The present invention relates to a float switch, and specifically relates to a float switch for a water pump, which belongs to the technical field of fluid engineering.
In the prior art, float switches for water pumps use mechanical switches. Generally, the mechanical switches are not good in sealing property and not long in service life. The complex mechanical structures are not ideal in reliability. Products are poor in waterproof performance, the misgiving about the situation that moisture may enter into the products can not be completely avoided, and the metal oxidation phenomenon may occur. The products are complex in production and mounting and high in fraction defective and scrappage rate so as to cause the high cost of the products.
Against the existing technical problems, the invention aims at providing a float switch with long service life and high reliability.
The technical solution of the invention is realized as follows. A float switch comprises a float, a float guide rod, a dry reed pipe detection device and a relay. The float is sheathed on the float guide rod and can slide freely. The dry reed pipe detection device comprises a high-level dry reed pipe, a low-level dry reed pipe and a magnet. The interior of the float guide rod is hollow, the high-level dry reed pipe and the low-level dry reed pipe are arranged at the high level and the low level in the float guide rod respectively. The magnet is arranged in the float. When the water level is low, the height of the float is also low. The low-level dry reed pipe is switched on due to attraction of the magnet, the high-level dry reed pipe can not be switched on because the high-level dry reed pipe is farther away from the magnet, and the relay is further switched off through the control of a circuit at this time. When water is slowly injected from the outside, the water level rises slowly, and the float also rises slowly. When the water level rises to the high level, the low-level dry reed pipe can not be switched on because the low-level dry reed pipe is farther away from the magnet, the high-level dry reed pipe is switched on because the high-level dry reed pipe is nearer to the magnet, and the relay is further switched on through the control of the circuit.
Preferably, the relay is mounted in a container for mounting the relay and the container for mounting the relay is in the shape of a funnel.
Preferably, a motor is connected in the circuit of the relay. When the relay is switched on, the motor works, and when the relay is switched off, the motor stops working.
Preferably, the circuit of the float switch comprises an RC (resistor-capacitor) voltage-dropping power supply part, a dry reed pipe detection part, a control part, a relay driving and protection part, and a relay switch part. The control part is used for on-off control of not only the relay but also a 150R bleeder resistor of the power supply part. In addition to the function of driving the relay, more important, the relay driving and protection part is used for protecting a contact of the relay from being damaged by instantaneous high-voltage arcing generated by a coil of the motor. The RC voltage-dropping power supply part selects a capacitor passing the safety considerations, a fuse is simultaneously added and the circuit can work normally under great fluctuations in voltage.
The float switch according to the present invention adopts the dry reed pipe detection device for controlling the relay. When the high-level dry reed pipe is switched on, the relay is switched on. The relay is further used for controlling the motor. When the relay is switched on, the motor works, and when the relay is switched off, the motor stops working The service life is long and the reliability is high. The control circuit is not only simple and low in cost, but also good in reliability and wide in working voltage. The product adopts the glue-pouring sealing way, so that the product is excellent in waterproof performance, the misgiving about the situation that the moisture may enter into the product can be completely avoided, the metal oxidation phenomenon can be also avoided and the reliability of the product is further enhanced. The product is simple in production and mounting and lower in fraction defective and scrappage rate, and the cost of the product is further reduced.
In combination of the following figures, the invention is further described.
wherein, 101: relay; 102: relay support; 103: container for mounting relay; 104: mounting plate; 105: float guide rod; 106: float; 107: magnet; 108: high-level dry reed pipe; 109: low-level dry reed pipe.
As shown in
As shown in
The float switch adopting the scheme of the invention adopts the dry reed pipe detection device for controlling the relay. When the high-level dry reed pipe is switched on, the relay is switched on, and the relay is further used for controlling the motor. When the relay is switched on, the motor works, and when the relay is switched off, the motor stops working. The service life is long and the reliability is high. The control circuit is not only simple and low in cost, but also good in reliability and wide in working voltage. The product adopts the glue-pouring sealing way, so that the product is excellent in waterproof performance, the misgiving about the situation that the moisture may enter into the product can be completely avoided, the metal oxidation phenomenon can be also avoided and the reliability of the product is further enhanced. The product is simple in production and installation and lower in fraction defective and scrappage rate, and the cost of the product is further reduced.
The above embodiment is only used for describing the technical concept and the characteristics of the invention and aims at enabling people who are familiar with the technology to understand the contents of the invention and perform implementation rather than limiting the protection range of the invention, and all the equivalent changes or the modifications made according to the spirit of the invention shall be considered within the protection range of the invention.
Number | Date | Country | Kind |
---|---|---|---|
2009 1 0183885 | Aug 2009 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/CN2010/000843 | 6/12/2010 | WO | 00 | 1/30/2012 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2011/015030 | 2/10/2011 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5294917 | Wilkins | Mar 1994 | A |
7060180 | Barnes | Jun 2006 | B1 |
7429842 | Schulman et al. | Sep 2008 | B2 |
7972117 | MacDonald | Jul 2011 | B1 |
Number | Date | Country |
---|---|---|
88202383 | Nov 1988 | CN |
201007571 | Jan 2008 | CN |
101656169 | Feb 2010 | CN |
29812132 | Sep 1998 | DE |
11167850 | Jun 1999 | JP |
Number | Date | Country | |
---|---|---|---|
20120125756 A1 | May 2012 | US |