M376584 五、新型說明: 【新型所屬之技術領域】 本創作係屬一種具快速循環之圓筒型染布機,尤指改良一種 圓筒型染布機循環結構,以加速布匹流速及達成染色更均勻之 效果所屬者。 【先前技術】 習用圓筒型染布機之積布槽係由圓筒型流道所構成,依其布 匹循環動力係經由上方設有之帶布滾輪,將原位於下方之布匹 拉起後再順勢向下配合其出布喷嘴,為強力喷染後續衝入積布 槽内為堆疊移動’惟因布匹之循環速度於進入堆疊之狀態時易 產生速率遲滯之現象,致影響其布匹染色之速率及品質,同 時’當布匹又須藉由設於最高處的帶布輪為牵引拖拉時,也因 上下間之速率差距及重力差易造成布匹纖維的損傷,而為其缺 失者。 本創作圓筒型染布機因具有讓布匹於機體内以衡常速率為 快速猶環之功能,因此相較習用同類產品之染色不均缺失已加 以改善,再配合擋水導板及積布槽之可同步旋轉性及抽氣幫 浦自機體内抽出熱氣,經加壓後循空氣管路輪送至出布喷嘴, 以併同染液喷染於布匹’讓布匹於機體内循環時有甚多的助推 點,並恰可配合上方帶步輪之速率,因此布匹行進始終處於恆 常同步狀態,而避免傷及布匹纖維者。 3 M376584 【新型内容】 本創作係屬一種具快逮循環之圓筒型染布機,依其結構主要 係由一圓筒型機身、帶布滾輪、喂布喷嘴、出布喷嘴、擋水導 板及積布槽組合所成,其中該出布喷嘴設於右端循環管路中 途,分由染液循環管路及空氣管路銜接,以經由其喷嘴喷出染 液及高壓氣體〇 如本創作係屬一種具快速循環之圓筒型染布機,依其結構主 要係由一圓筒型機身、帶布滚輪、喂布喷嘴、出布喷嘴、稽水 導板及積布槽组合所成’其中該擋水導板固設於圓桶型機身内 壁右上端之出布流道上。 如本創作係屬一種具快速循環之圓筒型染布機,依其結構主 要係由一圓筒型機身、帶布滾輪、喂布噴嘴、出布噴嘴、擒水 導板及積布槽組合所成,其中該擺布器介置於圓筒型染布機之 雙積布槽間,以連動各出布管為左右間擺動。 如本創作係屬一種具快速循環之圓筒型染布機,依其結構主 要係由一圓筒型機身、帶布滾輪、喂布喷嘴、出布噴嘴、擋水 導板及積布槽組合所成,其中該積布槽係以其轴心,隨循環布 匹為同步旋轉。 【實施方式】 請參閱第一圖係習用圓筒型染布機結構示意圖,其中圓筒型 4 染布機10主要係由—關_身u、帶布滾輪12、喂布喷嘴 13出布噴嘴14及積布槽15组合所成,惟當實鱗該布匹 係伴隨染液(本圖為示出)由出布管17衝出一齊沙入積布 槽15内裡流道為擠壓堆疊,續依其重力與慣性衝力行進因 此、布匹16循環速度g於此段產生遲滞,後雖藉由位於最高 處的帶布,袞輪I2為助力而牽引拖拉,卻因此於布匹16循環速 率放慢與不均之情形下,易造成布匹16染色科勻、染色效 率差及其纖維的損傷’皆屬應改進之缺失者。 請參閱第二圖係本創作圓筒型染布機結構示意圖,其中圓筒 型染布機20之結構主要係由一圓筒型機身21、帶布滾輪22、 喂布喷嘴23、出布喷嘴24、擋水導板25及積布槽26組合所 成’其中該圓筒型機身21之頂端架設有倒v型循環管路27, 以延伸積布槽26流路,另底1端則設有腳架28及染液回輸管 29(亦稱排水管);其中該帶布滾輪22設於v型循環管路27之 尖端’用以拉上循環之布匹3〇,再於最高處輸下布匹30至積 布槽26内裡;其中該喂布喷嘴23設於左端循環管路中途,以 液流方式喷染於中途穿出的循環布匹30 ;其中該出布喷嘴24 設於右端循環管路中途,可配合圓筒型機身21外的抽氣幫浦 31而將其機體内之高熱氣體抽出,以循空氣管路32及併同染 液循環管路(本圖為示出)銜接出布喷嘴24,再藉其向下喷染 布匹30(請參第三圖即明);其中該擋水導板25固設於圓桶型 機身21内壁右上端之出布流道上,配合一擺布器33左右擺動 出布管34,讓布匹30及染液(本圖未示出),能同時被被其導 流至王Π形體之積布槽26内壁間;其中該積布槽26因呈Π 形狀環而設於圓筒型機身21内裡,藉由其下方之開口,可通 過介置循環流道間之阻麟,包域水祕25後方固定於圓 筒型機身内壁的支架(本圖為示出)、布匹3〇與出布管34,以 讓積布槽26賴其批35喊布匹3G之魏料為同步旋 轉,如此,除加速布匹30循環染色,而不再於此段產生遲滯 以解決染色不㈣之缺失外,同時也避免布匹3G纖維因被拉 扯而有破壞之虞慮者。 請參閱第三圖係本創作正面透視之部分實施例示意圖,其中 由-介置於關雜布機2G之雙積树26 _擺布器33, 以連動出布管34為左右間縣,並合料導板25,讓循環 布匹30能依序摺疊入積布槽26内裡,使得布匹3〇與積布槽 26能同步猶環旋轉;再由本目亦可視出該抽氣幫浦&藉由空 乳營路32將圓筒型機身21内裡之熱氣抽出加壓,再分別銜接 至兩出布喷嘴24’以各隨其染麵環管路(本圖為示出)所輸 送而至的染液併同為強力向下喷染布匹加者。 【圖式簡單說明】 第一圖係習用圓筒型染布機結構示意圖。 第二圖係本創作圓筒型染布機結構示意圖。 第二圖係本創作正面透視之部分實施例示意圖。 M376584 【主要元件符號說明】 10—圓筒型染布機11 一圓筒型機身12—帶布滾輪 13—喂布喷嘴1Φ—出布喷嘴15—積布槽 16一布匹 17—出布管 20—圓筒型染布機21—圓筒型機身22—帶布滾輪 23—喂布噴嘴24—出布喷嘴25—擋水導板 26—積布槽27—V型循環管路28—腳架 29—染液回輸管(排水管)30—布匹31—抽氣幫浦 32—空氣管路33—擺布器 34—出布管35—轴心M376584 V. New description: 【New technology field】 This creation is a kind of cylindrical dyeing machine with fast cycle, especially to improve the circulation structure of a cylindrical dyeing machine to accelerate the cloth flow rate and achieve dyeing. The effect of the uniform effect belongs to. [Prior Art] The cloth groove of the conventional cylindrical dyeing machine is composed of a cylindrical flow path, and the cloth that is originally located below is pulled up by the cloth circulation roller provided above according to the cloth circulation power system. The machine is downwardly matched with the discharge nozzle, and the stack is moved into the stacking groove for strong spray dyeing. However, the rate of retardation of the cloth is likely to occur when the cycle speed of the cloth enters the stack state, which affects the rate of dyeing the cloth. And the quality, at the same time 'When the cloth has to be pulled by the belt wheel at the highest point, it is also the loss of the cloth fiber due to the difference in speed between the upper and lower sides and the gravity difference. The creation of the cylindrical dyeing machine has the function of allowing the cloth to be fast in the body at a constant rate. Therefore, the dyeing unevenness has been improved compared with the conventional products, and the water retaining guide and the cloth are combined. The synchronous rotability of the tank and the pumping pump pump out the hot air from the machine body. After being pressurized, the air pipeline is sent to the discharge nozzle to spray the dye on the cloth with the dye solution. There are a lot of boost points, and it can match the speed of the wheel with the top, so the cloth travel is always in a constant state, and avoids the injury of the cloth fiber. 3 M376584 [New Content] This creation is a cylindrical dyeing machine with fast catching cycle. Its structure is mainly composed of a cylindrical body, belt roller, feeding nozzle, cloth nozzle and water guide. The plate and the accumulation groove are combined, wherein the discharge nozzle is arranged in the middle of the circulation pipe at the right end, and is connected to the dye circulation pipe and the air pipe to spray the dye liquid and the high pressure gas through the nozzle. It is a kind of cylindrical dyeing machine with fast circulation. According to its structure, it is mainly composed of a cylindrical body, a cloth roller, a feeding nozzle, a cloth discharge nozzle, a water guiding guide and a stacking groove. The water retaining guide is fixed on the outlet flow passage at the upper right end of the inner wall of the drum type body. For example, this creation belongs to a cylindrical dyeing machine with rapid circulation. The structure mainly consists of a cylindrical body, a cloth roller, a feeding nozzle, a cloth discharge nozzle, a water guiding plate and a stacking groove. The device is disposed between the double cloth grooves of the cylindrical dyeing machine to oscillate the left and right pipes. For example, this creation belongs to a cylindrical dyeing machine with rapid circulation. The structure mainly consists of a cylindrical body, a cloth roller, a feeding nozzle, a cloth discharge nozzle, a water blocking guide and a stacking groove. The resulting groove is rotated in synchronization with the circulating cloth with its axis. [Embodiment] Please refer to the first figure for a schematic view of the structure of a conventional cylindrical dyeing machine. The cylindrical type 4 dyeing machine 10 is mainly used for discharging the nozzle by the closing body 12, the cloth roller 12, and the feeding nozzle 13. 14 and the accumulation groove 15 is combined, but when the cloth is mixed with the dyeing liquid (shown in the figure), the distribution pipe 17 is punched out and the sand is filled into the groove 15 to be an extrusion stack. Continued to follow its gravity and inertial force. Therefore, the cycle speed g of the cloth 16 produces hysteresis in this section. After the belt is placed at the highest position, the wheel I2 is pulled by the assisting force, but it is placed at the cycle rate of the cloth 16 In the case of slowness and unevenness, it is easy to cause the dyeing of the cloth 16 to be uniform, the dyeing efficiency is poor, and the damage of the fiber is the missing one. Please refer to the second drawing for a schematic view of the structure of the cylindrical dyeing machine. The structure of the cylindrical dyeing machine 20 is mainly composed of a cylindrical body 21, a cloth roller 22, a feeding nozzle 23, and a cloth discharging nozzle. 24, the water retaining guide 25 and the accumulation groove 26 are combined into a 'the bottom of the cylindrical body 21 is provided with an inverted v-shaped circulation line 27 to extend the flow path of the accumulation groove 26, and the other end is A tripod 28 and a dyeing liquid return pipe 29 (also referred to as a drain pipe) are provided; wherein the cloth roller 22 is disposed at the tip end of the v-shaped circulation pipe 27 for pulling the circulating cloth 3〇, and then at the highest point The cloth 30 is delivered to the inside of the accumulation groove 26; wherein the feeding nozzle 23 is disposed in the middle of the circulation pipe at the left end, and is sprayed by the liquid flow to the circulating cloth 30 which is passed through in the middle; wherein the discharge nozzle 24 is disposed at the right end In the middle of the circulation pipeline, the high-heat gas in the body can be extracted with the pumping pump 31 outside the cylindrical body 21 to follow the air line 32 and the dyeing liquid circulation line (this figure shows Connecting the cloth nozzle 24, and then spraying the cloth 30 downward (refer to the third figure); wherein the water blocking guide 25 is fixed on the drum machine On the outlet flow path of the right upper end of the inner wall 21, the cloth 34 is oscillated from the swinging device 33 so that the cloth 30 and the dyeing liquid (not shown in the figure) can be simultaneously guided to the fabric of the king's body. Between the inner walls of the groove 26, wherein the accumulation groove 26 is disposed in the cylindrical body 21 due to the 形状-shaped ring, and the opening below the opening can pass through the blocking channel between the circulation channels. The rear of the secret 25 is fixed to the inner wall of the cylindrical body (shown in the figure), the cloth 3〇 and the outlet pipe 34, so that the cloth groove 26 is rotated synchronously by the batch of the 3G fabric. In this way, in addition to accelerating the cloth 30 cycle dyeing, and no longer causing hysteresis in this section to solve the lack of dyeing (4), but also avoiding the discrepancies of the cloth 3G fiber being damaged by being pulled. Please refer to the third figure for a schematic diagram of a part of the front view of the present invention, in which the double-tree 26 _ arranging device 33 is placed in the 2G machine, and the pipe 34 is connected to the left and right county. The material guide plate 25 allows the circulating cloth 30 to be sequentially folded into the inner side of the accumulation groove 26, so that the cloth 3〇 and the accumulation groove 26 can be rotated in synchronism; and the suction pump can be seen from the present item. The hot air in the inner surface of the cylindrical body 21 is extracted and pressurized by the empty milk camp road 32, and then connected to the two discharge cloth nozzles 24' respectively, respectively, which are conveyed along with the dye ring line (shown in the figure). The dye solution to the same is the same as the strong downward spray dye cloth. [Simple description of the drawing] The first figure is a schematic diagram of the structure of a conventional cylindrical dyeing machine. The second picture is a schematic diagram of the structure of the cylindrical dyeing machine of the present invention. The second figure is a schematic diagram of some embodiments of the front perspective of the present creation. M376584 [Description of main components] 10—Cylinder dyeing machine 11 A cylindrical body 12—with cloth roller 13—feeding nozzle 1Φ—distributing nozzle 15—stuffing groove 16-cloth 17—outlet pipe 20 - Cylindrical dyeing machine 21 - cylindrical body 22 - belt roller 23 - feeding nozzle 24 - discharging nozzle 25 - water blocking guide 26 - accumulation groove 27 - V type circulation line 28 - foot Frame 29 - dyeing liquid return pipe (drain pipe) 30 - cloth 31 - pumping pump 32 - air line 33 - swinging device 34 - outlet pipe 35 - axis