CN213541465U - Energy-saving waterway electromagnetic valve with self-holding valve position - Google Patents
Energy-saving waterway electromagnetic valve with self-holding valve position Download PDFInfo
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- CN213541465U CN213541465U CN202022460891.2U CN202022460891U CN213541465U CN 213541465 U CN213541465 U CN 213541465U CN 202022460891 U CN202022460891 U CN 202022460891U CN 213541465 U CN213541465 U CN 213541465U
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Abstract
The utility model discloses a water route solenoid valve of energy-saving self-sustaining valve position, including the casing, set up at the inside upper end cavity of casing, and through the semihard magnetism solenoid valve setting piece that screw and casing are fixed, with semihard magnetism solenoid valve setting piece that corresponds is wound semihard magnetism solenoid valve setting piece and semihard magnetism solenoid valve setting piece set up, and with the fixed coil of casing, set up and be in reset spring between semihard magnetism solenoid valve setting piece and the semihard magnetism solenoid valve setting piece, with semihard magnetism solenoid valve setting piece passes through the fix with screw, and extends to the case of casing lower extreme, and sets up the casing is inside, and be located the control module of semihard magnetism solenoid valve setting piece top. The utility model has the advantages of power saving, long service life and high reliability.
Description
Technical Field
The utility model particularly relates to a water route solenoid valve of energy-saving self-sustaining valve position.
Background
The electromagnetic valve is industrial equipment controlled by electromagnetism, is an automatic basic element for controlling fluid, belongs to an actuator, is one of water path electromagnetic valves, is suitable for taking water or liquid as a working medium, and can automatically control or remotely control the on-off of pipelines of the working medium such as the water, the liquid and the like.
The traditional waterway electromagnetic valve is based on the working principle of 'power-on suction, charged keeping and power-off release', more than 90% of energy consumption is concentrated on magnetic hysteresis loss, eddy current loss and short circuit ring loss of an iron core in the operation process, the power factor is low, the noise is large, the temperature of a coil is increased, and the service life of the electromagnetic valve coil is shortened. Along with the quality problems of the electricity-saving device in practical use, the electricity-saving device mainly shows that a coil of the electromagnetic valve is frequently burnt, the energy consumption is large, and the like.
SUMMERY OF THE UTILITY MODEL
In view of this, the utility model aims at providing a water route solenoid valve of energy-saving self-sustaining valve position that power saving, long service life and reliability are high.
In order to solve the technical problem, the technical scheme of the utility model is that:
the utility model provides an energy-saving water route solenoid valve of self-sustaining valve position, includes the casing, set up at the inside upper end cavity of casing, and through the semihard magnetoelectric solenoid valve setting that screw and casing are fixed, with semihard magnetoelectric solenoid valve setting corresponds semihard magnetoelectric solenoid valve moves the piece, winds semihard magnetoelectric solenoid valve and semihard magnetoelectric solenoid valve move the setting, and with the fixed coil of casing, set up and be in reset spring between semihard magnetoelectric solenoid valve setting and the semihard magnetoelectric solenoid valve moves the piece, with semihard magnetoelectric solenoid valve moves the case that passes through the screw fixation, and extend to the casing lower extreme, and set up and be in the casing inside, and be located the control module of semihard magnetoelectric solenoid valve setting top.
Preferably, a water through cavity is formed in the position, close to the valve core, of the shell, a P water gap is formed in one side of the lower end of the shell, and a T water gap communicated with the water through cavity is formed in the other side of the lower end of the shell.
Preferably, the semihard magnetic solenoid valve fixing piece is provided with an inner groove facing the middle part of the semihard magnetic solenoid valve moving piece, and the inner groove is used for embedding a reset spring.
Furthermore, the semihard magnetic solenoid valve fixed piece penetrates through an inner groove of the semihard magnetic solenoid valve fixed piece through a screw to be fixedly connected with the shell through threads.
Preferably, the semihard magnetic solenoid valve movable piece is provided with an inner groove facing the middle part of the semihard magnetic solenoid valve fixed piece, and the inner groove is used for embedding a return spring.
Furthermore, the semihard magnetic solenoid valve moving part penetrates through an inner groove of the semihard magnetic solenoid valve moving part through a screw to be fixedly connected with the valve core through threads.
Preferably, a sealing rubber sheet is fixed to a middle portion of the valve body.
Preferably, the control module is composed of a processor, a power management module, an energy storage management module, a driving module, a state monitoring module, a position sensor and a keyboard,
the utility model discloses technical effect mainly embodies in following aspect:
1. the energy-saving water path electromagnetic valve with the self-holding valve position adopting the semi-hard magnetic material has the advantages of no network voltage interference, no vibration, high power saving rate, no noise, no temperature rise, selectable threshold voltage, selectable delayed release and the like.
2. The coil is not required to be electrified for a long time, so that the aim of energy-saving operation is fulfilled.
3. The device has the characteristics of long service life, high reliability and no noise.
4. The volume is small, the weight is light, the weight is lighter than that of a traditional waterway electromagnetic valve with the same specification, the corresponding volume is also reduced, and the consumption of ferrous metals such as silicon steel sheets and the like is reduced; meanwhile, the optimal design of an electromagnetic system and the optimal matching of the reaction force absorption characteristic brought by the reduction of energy consumption reduce the burning loss of the contact, so that the consumption of copper and silver nonferrous metals can be reduced.
5. By adopting an advanced electronic control technology, the two critical voltage contactors do not shake in action, the control process does not occupy any auxiliary contact, the modularity is strong, the action characteristics of the contactors are reliable, and the pull-in and release actions are rapid.
Drawings
Fig. 1 is a view of the P nozzle of the present invention communicating with the T nozzle;
fig. 2 is a view of the P nozzle and the T nozzle of the present invention when they are closed;
fig. 3 is a frame structure diagram of the control module of the present invention.
Detailed Description
The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings, so that the technical solution of the present invention can be more easily understood and grasped.
In the present embodiment, it should be understood that the terms "middle", "upper", "lower", "top", "right", "left", "above", "back", "middle", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
In the present embodiment, if the connection or fixing manner between the components is not specifically described, the connection or fixing manner may be a bolt fixing manner, a pin connecting manner, or the like, which is commonly used in the prior art, and therefore, details thereof are not described in the present embodiment.
The utility model provides a water route solenoid valve of energy-saving self-sustaining valve position, as shown in figure 1 or figure 2, including casing 1, set up in the inside upper end cavity of casing 1, and through the semihard magnetism solenoid valve of screw and casing 1 fixed 2, with semihard magnetism solenoid valve that 2 corresponds of semihard magnetism solenoid valve fixed 3, wind semihard magnetism solenoid valve fixed 2 and semihard magnetism solenoid valve movable 3 set up, and with casing fixed coil 4, set up and be in reset spring 5 between semihard magnetism solenoid valve fixed 2 and the semihard magnetism solenoid valve movable 3, with semihard magnetism solenoid valve movable 3 passes through the screw fixation, and extends to casing case 6 of lower extreme, and sets up the casing is inside, and be located the control module 7 of the 2 tops of semihard magnetism solenoid valve. A water through cavity 11 is formed in the position, close to the valve core 5, of the shell 1, a P water gap is formed in one side of the lower end of the shell 1, and a T water gap communicated with the water through cavity 11 is formed in the other side of the lower end of the shell. The semihard magnetic solenoid valve fixed piece 2 is provided with an inner groove 21 of the semihard magnetic solenoid valve fixed piece for embedding the reset spring 5 towards the middle part of the semihard magnetic solenoid valve movable piece 3. The semihard magnetic solenoid valve fixed piece 2 penetrates through an inner groove 21 of the semihard magnetic solenoid valve fixed piece through a screw to be fixedly connected with the shell 1 through threads. The semihard magnetic valve moving piece 3 is provided with an inner groove 31 facing the middle part of the semihard magnetic valve moving piece 2 and used for embedding the reset spring 5. The semihard magnetic solenoid valve moving part 3 penetrates through an inner groove 31 of the semihard magnetic solenoid valve moving part through a screw to be fixedly connected with the valve core 6 through threads. The middle part of the valve core 6 is fixedly clamped with a sealing rubber sheet 61, specifically, the edge of the sealing rubber sheet 61 is fixed with the edge of the water passing cavity 11, when in use, the water passing cavity 11 can be opened under the pulling of the valve core 6, so that the P water gap and the T water gap are communicated for water delivery, or the water passing cavity 11 is closed, so that the P water gap and the T water gap stop water delivery.
As shown in fig. 3, the control module 7 is composed of a processor 71, a power management module 72, an energy storage management module 73, a driving module 74, a status monitoring module 75, a position sensor 76, and a keyboard 77, and specifically, the driving module 74 is electrically connected to the coil 4.
In this embodiment, semihard magnetic solenoid valve fixed part 2 and semihard magnetic solenoid valve movable part 3 all use magnetism between hard magnetism and soft magnetism, coercive force (Hc) is in the alloy of 800 ~ 2400A/m scope, different from the permanent magnet, it leans on the external magnetic field to change its magnetization state and carries out work, including magnetic hysteresis alloy, alloy and information storage for the electronic switch use alloy, magnetic hysteresis alloy is used as the rotor of hysteresis motor, the commonly used has iron cobalt vanadium system alloy, iron cobalt molybdenum system alloy and iron nickel aluminium niobium alloy etc. in this practicality, through making semihard magnetic material semihard magnetic solenoid valve fixed part 2 and semihard magnetic solenoid valve movable part 3, can change its magnetization state under the effect of instantaneous magnetic field for semihard magnetic solenoid valve movable part 3 with drive case 6 removes and control sealed film 61 adjustment P mouth of a river and the communicating or not communicating condition of T mouth.
The specific use principle is as follows:
referring to fig. 1, when the P nozzle is communicated with the T nozzle: control the input of the momentary forward power through control module 7, 4 circular telegrams of coil produced the magnetic force of attracting mutually this moment, make semihard magnetism solenoid valve moving piece 2 and semihard magnetism solenoid valve moving piece 3 attract mutually, then semihard magnetism solenoid valve moving piece 3 is close to semihard magnetism solenoid valve moving piece 2, then can be through driving the direction removal of case 6 toward semihard magnetism solenoid valve moving piece 2, make sealed film 61 open the chamber of leading to water 11, make the P mouth of a river communicate with each other with the T mouth of a river, and after the outage, semihard magnetism solenoid valve moving piece 2 is under the remanence effect basis of semihard magnetism, still inhale with semihard magnetism solenoid valve moving piece 3 mutually, make 6 removal of case be in the P mouth of a river and the communicating state of T mouth of a river always.
Referring to fig. 2, when the P nozzle is not communicated with the T nozzle: control reverse power input in the twinkling of an eye through control module 7, 4 reverse circular telegrams of coil this moment for semihard magnetism solenoid valve moves 2 and semihard magnetism solenoid valve and moves 3 and produce the demagnetization, and under reset spring 5's effect, semihard magnetism solenoid valve moves 3 and breaks away from semihard magnetism solenoid valve and moves 2, also strengthens the dynamics under reset spring 5's effect simultaneously, can push away valve core 6 and make sealed film 61 shutoff logical water cavity 11, makes the P mouth of a river not communicate with each other with the T mouth of a river.
The utility model discloses technical effect mainly embodies in following aspect:
1. the energy-saving water path electromagnetic valve with the self-holding valve position adopting the semi-hard magnetic material has the advantages of no network voltage interference, no vibration, high power saving rate, no noise, no temperature rise, selectable threshold voltage, selectable delayed release and the like.
2. The coil is not required to be electrified for a long time, so that the aim of energy-saving operation is fulfilled.
3. The device has the characteristics of long service life, high reliability and no noise.
4. The volume is small, the weight is light, the weight is lighter than that of a traditional waterway electromagnetic valve with the same specification, the corresponding volume is also reduced, and the consumption of ferrous metals such as silicon steel sheets and the like is reduced; meanwhile, the optimal design of an electromagnetic system and the optimal matching of the reaction force absorption characteristic brought by the reduction of energy consumption reduce the burning loss of the contact, so that the consumption of copper and silver nonferrous metals can be reduced.
5. By adopting an advanced electronic control technology, the two critical voltage contactors do not shake in action, the control process does not occupy any auxiliary contact, the modularity is strong, the action characteristics of the contactors are reliable, and the pull-in and release actions are rapid.
Of course, the above is only a typical example of the present invention, and besides, the present invention can also have other various specific embodiments, and all technical solutions adopting equivalent replacement or equivalent transformation are all within the scope of the present invention as claimed.
Claims (8)
1. The utility model provides a water route solenoid valve of energy-saving self-sustaining valve position which characterized in that: including the casing, set up at the inside upper end cavity of casing, and through the half hard magnetism solenoid valve setting that screw and casing are fixed, with half hard magnetism solenoid valve setting corresponds half hard magnetism solenoid valve moving piece, winds half hard magnetism solenoid valve setting and half hard magnetism solenoid valve moving piece set up, and with the fixed coil of casing, set up and be in reset spring between half hard magnetism solenoid valve setting and the half hard magnetism solenoid valve moving piece, with half hard magnetism solenoid valve moving piece passes through the fix with screw, and extends to the case of casing lower extreme, and sets up the casing is inside, and be located the control module of half hard magnetism solenoid valve setting top.
2. The energy-saving waterway solenoid valve with the self-holding valve position of claim 1, wherein: a water through cavity is formed in the position, close to the valve core, of the shell, a P water gap is formed in one side of the lower end of the shell, and a T water gap communicated with the water through cavity is formed in the other side of the lower end of the shell.
3. The energy-saving waterway solenoid valve with the self-holding valve position of claim 1, wherein: the semihard magnetic solenoid valve fixed piece is provided with a semihard magnetic solenoid valve fixed piece inner groove used for embedding a reset spring towards the middle part of the semihard magnetic solenoid valve movable piece.
4. The energy-saving waterway solenoid valve with the self-holding valve position of claim 3, wherein: the semihard magnetic solenoid valve fixed piece penetrates through an inner groove of the semihard magnetic solenoid valve fixed piece through a screw to be fixedly connected with the shell through threads.
5. The energy-saving waterway solenoid valve with the self-holding valve position of claim 1, wherein: the half hard magnetic valve moving piece is provided with a half hard magnetic valve moving piece inner groove used for embedding a reset spring towards the middle part of the half hard magnetic valve moving piece.
6. The energy-saving waterway solenoid valve with the self-holding valve position of claim 5, wherein: the semihard magnetic solenoid valve moving part penetrates through an inner groove of the semihard magnetic solenoid valve fixed part through a screw to be fixedly connected with the valve core through threads.
7. The energy-saving waterway solenoid valve with the self-holding valve position of claim 1, wherein: and a sealing rubber sheet is clamped and fixed at the middle part of the valve core.
8. The energy-saving waterway solenoid valve with the self-holding valve position of claim 1, wherein: the control module is composed of a processor, a power supply management module, an energy storage management module, a driving module, a state monitoring module, a position sensor and a keyboard.
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CN202022460891.2U CN213541465U (en) | 2020-10-29 | 2020-10-29 | Energy-saving waterway electromagnetic valve with self-holding valve position |
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CN202022460891.2U CN213541465U (en) | 2020-10-29 | 2020-10-29 | Energy-saving waterway electromagnetic valve with self-holding valve position |
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Effective date of registration: 20230119 Address after: Room 304-6, Xinye Building, No. 11-6, Torch East Road, Pioneer Park, Xiamen Torch High-tech Zone, Xiamen, Fujian Province, 361015 Patentee after: Cilian (Xiamen) Technology Co.,Ltd. Address before: 361000 room 702, 1168 Huancheng South Road, Tong'an District, Xiamen City, Fujian Province Patentee before: Yue Shengxian |