CN102518865A - Temperature control bouncing valve core - Google Patents

Abstract

The invention relates to a valve core with a temperature control bouncing function. The valve core comprises a shell, and a water inlet cavity, a water return cavity and a cycle water return cavity which are surrounded by the shell. A bouncing mechanism, a bouncing shell and a line cavity are arranged in the water inlet cavity; and a bouncing core, a clamped hook with a bevel angle, a clamped hook shroud ring, a bouncing reset spring and the like are arranged in the line cavity. At an original state, one end of the clamped hook is stretched into a downstream guide slot and is positioned at an original point A part; when the bouncing core is pressed by external force and slides inwards in the line cavity so as to enable the clamped hook to be positioned at a point C and to be clamped, water flow can enter into the water inlet cavity from a water inlet of the valve core and arrive the water return cavity so as to flow out from a water return port; and when the temperature of water flow flowing through the valve core is gradually risen, a thermal bulb is heated to be expanded, and an ejector rod of the thermal bulb can be gradually stretched out to drive a trigger card to move towards an opposite end of the thermal bulb, so that the bouncing core is reset, the water inlet of the core valve is closed, water flow stops flowing, and water return is completed.

Description

Temperature control spring spool

Technical field

The present invention relates to a kind of spring spool, relate to a kind of spool in particular with temperature triggered spring.

Background technique

Bouncer is realized hooking stroke with its push action easily and is shortened and the elongated mechanical property of release travel, in many industries, is used widely.But existing bouncer is used for down water switch in the hot-water heating industry more, and the user's that places one's entire reliance upon push action accomplishes the action of hooking and discharging, thereby can't realize the automatic control function under the specific environment, makes its use face receive great restriction.The present invention will possess the spring mechanism of temperature control function and introduce spool, make spool possess the function of spring function and temperature triggered release simultaneously, so just can realize with the mechanical controller system of temperature parameter as spool.

Summary of the invention

The water-inlet cavity 42 that the present invention is the same with common spool to have spool shell 40 and spool shell 40 to surround, backwater cavity 46 with loop back water cavity 48.Spool water intake 50 is arranged on the wall of water-inlet cavity 42, backwater mouth 54 is arranged on the wall of backwater cavity 46, circulating outlet 62 is arranged in the bottom that loops back water cavity 48.The spring an actor's rendering of an operatic tune 2 that wherein between water-inlet cavity 42 and backwater cavity 46, has spring shell 1 and it to be surrounded is isolated it, and grab 5, grab garter spring 7 and the spring Returnning spring 9 at spring core 3 and band oblique angle arranged in spring an actor's rendering of an operatic tune 2.In the opposite end of an actor's rendering of an operatic tune 2 sliding platform 8 is arranged, there is grab positioning hole 12 in the front of sliding platform 8, and the card 15 of triggering is arranged on sliding platform 8, and triggering on the card 15 has elongated slot 29, between the end face of triggering card 15 and sliding platform 8 thermometer bulb Returnning spring 17 is arranged; With spring core 3 relative ends thermometer bulb 11 is arranged, thermometer bulb push rod 13 is arranged in the thermometer bulb 11, thermometer bulb push rod 13 tops are to the end face that triggers card 15 1 sides; The working plane 33 that the end of core 3 of wherein bouncing has a breach to form; There are the different descending guiding groove 19 of the degree of depth, time hook guiding groove 21, release guiding groove 23, up guiding groove 25 and temperature control to discharge guiding groove 27 (seeing accompanying drawing 5) on the working plane 33; There is spacing screw 6 the guiding groove rear end; In the spacing screw 6 caging bolt 31 is arranged, restraining groove 4 is arranged at the bottom of shell 1, and caging bolt 31 stretches in the restraining groove 4; Grab 5 rear ends are passed the elongated slot 29 that triggers card 15 and are inserted in the grab positioning hole 12, and the other end of grab 5 stretches in the descending guiding groove 19 and is positioned at initial point A place.The other end of spring core 3 stretches out beyond the spool shell and hollow intake tunnel 52 is arranged.Transmission shaft 64 is arranged in hollow intake tunnel 52, and transmission shaft 64 inside ends have hydrodynamic(al) impeller 66, and transmission shaft 64 outside ends have coil winding 70, and two of coil winding 70 connects light-emitting component 72.There are magnet 68 and transparent cover 74 in the outer end of spring core 3.When spring core 3 receives pressed by external force and in an actor's rendering of an operatic tune 2, inwardly slide; An end that is in the grab 5 in the descending guiding groove 19 can get into back hook guiding groove 21 under the relative movement of descending guiding groove 19; Be deeper than up guiding groove 19 owing to return the bottom land of hook guiding groove 21; Grab 5 can be reduced to go back to the bottom of hook guiding groove 21 and is in the B point under the effect of grab garter spring 7; Spring core 3 reversing motion in an actor's rendering of an operatic tune 2 under the effect of spring Returnning spring 9 after external force disappears; Grab 5 can move to C point and blocks along returning hook guiding grooves 21 under the relative movement of returning hook guiding groove 21, and drops to the bottom that discharges guiding groove 23 and tangle in the effect of grab garter spring 7 simultaneously, and the hollow intake tunnel 52 of 3 li in core is in open mode because the relative movement of this position is bounced; Current just can get into the hollow intake tunnel 52 of 3 li in spring core and arrive backwater cavity 46 from spool water intake 50; Current can promote hydrodynamic(al) impeller 66 during through hollow intake tunnel 52 and rotate and drive transmission shaft 64, coil winding 70 and light-emitting component 72 and rotates together, in the effect lower coil winding 70 of magnet 68, produce electric current and make light-emitting component 72 luminous, and light sees through transparent cover 74 and spreads out of to point out streamflow regime.At this moment the difference according to application model can have two kinds of passages, and current flow out and flow in the specified containers from backwater mouth 54 during the backwater pattern; The current non-return spool 58 of pushing tow and compress non-return spring 60 and open passage then under circulation mode, current pass and loop back water cavity 48 and flow out (see the dotted line the accompanying drawing 2 represent water (flow) direction and path) from circulating outlet 62.When working as the water temperature that flows through spool and progressively raise along with backwater or circuit, thermometer bulb push rod 13 can stretch out and promote to trigger card 15 gradually to the relative sides motion of thermometer bulb 11, owing to have sliding bevel on the triggering card 15; The oblique angle of card sliding bevel and grab 5 matches; The result of motion can make grab 5 upwards liftings, when grab 5 is raised to the plane of temperature control release guiding groove 27, under the effect of spring Returnning spring 9; Grab 5 just can discharge guiding groove 27 along temperature control and get into up guiding groove 25 through the E point; Because up guiding groove 25 bottom land that is slope shapes, an end are in the degree of depth identical with discharging guiding groove 23, the other end rises to the height identical with descending guiding groove 19 gradually; So after getting into up guiding groove 25; Grab 5 still can slide therein under the effect of spring Returnning spring 9 and get back to initial point A, because resetting of core 3 of spring closed hollow intake tunnel 52, current just stop to flow; If push down spring core 3 in working order then can realize hand reset from the spool outside: when the stressed once more inside slip of spring core 3 constantly; Grab 5 just can get into up guiding groove 25 through D point along discharging guiding groove 23, because the bottom land that up guiding groove 25 is slope shapes, an end is in the degree of depth identical with release guiding groove 23; The other end rises to the height identical with descending guiding groove 19 gradually; So after getting into up guiding groove 25, grab 5 still can slide therein under the effect of spring Returnning spring 9 and get back to initial point A, because resetting of core 3 of spring closed hollow intake tunnel 52; Current just stop to have flowed, and light-emitting component 72 also stops flicker.

Description of drawings

Accompanying drawing 1: the relevant position during the spool original state

Accompanying drawing 2: the relevant position during the spool working state

Accompanying drawing 3: the inclined-plane corresponding relation between grab and the triggering card

Accompanying drawing 4: the position signal of grab and guiding groove

Accompanying drawing 5: guiding groove shape and each position, trigger point signal

Accompanying drawing 6: the thin portion of coil and light-emitting component signal

The practical implementation method

Embodiment:

The water-inlet cavity 42 that the present invention is the same with common spool to have spool shell 40 and spool shell 40 to surround, backwater cavity 46 with loop back water cavity 48.Spool water intake 50 is arranged on the wall of water-inlet cavity 42, backwater mouth 54 is arranged on the wall of backwater cavity 46, circulating outlet 62 is arranged in the bottom that loops back water cavity 48.The spring an actor's rendering of an operatic tune 2 that wherein between water-inlet cavity 42 and backwater cavity 46, has spring shell 1 and it to be surrounded is isolated it, and grab 5, grab garter spring 7 and the spring Returnning spring 9 at spring core 3 and band oblique angle arranged in spring an actor's rendering of an operatic tune 2.In the opposite end of an actor's rendering of an operatic tune 2 sliding platform 8 is arranged, there is grab positioning hole 12 in the front of sliding platform 8, and the card 15 of triggering is arranged on sliding platform 8, and triggering on the card 15 has elongated slot 29, between the end face of triggering card 15 and sliding platform 8 thermometer bulb Returnning spring 17 is arranged; With spring core 3 relative ends thermometer bulb 11 is arranged, thermometer bulb push rod 13 is arranged in the thermometer bulb 11, thermometer bulb push rod 13 tops are to the end face that triggers card 15 1 sides; The working plane 33 that the end of core 3 of wherein bouncing has a breach to form; There are the different descending guiding groove 19 of the degree of depth, time hook guiding groove 21, release guiding groove 23, up guiding groove 25 and temperature control to discharge guiding groove 27 (seeing accompanying drawing 5) on the working plane 33; There is spacing screw 6 the guiding groove rear end; In the spacing screw 6 caging bolt 31 is arranged, restraining groove 4 is arranged at the bottom of shell 1, and caging bolt 31 stretches in the restraining groove 4; Grab 5 rear ends are passed the elongated slot 29 that triggers card 15 and are inserted in the grab positioning hole 12, and the other end of grab 5 stretches in the descending guiding groove 19 and is positioned at initial point A place.The other end of spring core 3 stretches out beyond the spool shell and hollow intake tunnel 52 is arranged.Transmission shaft 64 is arranged in hollow intake tunnel 52, and transmission shaft 64 inside ends have hydrodynamic(al) impeller 66, and transmission shaft 64 outside ends have coil winding 70, and two of coil winding 70 connects light-emitting component 72.There are magnet 68 and transparent cover 74 in the outer end of spring core 3.When spring core 3 receives pressed by external force and in an actor's rendering of an operatic tune 2, inwardly slide; An end that is in the grab 5 in the descending guiding groove 19 can get into back hook guiding groove 21 under the relative movement of descending guiding groove 19; Be deeper than up guiding groove 19 owing to return the bottom land of hook guiding groove 21; Grab 5 can be reduced to go back to the bottom of hook guiding groove 21 and is in the B point under the effect of grab garter spring 7; Spring core 3 reversing motion in an actor's rendering of an operatic tune 2 under the effect of spring Returnning spring 9 after external force disappears; Grab 5 can move to C point and blocks along returning hook guiding grooves 21 under the relative movement of returning hook guiding groove 21, and drops to the bottom that discharges guiding groove 23 and tangle in the effect of grab garter spring 7 simultaneously, and the hollow intake tunnel 52 of 3 li in core is in open mode because the relative movement of this position is bounced; Current just can get into the hollow intake tunnel 52 of 3 li in spring core and arrive backwater cavity 46 from spool water intake 50; Current can promote hydrodynamic(al) impeller 66 during through hollow intake tunnel 52 and rotate and drive transmission shaft 64, coil winding 70 and light-emitting component 72 and rotates together, in the effect lower coil winding 70 of magnet 68, produce electric current and make light-emitting component 72 luminous, and light sees through transparent cover 74 and spreads out of to point out streamflow regime.At this moment the difference according to application model can have two kinds of passages, and current flow out and flow in the specified containers from backwater mouth 54 during the backwater pattern; The current non-return spool 58 of pushing tow and compress non-return spring 60 and open passage then under circulation mode, current pass and loop back water cavity 48 and flow out (see the dotted line the accompanying drawing 2 represent water (flow) direction and path) from circulating outlet 62.When working as the water temperature that flows through spool and progressively raise along with backwater or circuit, thermometer bulb push rod 13 can stretch out and promote to trigger card 15 gradually to the relative sides motion of thermometer bulb 11, owing to have sliding bevel on the triggering card 15; The oblique angle of card sliding bevel and grab 5 matches; The result of motion can make grab 5 upwards liftings, when grab 5 is raised to the plane of temperature control release guiding groove 27, under the effect of spring Returnning spring 9; Grab 5 just can discharge guiding groove 27 along temperature control and get into up guiding groove 25 through the E point; Because up guiding groove 25 bottom land that is slope shapes, an end are in the degree of depth identical with discharging guiding groove 23, the other end rises to the height identical with descending guiding groove 19 gradually; So after getting into up guiding groove 25; Grab 5 still can slide therein under the effect of spring Returnning spring 9 and get back to initial point A, because resetting of core 3 of spring closed hollow intake tunnel 52, current just stop to flow; If push down spring core 3 in working order then can realize hand reset from the spool outside: when the stressed once more inside slip of spring core 3 constantly; Grab 5 just can get into up guiding groove 25 through D point along discharging guiding groove 23, because the bottom land that up guiding groove 25 is slope shapes, an end is in the degree of depth identical with release guiding groove 23; The other end rises to the height identical with descending guiding groove 19 gradually; So after getting into up guiding groove 25, grab 5 still can slide therein under the effect of spring Returnning spring 9 and get back to initial point A, because resetting of core 3 of spring closed hollow intake tunnel 52; Current just stop to have flowed, and light-emitting component 72 also stops flicker.

Claims (1)

1. spring spool with temperature control function, the same water-inlet cavity (42) that has spool shell (40) and spool shell (40) to surround of the present invention, backwater cavity (46) and loop back water cavity (48) with common spool; Spool water intake (50) is arranged on the wall of water-inlet cavity (42), backwater mouth (54) is arranged on the wall of backwater cavity (46), circulating outlet (62) is arranged in the bottom that loops back water cavity (48); Spring an actor's rendering of an operatic tune (2) that spring shell (1) and it is surrounded is wherein arranged with its isolation between water-inlet cavity (42) and backwater cavity (46), grab (5), the grab garter spring (7) at spring core (3) and band oblique angle and the Returnning spring (9) that bounces are arranged in spring an actor's rendering of an operatic tune (2); In the opposite end of an actor's rendering of an operatic tune (2) sliding platform (8) is arranged; There is grab positioning hole (12) in the front of sliding platform (8); Triggering card (15) is arranged on sliding platform (8), and triggering on the card (15) has elongated slot (29), between the end face of triggering card (15) and sliding platform (8) thermometer bulb Returnning spring (17) is arranged; With the relative end of spring core (3) thermometer bulb (11) is arranged, thermometer bulb push rod (13) is arranged in the thermometer bulb (11), thermometer bulb push rod (13) top is to the end face that triggers card (15) one sides; The working plane (33) that the end of core (3) of wherein bouncing has a breach to form; There are the different descending guiding groove (19) of the degree of depth, time hook guiding groove (21), release guiding groove (23), up guiding groove (25) and temperature control to discharge guiding groove (27) (seeing accompanying drawing 5) on the working plane (33); There is spacing screw (6) the guiding groove rear end; Caging bolt (31) is arranged in the spacing screw (6), and restraining groove (4) is arranged at the bottom of shell (1), and caging bolt (31) stretches in the restraining groove (4); Grab (5) rear end is passed the elongated slot (29) that triggers card (15) and is inserted in the grab positioning hole (12), and the other end of grab (5) stretches in the descending guiding groove (19) and is positioned at initial point A place; The other end of spring core (3) stretches out beyond the spool shell and hollow intake tunnel (52) is arranged; Transmission shaft (64) is arranged in hollow intake tunnel (52); The inside end of transmission shaft (64) has hydrodynamic(al) impeller (66); And the outside end of transmission shaft (64) has coil winding (70), and two of coil winding (70) connects light-emitting component (72).There are magnet (68) and transparent cover (74) in the outer end of spring core (3); When spring core (3) receives pressed by external force and in an actor's rendering of an operatic tune (2), inwardly slide; An end that is in the grab (5) in the descending guiding groove (19) can get into back hook guiding groove (21) under the relative movement of descending guiding groove (19); Be deeper than up guiding groove (19) owing to return the bottom land of hook guiding groove (21); Grab under the effect of grab garter spring (7) (5) can be reduced to go back to the bottom of hook guiding groove (21) and is in the B point; Spring core (3) reversing motion in an actor's rendering of an operatic tune (2) under the effect of spring Returnning spring (9) after external force disappears; Grab (5) meeting edge time hook guiding groove (21) moves to the C point and blocks under the relative movement of returning hook guiding groove (21); And simultaneously drop to the bottom that discharges guiding groove (23) and tangle in the effect of grab garter spring (7); Because the hollow intake tunnel (52) of the relative movement of this position spring core (3) lining is in open mode, current just can get into the hollow intake tunnel (52) of spring core (3) lining and arrive backwater cavity (46) from spool water intake (50), and current can promote that hydrodynamic(al) impeller (66) rotates and drive transmission shaft (64), coil winding (70) and light-emitting component (72) rotate together during through hollow intake tunnel (52); In the effect lower coil winding (70) of magnet (68), produce electric current and make light-emitting component (72) luminous, light sees through transparent cover (74) and spreads out of with the prompting streamflow regime; At this moment the difference according to application model can have two kinds of passages, and current flow out and flow in the specified containers from backwater mouth (54) during the backwater pattern; The current non-return spool of pushing tow (58) and compress non-return spring (60) and open passage then under circulation mode, current pass and loop back water cavity (48) and flow out from circulating outlet (62); When working as the water temperature that flows through spool and progressively raise along with backwater or circuit, thermometer bulb push rod (13) can stretch out and promote to trigger card (15) gradually to the relative side motion of thermometer bulb (11), owing to have sliding bevel on the triggering card (15); The oblique angle of card sliding bevel and grab (5) matches; The result of motion can make upwards lifting of grab (5), when grab (5) is raised to the plane of temperature control release guiding groove (27), under the effect of spring Returnning spring (9); Grab (5) just can discharge guiding groove (27) along temperature control and get into up guiding groove (25) through the E point; Because up guiding groove (25) is the bottom land of a slope shape, an end is in and discharges the identical degree of depth of guiding groove (23), and the other end rises to and the identical height of descending guiding groove (19) gradually; So after getting into up guiding groove (25); Grab (5) still can slide therein under the effect of spring Returnning spring (9) and get back to initial point A, because resetting of spring core (3) closed hollow intake tunnel (52), current just stop to flow; If push down spring core (3) in working order then can realize hand reset from the spool outside: when the stressed once more inside slip of spring core (3) constantly; Grab (5) just can get into up guiding groove (25) through the D point along discharging guiding groove (23); Because up guiding groove (25) is the bottom land of a slope shape; One end is in and discharges the identical degree of depth of guiding groove (23), and the other end rises to and the identical height of descending guiding groove (19) gradually, so after getting into up guiding groove (25); Grab (5) still can slide therein under the effect of spring Returnning spring (9) and get back to initial point A; Because resetting of spring core (3) closed hollow intake tunnel (52), current just stop to flow, and light-emitting component (72) also stops flicker.

Images