TWM607371U - Integral vamp activating and cooling last - Google Patents
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Abstract
本新型提供一種整體鞋面活化致冷楦頭,其係用以活化或致冷由一鞋面及一鞋中底結合成的一鞋子半成品,並設有一本體、至少一進氣口及至少一噴氣口;該鞋子半成品套設於該本體;該至少一進氣口形成於該本體的外表面;該至少一噴氣口形成於該本體的外表面,並與該至少一進氣口間隔設置,且與該至少一進氣口相連通,該鞋子半成品覆蓋該至少一噴氣口;其中,氣體經由該至少一進氣口被注入該本體中,再由該至少一噴氣口流出該本體,而噴射於該鞋子半成品;藉以提供一種可提高製程效率及降低製程成本的整體鞋面活化致冷楦頭。The model provides an integral shoe upper activated refrigeration last, which is used to activate or cool a semi-finished shoe formed by a shoe upper and a shoe midsole, and is provided with a body, at least one air inlet and at least one The air jet; the semi-finished shoe is sleeved on the body; the at least one air inlet is formed on the outer surface of the body; the at least one air jet is formed on the outer surface of the body and is spaced apart from the at least one air inlet, And is connected to the at least one air inlet, and the semi-finished shoe covers the at least one air jet; wherein, gas is injected into the body through the at least one air inlet, and then flows out of the body from the at least one air jet to be injected In the semi-finished product of the shoe; thereby providing a whole shoe upper activated refrigeration last that can improve the process efficiency and reduce the process cost.
Description
本新型係涉及一種製鞋用具,尤指一種可提高製程效率及降低製程成本的整體鞋面活化致冷楦頭。The model relates to a shoe-making appliance, in particular to an integral shoe upper activation refrigeration last that can improve the manufacturing process efficiency and reduce the manufacturing process cost.
欲對一鞋面進行加工,首先要將該鞋面放置於現有加熱活化機,使該鞋面被加熱活化,待該鞋面活化完畢並冷卻後,取下該鞋面,再將該鞋面放置於現有冷卻定型機,使該鞋面被冷卻定型。現有鞋面的加工方式讓使用者要將該鞋面放置於現有加熱活化機及現有冷卻定型機等兩個機台,導致生產效率低落,再者,現有加熱活化機及現有冷卻定型機均為昂貴的機台,使現有鞋面的加工方式成本過高,因此,現有鞋面的加工方式及機構誠有其需加以改進之處。To process a shoe upper, first place the shoe upper in an existing heating activation machine to heat and activate the shoe upper. After the shoe upper is activated and cooled, remove the shoe upper, and then the shoe upper It is placed in the existing cooling setting machine, so that the upper is cooled and finalized. The existing shoe upper processing method requires the user to place the shoe upper on two machines including the existing heating activation machine and the existing cooling setting machine, resulting in low production efficiency. Moreover, the existing heating activation machine and the existing cooling setting machine are both Expensive machines make the cost of the existing shoe upper processing method too high. Therefore, the existing shoe upper processing method and mechanism need to be improved.
為解決現有鞋面的加工方式及機構導致生產效率低落,且成本過高,本新型的主要目的在於提供一種可解決目前技術問題的整體鞋面活化致冷楦頭,其係用以活化或致冷由一鞋面及一鞋中底結合成的一鞋子半成品,該整體鞋面活化致冷楦頭設有: 一本體,該鞋子半成品套設於該本體; 至少一進氣口,該至少一進氣口形成於該本體的外表面;以及 至少一噴氣口,該至少一噴氣口形成於該本體的外表面,並與該至少一進氣口間隔設置,且與該至少一進氣口相連通,該鞋子半成品覆蓋該至少一噴氣口; 其中,氣體經由該至少一進氣口被注入該本體中,再由該至少一噴氣口流出該本體,而噴射於該鞋子半成品。 In order to solve the low production efficiency and high cost caused by the existing shoe upper processing methods and mechanisms, the main purpose of the present invention is to provide an integral shoe upper activated refrigeration last that can solve the current technical problems, which is used to activate or cause A semi-finished shoe made of a shoe upper and a shoe midsole. The integral shoe upper activated refrigeration last is provided with: A body, the semi-finished shoe is sleeved on the body; At least one air inlet formed on the outer surface of the body; and At least one air injection port, the at least one air injection port is formed on the outer surface of the body, and is spaced apart from the at least one air intake port, and communicates with the at least one air intake port, and the semi-finished shoe covers the at least one air injection port; Wherein, gas is injected into the main body through the at least one air inlet, and then flows out of the main body from the at least one air injection port, and is injected into the semi-finished shoe.
進一步,如前所述之整體鞋面活化致冷楦頭,其中該整體鞋面活化致冷楦頭設有一氣體流道,該氣體流道形成於該本體中,並連通該至少一進氣口及該至少一噴氣口,該氣體流道具有一主流通段及至少一噴氣段,該主流通段與該至少一進氣口相連通,該至少一噴氣段的一端與該主流通段相連通,另一端與該至少一噴氣口相連通。Further, the integral vamp activated refrigeration last as described above, wherein the integral vamp activated refrigeration last is provided with a gas flow channel formed in the body and connected to the at least one air inlet And the at least one air injection port, the gas flow tool has a main flow passage and at least one air injection section, the main flow passage is communicated with the at least one air inlet, and one end of the at least one air injection section is communicated with the main flow passage, The other end is communicated with the at least one jet port.
再進一步,如前所述之整體鞋面活化致冷楦頭,其中該至少一噴氣段的內徑小於該主流通段的內徑。Furthermore, in the above-mentioned integral shoe upper activated refrigeration last, the inner diameter of the at least one air jet section is smaller than the inner diameter of the main flow passage section.
更進一步,如前所述之整體鞋面活化致冷楦頭,其中該整體鞋面活化致冷楦頭設有複數個所述噴氣口,該複數個噴氣口間隔形成於該本體的外表面;該氣體流道設有複數個噴氣段,各噴氣段遠離該主流通段的一端與其中一噴氣口相連通;其中氣體經由該複數個噴氣口流出該本體,而以發散的方式噴射於該鞋子半成品。Furthermore, the integral vamp activated refrigeration last as described above, wherein the integral vamp activated refrigeration last is provided with a plurality of said air jets, and the plurality of air jets are formed on the outer surface of the body at intervals; The gas flow channel is provided with a plurality of air jet sections, and one end of each air jet section away from the main flow passage is connected to one of the air jet ports; wherein the gas flows out of the body through the plurality of air jet ports, and is sprayed on the shoe in a divergent manner Semi-finished products.
較佳的是,如前所述之整體鞋面活化致冷楦頭,其中該整體鞋面活化致冷楦頭設有一吹氣口,該吹氣口形成於該本體的外表面,並與該氣體流道的該主流通段相連通,且與該至少一進氣口及該至少一噴氣口間隔設置;其中氣體經由該吹氣口流入該主流通段中,再經由該至少一噴氣段及該至少一噴氣口流出該本體,而噴射於該鞋子半成品,使該鞋子半成品與該本體相分離。Preferably, the integral vamp activated refrigeration last as described above, wherein the integral vamp activated refrigeration last is provided with an air blowing port formed on the outer surface of the body and interacting with the gas flow The main flow passage of the channel is communicated with the at least one air inlet and the at least one air injection port; wherein the gas flows into the main flow passage through the air blowing port, and then passes through the at least one air injection section and the at least one air injection port. The air jet flows out of the body and sprays on the semi-finished shoe product to separate the semi-finished shoe from the body.
更佳的是,如前所述之整體鞋面活化致冷楦頭,其中該整體鞋面活化致冷楦頭設有一吹氣口,該吹氣口形成於該本體的外表面,並與該氣體流道的該主流通段相連通,且與該至少一進氣口及該複數個噴氣口間隔設置;其中氣體經由該吹氣口流入該主流通段中,再經由與各噴氣段對應的噴氣口流出該本體,而噴射於該鞋子半成品,使該鞋子半成品與該本體相分離。More preferably, the integral vamp activated refrigeration last as described above, wherein the integral vamp activated refrigeration last is provided with an air blowing port formed on the outer surface of the body and interacting with the gas flow The main flow passage of the channel is communicated with the at least one air inlet and the plurality of air injection ports; wherein the gas flows into the main flow passage through the air blowing port, and then flows out through the air injection ports corresponding to each air injection section The body is sprayed on the semi-finished shoe to separate the semi-finished shoe from the body.
更佳的是,如前所述之整體鞋面活化致冷楦頭,其中該本體的外表面設有一底面、一側表面及一頂面;該至少一進氣口設於該底面;該複數個噴氣口間隔設於該側表面。More preferably, the integral shoe upper activated refrigeration last as described above, wherein the outer surface of the body is provided with a bottom surface, a side surface and a top surface; the at least one air inlet is provided on the bottom surface; the plural Two air jets are arranged on the side surface at intervals.
更佳的是,如前所述之整體鞋面活化致冷楦頭,其中該本體的外表面設有一底面、一側表面及一頂面;該至少一進氣口設於該底面;該複數個噴氣口間隔設於該側表面;該吹氣口設於該頂面。More preferably, the integral shoe upper activated refrigeration last as described above, wherein the outer surface of the body is provided with a bottom surface, a side surface and a top surface; the at least one air inlet is provided on the bottom surface; the plural The air blowing ports are arranged on the side surface at intervals; the air blowing ports are arranged on the top surface.
更佳的是,如前所述之整體鞋面活化致冷楦頭,其中該整體鞋面活化致冷楦頭設有兩所述進氣口,其中一進氣口鄰近該本體的頭部,另一進氣口鄰近該本體的尾部。More preferably, the integral vamp activated refrigeration last as described above, wherein the integral vamp activated refrigeration last is provided with two air inlets, one of which is adjacent to the head of the body, The other air inlet is adjacent to the tail of the body.
藉由上述的技術手段,本新型所獲得的功效增有: 1. 本新型整體鞋面活化致冷楦頭在該本體上設有該至少一進氣口、該至少一噴氣口及該氣體流道,且該氣體流道連通該至少一進氣口及該至少一噴氣口,使氣體依序經由該至少一進氣口、該氣體流道及該至少一噴氣口,而噴射於該鞋子半成品。因此,只要透過調整空氣的溫度,即可使用本新型整體鞋面活化致冷楦頭對該鞋子半成品的該鞋面進行加熱活化作業或是致冷定型作業,相對現有鞋面的加工方式,要先將該鞋面放置於現有加熱活化機進行加熱活化作業後,再將活化完畢的該鞋面放置於現有冷卻定型機進行冷卻定型作業,本新型在加工過程中不必移動該鞋面,因此可提高製成效率。 2. 本新型整體鞋面活化致冷楦頭結構簡單,相對現有加熱活化機及現有冷卻定型機的造價低,因此能降低製程成本。 With the above-mentioned technical means, the effects obtained by the present invention are increased as follows: 1. The integral shoe upper activated refrigeration last of the present invention is provided with the at least one air inlet, the at least one air jet and the gas flow channel on the body, and the gas flow channel communicates with the at least one air inlet and the gas flow channel. At least one air injection port allows gas to be injected into the semi-finished shoe through the at least one air inlet, the gas flow channel and the at least one air injection port in sequence. Therefore, as long as the temperature of the air is adjusted, the new integral vamp activation refrigeration last can be used to heat and activate the vamp of the semi-finished shoe or refrigerate the vamp. Compared with the existing vamp processing method, First place the upper in the existing heating activation machine for heating and activating, and then place the activated upper in the existing cooling setting machine for cooling and setting operations. The new model does not need to move the upper during the processing, so it can Improve production efficiency. 2. The new type of integral shoe upper activation refrigeration last has a simple structure, and the cost is lower than the existing heating activation machine and the existing cooling setting machine, so the manufacturing process cost can be reduced.
為能詳細瞭解本新型的技術特徵及實用功效,並可依照說明書的內容來實現,茲進一步以如圖式所示的較佳實施例,詳細說明如後:In order to understand the technical features and practical effects of the present invention in detail, and to implement them in accordance with the content of the specification, the preferred embodiment shown in the figure is further described in detail as follows:
本新型所提出的整體鞋面活化致冷楦頭之較佳實施例如圖1、2及5所示,其係用以活化或致冷由一鞋中底71及一鞋面72結合成的一鞋子半成品70,該整體鞋面活化致冷楦頭包括一本體10、至少一進氣口20、至少一噴氣口30、一氣體流道40、一吹氣口50及複數個氣嘴60,其中:The preferred embodiment of the integral shoe upper activation refrigeration last proposed in the present invention is shown in Figures 1, 2 and 5, which is used to activate or cool a
如圖1至3所示,該本體10具有一外表面,該外表面具有一底面11、一側表面12及一頂面13。該側表面12連接該底面11及該頂面13,該頂面13與該底面11間隔設置。如圖5所示,當該鞋子半成品70套設於該本體10時,該本體10的該底面11貼靠於該鞋中底71,該本體10的該側表面12貼靠於該鞋面72。As shown in FIGS. 1 to 3, the
如圖1至3所示,該至少一進氣口20形成於該本體10的外表面,較佳的是,該至少一進氣口20設於該本體10的該底面11。於本新型的較佳實施例中,該整體鞋面活化致冷楦頭設有兩所述進氣口20,其中一進氣口20鄰近該本體10的頭部,另一進氣口20鄰近該本體10的尾部。As shown in FIGS. 1 to 3, the at least one
如圖1及2所示,該至少一噴氣口30形成於該本體10的外表面,較佳的是,該至少一噴氣口30設於該本體10的該側表面12,該至少一噴氣口30與該至少一進氣口20間隔設置,且與該至少一進氣口20相連通。如圖5所示,該鞋子半成品70的該鞋面72覆蓋該至少一噴氣口30。進一步,該整體鞋面活化致冷楦頭設有複數個所述噴氣口30,該複數個所述噴氣口30間隔設於該本體10的該側表面12,而間隔形成於該本體10的外表面。As shown in Figures 1 and 2, the at least one
如圖1至3所示,該氣體流道40形成於該本體10中,並連通該至少一進氣口20及該至少一噴氣口30,使氣體經由該至少一進氣口20被注入該氣體流道40中,再由該至少一噴氣口30流出該本體10,而噴射於該鞋子半成品70的該鞋面72;該氣體流道40具有一主流通段41及至少一噴氣段42。該主流通段41與該至少一進氣口20相連通。該至少一噴氣段42的一端與該主流通段41相連通,另一端與該至少一噴氣口30相連通,且該至少一噴氣段42的內徑小於該主流通段41的內徑。As shown in FIGS. 1 to 3, the
進一步,該氣體流道40設有複數個噴氣段42,各噴氣段42遠離該主流通段41的一端與其中一噴氣口30相連通,使氣體流入該主流通段41後,再經由該複數個噴氣口30流出該本體10,而以發散的方式噴射於該鞋子半成品70,使該鞋子半成品70的該鞋面72能均勻地被加熱活化或致冷定型。氣體由該複數個噴氣口30流出該本體10的過程中,由於各噴氣段42的內徑小於該主流通段41的內徑,因此氣體壓力不會因為氣體由該主流通段41流通至各噴氣段42而降低,因此能確保噴氣的效果。Further, the
如圖1至3所示,該吹氣口50設於該本體10的該頂面13,而形成於該本體10的外表面,並與該至少一進氣口20及該至少一噴氣口30間隔設置,該吹氣口50與該氣體流道40的該主流通段41相連通。當氣體經由該吹氣口50流入該主流通段41中,再經由各噴氣段42流出該本體10,而噴射於該鞋子半成品70,使該鞋子半成品70與該本體10相分離。As shown in FIGS. 1 to 3, the blowing
如圖1至3所示,各氣嘴60設於該至少一進氣口20及該吹氣口50中。As shown in FIGS. 1 to 3, each
本新型的使用方式如圖4至6所示,首先將該鞋子半成品70套設於該本體10,該鞋中底71設有至少一穿孔711,設於該至少一進氣口20的該氣嘴60如圖5所示地由該穿孔711伸出該鞋中底71。如圖6所示,接著將加熱過的氣體注入設於該至少一進氣口20的該氣嘴60,使加熱過的氣體經由該至少一進氣口20被注入該氣體流道40的該主流通段41中,接著被分流至該複數個噴氣段42中,最後再由該複數個噴氣口30流出該本體10,而噴射於該鞋子半成品70的該鞋面72,而能加熱活化該鞋面72。接著再將冷卻過的氣體注入設於該至少一進氣口20的該氣嘴60,使冷卻過的氣體經由該至少一進氣口20被注入該氣體流道40的該主流通段41中,再被分流至該複數個噴氣段42中,最終由該複數個噴氣口30流出該本體10,而噴射於該鞋子半成品70的該鞋面72,而能致冷定型該鞋面72。如圖7所示,待該鞋面72定型後,將氣體注入設於該吹氣口50的該氣嘴60,使氣體流通至該氣體流道40的該主流通段41中,再被分流至該複數個噴氣段42中,並由該複數個噴氣口30流出該本體10,而噴射於該鞋子半成品70,使該鞋子半成品70的該鞋面72被撐開,並與該本體10相分離,使用者即可輕易地將加工完畢的該鞋子半成品70由該本體10取下。最後在將一鞋底黏合於該鞋子半成品70的該鞋中底71。The method of use of the present invention is shown in Figures 4 to 6. First, the
藉由上述的技術手段,本新型所獲得的功效增有:
1. 本新型整體鞋面活化致冷楦頭在該本體10上設有該至少一進氣口20、該至少一噴氣口30及該氣體流道40,且該氣體流道40連通該至少一進氣口20及該至少一噴氣口30,使氣體依序經由該至少一進氣口20、該氣體流道40及該至少一噴氣口30,而噴射於該鞋子半成品70。因此,只要透過調整空氣的溫度,即可使用本新型整體鞋面活化致冷楦頭對該鞋子半成品70的該鞋面72進行加熱活化作業或是致冷定型作業,相對現有鞋面的加工方式,要先將該鞋面放置於現有加熱活化機進行加熱活化作業後,再將活化完畢的該鞋面放置於現有冷卻定型機進行冷卻定型作業,本新型在加工過程中不必移動該鞋面72,因此可提高製成效率。
2. 本新型整體鞋面活化致冷楦頭結構簡單,相對現有加熱活化機及現有冷卻定型機的造價低,因此能降低製程成本。
With the above-mentioned technical means, the effects obtained by the present invention are increased as follows:
1. The activated refrigeration last of the integral shoe upper of the new type has the at least one
10:本體 11:底面 12:側表面 13:頂面 20:進氣口 30:噴氣口 40:氣體流道 41:主流通段 42:噴氣段 50:吹氣口 60:氣嘴 70:鞋子半成品 71:鞋中底 72:鞋面10: body 11: Bottom 12: side surface 13: top surface 20: air inlet 30: Jet port 40: Gas flow path 41: Mainstream pass 42: Jet section 50: Blow mouth 60: Gas Mouth 70: semi-finished shoes 71: shoe midsole 72: upper
圖1係本新型較佳實施例之立體外觀圖。 圖2係本新型較佳實施例之另一視角的立體外觀圖。 圖3係本新型較佳實施例之局部剖面側視圖。 圖4至7係本新型較佳實施例之實施狀態的局部剖面側視圖。 Figure 1 is a perspective view of a preferred embodiment of the present invention. Fig. 2 is another perspective view of the external appearance of the preferred embodiment of the present invention. Figure 3 is a partial cross-sectional side view of the preferred embodiment of the present invention. 4 to 7 are partial cross-sectional side views of the implementation state of the preferred embodiment of the present invention.
10:本體 10: body
12:側表面 12: side surface
13:頂面 13: top surface
20:進氣口 20: air inlet
30:噴氣口 30: Jet port
40:氣體流道 40: Gas flow path
41:主流通段 41: Mainstream pass
42:噴氣段 42: Jet section
50:吹氣口 50: Blow mouth
60:氣嘴 60: Gas Mouth
Claims (10)
Priority Applications (1)
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TW109210154U TWM607371U (en) | 2020-08-06 | 2020-08-06 | Integral vamp activating and cooling last |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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TW109210154U TWM607371U (en) | 2020-08-06 | 2020-08-06 | Integral vamp activating and cooling last |
Publications (1)
Publication Number | Publication Date |
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TWM607371U true TWM607371U (en) | 2021-02-11 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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TW109210154U TWM607371U (en) | 2020-08-06 | 2020-08-06 | Integral vamp activating and cooling last |
Country Status (1)
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TW (1) | TWM607371U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI758812B (en) * | 2020-08-06 | 2022-03-21 | 主典興業股份有限公司 | Integral vamp activated cooling last |
-
2020
- 2020-08-06 TW TW109210154U patent/TWM607371U/en unknown
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI758812B (en) * | 2020-08-06 | 2022-03-21 | 主典興業股份有限公司 | Integral vamp activated cooling last |
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