201111145 六、發明說明: 【發明所屬之技術領域】 +本發明涉及到-種可調溫的成型模具,尤其是金屬製作的成 型模具,帶有—個成型接觸面和至少有與模具—體化的調溫模腔。 【先前技術】 習知的鑄模技術,在進行成型時,都是將熱塑性塑膠、熱 性塑膠或彈性體材料構成注塑件,再把該注塑件 二而财以杆麵似型 模具組成’而成型模具的接觸面若是溫度不均勻,在 形成模具的表面是在該結構框架内作為接觸面考i的, 精产=確i了工件的表面。由於缺陷會影響工件表面的成型 精度’例如.由於枯合縫缺口、光澤差異或形成的 缺陷有型的接觸面溫度不均勻會產生這“面缺陷。、 有鏗於此,本案發明人乃針對上述缺點,努 ^明並配合多年從細繼之絲顯,㈣作出此一實用 【發明内容】 承4發Ζίίΐ卿在第—模具件及第二模具件之間構成有支 情況ί 4傳統賴工受溫不均造缸絲面缺陷之 【實施方式】 多段具二’主要係”具有 該成麵具⑴具有模具模腔⑵,與mm具 201111145 相連構成模腔’以利將塑化加工材料引 (j) r僅成為注射模具模腔的-小二模^ 毫乎兮^ &第模具件(3)構成,其結構實際厚度約為5 第具件⑶的上部與模具模腔⑵相對應構成成 =觸面⑷’以便將塑料材料引人模具模腔(2)成型%亥第一 笛⑻下方’以限制該調溫模腔⑻是透過 面“ϋ3)和第二模具件(5)正面的後側⑺以形成接觸 ,(4) ’該第-模具件⑶的後侧⑺與第二模具件⑸前侧 ^的間距約為2G毫米,該調溫模腔⑻具有兩個入σ接頭(9, =二固出:接頭(1〇),該兩個入口接頭(9,9.1)及出口 具Ϊϋ 口ίτ击,該兩個入口接頭(9,9·1)和出口接頭(10) 具有冷部酬可以連接及在使用成賴具⑴時與 連 溫ΐ腔(6)透過人口接頭(9,9. υ載人冷卻液體,並 透過出口接頭(10)與調溫模腔(6)脫開。 置於己置一個支承空間⑻。支承空間⑻係 二Λ 模具件⑸間,並被保留在纖^ •、包i二二七支樓,結構實例的表現係為利用紹合金製作的銘 泡来球(11)作支承體用,該銘泡沫球具有封閉的表面。 支承體(11)有彳目近似球形的形狀,實際運用上 7(M&=為佳’利用該支承體(11)的緊密排列形成支承二空間 模腔⑻内第—模具件⑶的後側和第二模具件⑸ 的則側⑻之間含有一定預應力配置了支承體( 承體(11)夾緊在調溫模腔⑹内保持不活動,該= 體(11)的尺寸和第-圖内調溫模腔(6) ===(„)後㈣, 内的支承體(11)可被錢魏,且各支承體( 接的縫隙非常小,而這些支承體(η)之間在調溫模腔⑻内保 201111145 持足夠流量,由於簡化的原因,第一圖内支承空間(s)及支承體 (11)僅表示一部分,支承空間(s)實際延伸是透過調溫模腔(6) 的整個擴展,透過該支承體(11)保證在第二模具件(5 )前側(8 ) 的接觸面出現壓力對第一模具件(3)的有效支禮。 由於第一模具件(3)統一厚度在調溫模腔(6)内間距均勻, 使用成型模具(1)時接觸面(4)可以非常均勻地快速冷卻,而 成型模具(1) 一體化設有一個推料桿(12),該推料桿(12)並 沒有限定種類及方式,該推料桿(12)可延伸到調溫模腔(6)内。 由於在使用成型模具(1)時流體全部流過,推料套管(13)連接 推料桿(12)位於調溫模腔(6)内,該推料套管(13)透過調溫 模腔(6)推出來的液體在第一模具件(3)的後側(7)和第二模 具件(5)的前侧形成封閉。 第一圖所展示的是成型模具(1)的放大的切口,清楚說明在 調溫模腔(6)内形成支承體(11)建成支承空間(s)的情況, 在調溫模腔(6)内把支承體(11)調節成前面所述的三個位置, 液壓橫截面剩餘的孔隙足夠用於冷卻系統。 使用該成型模具時,影響接觸面(4)的壓力由於支承體(η ) 的支撐從第一模具件(3)後側傳送到第二模具件(5),因此第二 模具件(5)的前側(8)構成支承空間(s)的支座,鄰近第一模 具件(3)的後側(7)的支承體(11)明確表明由於配置支承體 (11)分佈若干個成型模具件上,鄰近的第二模具件(5)在前側 形成支承體(11> ^不僅在第一模具件(3)的後側(7),而且在第二模具件(5) 的剛侧(8)均存在支承體(11)的預應力,保證支承空間(S) 的成型穩定性和有助於將熱量從第一模具件(3)傳導到支承體 (11),該支承體(H)係採用熱傳導性好的材料,使第一模具件 (3)的熱傳導表面擴大,由此有助於接觸面(4)的調溫系統, 使得接觸面(4)能平均受溫,進而避免因接觸面(4)受溫不平均的 情況而造成模具表面粘合縫缺口、光澤差異及形成的雲霧狀和條 201111145 痕缺陷等問題的發生。 第二圖崎標記的箭頭係表示人口接頭(9)調溫流體的流量 f向’由於支承體(11)外觀球形,該第一模具件⑶的後侧⑺ 與接觸面鄰近,支承空間⑻調溫流體孔隙的調溫模腔⑹直接 ,觸的後側⑺表面部分比較大,Μ要時,調溫模腔⑹可以 ,過固定安裝套管、雜或餘料獅支撐,可贿用控制流 的辅助支承工具’這種情況下流量不會流動,其他情況下可以 由調溫流體形成流動。 第二圖及第四圖係為絲示可以選擇支承空間⑻的另一種 f成型態,而位於第-模具件⑶及第二模具件⑸之間配置,該 承空間(S)可為棱錐體結構(⑷,該棱錐體結構(⑷是由單 一棱錐體(15)構成’且棱錐體(15)彼此相互排列或相互錯位排 為了能更好地承受成顏具⑴賴力,棱雜(15)頂部(⑹ 係呈平滑狀,該棱錐體(15)首先牢固地配置在一塊板(17)上 位於第二模具件⑸旁,使用棱錐體結構(14)是-種支承結構, 以便在調溫模腔(6)下部支撐頂部壓力和繼續傳遞給第一及第二 ,具件(3.5)。因為板(17)及第一與第二模具件(3,5)的間隙 疋咬合連接的。 本發明借助結構實例說明,沒有脫離專利要求範圍。實現本 ^明專業人員有很多其他方法,這裡沒有必要逐一詳細說明,借助 、、’。構實例組合說明本發明的特徵,結構實例也可以獨立採用。 、综合上述,本發明之方法改良具有絕佳產業功效,確實未見 何刊物及市面上之既有產品及方法當巾亦非為熟悉該項技 '_者可易於思及之,其具有新穎性專利要件乃不容置疑,另,其 ^有效解決習賴題,亦為其具有進步性及產#利祕等專利^ 件的最佳表現,其完全符合我國發明專利申請之要件規定,乃依 法提起申請。 【圖式簡單說明】 201111145 第一圖:係為本發明組合剖面示意圖。 第二圖:係為本發明支承空間與支承體組成剖面示意圖。 第三圖:係為本發明支承空間表面另一型態實施例側視圖。 第四圖:係為本發明支承空間表面另一型態實施例俯視圖。 【主要元件符號說明】 成型模具1 模具模腔2 第一模具件3 接觸面4 第二模具件5 調溫模腔6 後側7 前側8 入口接頭9、9.1 出口接頭10 支承空間S 支承體11 推料桿12 推料套管13 棱錐體結構14 棱錐體15 頂部16 板17201111145 VI. Description of the invention: [Technical field to which the invention pertains] + The present invention relates to a temperature-adjustable molding die, in particular a metal-made molding die, with a molded contact surface and at least a mold-forming body Temperature control cavity. [Prior Art] Conventional molding technology, in the molding, is made of thermoplastic plastic, thermoplastic or elastomer material into an injection molded part, and then the injection molded part is made up of a face-like mold. If the contact surface is uneven in temperature, the surface on which the mold is formed is used as the contact surface in the structural frame, and the surface of the workpiece is confirmed. Since the defect affects the molding accuracy of the surface of the workpiece, for example, the "face defect" may occur due to the unevenness of the gap, the difference in gloss or the defect formed. The inventor of the present invention is directed to The above-mentioned shortcomings, and the combination of the two years from the fineness of the silk, (four) made this practical [invention content] Cheng 4 hair Ζ ί ΐ ΐ Qing in the first - mold parts and the second mold parts constitute a support situation ί 4 traditional [Embodiment] The multi-section has two 'main lines' with the mold cavity (1) with a mold cavity (2), which is connected with the mm tool 201111145 to form a cavity 'to facilitate the plasticized processing material The reference (j) r is only formed by the injection mold cavity - the small two mold ^ 兮 ^ & the first mold member (3), the actual thickness of the structure is about 5, the upper part of the third piece (3) and the mold cavity (2) Corresponding to form = contact surface (4)' to introduce the plastic material into the mold cavity (2) to form the lower part of the first flute (8) to limit the temperature control cavity (8) is the transmission surface "ϋ3" and the second mold part (5 ) the rear side of the front side (7) to form a contact, (4) 'the first mold The distance between the rear side (7) of the (3) and the front side of the second mold member (5) is about 2 Gmm, and the temperature control cavity (8) has two σ joints (9, = two solids: joints (1 〇), the two The inlet joint (9, 9.1) and the outlet have a port ίτ, the two inlet joints (9, 9·1) and the outlet joint (10) have a cold connection and can be connected with the splicing The cavity (6) passes through the population joint (9, 9. υ manned cooling liquid and is disengaged from the temperature regulating cavity (6) through the outlet joint (10). Placed in a support space (8). Support space (8) The second mold part (5), and is retained in the fiber ^ •, package i 227 buildings, the structural example of the performance of the use of Shao alloy made of the bubble to the ball (11) for the support, the name foam ball The support body (11) has a shape similar to a spherical shape, and the actual application 7 (M&= is good' uses the tight arrangement of the support body (11) to form the second mold cavity (8). The support body is placed between the rear side of the piece (3) and the side (8) of the second mold part (5) with a certain pre-stress (the body (11) is clamped in the temperature control cavity (6) Keep inactive, the size of the body (11) and the temperature inside the cavity (6) ===(„) (4), the inner support (11) can be used by Qian Wei, and each support body ( The gap between the supports is very small, and the support body (η) maintains sufficient flow in the temperature control cavity (8) 201111145. For the sake of simplicity, the support space (s) and the support body (11) in the first figure only represent In one part, the actual extension of the support space (s) is through the entire expansion of the temperature control cavity (6), through which the pressure on the contact surface of the front side (8) of the second mold part (5) is guaranteed to be first. Effective support of the mold part (3). Since the uniform thickness of the first mold part (3) is uniform in the temperature control cavity (6), the contact surface (4) can be cooled very uniformly and quickly using the molding die (1). The forming mold (1) is integrally provided with a push rod (12), and the push rod (12) is not limited in kind and manner, and the push rod (12) can be extended to the temperature regulating mold cavity (6) Inside. Since the fluid flows through when the molding die (1) is used, the pusher sleeve (13) is connected to the pusher bar (12) in the temperature regulating cavity (6), and the pusher sleeve (13) is passed through the temperature regulating die. The liquid pushed out by the cavity (6) forms a seal on the front side (7) of the first mold member (3) and the front side of the second mold member (5). The first figure shows the enlarged cut of the forming die (1), which clearly shows the case where the support body (11) is formed in the temperature control cavity (6) to complete the support space (s), and the temperature control cavity (6) The support body (11) is adjusted to the three positions described above, and the remaining pores of the hydraulic cross section are sufficient for the cooling system. When the molding die is used, the pressure affecting the contact surface (4) is transferred from the rear side of the first mold member (3) to the second mold member (5) due to the support of the support body (η), so the second mold member (5) The front side (8) constitutes a support for the support space (s), and the support (11) adjacent to the rear side (7) of the first mold member (3) clearly indicates that a plurality of forming mold parts are distributed due to the arrangement of the support body (11) Upper, the adjacent second mold member (5) forms a support body (11) on the front side not only on the rear side (7) of the first mold member (3) but also on the rigid side of the second mold member (5) (8) ) pre-stressing of the support body (11), ensuring the forming stability of the support space (S) and facilitating the conduction of heat from the first mold part (3) to the support body (11), the support body (H) The material with good thermal conductivity is used to enlarge the heat conduction surface of the first mold member (3), thereby facilitating the temperature adjustment system of the contact surface (4), so that the contact surface (4) can be heated on average, thereby avoiding The contact surface (4) is unevenly covered by the temperature and causes the gap on the surface of the mold to be gapped, the difference in gloss and the formation of cloud and strips 201111145 The occurrence of the problem. The arrow labeled with the second map shows the population connector (9) The flow rate of the temperature control fluid f is 'Because the support body (11) has a spherical shape, the rear side (7) of the first mold member (3) is adjacent to the contact surface. , the support space (8) temperature control fluid pores of the temperature control cavity (6) directly, the back side of the touch (7) surface part is relatively large, when necessary, the temperature control cavity (6) can be over fixed installation casing, miscellaneous or residual lion support, An auxiliary support tool that can bribe the control flow. In this case, the flow does not flow. In other cases, the flow can be formed by the tempering fluid. The second and fourth figures are another type of wire that can select the support space (8). a molded state, disposed between the first mold member (3) and the second mold member (5), the bearing space (S) may be a pyramid structure ((4), the pyramid structure ((4) is composed of a single pyramid (15) 'And the pyramids (15) are arranged one above the other or offset from one another in order to better withstand the formation of the eye (1), and the top of the edge (15) is smooth, the pyramid (15) is first firmly configured Located on a plate (17) next to the second mold member (5) The pyramid structure (14) is a support structure for supporting the top pressure in the lower portion of the temperature control cavity (6) and continuing to be transmitted to the first and second parts (3.5). Because the plate (17) and the first The gap between the second mold members (3, 5) is spliced and joined. The invention is illustrated by the structural examples without departing from the scope of the patent claims. There are many other methods for implementing the skilled person, and it is not necessary to elaborate them one by one. The combination of the examples illustrates the features of the present invention, and the structural examples can also be used independently. In summary, the method of the present invention has improved industrial effects, and it is true that there are no publications and existing products and methods on the market. Not familiar with the technology '_ can be easily thought of, its novel patent requirements are unquestionable, in addition, its ^ effective solution to the problem, it is also a progressive and production of patents and other patents The best performance, which fully complies with the requirements of the requirements for the invention patent application in China, is to file an application in accordance with the law. [Simple description of the schema] 201111145 The first figure is a schematic cross-sectional view of the combination of the present invention. The second figure is a schematic cross-sectional view of the support space and the support body of the present invention. Third Figure: is a side view of another embodiment of the support space surface of the present invention. Fourth Figure: is a top view of another embodiment of the support space surface of the present invention. [Main component symbol description] Molding die 1 Mold cavity 2 First die member 3 Contact surface 4 Second mold member 5 Thermostatic cavity 6 Rear side 7 Front side 8 Inlet joint 9, 9.1 Outlet joint 10 Support space S Support body 11 Push rod 12 push sleeve 13 pyramid structure 14 pyramid 15 top 16 plate 17