging device comprises a feeding connecting frame 1, a compression fixing machine case 2 is installed at the lower end of the feeding connecting frame 1, a first working slotted hole 3 is formed in the compression fixing machine case 2, a first telescopic machine case 4 is installed in the first working slotted hole 3, a first telescopic connecting shaft 5 is installed at the left end of the first telescopic machine case 4, a forming working pressing block 6 is installed at one end of the first telescopic connecting shaft 5 far away from the first telescopic machine case 4, a processing forming machine case 7 is installed at the lower end of the feeding connecting frame 1, a forming working slotted hole 8 is formed at the right end of the processing forming machine case 7, a feeding working slotted hole 9 is formed at the upper end of the forming working slotted hole 8, a first positioning slotted hole 10 is, a second positioning groove hole 11 is arranged at one end of the first positioning groove hole 10 far away from the forming working groove hole 8, a second working groove hole 12 is arranged at one end of the second positioning groove hole 11 far away from the first positioning groove hole 10, a second telescopic case 13 is arranged inside the second working groove hole 12, a second telescopic connecting shaft 14 is arranged at the right end of the second telescopic case 13, a finished product stress pushing block 15 is arranged at one end of the second telescopic connecting shaft 14 far away from the second telescopic case 13, a conveying fixing device 16 is arranged at one end of the processing forming case 7 far away from the feeding connecting frame 1, a first telescopic case 4 is arranged inside the first working groove hole 3, the first telescopic case 4 is matched with the first working groove hole 3, a forming working pressing block 6 is arranged inside the forming working groove hole 8, the forming working pressing block 6 is matched with the forming working groove hole 8, and the second telescopic case 13 is arranged inside the second working groove hole 12, and the second expansion machine case 13 is matched with the second working slotted hole 12, the second expansion connecting shaft 14 passes through the inside of the second positioning slotted hole 11, the second expansion connecting shaft 14 is matched with the second positioning slotted hole 11, the finished product stress push block 15 is arranged inside the first positioning slotted hole 10, and the finished product stress push block 15 is matched with the first positioning slotted hole 10, the wide titanium zinc plate and the production process thereof, through arranging the forming working press block 6, the forming working slotted hole 8 and the finished product stress push block 15, the invention has the function of automatic finished product discharging, the practicability of the finished product discharging mechanism is effectively improved, when in use, the first expansion machine case 4 inside the compression fixed machine case 2 is started, the forming working press block 6 is driven by the first expansion connecting shaft 5 to be matched with the forming working slotted hole 8 to carry out the forming work of the wide titanium zinc plate, the second expansion machine case 13 inside the second working slotted hole 12 is started, the second telescopic connecting shaft 14 is driven to perform telescopic work in the second positioning slot hole 11, the finished product stress pushing block 15 is driven to be separated from the inside of the first positioning slot hole 10, and the processed wide titanium zinc plate is well and automatically ejected out, so that the working efficiency and the service performance are improved.

The working principle is as follows: during the use, start reinforced connecting frame 1, carry the inside of machine-shaping quick-witted case 7 with the raw materials through feeding work slotted hole 9, start the flexible quick-witted case 4 of the inside of fixed quick-witted case 2 of compression, drive the cooperation of shaping work briquetting 6 and shaping work slotted hole 8 through flexible connecting axle 5 and carry out the shaping processing work of broad width titanium zinc board, then start the flexible quick-witted case 13 of No. two inside work slotted holes 12, drive flexible connecting axle 14 of No. two and carry out flexible work in the inside of No. two location slotted holes 11, drive finished product atress ejector pad 15 and break away from the inside of a location slotted hole 10, fine with the inside of the shaping work slotted hole 8 of processed broad width titanium zinc board ejection, then fall on carrying fixing device 16, carry out output work.

Example 1

This broad width titanium zinc sheet is provided with bearing structure including the galvanized sheet body that has the cavity in the cavity of this galvanized sheet body, and bearing structure is X shape and comprises a connecting portion and four supporting parts, and the supporting part all is connected with connecting portion, and the supporting part is inconsistent with the upper wall and the lower wall of cavity respectively.

Example 2

When the wide titanium zinc plate is processed, firstly, a galvanized plate roll is placed on a fixing frame of an unreeling device, then one end of the galvanized plate roll is placed on a splicing device, and then the splicing device is started to enable the galvanized plate to be preliminarily connected with an interface film; then correcting the spliced galvanized plate and the interface film through a deviation corrector, and preheating the corrected galvanized plate and the interface film through a preheating machine, wherein the preheating temperature is controlled to be 120-160 ℃; heating the preheated galvanized plate and the interface film by a heating furnace, controlling the temperature of the heating furnace at 290-330 ℃, then feeding the heated galvanized plate and the interface film into a thermal compound machine for thermal compound film pasting, and controlling the temperature of the thermal compound film pasting at 270-300 ℃; the film surface of the galvanized plate after film pasting is embossed in an embossing machine, the embossed galvanized plate is cooled by clear water, and then the galvanized plate is dried by a fan area; and then sending the dried galvanized sheet into an edge trimmer for trimming, fixing the head of the trimmed galvanized sheet with a winding roller, and finally packaging the wound galvanized sheet coil.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.