TWM563432U - A water pump equipment - Google Patents

Abstract

The present invention is related to a barrel water dispenser including a supporting base having a mortising structure and a circulating water system. The circulating water system includes a manifold, a water pump equipment and an activating device. Among this, the manifold includes a circulating inlet water channel, a circulating outlet water channel. The manifold is positioned in the mortising structure. And the circulating inlet water channel is communicated with the water pump equipment via a first pipe. The water pump equipment is used for pumping and driving a water flowed in the first pipe. Further, the water pump equipment is communicated with the circulating outlet water channel via a second pipe passed through the activating device. Thus, the water is activated to form a small molecules water by way of the activating device and can continuously be flowed in the circulating water system.

Description

Water pump equipment

This case relates to a barrel-type drinking device, in particular to a barrel-type drinking device which can circulate water in a circulating water system and can activate the water body to form small molecular water.

In order to improve the convenience of drinking water for modern people, the demand for the use of barrel-type drinking devices has also increased. Please refer to FIG. 1, which is a schematic diagram of an internally available barreled drinking device. The barrel-type drinking water device 10 includes at least barrel water 11, a support base 12 with a ferrule structure 13, a cold water tank 14 and a hot water tank 15. The ferrule structure 13 includes a ferrule water inlet 131 and a ferrule air outlet 132.

Next, the operation mode of the drinking water in the bottled water drinking apparatus 10 will be described. When the barreled water 11 is buckled in the ferrule structure 13 of the support seat 12 (known as the smart seat in the industry), the pressure inside the barreled water 11 balances the external atmospheric pressure, so that drinking water in the barrel will not flow out , That is, negative pressure.

When the user presses to take water, the drinking water flows out of the barrel-type drinking device 10 from the cold water tank 14 or the hot water tank 15 to lower the water level in the cold water tank 14, so that the air can insert the ferrule of the support base 12 The air outlet 132 enters the barreled water 11, that is, the air outlet direction A1 of the ferrule air outlet 132 in FIG. 1. The negative pressure in the light barreled water 11 allows drinking water to flow into the cold water tank 14 through the ferrule inlet 131, that is, the drinking water can flow into the ferrule inlet 131 in the flow direction W1 in FIG. 1.

However, there are still some problems in the practical application of the existing barrel-type drinking water devices. For example, the drinking water trapped in the barrel is prone to cause scale formation in the barrel-type drinking water device, and the bottled water is easy to breed bacteria and contaminate drinking Repeated heating and sterilization of water and drinking water devices will reduce the amount of dissolved oxygen in drinking water, etc. The above defects all affect the safety of drinking water.

Therefore, for how to reduce the pollution of drinking water to improve the drinking water safety of the existing barrel-type drinking water device, it is still necessary to design a novel and convenient structure design to solve the problems arising from the application of the foregoing conventional technologies. Missing.

The purpose of this case is to provide a barrel-type drinking water device. Through the structural design of both the ferrule structure and the shunt, and the application of pump equipment and activation device, the water body in the barrel-type drinking water device can be circulated. In the water system, it is continuously activated to form small molecule water.

In a preferred embodiment, the present invention provides a water pump device used in a circulating water system to allow a body of water to flow therein. The water pump device includes: a first water pump; a second water pump; and a one-way valve To limit the water flow direction of the water body; wherein, the one-way valve is connected in parallel to any one of the first water pump and the second water pump, and the one in parallel to the one-way valve is used to suck the pipes One of them is the water body, and the other is used to drive the water body.

Preferably, the one connected in parallel with the one-way valve is a self-priming pump, The other is a circulation pump.

Preferably, the self-priming pump is used to suck the water body and circulate the water body in the circulating water system, and the circulating pump is used to provide a driving force to allow the water body to flow in the circulating water system.

Preferably, it further comprises a water pump inlet and a water pump outlet for communicating with the circulating water system.

Preferably, the circulating water system includes a plurality of pipes including a first pipe and a second pipe, the first pipe is connected to the water inlet of the water pump, and the second pipe is connected to the water outlet of the water pump; and an activation device For the second pipeline to pass through and activate the water body to form a small molecular water; wherein the water body flows into the first water pump through the first pipeline and flows from the first water pump to the one-way The valve, the second water pump, the second pipeline, and the activation device enable the water body to be activated and continuously flow in the circulating water system.

Preferably, the activation device is a magnetizer for activating the water body flowing through the magnetizer to form the small molecular water.

Preferably, the magnetic strength of the magnetizer is 6000 Gauss or more.

Preferably, the magnetic strength of the magnetizer is 5000 Gauss to 6000 Gauss.

Preferably, the magnetic strength of the magnetizer ranges from 4000 Gauss to 5000 Gauss.

Preferably, the activation device further includes a curing device for curing and maintaining the frequency of the small molecule water.

Preferably, the frequency of the small molecule water is 50 Hz to 60 Hz. Hereby.

Preferably, the frequency of the small molecule water is 40 Hz to 50 Hz.

Preferably, the water pump device further includes a detector connected to the first water pump and detecting the water body in the first water pump to drive the one connected in parallel with the one-way valve.

Preferably, the field of the circulating water system includes any one or a combination of a drinking water device, a swimming pool, a bath machine, a water tower, a culture fishery, and a plant irrigation.

10‧‧‧Barreled drinking water device

11‧‧‧ Bottled water

12‧‧‧ support

13‧‧‧ Ferrule Structure

131‧‧‧ Ferrule inlet

132‧‧‧ Ferrule outlet

14‧‧‧ cold water tank

15‧‧‧ hot water tank

20‧‧‧Barreled drinking water device

200‧‧‧ circulating water system

21‧‧‧ Bottled water

22‧‧‧ support

23‧‧‧ Ferrule Structure

231‧‧‧ Ferrule inlet

232‧‧‧ Ferrule outlet

24‧‧‧ Shunt

241‧‧‧ Diversion inlet

242‧‧‧min outflow nozzle

243‧‧‧Circulation water inlet channel

244‧‧‧Circulating water outlet

245‧‧‧First water inlet

246‧‧‧Second water inlet

251‧‧‧The first pipeline

252‧‧‧Second Channel

26‧‧‧Water pump equipment

26a‧‧‧Water pump inlet

26b‧‧‧pump outlet

261‧‧‧The first water pump

262‧‧‧Second Water Pump

263‧‧‧Check valve

27‧‧‧ activation device

271‧‧‧Magnetizer

272‧‧‧Curifier

28‧‧‧ Detector

36‧‧‧ Pump Equipment

36a‧‧‧ pump inlet

36b‧‧‧Water pump outlet

361‧‧‧The first water pump

362‧‧‧Second Water Pump

363‧‧‧Check valve

40‧‧‧ drinking water device

41‧‧‧ Swimming Pool

42‧‧‧Bath Machine

43‧‧‧Water Tower

44‧‧‧ Aquaculture

45‧‧‧ Plant Irrigation

46‧‧‧Water Pump Equipment

46a‧‧‧Water pump inlet

46b‧‧‧Water pump outlet

461‧‧‧The first water pump

462‧‧‧Second water pump

463‧‧‧Check valve

W1‧‧‧ Direction of current

A1‧‧‧ Outlet direction

W21‧‧‧ Water inlet direction

W22‧‧‧ Water outlet direction

FIG. 1 is an internal schematic diagram of a barrel-type drinking water device of the prior art.

FIG. 2A is an internal schematic diagram of a preferred implementation concept of the barrel-type drinking water device of the present case.

FIG. 2B is a partial enlarged view of the ferrule structure and the shunt shown in FIG. 2A.

FIG. 3A is a partial enlarged view of the water pump equipment shown in FIG. 2A.

FIG. 3B is a schematic diagram of another preferred embodiment of the pump equipment of the present case.

Figure 4: Schematic diagram of the pump equipment used in this case in different fields.

The following is a detailed description of an embodiment. The embodiments are only used as examples and are not intended to limit the scope of protection in this case. In addition, the drawings in the embodiments omit components that are unnecessary or can be completed by ordinary techniques to clearly show the technical features of the present case.

Please refer to FIGS. 2A to 3A. FIG. 2A is an internal schematic diagram of a preferred implementation concept of the bucket type drinking water device of the present invention. FIG. 2B is a partially enlarged view of the ferrule structure and the shunt shown in FIG. 2A. FIG. 3A is a partially enlarged view of the water pump equipment shown in FIG. 2A.

As shown in FIG. 2A to FIG. 3A, the barrel-type drinking water device 20 of the present case includes barrel water 21, a support base 22 with a ferrule structure 23, and a circulating water system 200. The circulating water system 200 includes a diverter 24, a first pipe 251 and a second pipe 252, a pump device 26, an activation device 27, and a detector 28.

Further description, the ferrule structure 23 includes a ferrule water inlet 231 and a ferrule air outlet 232. The diverter 24 includes a diverting water inlet 241, a diverting water outlet 242, a circulating water inlet channel 243, a circulating water outlet channel 244, a first water inlet 245, and a second water inlet 246. The water pump device 26 includes a water pump inlet 26a, a water pump outlet 26b, a first water pump 261, a second water pump 262, and a check valve 263. The activation device 27 includes an activator 271 and a curing device 272.

Continuing description, the connection relationship between the above components and the operation mode. First, the barreled water 21 is buckled on the support seat 22, which is called a smart seat in the industry to support the barreled water 21 and allow the barreled water 21 to introduce gas through the ferrule outlet 232 In the barreled water 21 to reduce the negative pressure in the barreled water 21 so that the water body in the barreled water 21 can pass through the water inlet 231 of the ferrule It flows into the circulating water system 200.

It should be particularly noted that the barrel-type drinking water device 20 of this case is different from the prior art in that a circulating water system 200 is added to continuously flow the water body of the barrel water 21 therein and activate the water body to form a small body. Molecular water. The circulating water system 200 mainly includes a diverter 24 in the ferrule structure 23 described above, and one end of the circulating water inlet channel 243 of the diverter 24 is a diverting water inlet 241 and the other end is a first water inlet 245. One end of the circulating water outlet channel 244 is a split water outlet 242, and the other end is a second water outlet 246. The split water inlet 241 is connected to the ferrule inlet 231, the split water outlet 242 is connected to the ferrule outlet 232, the first water inlet 245 is connected to the first pipe 251, and the second water inlet 246 is connected to the second pipe 252. Among them, the ferrule air outlet 231 is larger than the outlet water outlet 242.

In this way, the diverter 24 can flow the body of water in the barreled water 21 from the ferrule inlet 231 through the diverter inlet 241, the circulating water inlet channel 243, the first water inlet 245 and the first pipe 251, thereby flowing into the Inside the circulating water system 200. After that, it flows back to the core air outlet 232 by flowing through the second pipe 252, the second water inlet 246, the circulating water outlet channel 244, and the outlet water outlet 242, so as to flow into the barrel water 21, so that the water body can be It flows continuously in the circulating water system 200. That is, the water body flows into the branch water inlet 241 in the water inlet direction W21, thereby flowing into the circulating water system 200 for circulation and activation, and then the water body flows out from the branch outlet water outlet 242, and flows into the barrel water 21 in the water outlet direction W22. Therefore, the water body of the barrel water 21 can be continuously flowed in the circulating water system 200.

Although a diverter 24 is added in the ferrule structure 23 in this example, so that the water body can circulate in the circulating water system 200, of course, the design of the ferrule structure can be improved in other embodiments, and the shunt can be added Water inlet, cycle The ring water inlet channel, the first water inlet, the branch outlet water outlet, the circulation water outlet channel and the second water outlet (not shown), so that the ferrule structure can have the function of the diverter in this case, and this example should not be limited.

Then, the water body flows into the detector 28 and the pump device 26 through the first pipe 251, and the detector 28 is connected to the first pipe 251 to detect whether the water body exists in the first pipe 251 to drive the water pump device 26 . The water pump device 26 includes a water pump inlet 26a, a water pump outlet 26b, a first water pump 261, a second water pump 262, and a check valve 263. The water pump inlet 26a is connected to the detector 28, and the water pump outlet 26b is connected to the second pipe 252. The first water pump 261 is a circulation pump for driving the water body to flow in the pipeline, and the second water pump 262 is a self-priming pump for sucking the water body into the first pipeline 251. The one-way valve 263 is connected in parallel to the second water pump 262, for limiting the direction of water flow in the water body. Of course, this example is only one of the preferred embodiments of the concept of this case. In practice, this example should not be used as a limitation. A single water pump can also be used to drive and pump the water in the first pipe 251, and the detector 28 can communicate with Either the water pump inlet 26a or the water pump outlet 26b is used to detect whether a water body is present in the water pump device 26.

After that, the second pipe 252 passes through the activation device 27 and communicates with the second water inlet 246, so that the water body can contact the activation device 27 non-contact, and still activate the water body to form small molecular water, and then flow back to the barrel water Within 21. The activation device 27 includes a magnetizer 271 and a solidifier 272. The magnetizer 271 is used to activate the flowing water body to form small molecular water. The magnetic strength of the magnetizer 271 can be 4000 Gauss, 5000 Gauss, or 6000 Gauss or more. , Or between 4000 Gauss and 6000 Gauss, for example: 4200 Gauss, 4500 Gauss, 4800 Gauss, 5200 Gauss, 5500 Gauss, or 5800 Gauss. Of course, the activation device 27 in this example includes a magnetizer 271 and a curing device 272. In other embodiments, the activation device 27 may be a single magnetizer, and the structure design of the magnetizer, such as: The arrangement of the number of magnets can improve the activation efficiency and quality of the water body, which should not be limited by this example.

The solidifier 272 is a high-energy ore, such as quartz and crystal, used to solidify and maintain the frequency of small molecular water. The frequency of small molecular water can be 40 Hz, 50 Hz, or 60 Hz, or between 40 Between Hertz and 60 Hertz, for example: around 45 Hertz, 48 Hertz, 55 Hertz or 58 Hertz.

As can be seen from the above description, the main technical feature of the barrel-type drinking water device 20 in the present case is the addition of a circulating water system 200, and a magnetizer 271 and a solidifier 272 are added therein, so that the water body of the barrel water 21 can be treated After contacting the activation device 27, the water body can still be activated and continuously flow in the circulating water system 200, so that the water body can be continuously activated to form small molecule water, and the small molecule is solidified by the curing device 272 to maintain the small molecule. water. Moreover, small molecule water can effectively inhibit the growth of microorganisms and bacteria, such as: green algae, E. coli, mold and yeast.

For example, as shown in FIG. 1, when the conventional drinking water device 10 is installed with barreled water 11, bacteria in the air will enter the sealed bucket with the air, and will continue to flow during the process of water discharge. Supplementing the air will also cause a large number of microorganisms in the barreled water 11 to multiply. It is often used for about a week. The total number of bacteria in the barreled water 11 has exceeded the standard and failed.

However, please refer to FIG. 2A and FIG. 2B. The barrel-type drinking water device 20 adds the circulating water system 200 in this case, so that the water body of the barrel water 21 can be continuously circulated and activated in the circulating water system 200 to form small molecules. Water to achieve effective antibacterial, antibacterial and improve the safety of drinking water.

Of course, the above-mentioned components can be changed or designed by people who are familiar with this technology, and adjusted according to the needs of actual use. The structural design and specifications of the components should not be limited by this embodiment.

For example, the water pump equipment in this case has other preferred embodiments in addition to the above-mentioned embodiments, and the water pump equipment in this case can be applied to different technical fields. Please refer to FIG. 3B and FIG. 4. FIG. 3B is a schematic diagram of another preferred embodiment of the pump equipment of the present invention. Figure 4 is a schematic diagram of the application of the pump equipment in different fields in this case.

As shown in FIG. 3B, the water pump device 36 includes a water pump inlet 36 a, a water pump outlet 36 b, a first water pump 361, a second water pump 362, and a check valve 363. In this embodiment, the water inlet 36a and the water outlet 36b of the water pump are used to communicate with a water storage system to drive and suck the water of the water storage system, that is, the water inlet 36a and the water outlet 36b of the water pump are connected to the water storage system, respectively. The water outlet and water inlet of the water system, so that the water body of the water storage system can circulate. Among them, the check valve 363 is connected in parallel to the first water pump 361 to limit the water flow direction of the water body, and the first water pump 361 in this example is a self-priming pump for sucking the water body in the pipeline so that the water body flows into the In the pipeline. The second water pump 362 is a circulation pump, which is used to push the water body in the pipeline so that the water body flows in the pipeline.

In other words, the check valve in the pump equipment of this case can be connected in parallel to any one of the first pump and the second pump, and the check valve in parallel with the check valve is used to suck the water body in the pipeline to make the water body Flow into the pipeline, for example: self-priming pump. The other is used to provide a driving force to allow water to flow in the pipeline, such as a circulating pump.

Of course, the pump equipment in this case is mainly used to pump and drive the water circulation of the water storage system, so it can be applied to different technical fields. As shown in FIG. 4, the water pump device 46 includes a water pump inlet 46 a, a water pump outlet 46 b, a first water pump 461, a second water pump 462, and a one-way valve 463, as shown in FIG. 3A. The water pump inlet 46a and the water pump outlet 46b are respectively connected to the water outlet and the water inlet of the water storage system, for example, a drinking device 40, a swimming pool 41, a bath 42, a water tower 43, an aquaculture fishery 44 or a plant irrigation 45.

Among them, the drinking water device 40 is equivalent to the embodiment of FIG. 2A. The pumping equipment 26 and 46 are applied to the barrel-type drinking water device 20, and an activation device 27 is added to enable the water body to continuously circulate in the circulating water system 200 Inside, and activate the water body to form small molecular water, which is beneficial to increase the dissolved oxygen content of the water body, inhibit bacteria and help the body absorb. In the same way, the pump equipment 26, 46 and the activation device 27 can also be applied to the bathing machine 42, the aquaculture fishery 44, and the plant irrigation 45, in order to improve the quality of domestic water and promote industrial efficiency.

Alternatively, the swimming pool 41 and the water tower 43 can be driven by the design of the pump device 46 in this case, using both a circulating pump and a self-priming pump, and then connected with a check valve in parallel with the self-priming pump to limit the direction of the water flow. Circulation and flow of water. For example, under normal operating conditions, the water pump equipment only needs to start the circulation pump to drive the flow of the overall water storage system, and when it is necessary to re-suction the water body of the water storage system, or when it is necessary to filter or activate the water body, Start the self-priming pump for suction and drive the flow of the water storage system. In this way, the pump equipment in this case can periodically start the circulation pump and the self-priming pump through a control module, so that the two can continuously drive the water storage. Water body in the system (not shown). Therefore, this method can effectively reduce the cost of installation and maintenance of the pump equipment to achieve the convenience of cost control and operation.

Therefore, as long as various equal structures can achieve the same function, they are also within the scope of protection of rights in this case.

The above is only a preferred embodiment of this case, and is not intended to limit the scope of patent application in this case. Therefore, all other things that do not depart from the spirit disclosed in this case All equivalent changes or modifications should be included in the scope of patent application in this case.

Claims (14)

A water pump device is applied in a circulating water system to allow one body of water in a plurality of pipes to flow therein. The water pump device includes: a first water pump; a second water pump; and a one-way valve for restricting the water body The direction of the water flow; wherein the one-way valve is connected in parallel to any one of the first water pump and the second water pump, and the one in parallel with the one-way valve is used to suck the water body in the pipes, and The other is used to drive the water body. According to the water pump equipment described in item 1 of the scope of patent application, the one in parallel with the one-way valve is a self-priming pump, and the other is a circulating pump. The self-priming pump is used to pump the water body and circulate the water body in the circulating water system, and the circulating pump is used to provide a driving force to make the water body. Allowed to flow in the circulating water system. The water pump equipment described in item 1 of the scope of the patent application further includes a water pump inlet and a water pump outlet for communicating with the circulating water system. According to the water pump equipment described in item 4 of the patent application scope, the circulating water system includes: a plurality of pipes including a first pipe and a second pipe, the first pipe is connected to the water inlet of the pump, and the second pipe is connected to An outlet of the water pump; and an activation device for the second pipeline to pass therethrough and activate the water body to form a small molecular water; wherein the water body flows into the first water pump through the first pipeline, and from the first water pump; A first water pump flows through the check valve, the second water pump, the second pipeline, and the activation device, so that the water body is activated and continuously flows in the circulating water system. According to the water pump equipment described in the fifth item of the patent application scope, the activation device is a magnetizer for activating the water body flowing through the magnetizer to form the small molecular water. According to the water pump equipment described in item 6 of the scope of patent application, the magnetic strength of the magnetizer is above 6000 Gauss. According to the water pump equipment described in item 6 of the scope of patent application, the magnetic strength of the magnetizer is 5000 Gauss to 6000 Gauss. According to the water pump equipment described in item 6 of the scope of the patent application, the magnetic strength of the magnetizer is from 4000 Gauss to 5000 Gauss. According to the pump device described in item 5 of the patent application scope, the activation device further includes a curing device for curing and maintaining the frequency of the small molecule water. According to the water pump device described in item 10 of the scope of patent application, the frequency of the small molecule water is 50 Hz to 60 Hz. According to the pumping device described in item 10 of the scope of patent application, the frequency of the small molecule water is 40 Hz to 50 Hz. According to the water pump equipment described in item 1 of the patent application scope, the water pump equipment further includes a detector connected to the first water pump and detecting the water body in the first water pump for driving and the one-way valve. The one in parallel. According to the water pump equipment described in the first patent application scope, the field of the circulating water system includes any one or a drinking water device, a swimming pool, a bath machine, a water tower, a farming fishery, and a plant irrigation. combination.