201221770 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明係與壓縮機測壓裝置有關,尤指一種可自動 進行壓縮機正、負壓檢測工作之壓縮機測壓裝置。 【先前技術】 [0002] 按,一般壓縮機於組裝完成後,必須接著進行一正 、負壓測試工作,以判斷壓縮機之輸出壓力是否能達到 預定壓力值,以及組裝上是否確實而有無壓力内漏之情 形。 ❹ [0003] 習用檢測壓縮機之方式,如第8圖所示,係先將欲 進行檢測之壓縮機8 1置放於一工作台8 2上,另於該 壓縮機8 1之傳動軸上組設有一可被馬達8 3驅動之皮 帶輪8 4,並藉此以帶動該壓縮機8 1得進行一測試運 轉;而當欲進行正壓檢測時,係先將一正壓管路8 5 — 端接設於該壓縮機8 1之輸出端8 1 1,接著在於該壓 縮機8 1之輸入端8 1 2注入有適量之測試流體後,啟 Q 動馬達8 3以帶動該壓縮機8 1進行測試運轉,此時, 藉由一扳動開關8 6以使該正壓管路8 5另端呈現封閉 狀態,即可由該正壓管路8 5上之壓力表8 5 1檢測出 該壓縮機8 1之輸出正壓值,而於完成正壓檢測後再以 手動開啟該扳動開關8 6,以使位於該正壓管路8 5中 之測試流體得由該正壓管路8 5另端導入於一回收桶( 圖中未示)中予以集中。 [0004] 而當欲進行負壓檢測工作時,如第9圖所示,係再 以一負壓管路8 7 —端接設於該壓縮機1 1之輸入端8 099139974 表單編號A0101 第3頁/共24頁 0992069711-0 201221770 [0005] [0006] [0007] [0008] [0009] 1 2,接著啟動馬達8 3以帶動該壓縮機8 1進行測試 運轉,此時,藉由該負壓管路8 7中之另一扳動開關8 8而使該負壓管路8 7另端呈現封閉狀態,並開啟該正 壓管路8 5之扳動開關8 6,即可由該負壓管路8 7上 之壓力表8 7 1檢測出該壓縮機8 1輸入端8 1 2之負 壓值,並以此數值即可判斷出該壓縮機内部是否有壓力 内漏之問題存在。 惟,上述習用檢測壓縮機之方式,不論在皮帶輪8 4之組設、控制各扳動開關8 6、8 8之啟動或檢測壓 力值之判斷係皆須以人力進行,因此不僅會導致整個測 試程序過於費時以及耗費人力,且亦容易因人員之操作 疏失而有誤差產生。 有鑑於此,故如何解決上述問題,即為本發明所欲 解決之首要課題,因此,本案發明人乃經過不斷的苦思 與試作後,才終於有本發明之產生。 【發明内容】 本發明目的之一,係在於提供一種壓縮機測壓裝置 ,其係具有可自動進行壓縮機正、負壓檢測工作,以達 到節省人工成本以及有效縮短測試時間而大幅提升檢測 效率之功效。 本發明目的之二,係在於提供一種壓縮機測壓裝置 ,其係具有可自動判定檢測壓力值是否正常之功效,而 可大幅提昇壓縮機檢測工作之準確性。 為達前述之目的,本發明係提供一種壓縮機測壓裝 099139974 表單編號A0101 第4頁/共24頁 0992069711-0 201221770 [0010] [0011] [0012] ο [0013]201221770 VI. Description of the Invention: [Technical Field of the Invention] [0001] The present invention relates to a compressor pressure measuring device, and more particularly to a compressor pressure measuring device that can automatically perform positive and negative pressure detection of a compressor. [Prior Art] [0002] According to the general compressor, after the assembly is completed, a positive and negative pressure test must be performed to determine whether the output pressure of the compressor can reach the predetermined pressure value, and whether the assembly is accurate or not. The situation of internal leakage. 0003 [0003] The method of detecting the compressor is as shown in FIG. 8 , the compressor 8 1 to be tested is first placed on a worktable 8 2 , and on the drive shaft of the compressor 8 1 The group is provided with a pulley 8 4 which can be driven by the motor 83, and thereby drives the compressor 8 1 to perform a test operation; and when positive pressure detection is to be performed, a positive pressure line 8 5 is first used. The terminal is disposed at the output end of the compressor 8 1 , and then the input end 8 1 2 of the compressor 8 1 is injected with an appropriate amount of test fluid, and then the motor 8 3 is activated to drive the compressor 8 1 . The test operation is performed. At this time, by pressing the switch 86 to make the other end of the positive pressure pipe 8 5 closed, the compression can be detected by the pressure gauge 851 on the positive pressure pipe 8 5 . The output of the machine 8 1 is positive pressure value, and after the positive pressure detection is completed, the trigger switch 86 is manually opened to make the test fluid located in the positive pressure line 8 5 from the positive pressure line 8 5 The other end is introduced into a recycling bin (not shown) for concentration. [0004] When the negative pressure detecting operation is to be performed, as shown in FIG. 9, the negative pressure pipeline 8 7 is connected to the input end of the compressor 1 1 8 099139974. Form No. A0101 3 Page / Total 24 pages 0992069711-0 201221770 [0005] [0006] [0009] 1 2, then start the motor 8 3 to drive the compressor 8 1 for test operation, at this time, by the negative The other one of the pressure lines 87 pulls the switch 8 8 to close the other end of the negative pressure line 87, and opens the pull switch 86 of the positive pressure line 8 5 to be pressed by the negative pressure The pressure gauge 8 7 1 on the pipeline 8 7 detects the negative pressure value of the input terminal 8 1 2 of the compressor 8 1 , and by using this value, it can be judged whether there is a problem of pressure internal leakage inside the compressor. However, the above-mentioned conventional method of detecting the compressor, regardless of the setting of the pulleys 84, controlling the activation of each of the toggle switches 86, 8 or the detection of the pressure value, must be carried out manually, so that not only the entire test is caused The procedure is too time consuming and labor intensive, and it is also prone to errors due to the loss of personnel operations. In view of this, how to solve the above problem is the primary problem to be solved by the present invention. Therefore, the inventor of the present invention finally has the invention after continuous hard thinking and trial work. SUMMARY OF THE INVENTION One object of the present invention is to provide a compressor pressure measuring device which can automatically perform positive and negative pressure detection of a compressor to save labor costs and effectively shorten test time and greatly improve detection efficiency. The effect. The second object of the present invention is to provide a compressor pressure measuring device which has the function of automatically determining whether the detected pressure value is normal, and can greatly improve the accuracy of the compressor detecting work. For the purposes of the foregoing, the present invention provides a compressor pressure measuring device 099139974 Form No. A0101 Page 4 of 24 0992069711-0 201221770 [0010] [0012] [0013]
[0014] 099139974 置,係用以與一壓縮機之入口端及出口端相接,並可驅 動該壓縮機之傳動軸運轉以進行一測壓工作,該壓縮機 測壓裝置係包含有: 一載台,其具有一可供爽持壓縮機之夾具; 一治具,具有一可供壓縮機之傳動軸穿設結合之内 齒形孔,且該治具係可受一馬達驅動以連動與該治具相 結合之壓縮機開始運轉; 一正壓管路,其一端設有一可對應接設於壓縮機出 口端之接頭,而該正壓管路另端則連接至一回收桶,並 於該正壓管路中設有一可控制其連通狀態之第一電磁閥 ,而於該正壓管路内部介於該第一快拆接頭與該第一電 磁閥之間係形成一正壓測試區,並於該正壓測試區中設 有一正壓壓力表; 一負壓管路,其一端設有一可對應接設於壓縮機入 口端之另一接頭,而該負壓管路另端則與一測試流體槽 相接,並於該負壓管路中設有一可控制該測試流體槽或 外部空氣能否與該負壓管路相連通之第二電磁閥,而於 該負壓管路内部介於該快拆接頭與該第二電磁閥之間係 形成一負壓測試區,並於該負壓測試區中設有一負壓壓 力表, 一控制模組,係具有複數個指示燈,且該控制模組 係分別與該馬達、該第一電磁閥、該第二電磁閥以及該 正、負壓壓力表電性連接,並可控制該馬達、該第一電 磁閥及第二電磁閥之啟動時機,以自動進行壓縮機之正 表單編號Α0101 第5頁/共24頁 0992069711-0 201221770 [0015] [0016] [0017] [0018] [0019] 壓或負壓檢測工作,另該控制模組係預設有一正、負壓 。又疋值,且该控制模組係可接收由該正、負壓壓力表所 檢測之壓力值並與該控制模組之正、負壓設定值進行比 對,在由該控制模組上之指示燈顯示其比對後之檢測結 果。 。 而本發明之上述目的與優點,不難從下述所選用實 施例之詳細說明與附圖中,獲得深入了解。 當然,本發明在某些另件上,或另件之安排上容許 有所不同,但所選用之實施例,則於本說明書中,予以 詳細說明。 【實施方式】 首先,請參閱第1圖至第3圖,本發明係提供—種 壓縮機測壓裝置1 〇,其係用以與一壓縮機6 〇之入口 端6 1及出口端62相接,並可驅動該壓縮機6 〇之傳 動軸6 3運轉以進行一測壓工作,該壓縮機測壓裝置工 0主要係由一載台1、一治具2 1、一正歷管路3 1 、一負壓管路4 1以及一控制摸組5 1所構成,其中: 該載台1 1,係具有一可供夾持壓縮機6 0之夾具 1 2,並於該夾具1 2上設有一升降機構1 3,於本實 施例中,該升降機構1 3係具有一朝該載台1 1垂直方 向延伸之滑軌1 3 1,且該夾具1 2係以其一側滑設於 該升降機構1 3之滑軌1 3 1上,並可沿該滑轨1 3 1 進行一升降調整動作。 該治具2 1 ’係具有一可供壓縮機6 〇之傳動軸6 099139974 表單編號A0101 第6頁/共24頁 0992069711-0 201221770 [0020] Ο [0021] ❹ [0022] 099139974 3穿設結合之内齒形孔2 2,且該治具2 1係可受一馬 達2 3驅動而同步帶動與該治具2 1相結合之壓縮機6 0進行一測試運轉。 該正壓管路3 1 ’係由可撓性軟管構成,其一端係 設有一可用以對應接設於壓縮機6 〇出口端6 2之第一 快拆接頭3 2 ’而該正壓管路3 1另端則連接至一回收 桶3 3,並於該正壓管路3 1中設有一可控制其連通狀 態之第一電磁閥3 4,且該正壓管路3 1内部介於該第 一快拆接頭3 2與該第一電磁閥3 4之間係形成一正壓 ... ;;;.;' 測s式區3 5 ’並於該正壓測試f區3 5中設有一正壓壓力 表 3 6。 - 該負壓管路41,其一端係設有一可用以對應接設 於壓縮機6 0入口端6 1之第二快拆揍頭4 2,而該負 壓管路4 1另端則與一測試流體槽4 3相接,並於該負 壓管路4 1中設有一可控制藏測轉淥體槽4 3或外部空 氣能否與該負壓管路4 1相連通之第工電磁閥4 4,而 該負壓管路4 1内部介於該第二快拆接頭4 2與該第二 電磁閥44之間係形成一負壓測試區4 5,並於該負壓 測試區45中設有一負壓壓力表46。 該控制模組5 1 ’係具有複數個指示燈5 2,且該 控制模組5 1係分別與該馬達2 3、該第一電磁閥3 4 、該第一電磁閥44以及該正、負麼!力表3 6、46 相互電性連接,並可控制該馬達2 3、該第一電磁閥3 4及第二電磁閥44之啟動時機,以自動進行壓縮機6 0之正壓或負壓檢測工作,且該控制模組4 i係預設有 表單編號A0101 第7頁/共24頁 0992069711-0 201221770 一正、負壓設定值,而該控制模組4 1係可接收由該正 、負壓壓力表3 β、4 δ所檢測之壓力值並與該控制模 組5 1之正、負壓設定值進行比對,在由該控制模組5 1上之指示燈5 2顯示其比對後之檢測結果。 [0023] [0024] [0025] 099139974 為供進一步瞭解本發明構造特徵、運用技術手段及 可達成之功效,茲將本發明之使用方式詳加敘述如下: 本發明於進行自動檢測麼縮機正、負麼動作前,係 先行設定該控制模組5 1之正、負壓設定值,於本實施 例中,係將該正壓設定值設定在2〇〇psi,而該負壓設定 值則設定在760〜435nmHG之間;接著如第3圖所示,係 將欲進行檢測之壓縮機6 0置於該載台i i之夾具工2 中,並令該壓縮機6 〇之傳動軸6 3對正結合於該治具 2 1之内齒形孔2 2巾’且操作人貞係可依照壓縮機6 0之規格尺寸更換相對應之治具2 i,或經由該升降機 構1 3以調整該壓縮機6 〇位置後予以f固之後如第 4圖所示將該正、負壓管路3 1、4 1分別接設於該壓 縮機6 0之輸人端6 !與輸出端6 2,即完成壓縮機正 、負壓檢測工作之前置作業。 接耆當啟動該馬達2 3以帶動與該治具2 i相接之 壓縮機6 0進行正壓測試時,如第5圖所示,該控制模 組5 1係令該第-電磁閥34呈關閉狀態,而該第二控 制閥4 4呈開啟連通該測試流體槽4 3之狀態,此時該 測試流體槽4 3中之測試流體即可經該負壓管路4工進 入該壓縮機6 Q内部’並經該壓縮機6 G作用後再由其 輸出端6 2進入於該正壓管路3丄中之正壓測 、 0992061[0014] 099139974 is configured to be connected to an inlet end and an outlet end of a compressor, and can drive the drive shaft of the compressor to perform a pressure measuring operation, the compressor pressure measuring device comprises: a stage having a clamp for holding the compressor; a fixture having an inner toothed hole for the drive shaft of the compressor to be coupled, and the fixture is driven by a motor to be linked The compressor combined with the compressor starts to operate; a positive pressure pipeline has a joint at one end thereof corresponding to the outlet end of the compressor, and the other end of the positive pressure pipeline is connected to a recovery tank, and The positive pressure pipeline is provided with a first electromagnetic valve capable of controlling the communication state thereof, and a positive pressure test zone is formed between the first quick release joint and the first electromagnetic valve inside the positive pressure pipeline. And a positive pressure gauge is arranged in the positive pressure test zone; a negative pressure pipeline has one end corresponding to another joint connected to the inlet end of the compressor, and the other end of the negative pressure pipeline is a test fluid tank is connected, and a controllable in the negative pressure pipeline is provided Testing a second solenoid valve in which a fluid tank or external air can communicate with the negative pressure line, and forming a negative pressure test between the quick release joint and the second solenoid valve inside the negative pressure line a negative pressure gauge is disposed in the negative pressure test zone, and a control module has a plurality of indicator lights, and the control module is respectively associated with the motor, the first electromagnetic valve, and the second electromagnetic The valve and the positive and negative pressure gauges are electrically connected, and can control the starting timing of the motor, the first electromagnetic valve and the second electromagnetic valve to automatically perform the positive form number of the compressor Α0101, page 5 of 24 [0017] [0019] [0019] [0019] [0019] Pressure or negative pressure detection work, and the control module is preset with a positive and negative pressure. And depreciating, and the control module can receive the pressure value detected by the positive and negative pressure gauges and compare with the positive and negative pressure set values of the control module, and is controlled by the control module. The indicator light shows the result of the comparison. . The above objects and advantages of the present invention will be readily understood from the following detailed description of the embodiments of the invention. Of course, the invention may be varied on certain components, or in the arrangement of the components, but the selected embodiments are described in detail in this specification. [Embodiment] First, referring to Figures 1 to 3, the present invention provides a compressor pressure measuring device 1 〇 for use with an inlet end 61 and an outlet end 62 of a compressor 6 Connected, and can drive the compressor shaft 6 3 of the compressor to operate to perform a pressure measuring operation, the compressor pressure measuring device 0 mainly consists of a loading platform 1, a fixture 2 1 , a positive pipeline 3 1 , a negative pressure line 4 1 and a control touch group 5 1 , wherein: the stage 1 1 has a clamp 1 2 for holding the compressor 60, and the clamp 1 2 The lifting mechanism 13 has a lifting rail 13 in the embodiment, and the lifting mechanism 13 has a sliding rail 133 extending in a direction perpendicular to the loading table 1 1 , and the clamping device 1 2 is slid on one side thereof. On the sliding rail 1 3 1 of the lifting mechanism 13 , a lifting and lowering adjustment operation can be performed along the sliding rail 1 3 1 . The jig 2 1 ' has a drive shaft for the compressor 6 6 6 099139974 Form No. A0101 Page 6 / Total 24 Page 0992069711-0 201221770 [0020] Ο [0021] ❹ [0022] 099139974 3 The inner toothed hole 22 is formed, and the jig 2 1 is driven by a motor 23 to synchronously drive the compressor 60 combined with the jig 2 to perform a test operation. The positive pressure line 3 1 ' is composed of a flexible hose, and one end thereof is provided with a first quick release joint 3 2 ' which can be connected to the outlet end 6 2 of the compressor 6 and the positive pressure tube The other end of the road 3 1 is connected to a recovery tank 3 3 , and a first electromagnetic valve 34 is controlled in the positive pressure line 3 1 to control the communication state thereof, and the positive pressure line 3 1 is internally A positive pressure is formed between the first quick release joint 32 and the first electromagnetic valve 34; and the s-type zone 3 5 ' is measured in the positive pressure test f zone 35 There is a positive pressure gauge 3 6 . - the negative pressure line 41 is provided with a second quick release head 42 which can be connected to the inlet end 61 of the compressor 60, and the other end of the negative pressure line 4 1 The test fluid tanks 43 are connected, and a negative solenoid valve 41 is provided with a control solenoid valve capable of controlling the transfer of the transfer body groove 43 or whether the external air can communicate with the negative pressure line 4 1 . 4 4, and a negative pressure test zone 45 is formed between the second quick release joint 42 and the second electromagnetic valve 44, and is in the negative pressure test zone 45. A negative pressure gauge 46 is provided. The control module 5 1 ′ has a plurality of indicator lights 52 , and the control module 51 is respectively associated with the motor 23, the first electromagnetic valve 34, the first electromagnetic valve 44, and the positive and negative What! The force gauges 3 6, 46 are electrically connected to each other, and can control the starting timing of the motor 23, the first solenoid valve 34 and the second solenoid valve 44 to automatically perform positive or negative pressure detection of the compressor 60. Working, and the control module 4 i is pre-configured with form number A0101, page 7 / 24 pages 0992069711-0 201221770, a positive and negative pressure setting value, and the control module 4 1 can receive the positive and negative The pressure value detected by the pressure gauge 3 β, 4 δ is compared with the positive and negative pressure set values of the control module 51, and the indicator is displayed by the indicator light 52 on the control module 51. After the test results. [0025] [0025] 099139974 For further understanding of the structural features of the present invention, the use of technical means and achievable effects, the mode of use of the present invention will be described in detail as follows: The present invention is used for automatic detection of the shrinking machine Before the negative action, the positive and negative pressure set values of the control module 51 are set first. In this embodiment, the positive pressure set value is set to 2 psi, and the negative pressure set value is Set between 760 and 435 nm HG; then, as shown in Fig. 3, the compressor 60 to be tested is placed in the fixture 2 of the stage ii, and the compressor 6 is driven to the drive shaft 6 3 The pair of toothed holes 2 2 are integrated into the jig 2 1 and the operator can replace the corresponding jig 2 i according to the size of the compressor 60, or can be adjusted via the lifting mechanism 13 After the compressor is 6 〇 position, the positive and negative pressure lines 3 1 and 4 1 are respectively connected to the input end 6 of the compressor 60 and the output end 6 2 as shown in FIG. 4 . That is, the operation is completed before the positive and negative pressure detection work of the compressor is completed. When the motor 2 3 is activated to drive the compressor 60 that is in contact with the jig 2 i to perform a positive pressure test, as shown in FIG. 5, the control module 51 commands the first solenoid valve 34. In a closed state, the second control valve 44 is in a state of being opened to communicate with the test fluid tank 43. At this time, the test fluid in the test fluid tank 43 can enter the compressor through the negative pressure pipeline 4 6 Q internal 'and after the action of the compressor 6 G and then its output terminal 6 2 into the positive pressure line 3丄 positive pressure measurement, 0992061
表單編號A0101 第8頁/共24 H 201221770 Ο [0026] Ο ,且當用以量測該正壓測試區3 5之正壓壓力表3 6到 達2 0 0ps i時,該控制模組5 1即會自動判定其正壓值正 常,並輸出一控制訊號以令該控制模組5 ^上相對應之 顯示燈5 2亮起;反之,當該正壓壓力表3 6無法到達 200psi時,該控制模組5 1即自動判定其正壓值異常, 並輸出另一控制訊號以令相對應之顯示燈5 2亮起;而 於完成檢測壓縮機正壓工作後,如第6圖所示,該控制 模組5 1即令該馬達2 3停止運轉,並令該第一電磁閥 3 4改呈開啟狀態,而該第二控制閥4 4呈關閉該測試 流體槽4 3之狀態,以使位於該正壓檢測區3 5中之測 試流體得經該正壓管路3 1另端進入於該回收桶3 3中 集中。 再者,當啟動該馬達2 3以帶動與該治具2 1相接 之壓縮機6 0進行負壓測試時,如第7圖所示,該控制 模組5 1係令該第一電磁崎3 3呈開啟狀態,而該第二 控制閥4 4則呈關閉該測試流體槽4 3之狀態,此時由Form No. A0101 Page 8 / 24 H 201221770 Ο [0026] Ο , and when the positive pressure gauge 3 6 for measuring the positive pressure test zone 3 reaches 2 0 ps i , the control module 5 1 That is, the positive pressure value is automatically determined, and a control signal is output to make the corresponding display lamp 5 2 on the control module 5 ^ light; otherwise, when the positive pressure pressure gauge 36 cannot reach 200 psi, The control module 51 automatically determines that the positive pressure value is abnormal, and outputs another control signal to illuminate the corresponding display lamp 52; and after completing the detection of the compressor positive pressure operation, as shown in FIG. The control module 51 stops the operation of the motor 23 and changes the first solenoid valve 34 to the open state, and the second control valve 44 closes the test fluid tank 43 to be located. The test fluid in the positive pressure detecting zone 35 is concentrated in the recovery tank 3 through the other end of the positive pressure line 3 1 . Moreover, when the motor 2 3 is activated to drive the compressor 60 that is in contact with the jig 2 1 to perform a negative pressure test, as shown in FIG. 7, the control module 51 is configured to make the first electromagnetic saki 3 3 is in an open state, and the second control valve 44 is in a state of closing the test fluid tank 43, at this time
該負壓壓力表4 6所测得之負壓值若介於76〇〜435mmHG 之間,且於一預設時間内該負壓值沒有降低時,該控制 模組5 1即自動判定其負壓值正常,並輸出一控制訊號 以令該控制模組5 1上相對應之顯示燈5 2亮起;反之 ,當該負壓壓力表4 Θ測得之負壓值無法介於76〇〜 435mmHG之間,或於一預設時間内有檢測到該負壓值有下 降之情形發生時,該控制模組5 1即自動判定其負壓值 異常,並輸出另一控制訊號以令相對應之顯示燈5 2亮 起。 099139974 表單編號A0101 第9頁/共24頁 0992069711-0 201221770 [0027] [0028] [0029] [0030] [0031] 並由以上說明後可知本發明係可具有以下優點: 1 ·本發明於進行安裝壓縮機6 〇之工作,係僅需 將壓縮機6 〇之傳動軸6 3對正結合於該治具2 1之内 齒形孔22中,再藉該夾具丄2予以緊固,並利用該正 、負壓官路3 1、4 1之快拆接頭3 2、4 2係可快速 接設於該壓縮機6 0之輸入端6 1與輸出端6 2,因此 在安裝壓縮機6 〇時係可相當快速、容易。 2 ·本發明之壓縮機測壓裝置i 〇係可依照不同壓 縮機6 0之規格尺寸更換相對應之治具2 i,或經由該 升降機構13調整該壓縮機6¾位置以可對正結合於該 治具1 2之内齒形孔2 2中,而使本發明之壓縮機測壓 裝置10係可適用於所有尺寸規格之壓縮機測壓工作上 〇 3.本發明之壓縮機測壓裝置丄〇係藉由該控制模 組5 1預設有一正、負壓設定値,且該控制模組5工係 可接收由該正、負壓壓力表所檢測之壓力值並與該控制 模組5 1之正、負壓設定值自ϋ行比對後,在由該控 制模組5 1上之指示燈5 2顯示其比對後之檢測結果, 而供檢測者可快速得知測壓結果,並藉此即可有效避免 人員之判斷誤差而大幅提昇壓縮機檢測工作之準確性。 4·本發明之壓縮機測壓裝置1〇係具有可自動進 行壓縮機6 0之正、負壓檢測工作,因此可達到節省人 工成本以及有效縮短測試時間而大幅提升檢測效率之功 效。 099139974 表單編號Α0101 第10頁/共24頁 0992069711-0 201221770 [0032] 惟,以上所述實施例之揭示係用以說明本發明,並 非用以限制本發明,故舉凡數值之變更或等效元件之置 換仍應隸屬本發明之範疇。 [0033] 综上所述,本發明係已具有相當的進步性及實用性 ,且經以上詳細說明後,係可使熟知本項技藝者明瞭本 發明的確可達成前述目的,實已符合專利法之規定,故 本案發明人爰依法提出申請。 【圖式簡單說明】 第1圖係本發明之結構示意圖 第2圖係本發明之使用狀態示意圖 第3圖係本發明治具與壓縮機傳動軸相結合時之狀態示 意圖 第4圖係本發明正、負壓管路與壓縮機傳動軸相接時之 狀悲不意圖 第5圖係本發明於進行正壓測讀時之藏路示意圖 第6圖係本發明於完成正壓測誠時之流路示意圖 第7圖係本發明於進行負壓測試時之流路示意圖 第8圖係習用壓縮機壓測裝置於進行正壓測試時之結構 示意圖 第9圖係習用壓縮機壓測裝置於進行負壓測試時之結構 示意圖 【主要元件符號說明】 ❹ [0034] [0035] [0036] [0037] [0038] [0039] [0040] [0041] [0042] 099139974 表單編號A0101 第11頁/共24頁 0992069711-0 201221770 [0043] (習用部分) [0044] 壓縮機8 1 輸出端8 1 1 [0045] 輸入端8 1 2 工作台8 2 [0046] 馬達8 3 皮帶輪8 4 [0047] 正壓管路8 5 壓力表8 5 1、8 [0048] 扳動開關8 6、8 8 負壓管路8 7 [0049] (本發明部分) [0050] 壓縮機壓測裝置1 0 載台1 1 [0051] 夾具1 2 升降機構13 [0052] 滑執1 3 1 治具2 1 [0053] 内齒形孔2 2 馬達2 3 [0054] 正壓管路3 1 第一快拆接頭3 2 [0055] 回收桶3 3 第一電磁閥3 4 [0056] 正壓測試區3 5 正壓壓力表3 6 [0057] 負壓管路4 1 第二快拆接頭4 2 [0058] 測試流體槽4 3 第二電磁閥4 4 [0059] 負壓測試區4 5 負壓壓力表4 6 [0060] 控制模組5 1 指示燈5 2 [0061] 壓縮機6 0 輸入端6 1 099139974 表單編號A0101 第12頁/共24頁 0992069711-0 201221770 [0062] 輸出端6 2 傳動轴6 3If the negative pressure value measured by the negative pressure gauge 46 is between 76 〇 and 435 mmHG, and the negative pressure value is not decreased within a predetermined time, the control module 5 1 automatically determines that the negative pressure is negative. The pressure value is normal, and a control signal is output to illuminate the corresponding display lamp 52 on the control module 51; otherwise, the negative pressure value measured by the negative pressure gauge 4 cannot be between 76〇~ The control module 51 automatically determines that the negative pressure value is abnormal and outputs another control signal to make the corresponding value occur when the negative pressure value is detected within a predetermined time period. The indicator light 5 2 lights up. 099139974 Form No. A0101 Page 9/24 pages 0992069711-0 201221770 [0027] [0019] [0012] From the above description, the present invention can have the following advantages: 1. The present invention is carried out To install the compressor 6 ,, it is only necessary to directly couple the drive shaft 6 3 of the compressor 6 to the internal toothed hole 22 of the jig 2 1 , and then fasten and utilize the clamp 丄 2 The quick release joints 3 2, 4 2 of the positive and negative pressure official roads 3 1 and 4 1 can be quickly connected to the input end 6 1 and the output end 6 2 of the compressor 60, so that the compressor 6 is installed. The time can be quite fast and easy. 2) The compressor pressure measuring device i of the present invention can replace the corresponding fixture 2 i according to the size of the different compressors 60, or adjust the position of the compressor 63⁄4 via the lifting mechanism 13 to be aligned The jig-shaped hole 2 2 in the jig 12 makes the compressor pressure measuring device 10 of the present invention applicable to compressor pressure measurement work of all sizes. 3. The compressor pressure measuring device of the present invention The control module 5 1 presets a positive and negative pressure setting 値, and the control module 5 system can receive the pressure value detected by the positive and negative pressure gauges and the control module After the positive and negative pressure setting values of 5 1 are compared with the comparison, the detection result after the comparison is displayed by the indicator light 5 2 on the control module 5 1 , and the tester can quickly know the pressure measurement result. And by this, the judgment error of the personnel can be effectively avoided and the accuracy of the compressor inspection work can be greatly improved. 4. The compressor pressure measuring device 1 of the present invention has the functions of automatically performing positive and negative pressure detection of the compressor 60, thereby achieving the effect of saving labor costs and effectively shortening the test time and greatly improving the detection efficiency. 099139974 Form No. 1010101 Page 10 of 24 0992069711-0 201221770 [0032] However, the above description of the embodiments is intended to be illustrative of the invention and is not intended to limit the invention. The replacement is still within the scope of the invention. [0033] In summary, the present invention has been made to be quite advanced and practical, and after the above detailed description, it will be apparent to those skilled in the art that the present invention can achieve the foregoing objects and is in accordance with the Patent Law. The provisions of the case, the inventor of this case filed an application in accordance with the law. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing the structure of the present invention. FIG. 2 is a schematic view showing the state of use of the present invention. FIG. 3 is a view showing a state in which the jig of the present invention is combined with a compressor drive shaft. FIG. The case where the positive and negative pressure pipelines are connected with the compressor drive shaft is not intended. FIG. 5 is a schematic diagram of the storage road when the positive pressure reading is performed in the present invention. FIG. 6 is a view of the present invention when the positive pressure is measured. Schematic diagram of the flow path Fig. 7 is a schematic diagram of the flow path when the negative pressure test is performed in the present invention. Fig. 8 is a schematic view showing the structure of the conventional compressor pressure measuring device during the positive pressure test. Fig. 9 is a conventional compressor pressure measuring device. Schematic diagram of the negative pressure test [main component symbol description] ❹ [0034] [0037] [0038] [0040] [0042] [0042] 099139974 Form No. A0101 Page 11 / Total 24 pages 0992069711-0 201221770 [0043] (customized part) [0044] Compressor 8 1 output 8 1 1 [0045] Input 8 1 2 Table 8 2 [0046] Motor 8 3 Pulley 8 4 [0047] Pressure line 8 5 pressure gauge 8 5 1, 8 [0048] toggle switch 8 6 , 8 8 negative pressure Road 8 7 [0049] (Part of the Invention) [0050] Compressor Pressure Measuring Device 1 0 Stage 1 1 [0051] Clamp 1 2 Lifting Mechanism 13 [0052] Slip 1 3 1 Fixture 2 1 [0053] Toothed hole 2 2 Motor 2 3 [0054] Positive pressure line 3 1 First quick release joint 3 2 [0055] Recovery tank 3 3 First solenoid valve 3 4 [0056] Positive pressure test zone 3 5 Positive pressure gauge 3 6 [0057] Negative pressure line 4 1 Second quick release joint 4 2 [0058] Test fluid tank 4 3 Second solenoid valve 4 4 [0059] Negative pressure test zone 4 5 Negative pressure gauge 4 6 [0060] Control Module 5 1 Indicator 5 2 [0061] Compressor 6 0 Input 6 1 099139974 Form No. A0101 Page 12 / Total 24 Page 0992069711-0 201221770 [0062] Output 6 2 Drive Shaft 6 3
〇 099139974 表單編號A0101 第13頁/共24頁 0992069711-0〇 099139974 Form No. A0101 Page 13 of 24 0992069711-0