M412347 五、新型說明: 【新型所屬之技術領域】 本創作是-種麵皮厚度镇測裝置,尤指—種應用於麵 皮加工機具中,用以偵測麵皮厚度的麵皮厚度偵測裝置設 計。 t 【先前技術】 • 如泡麵中的麵塊,在量產的過程中,其主要將麵糰經 • 輾壓製成連續性的寬幅麵皮,再將麵皮導入麵皮加工機中 先行分割成複數預定寬度的長條麵絲,再藉由定量切判 裝置將麵絲切割成複數預定大小的麵塊。 前述由麵糰輾壓成連續性寬幅麵皮等過程中,業者為 綠保產品的品質’通常會對麵皮的厚度進行量測。目前麵 皮的量測方式,概係由作業人員定時或不定時自輸送的麵 皮上摘下一小片麵皮’再量測其厚度,惟此方式,因自麵 皮上摘取的小片麵皮易受拉伸而變薄,影響其厚度量測的 • 正確性。 【新型内容】 本創作之主要目的在於提供一種麵皮厚度彳貞測裝置, 希藉此設計’改善目前人工手動量測麵皮厚度不精準的問 題。 為達成前揭目的,本創作所設計的麵皮厚度偵測裝置 係用以裝設於麵皮加工機上,該麵皮厚度偵測裝置包含: 至少一雷射測距器,係用以裝設於所述麵皮加工機的 麵皮輸送輥輪組出口,所述雷射測距器包含一雷射發射/接 3 M412347 收端’並以雷射發射/接收端朝向麵皮輸送輥輪組及其輸送 的麵皮;以及 一電子式處理組件,係電性連接雷射測距器,用以依 據雷射測距器取得的數據資料記算出麵皮厚度與輸出麵皮 厚度數據。 藉此麵皮厚度偵測裝置設計,使其可應用於麵皮加工 機上’在不影響麵皮加工處理流程狀態下,隨時監測麵皮 厚度’並具有精準量測麵皮實際厚度的功能,對麵皮加工 提供良好的品質監測裝置。 此外,本創作之麵皮偵測裝置可選用多部雷射測距器 對麵皮不同位置進行厚度量測,或者利用一部可被驅動線 性位移的雷射測距器對麵皮不同位置進行厚度量測,藉此 ,使該麵皮偵測裝置可全面性偵測麵皮厚度,從而判斷麵 皮厚度的均勻性。 【實施方式】 如圖1至圖5所示,是揭示本創作麵皮厚度偵測裝置 之數種較佳實施例,該麵皮厚度偵測裝置是包含至少—雷 射測距器4以及一電子式處理組件5,其中: 所述雷射測距器4係一種具備可向待測距目標物發射 雷射光束並開始計時,至接收到反射雷射光束時停止,以 該段時間轉算為雷射測器到待目標物之間的距離功能的夠 距器具,所述雷射測距器4係用以裝設於麵皮加工機彳的 麵皮輸送輥輪組11 A 口’以分別對麵皮輸送報輪組”及 其輸送的麵皮2進行雷射測距之功用,所述雷射測距器$ 包含有一雷射發射/接收端40’並以雷射發射/接收端 M412347 朝向麵皮輸送輥輪組11及其輸送的麵皮2。 如圖1、圖2與圖3所示,本創作所使用的雷射測距 益4可為一組或多組,所述雷射測距器4藉由定位架糾 直接組設於麵皮加工機1上的固定位置,當雷射測距器4 為1組時,如圖2所示,該些雷射測距器4是固定於麵皮 加工機1之機座1〇中的預定位置,用以對麵皮之特定位 置進行量測;當雷射測距器4為多組時,㈣3所示,該 些雷射測距器4是間隔分布排列,用以分別對麵皮不同位 置進行量測。 尽創作亦可使用一組雷射 再者’如圖4與圖5所示M412347 V. New description: [New technical field] This creation is a type of skin thickness measuring device, especially a skin thickness detecting device designed to detect the thickness of a dough in a dough processing machine. t [Prior Art] • For the noodle in the noodle, during the mass production process, the dough is mainly pressed into a continuous wide dough, and then the dough is introduced into the dough processing machine to be divided into plurals. The long strip of the width is cut into a plurality of dough pieces of a predetermined size by a quantitative cutting device. In the above process of rolling the dough into a continuous wide dough, the quality of the green protective product is usually measured by the thickness of the dough. At present, the measurement method of the dough is mainly carried out by the operator to pick up a small piece of dough from the dough conveyed at regular or irregular time, and then measure the thickness thereof. However, the small piece of skin extracted from the dough is easily stretched. Thinning affects the correctness of its thickness measurement. [New content] The main purpose of this creation is to provide a masking device for skin thickness, which is designed to improve the current inaccurate measurement of the thickness of the skin. In order to achieve the above objective, the skin thickness detecting device designed by the present invention is installed on a dough processing machine, and the skin thickness detecting device comprises: at least one laser range finder, which is installed in the The surface conveying roller set outlet of the dough processing machine, the laser range finder comprising a laser emitting/connecting 3 M412347 receiving end and feeding the roller set and the conveying surface thereof with the laser emitting/receiving end And an electronic processing component electrically connected to the laser range finder for calculating the skin thickness and the output skin thickness data according to the data obtained by the laser range finder. The skin thickness detecting device is designed to be applied to the dough processing machine to monitor the thickness of the dough at any time without affecting the processing process of the dough, and to accurately measure the actual thickness of the dough, and to provide good processing for the dough. Quality monitoring device. In addition, the surface detection device of the present invention can use multiple laser range finder to measure the thickness of different parts of the dough, or use a laser range finder that can be driven by linear displacement to measure the thickness of different parts of the dough. Thereby, the dough detecting device can comprehensively detect the thickness of the dough to determine the uniformity of the thickness of the dough. [Embodiment] As shown in FIG. 1 to FIG. 5, several preferred embodiments of the present invention are disclosed. The skin thickness detecting device comprises at least a laser range finder 4 and an electronic device. The processing component 5, wherein: the laser range finder 4 is configured to emit a laser beam to a target to be measured and start timing, and stop when receiving the reflected laser beam, and convert to a mine in the period of time a sufficient distance device for the distance between the detector and the object to be treated, the laser range finder 4 is used for the surface transport roller set 11A of the dough processing machine 以 to respectively transport the dough The report wheel set and its transported skin 2 perform the function of laser ranging, which includes a laser transmitting/receiving end 40' and is directed toward the surface transport roller by the laser transmitting/receiving end M412347 Group 11 and its transported skin 2. As shown in Fig. 1, Fig. 2 and Fig. 3, the laser ranging benefit 4 used in the present creation may be one or more groups, and the laser range finder 4 is used by The positioning frame is directly set in a fixed position on the dough processing machine 1, when the laser range finder 4 is a group As shown in FIG. 2, the laser range finder 4 is fixed at a predetermined position in the frame 1 of the dough processing machine 1 for measuring a specific position of the dough; when the laser range finder 4 For a plurality of groups, as shown in (4) 3, the laser range finder 4 is arranged in a spaced arrangement for respectively measuring different positions of the dough. A set of lasers can also be used for creation as shown in Fig. 4 and Fig. 5 is shown
% 、·一 尚 SfJ 測距器4結合位置移動組件42安裝於麵皮加工機】上, 藉由位置移動組件42帶動雷射測距Μ 4移動而對輸送的 麵皮預設位置進行量測,所述位置移動組件42包含有— 移動架421、一馬達422以及一螺桿⑵,馬達似設於 麵皮加工機】的機|10上,馬達422以旋轉作動固接螺 桿423 -端,以螺桿423螺接移動# a,再以移動架 421提供雷射測距器4組設其上’藉以利用馬達似驅動 421 4進仃往復線性位移。 所述電子式處理組件5係電性連接雷射測距器4,1 包含有-電腦,該電腦包含有一運算處理單袁 依據雷射敍H取得的數據f料記算出麵 皮厚度數據等的錢,或者,該電腦進—步有輸= 媒體,用以儲存所旦+ r α 有一、名錄 省仔所里測的麵皮厚度數據資料, 腦尚進一步包含有—控制單元& Α 角?工刺雷射測距器定 5 m12347 時測量麵皮與控制位置移動組件作動…,所述電子式 處理組件5尚包含有-操控面板50,該操控面板50且; —顯示幕51與複數個按鍵52,該顯示幕51與按鍵52' 性連接電腦,用以顯示所量測位置之麵皮厚度,並可瘦由 按鍵52言免定量測的時點;或者,該操控面板亦可為觸控 :气顯示幕,取代前述顯示幕與按鍵的組合,同樣具備前: 顯不麵皮厚度與設定量測的時點等功能。 本創作麵皮厚度谓測裝置應用於麵皮加工冑,後,者 麵皮加工…導入麵皮2進行分割加工前,先利用麵皮; 度偵測裝置中之雷射測距器4量測雷射測距器4至待量測 目標位置(如麵皮輸送較輪、组n之預定位置)之間的距 離’並將該量測的初始數值輸送至電子式處理組件5,待 h麵皮2後’麵皮加卫機藉由麵皮輸送辕輪組11持續 將麵皮2輸送至切割輪12處分割成預定寬度的長條麵皮 輸出’在麵皮2持續導人及分割加I的過程中雷射測距 益4再次Q時或不定時)㈣雷射測距器*至麵皮2表 面預疋目紅位置之間的距離’並將所量測的距離數值輸送 至電子式處理㈣5 ’由電子式處理組件5將初始數值減 去後來量測至麵皮距離的數值,即得麵皮2厚度的數值, 如此藉由量測方式精準的監料人麵皮加工機彳 厚度是否有異常現象。 亦可藉由數組雷射測 ’或是利用移動式的 其厚度,用以精準判 再者’本創作麵皮厚度偵測裝置 距器4對麵皮2不同位置偵測其厚度 雷射測距器4對麵皮2不同位置偵測 斷麵皮2是否有厚度不均的情事。 M412347 以上所述’僅是揭示本創作之較佳實施例,並非對本 創作作任何形式上的限制,任何所屬技術領域中具有通常 头識者在不脫離本創作所提出的技術特徵的範圍内利用 本創作所揭不技術内容所作出局部更動或修飾的等效實施 例,均仍屬於本創作技術特徵的範圍内。 【圖式簡單說明】 . 圖1係本創作麵皮厚度偵測裝置之一較佳實施例應用 Φ 於麵皮加工機的側視平面示意圖。 圖2係本創作麵皮厚度偵測裝置具有一組雷射測距器 之較佳貫施例應用於麵皮加工機的平面示意圖。 二圖3係本創作麵皮厚度偵測裝置具有數組雷射測距器 之較佳貫轭例應用於麵皮加工機的平面示意圖。 圖4係本創作麵皮厚度偵測裝置之雷射測距器結合位 置移動組件之另一較佳實施例應用於麵皮加工機的平面干 意圖。 _ ® 5係、圖4所示麵皮厚度㈣裝置較佳實施例應用於 麵皮加工機的平面示意圖。 【主要元件符號說明】 10機座 1 2切割輪 40雷射發射/接收端 421移動架 1麵皮加工機 11麵皮輪送輥輪組 2麵皮 4雷射測距器 41定位架 42位置移動組件 7 M412347 422馬達 5電子式處理組件 51顯示幕 423螺桿 50操控面板 52按鍵The SfJ range finder 4 is coupled to the surface moving unit 42 to be mounted on the dough processing machine, and the position measuring unit 42 is moved by the position moving unit 42 to measure the preset position of the conveyed dough. The position moving component 42 comprises a moving frame 421, a motor 422 and a screw (2). The motor is arranged on the machine|10 of the dough processing machine. The motor 422 is screwed to fix the screw 423-end, and the screw 423 is screwed. Next, move # a, and then provide the laser range finder 4 on the mobile rack 421 to set up 'by using the motor-like drive 4114 to reciprocate linear displacement. The electronic processing unit 5 is electrically connected to the laser range finder 4,1 and includes a computer, and the computer includes an operation processing unit, the yuan, the data obtained from the laser, and the calculation of the skin thickness data. Or, the computer has a step-by-step = media to store the data of the skin thickness measured by the library. The brain further contains the control unit & Α corner. The measuring blade and the control position moving component actuate when the working distance measuring rangefinder is set to 5 m12347. The electronic processing component 5 further includes a control panel 50, and the control panel 50 and the display screen 51 and a plurality of buttons 52, the display screen 51 and the button 52' are connected to the computer for displaying the thickness of the skin of the measured position, and can be thinned by the button 52 for quantitative measurement; or the control panel can also be touch: The gas display screen, in place of the combination of the aforementioned display screen and the button, also has the functions of displaying the thickness of the dough and the time of setting the measurement. The surface thickness measuring device of the present invention is applied to the processing of the dough, and then the processing of the dough is introduced. Before the skin is introduced into the skin 2, the skin is first used; the laser range finder in the degree detecting device is used to measure the laser range finder. 4 to the distance between the target position to be measured (such as the dough conveying wheel, the predetermined position of the group n) and the initial value of the measurement is sent to the electronic processing component 5, after the h skin 2 The machine continuously transports the dough 2 to the cutting wheel 12 by the dough conveying wheel set 11 and divides into a long strip skin output of a predetermined width. In the process of continuously guiding and dividing the surface of the skin 2, the laser distance measuring benefit 4 again Q (4) The distance between the laser rangefinder* and the surface of the skin 2 to the surface of the skin 2 and the measured distance value is sent to the electronic processing (4) 5 'The initial value is determined by the electronic processing unit 5 Subtracting the value measured later to the skin distance, the value of the thickness of the dough 2 is obtained, so that the thickness of the skin processing machine is accurately measured by the measuring method. It can also be measured by an array of lasers or by using the thickness of the mobile type to accurately determine the thickness of the laser-detecting device. For the different positions of the dough 2, it is detected whether the skin 2 has uneven thickness. M412347 The above description is merely a preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Any person having ordinary knowledge in the technical field can use the present invention without departing from the technical features proposed by the present invention. Equivalent embodiments of the local changes or modifications made by the technical content of the present invention are still within the scope of the features of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side plan view showing a preferred embodiment of the present invention for applying a skin thickness measuring device. Fig. 2 is a plan view showing the preferred embodiment of the present invention for applying the skin thickness detecting device to a dough processing machine. Fig. 3 is a plan view showing the preferred yoke of the present invention for the face thickness measuring device having an array of laser range finder applied to the dough processing machine. Figure 4 is a plan view of a preferred embodiment of a laser range finder combined with a position shifting assembly of the present invention for use in a dough processing machine. _® 5 series, the skin thickness (4) device shown in Fig. 4 is a plan view of a preferred embodiment of the dough processing machine. [Main component symbol description] 10 base 1 2 cutting wheel 40 laser transmitting/receiving end 421 moving frame 1 dough processing machine 11 dough wheel feeding roller set 2 dough 4 laser range finder 41 positioning frame 42 position moving component 7 M412347 422 motor 5 electronic processing component 51 display screen 423 screw 50 control panel 52 button