TWM548217U - Structure of automatic drainer without air consumption - Google Patents

Description

無耗氣自動排水器結構Gas-free automatic drain structure

本創作係為一種提供空壓機運轉時，其空壓系統排除冷凝水之節能型無秏氣自動排水器。This creation is an energy-saving, non-helium automatic drainer that provides condensed water for its air compressor system when the air compressor is running.

按，一般提供各行各業使用的空壓機於運轉啟用時，則會因壓縮空氣過程中而產生大量水氣並透過冷卻器轉換成冷凝水後，再透過排水器將冷凝水排出以保護空壓機內的系統不受到侵蝕，然，傳統空壓機所使用的排水器分別有以浮球式、計時器及水位高度來控制冷凝水排出的方式，於是，排放過程中壓縮的氣體往往會隨著冷凝水一同排出，造成浪費能源及壓力瞬間不夠降低工作品質的困擾。Press, generally provides air compressors used in various industries. When the operation is enabled, a large amount of water vapor is generated during the compressed air process and converted into condensed water through the cooler, and then the condensed water is discharged through the drain to protect the air. The system in the press is not eroded. However, the drains used in conventional air compressors have a float ball type, a timer and a water level to control the discharge of condensed water. Therefore, the compressed gas during the discharge process tends to As the condensed water is discharged together, the waste of energy and pressure is not enough to reduce the quality of work.

本創作人有鑑於上述排水器結構之缺失，乃思及創作之意念，遂以多年的經驗加以設計，經多方探討及多次修正改良，乃推出本創作。In view of the lack of the above-mentioned drainage structure, the creator has been thinking about the idea of creation, and has designed it with many years of experience. After many discussions and many revisions and improvements, this creator has launched this creation.

本創作之主要目的，提供一種無耗氣自動排水器結構，其排水器係以一為電動球閥或電磁閥之液位控制閥來控制出水口之止水與排水，同時於排水器之容納空間內設有高水位感測件及低水位感測件而透過電路控制面板與液位控制閥相配合作動而形成一電容感測裝置，藉此，當水位上升至高水位感測件時，電容感測裝置即會接收到高水位感測件的感應而透過電路控制面板傳達指令至液位控制閥開啟閥門，使容納空間內的冷凝水得以由出水口排出至排放到低水位感測件而感應到低水位或達排放時間時，液位控制閥的閥門立刻關閉止水，以確保容納空間內的水位高於出水口的位置，而不虞壓縮空氣隨冷凝水排出以達到無耗損壓縮空氣省能源的目的。The main purpose of the present invention is to provide a gas-free automatic drainer structure, the drainer of which is a liquid ball valve or a solenoid valve liquid level control valve to control the water stop and drain of the water outlet, and at the same time as the storage space of the drainer A high water level sensing component and a low water level sensing component are arranged therein to cooperate with the liquid level control valve to form a capacitive sensing device, thereby forming a capacitive sensing device when the water level rises to a high water level sensing component. The measuring device receives the induction of the high water level sensing component and transmits a command to the liquid level control valve to open the valve through the circuit control panel, so that the condensed water in the accommodating space can be discharged from the water outlet to the low water level sensing component. When the water level reaches the low water level or reaches the discharge time, the valve of the liquid level control valve immediately closes the water stop to ensure that the water level in the receiving space is higher than the water outlet position, and the compressed air is discharged with the condensed water to achieve no loss of compressed air. the goal of.

以下配合圖式及元件符號對本創作進行更加詳細的說明，請參閱第1圖~第2圖，本創作之排水器10係設一由兩中空體11、12呈相對接合形成一容納空間13之主體，於一側中空體11接設一供冷凝水進入之進水口14，該進水口14係設於中空體11之上、下兩側，另一側中空體12接設一出水口15以供冷凝水排出，該進水口14及出水口15係與容納空間13相通，並設一為電動球閥或為電磁閥之液位控制閥16以控制出水口15的排水或止水，且主體上方設一電路控制面板17與液位控制閥16及一電容感測裝置18相配合傳達作動，該電容感測裝置18係設有一絕緣管181容伸於容納空間13內，於絕緣管181內分別容設一高水位感測件182及一低水位感測件183呈一上一下設置以分別控制液位控制閥16的閥門開啟或關閉，於容納空間13內設置一濾網131與出水口15相對，並設一液位計19與上、下兩側之進水口14相通，該排水器10為較小型時(如第3圖所示)，液位計19則可選擇不設置，該濾網131可直立設置亦可斜向設置(如第4圖所示)。The present invention will be described in more detail below with reference to the drawings and the component symbols. Referring to FIG. 1 to FIG. 2, the drain device 10 of the present invention is provided with a hollow space 11 and 12 which are oppositely joined to form a receiving space 13 The main body is connected to a water inlet 14 for condensed water to enter the hollow body 11. The water inlet 14 is disposed on the upper and lower sides of the hollow body 11, and the other hollow body 12 is connected to a water outlet 15 to The condensed water is discharged, and the water inlet 14 and the water outlet 15 communicate with the accommodating space 13 , and an electric ball valve or a liquid level control valve 16 of the electromagnetic valve is provided to control the drainage or water stop of the water outlet 15 , and above the main body The circuit control panel 17 is configured to cooperate with the liquid level control valve 16 and a capacitance sensing device 18, and the capacitor sensing device 18 is provided with an insulating tube 181 that is received in the receiving space 13 and is respectively disposed in the insulating tube 181. A high water level sensing member 182 and a low water level sensing member 183 are disposed to be vertically disposed to respectively control the opening or closing of the valve of the liquid level control valve 16, and a screen 131 and a water outlet 15 are disposed in the receiving space 13 . Relatively, a liquid level gauge 19 is provided with the upper and lower sides. The mouth 14 is connected, when the drainer 10 is of a smaller type (as shown in FIG. 3), the level gauge 19 can be selected not to be set, and the filter screen 131 can be arranged upright or obliquely (as shown in FIG. 4). ).

當冷凝水由進水口14進入容納空間13進行儲水時，液位控制閥16的閥門即呈關閉止水狀態，同時液位計19內的水則會與容納空間13內的水同步上升，以供使用者可由液位計19觀察容納空間13內的水位，待水位上升至高水位感測件182(如第5圖所示)時，電容感測裝置18即會接收到高水位感測件182的感應而透過電路控制面板17傳達指令至液位控制閥16開啟閥門，使容納空間13內的冷凝水得以由出水口15排出，此時，水中的雜質則會透過濾網131的過濾而防止出水口15塞住的困擾，當冷凝水排放至低水位感測件183(如第6圖所示)而感應到低水位或達排放時間時，電容感測裝置18即會傳達至電路控制面板17即控制液位控制閥16的閥門立刻關閉止水，使得容納空間13內的水位確實保持高於出水口的位置，而不虞壓縮空氣隨冷凝水排出以達到無耗損壓縮空氣之省能源的目的。When the condensed water enters the accommodating space 13 from the water inlet 14 to store water, the valve of the liquid level control valve 16 is closed and the water is stopped, and the water in the liquid level gauge 19 rises in synchronization with the water in the accommodating space 13. For the user to observe the water level in the accommodating space 13 by the liquid level gauge 19, when the water level rises to the high water level sensing member 182 (as shown in FIG. 5), the capacitive sensing device 18 receives the high water level sensing device. The induction of 182 transmits a command to the liquid level control valve 16 through the circuit control panel 17 to open the valve, so that the condensed water in the accommodating space 13 can be discharged from the water outlet 15, and at this time, impurities in the water are filtered through the filter 131. To prevent the water outlet 15 from plugging, when the condensed water is discharged to the low water level sensing member 183 (as shown in FIG. 6) and the low water level is reached or the discharge time is reached, the capacitive sensing device 18 is transmitted to the circuit control. The panel 17, that is, the valve for controlling the liquid level control valve 16 is immediately closed to stop the water, so that the water level in the accommodating space 13 is indeed kept higher than the position of the water outlet, and the compressed air is discharged with the condensed water to achieve energy-saving without loss of compressed air. purpose.

另，電容感測裝置18之絕緣管181內係可僅設容設一高水位感測件與電路控制面板所設定之排水時間相配合以控制液位控制閥的開啟或關閉(請參考第4圖)，當冷凝水達高水位感測件而感應到高水位時，電容感測裝置即會接收到高水位感測件的感應而透過電路控制面板傳達指令至液位控制閥開啟閥門，使容納空間內的冷凝水得以由出水口排出，排放至電路控制面板所設定的排水時間時，電容感測裝置即會傳達至電路控制面板即控制液位控制閥的閥門立刻關閉止水。In addition, the insulating tube 181 of the capacitive sensing device 18 can only be provided with a high water level sensing component and the drainage time set by the circuit control panel to control the opening or closing of the liquid level control valve (please refer to the fourth In the figure, when the condensed water reaches the high water level sensing component and the high water level is sensed, the capacitive sensing device receives the induction of the high water level sensing component and transmits a command to the liquid level control valve to open the valve through the circuit control panel, so that When the condensed water in the accommodating space is discharged from the water outlet and discharged to the drainage time set by the circuit control panel, the capacitive sensing device communicates to the circuit control panel that the valve controlling the liquid level control valve immediately closes the water stop.

綜上所述，當知本創作具有產業上利用性與進步性，且本創作未見於任何刊物，亦具新穎性，當符合專利法之規定，爰依法提出新型專利申請，懇請貴 審查員會准專利為禱。In summary, when Zhiben's creation has industrial applicability and progress, and this creation is not found in any publication, it is also novel. When it meets the requirements of the Patent Law, it proposes a new type of patent application according to law, and invites your examiner to The quasi-patent is a prayer.

唯以上所述者，僅為本創作之可行實施例而已 ，當不能以之為限定本創作實施之範圍；即大凡依本新型申請專利範圍所作之均等變化與修飾，皆應仍屬本新型專利涵蓋之範圍內。Only the above-mentioned ones are only feasible examples of the present invention, and should not be used to limit the scope of the implementation of this creation; that is, the equal changes and modifications made by Dafan according to the scope of the new patent application should still belong to this new patent. Within the scope of coverage.

10‧‧‧排水器
11‧‧‧中空體
12‧‧‧中空體
13‧‧‧容納空間
131‧‧‧濾網
14‧‧‧進水口
15‧‧‧出水口
16‧‧‧液位控制閥
17‧‧‧電路控制面板
18‧‧‧電容感測裝置
181‧‧‧絕緣管
182‧‧‧高水位感測件
183‧‧‧低水位感測件
19‧‧‧液位計10‧‧‧Drainage
11‧‧‧ hollow body
12‧‧‧ hollow body
13‧‧‧Accommodation space
131‧‧‧Filter
14‧‧‧ Inlet
15‧‧‧Water outlet
16‧‧‧Level control valve
17‧‧‧Circuit Control Panel
18‧‧‧Capacitive sensing device
181‧‧‧Insulation tube
182‧‧‧High water level sensing parts
183‧‧‧Low water level sensing parts
19‧‧‧Level gauge

第1圖係本創作之立體圖。 第2圖係本創作之平面透視圖。 第3圖係本創作之另一立體圖。 第4圖係本創作之另一平面透視意圖。 第5圖係本創作之水位上升至高水位感測件平面圖。 第6圖係本創作之水位下降至低水位感測件平面圖。The first picture is a perspective view of the creation. Figure 2 is a plan perspective view of the creation. Figure 3 is another perspective view of the creation. Figure 4 is another perspective view of the creation. Figure 5 is a plan view of the water level of the creation rising to the high water level sensing device. Figure 6 is a plan view of the water level of the creation down to the low water level sensing device.

10‧‧‧排水器 10‧‧‧Drainage

11‧‧‧中空體 11‧‧‧ hollow body

12‧‧‧中空體 12‧‧‧ hollow body

13‧‧‧容納空間 13‧‧‧Accommodation space

131‧‧‧濾網 131‧‧‧Filter

14‧‧‧進水口 14‧‧‧ Inlet

15‧‧‧出水口 15‧‧‧Water outlet

16‧‧‧液位控制閥 16‧‧‧Level control valve

17‧‧‧電路控制面板 17‧‧‧Circuit Control Panel

18‧‧‧電容感測裝置 18‧‧‧Capacitive sensing device

181‧‧‧絕緣管 181‧‧‧Insulation tube

182‧‧‧高水位感測件 182‧‧‧High water level sensing parts

183‧‧‧低水位感測件 183‧‧‧Low water level sensing parts

19‧‧‧液位計 19‧‧‧Level gauge

Claims (14)

一種無耗氣自動排水器結構，該排水器設有一具容納空間之主體，且兩側分別設有進水口及出水口與容納空間相通以供冷凝水進入及排出，並設一液位控制閥以控制出水口的排水或止水，於主體上方設一電路控制面板與液位控制閥及一電容感測裝置相配合傳達作動，該電容感測裝置係設有一絕緣管容伸於容納空間內，於絕緣管內分別容設一高水位感測件及一低水位感測件呈一上一下設置以分別控制液位控制閥的閥門開啟或關閉，當冷凝水排放至低水位感測件而感應到低水位時，電容感測裝置即會傳達至電路控制面板即控制液位控制閥的閥門立刻關閉止水，待水位上升至高水位感測件時，電容感測裝置即會接收到高水位感測件的感應而透過電路控制面板傳達指令至液位控制閥開啟閥門，使容納空間內的冷凝水得以由出水口排出。The utility model relates to a structure of a gas-free automatic drainer, wherein the drainer is provided with a main body for accommodating space, and the water inlet and the water outlet are respectively arranged on the two sides to communicate with the accommodating space for the condensed water to enter and discharge, and a liquid level control valve is arranged To control the drainage or water stop of the water outlet, a circuit control panel is arranged above the main body to communicate with the liquid level control valve and a capacitance sensing device, and the capacitance sensing device is provided with an insulating tube and is accommodated in the receiving space. A high water level sensing component and a low water level sensing component are respectively disposed in the insulating tube to be respectively arranged to open or close the valve of the liquid level control valve, respectively, when the condensed water is discharged to the low water level sensing component. When the low water level is sensed, the capacitive sensing device communicates to the circuit control panel that the valve controlling the liquid level control valve immediately closes the water stop. When the water level rises to the high water level sensing device, the capacitive sensing device receives the high water level. The sensing component senses and transmits a command to the liquid level control valve to open the valve through the circuit control panel, so that the condensed water in the accommodating space can be discharged from the water outlet. 如請求項1所述之無耗氣自動排水器結構，其中主體之容納空間係由兩中空體呈相對接合形成，於一側中空體與進水口接設，另一側中空體與出水口接設。The airless automatic drainer structure according to claim 1, wherein the accommodating space of the main body is formed by the opposite joints of the two hollow bodies, and the hollow body is connected to the water inlet at one side, and the hollow body is connected with the water outlet at the other side. Assume. 如請求項2所述之無耗氣自動排水器結構，其中進水口係設於中空體之上、下兩側，並設一液位計與上、下兩側之進水口相通。The gas-free automatic drainer structure according to claim 2, wherein the water inlet is disposed on the upper side and the lower side of the hollow body, and a liquid level meter is connected to the water inlets on the upper and lower sides. 如請求項1所述之無耗氣自動排水器結構，其中主體之容納空間內置設一濾網與出水口相對。The airless automatic drainer structure according to claim 1, wherein a filter mesh is disposed in the receiving space of the main body opposite to the water outlet. 如請求項1所述之無耗氣自動排水器結構，其中該排水器係可設一液位計與進水口相通，液位計內的水則會與容納空間內的冷凝水同步上升。The gas-free automatic drainer structure according to claim 1, wherein the drainer is provided with a liquid level gauge connected to the water inlet, and the water in the liquid level gauge rises in synchronization with the condensed water in the receiving space. 如請求項1所述之無耗氣自動排水器結構，其中液位控制閥係可設為電動球閥。The gas-free automatic drain structure according to claim 1, wherein the liquid level control valve is configured as an electric ball valve. 如請求項1所述之無耗氣自動排水器結構，其中液位控制閥係可設為電磁閥。The gas-free automatic drainer structure of claim 1, wherein the liquid level control valve can be set as a solenoid valve. 一種無耗氣自動排水器結構，該排水器設有一具容納空間之主體，且兩側分別設有進水口及出水口與容納空間相通以供冷凝水進入及排出，並設一液位控制閥以控制出水口的排水或止水，於主體上方設一電路控制面板與液位控制閥及一電容感測裝置相配合傳達作動，該電容感測裝置係設有一絕緣管容伸於容納空間內，於絕緣管內容設一高水位感測件與電路控制面板所設定之排水時間配合以控制液位控制閥的開啟或關閉，當冷凝水達高水位感測件而感應到高水位時，電容感測裝置即會接收到高水位感測件的感應而透過電路控制面板傳達指令至液位控制閥開啟閥門，使容納空間內的冷凝水得以由出水口排出，排放至電路控制面板所設定的排水時間時，電容感測裝置即會傳達至電路控制面板即控制液位控制閥的閥門立刻關閉止水。The utility model relates to a structure of a gas-free automatic drainer, wherein the drainer is provided with a main body for accommodating space, and the water inlet and the water outlet are respectively arranged on the two sides to communicate with the accommodating space for the condensed water to enter and discharge, and a liquid level control valve is arranged To control the drainage or water stop of the water outlet, a circuit control panel is arranged above the main body to communicate with the liquid level control valve and a capacitance sensing device, and the capacitance sensing device is provided with an insulating tube and is accommodated in the receiving space. A high water level sensing component is arranged in the insulating tube to cooperate with the drainage time set by the circuit control panel to control the opening or closing of the liquid level control valve. When the condensed water reaches the high water level sensing component and the high water level is sensed, the capacitor The sensing device receives the induction of the high water level sensing component and transmits a command to the liquid level control valve to open the valve through the circuit control panel, so that the condensed water in the accommodating space can be discharged from the water outlet and discharged to the circuit control panel. At the drain time, the capacitive sensing device communicates to the circuit control panel that controls the liquid level control valve to immediately close the water stop. 如請求項8所述之無耗氣自動排水器結構，其中主體之容納空間係由兩中空體呈相對接合形成，於一側中空體與進水口接設，另一側中空體與出水口接設。The gas-free automatic drainer structure according to claim 8, wherein the accommodating space of the main body is formed by the opposite joints of the two hollow bodies, and the hollow body is connected to the water inlet at one side, and the hollow body is connected with the water outlet at the other side. Assume. 如請求項9所述之無耗氣自動排水器結構，其中進水口係設於中空體之上、下兩側，並設一液位計與上、下兩側之進水口相通。The gas-free automatic drainer structure according to claim 9, wherein the water inlet is disposed on the upper side and the lower side of the hollow body, and a liquid level gauge is connected to the water inlets on the upper and lower sides. 如請求項8所述之無耗氣自動排水器結構，其中主體之容納空間內置設一濾網與出水口相對。The airless automatic drainer structure according to claim 8, wherein a filter mesh is disposed in the receiving space of the main body opposite to the water outlet. 如請求項8所述之無耗氣自動排水器結構，其中該排水器係可設一液位計與進水口相通，液位計內的水則會與容納空間內的冷凝水同步上升。The gas-free automatic drainer structure according to claim 8, wherein the drainer is provided with a liquid level gauge connected to the water inlet, and the water in the liquid level gauge rises in synchronization with the condensed water in the receiving space. 如請求項8所述之無耗氣自動排水器結構，其中液位控制閥係可設為電動球閥。The gas-free automatic drainer structure of claim 8, wherein the liquid level control valve is configured as an electric ball valve. 如請求項8所述之無耗氣自動排水器結構，其中液位控制閥係可設為電磁閥。The gas-free automatic drainer structure of claim 8, wherein the liquid level control valve is a solenoid valve.