CN111322431B - Gas regulating valve with internal and external circular flow - Google Patents

Abstract

The inner and outer ring flow gas regulating valve comprises a valve body, a valve core, an electromagnetic valve, an ejector rod, a valve needle and a valve rod, and is characterized in that the valve core comprises a core shell and a sleeve, the core shell is axially hollow, the upper end of the side wall of the core shell is provided with a circle of first outer vent holes matched with the inner ring gas outlet channel to regulate the gas outlet flow, and the lower end of the side wall of the core shell is provided with a circle of second outer vent holes matched with the outer ring gas outlet channel to regulate the; the sleeve is axially hollow and hermetically arranged in the inner cavity of the core shell, the upper end of the side wall of the sleeve is provided with a circle of first inner vent holes corresponding to the first outer vent holes, the lower end of the side wall of the sleeve is provided with a circle of second inner vent holes corresponding to the front second outer vent holes, and the valve needle penetrates through the sleeve. The valve core is formed by assembling a split core shell and a sleeve, the first connecting hole and the second connecting hole are not interfered by sealing grease, and accurate control of firepower is realized on the premise of ensuring smooth fire holes.

Description

Gas regulating valve with internal and external circular flow

Technical Field

The invention relates to a valve, in particular to a valve applied to a gas stove.

Background

The gas valves in various gas cooking utensils are manually operated valves for controlling the supply of gas source. Domestic gas cooking utensils generally have interior ring fire and outer ring fire, ordinary binary channels gas valve generally has inlet channel including inside, the valve body of inner ring air outlet channel and outer ring air outlet channel, be equipped with the case that can rotate in the valve body, the case lower part is equipped with the chamber of ventilating, wear to be equipped with on the valve body and drive the rotatory valve rod of case, the valve rod can drive the case and rotate together, it adjusts the fire hole to open the series of not of uniform size that is used for communicateing inlet channel and outer ring air outlet channel on the chamber lateral wall of ventilating of case, and be curved inner ring fire hole for communicateing inlet channel and inner ring air outlet channel.

When the gas source is used, the end parts of the inner ring gas outlet channel and the outer ring gas outlet channel of the valve body are connected with the nozzle for use, the inner ring gas outlet channel is finally communicated with the inner ring part of the cooker, the outer ring gas outlet channel is finally communicated with the outer ring part of the cooker, a user can operate the valve rod through the knob arranged on the operation panel, generally, the knob is pressed and rotates anticlockwise firstly, the valve core can be driven to rotate anticlockwise, the large fire hole and the arc-shaped notch in the valve core are communicated with the gas inlet channel in the valve body, the gas source enters from the gas inlet channel and then is divided into two independent paths, one path is communicated with the outer ring gas outlet channel through the vent cavity and the adjusting fire hole, and the other path is communicated with.

The improvement of the technical personnel in the field discloses a plurality of linear flow gas valves, such as a linear flow cock gas valve (granted publication No. CN 103423480B) in Chinese patent No. ZL 201310388568.0; for example, the invention of Chinese patent No. ZL201310328453.2 is an adjusting valve capable of adjusting fire linearly (No. CN 103438245B). Similarly, reference may also be made to CN105715818A, CN105650306A, etc.

When the gas valve is used by a user, the existing gas valves have the defects that the firepower changes too fast and the firepower required by the user is not easy to adjust. The matching of the inner ring and the outer ring of the firepower is not good, and the user can not call out the required firepower. The fire power adjusting method has the advantages that the hand feeling is not memorized in the fire power adjusting process, the fire power required by a user cannot be adjusted quickly in the first time, and the like. In addition, the hole for throttling is directly punched on the valve core, and because the sealing grease exists between the valve core and the valve body, if the hole diameter of the side wall of the valve core is small, the valve core is easily blocked by the sealing grease in the rotating process, and the multi-section valve is easily blocked; the aperture of the hole on the side wall of the valve core is not easy to control, so that the firepower cannot be accurately controlled.

Disclosure of Invention

The invention aims to solve the technical problem of providing an inner and outer ring flow gas regulating valve which is not easy to be blocked by sealing grease.

The invention aims to solve the technical problem of providing an inner-outer ring flow gas regulating valve with accurately controlled flow.

The technical scheme adopted by the invention for solving the technical problems is as follows: an inner and outer ring flow gas regulating valve comprises

The valve body is provided with a valve cavity, at least an air inlet channel, an outer ring air outlet channel and an inner ring air outlet channel which are communicated with the valve cavity are arranged in the valve body, and an air outlet hole, an outer ring air inlet hole and an inner ring air inlet hole are respectively formed in the side wall of the valve cavity of the air inlet channel, the outer ring air outlet channel and the inner ring air outlet channel;

the valve core can be rotatably arranged in the valve cavity of the valve body and can adjust the flow of the outer ring air outlet channel and the inner ring air outlet channel;

the electromagnetic valve is arranged on the valve body;

the push rod can be rotatably arranged in the valve body, one end of the push rod is abutted against the electromagnetic valve, and the other end of the push rod forms a convex block;

the valve needle is inserted into the valve core, the bottom end of the valve needle can be abutted against the convex block of the ejector rod, and the length direction of the valve needle is vertical to that of the ejector rod;

a valve rod which is arranged above the valve needle, the upper end of the valve rod extends out of the valve body, and the valve rod enables the electromagnetic valve to be opened through the valve needle and the ejector rod in the process of pressing down;

the valve core is characterized by comprising a core shell and a sleeve, wherein the core shell is hollow in the axial direction, the upper end of the side wall of the core shell is provided with a circle of first external vent holes which are matched with the inner ring air outlet channel to adjust the air outlet flow, and the lower end of the side wall of the core shell is provided with a circle of second external vent holes which are matched with the outer ring air outlet channel to adjust the air outlet flow; the sleeve is axially hollow and is hermetically arranged in the inner cavity of the core shell, the upper end of the side wall of the sleeve is provided with a circle of first inner vent holes which are arranged corresponding to the first outer vent holes, the lower end of the side wall of the sleeve is provided with a circle of second inner vent holes which are arranged corresponding to the front second outer vent holes, and the valve needle is arranged in the sleeve in a penetrating way;

the first inner vent hole at least comprises a first blind hole, the side wall or the bottom of the first blind hole is provided with a first connecting hole communicated with the inner cavity of the sleeve, and the first connecting hole is communicated with the first outer vent hole through the first blind hole;

the second inner vent hole at least comprises a second blind hole, a second connecting hole communicated with the inner cavity of the sleeve is formed in the side wall or the bottom of the second blind hole, and the second connecting hole is communicated with the second outer vent hole through the second blind hole.

The inner wall of the core shell is provided with a first raised step part, and correspondingly, the outer wall of the sleeve is provided with a second raised step part which is matched with the first step part in a sealing mode. The first step part and the second step part are matched to realize sealing, so that the air leakage phenomenon caused by poor processing can be avoided.

An annular groove is formed in the periphery of the sleeve and located above the first inner vent hole, a first sealing ring is arranged in the annular groove, and the outer ring of the first sealing ring is in sealing contact with the inner wall of the core shell. The first sealing ring can ensure that gas cannot leak to the position above the first sealing ring.

The upper end of the valve needle is provided with a blocking part which radially and outwardly extends, the inner wall of the upper end of the sleeve radially extends to form a limiting part, a second sealing ring is sleeved on the periphery of the valve needle and located on the limiting part, a pressing plate is arranged on the upper end face of the second sealing ring, a compression spring is sleeved on the valve needle, the upper end of the compression spring is abutted to the blocking part, and the lower end of the compression spring is abutted to the pressing plate. The second sealing ring can ensure that no gas leakage exists between the sleeve and the valve needle.

In order to improve the operation hand feeling and accurately achieve the needed firepower, a groove is formed in the port of the core shell, an upper cover is arranged on the port, located in the valve cavity, of the valve body, a plurality of gear grooves are annularly arranged on the lower end face of the upper cover, the lower end of the valve rod penetrates through the upper cover to abut against the upper end face of the valve needle and is transversely provided with a cross rod, the lower end of the cross rod is arranged in the groove and can drive the core shell to rotate, and the upper end face of the cross rod is matched with the gear grooves in a gear mode.

Further, the first inner vent hole further comprises a maximum flow inner fire hole independent of the first blind hole and the first connecting hole; the second inner vent hole also comprises a maximum flow outer fire hole independent of the second blind hole and the second connecting hole; and the core shell is provided with a first matching through hole corresponding to the maximum flow inner fire hole and a second matching through hole corresponding to the maximum flow outer fire hole.

Furthermore, the first connecting hole is formed in the bottom of the first blind hole, the second connecting hole is formed in the bottom of the second blind hole, and the outer wall of the core shell blocks the first connecting hole and the second connecting hole.

Compared with the prior art, the invention has the advantages that: the valve core is formed by the assembly of the core shell and the sleeve of components of a whole that can function independently, moreover, first blind hole is linked together through first connecting hole and first outer air vent, and the second blind hole is linked together through the outer air vent of second connecting hole and second, and like this, even sealed fat has blockked up partial first blind hole or second blind hole, can not influence normally ventilating yet, as long as first connecting hole and second connecting hole do not block up and just can guarantee to ventilate, and first connecting hole and second connecting hole can not receive the interference of sealed fat. The fire power is accurately controlled on the premise of ensuring the smooth fire hole.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment.

Fig. 2 is a partially exploded view of the embodiment.

FIG. 3 is a sectional view of the embodiment.

Fig. 4 is a cross-sectional view of another perspective of the embodiment.

Fig. 5 is an enlarged view of the upper cover of fig. 2 from another perspective.

Fig. 6 is an enlarged cross-sectional view of the valve cartridge of fig. 2.

Fig. 7 is an exploded enlarged view of the valve cartridge of fig. 2.

Fig. 8 is an enlarged view of the valve sleeve.

Fig. 9 is an enlarged view of another view of the valve sleeve.

Fig. 10 is an enlarged view of the core shell.

FIG. 11 is an enlarged view of the core shell from another perspective.

Fig. 12 is a cross-sectional view of the valve cartridge.

Fig. 13 is a cross-sectional view of the valve cartridge from another perspective.

FIG. 14 is an example combustion load graph.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the inner and outer ring flow gas regulating valve in this embodiment includes a valve body 5, a valve core 10, a solenoid valve 7, a plunger 8, a valve needle 42 and a valve rod 4, the valve body 5 has a valve cavity, an air inlet channel 53, an outer ring air outlet channel 51 and an inner ring air outlet channel 52 communicated with the valve cavity are at least formed in the valve body 5, and the air inlet channel 53, the outer ring air outlet channel 51 and the inner ring air outlet channel 52 are respectively formed on a side wall of the valve cavity with an air outlet, an outer ring air inlet and an inner ring air.

The valve core 10 can be rotatably arranged in the valve cavity of the valve body 5 and can adjust the flow of the outer ring air outlet channel 51 and the inner ring air outlet channel 52; the electromagnetic valve 7 is arranged on the valve body 5; the mandril 8 can be rotatably arranged in the valve body 5, one end of the mandril is propped against the electromagnetic valve 7, and the other end of the mandril forms a convex block 81; the valve needle 42 is inserted in the valve core 10, the bottom end of the valve needle can be abutted against the convex block 81 of the ejector rod 8, and the length direction of the valve needle 42 is vertical to the length direction of the ejector rod 8; the valve rod 4 is arranged above the valve needle 42, the upper end of the valve rod 4 extends out of the valve body 5, and the valve rod 4 enables the electromagnetic valve 7 to be opened through the valve needle 42 and the ejector rod 8 in the process of pressing down.

The port of the core shell 1 is provided with a groove 11, the valve body 5 is arranged on the port of the valve cavity and is provided with an upper cover 6, the lower end surface of the upper cover 6 is provided with a plurality of gear grooves 61 which are annularly arranged, the lower end of the valve rod 4 penetrates through the upper cover 6 and is abutted to the upper end surface of the valve needle 42 and is transversely provided with a cross rod 41, the lower end of the cross rod 41 is arranged in the groove 11 and can drive the core shell 1 to rotate, and the upper end surface is matched with the gear grooves 61 in a gear mode. The embodiment is provided with 7 gear grooves 61, 7 positions all have damping operation hand feeling, and the angle between 7 positions is between 10 ~ 40. With particular reference to figure 13.

The valve rod 4 is rotated under the state of being pressed down to be communicated with a gas pipeline, the valve rod 4 enables the electromagnetic valve 7 to be opened through the valve needle 42 and the ejector rod 8 in the pressing down process, gas enters the valve cavity of the valve body 5 and enters the valve core 10, and the valve core 10 is rotated through the valve rod 4 to realize the change of the ventilation volume of the inner ring and the outer ring.

With reference to fig. 6 to 13, the valve core 10 includes a core shell 1 and a sleeve 2, the core shell 1 is hollow in the axial direction, the upper end of the side wall is provided with a circle of first external vent holes which are matched with the inner ring air outlet channel 52 to adjust the air outlet flow, and the lower end of the side wall is provided with a circle of second external vent holes which are matched with the outer ring air outlet channel 51 to adjust the air outlet flow; the sleeve 2 is axially hollow and hermetically arranged in the inner cavity of the core shell 1, the upper end of the side wall of the sleeve 2 is provided with a circle of first inner vent holes arranged corresponding to the first outer vent holes, the lower end of the side wall is provided with a circle of second inner vent holes arranged corresponding to the front second outer vent holes, and the valve needle 42 is arranged in the sleeve 2 in a penetrating way;

the inner wall of the core housing 1 has a raised first step 12 and correspondingly the outer wall of the sleeve 2 has a raised second step 22 which sealingly engages the first step 12. An annular groove 21 is formed on the periphery of the sleeve 2 above the first inner vent hole, a first sealing ring 31 is arranged in the annular groove 21, and the outer ring of the first sealing ring 31 is in sealing contact with the inner wall of the core shell 1.

The upper end of the valve needle 42 has a blocking portion 421 extending radially outward, the inner wall of the upper end of the sleeve 2 extends radially to form a limiting portion 23, the second sealing ring 32 is sleeved on the periphery of the valve needle 42 and located on the limiting portion 23, a pressing plate 33 is arranged on the upper end face of the second sealing ring 32, the pressing spring 43 is sleeved on the valve needle 42, the upper end of the pressing spring abuts against the blocking portion 421, and the lower end of the pressing spring abuts against the pressing plate 33.

Specifically, the first outer vent holes include a first mating through hole 3d, a vent hole 3a, a vent hole 3b, a vent hole 3c, and the second outer vent holes include a second mating through hole 4d, a vent hole 4a, a vent hole 4b, a vent hole 4c, a vent hole 4e, a vent hole 4f, and a vent hole 4 g. The width of the outer ring air inlet hole on the valve body 5 is larger than the distance between the adjacent vent hole or vent hole and the first matching through hole.

The first inner vent hole comprises a maximum flow inner fire hole 1d, a blind hole 1c, a blind hole 1b and a blind hole 1a which are independent of the maximum flow inner fire hole 1d, the bottom of the blind hole 1c is provided with a bottom connecting hole 25 communicated with the inner cavity of the sleeve 2, and the bottom connecting hole 25 is communicated with the first outer vent hole through the blind hole 1 c; the side wall of the blind hole 1a connected with the first blind hole 1b is provided with a first side wall connecting hole 24, the first blind hole 1b and the first blind hole 1c are also provided with side wall connecting holes 24, and the side wall connecting holes enable adjacent blind holes to be communicated. The maximum flow inner fire hole 1d corresponds to the first matching through hole 3d, the blind hole 1c corresponds to the vent hole 3c, the blind hole 1b corresponds to the vent hole 3b, and the blind hole 1a corresponds to the vent hole 3 a. The distance between the adjacent first inner vent holes is larger than that between the inner ring air inlet holes on the valve body 5.

The second inner vent hole comprises a maximum flow outer fire hole 2f, a blind hole 2a, a blind hole 2b, a blind hole 2d, a blind hole 2e, a blind hole 2g and a fire hole 2c which are independent of the maximum flow outer fire hole 2f, the bottoms of the blind holes 2a, 2b, 2d, 2e and 2g are provided with connecting holes 26 communicated with the inner cavity of the sleeve 2, and the connecting holes 26 are communicated with the second outer vent hole through respective blind holes.

The outer fire hole 2f of maximum flow corresponds the setting with second cooperation through-hole 4d, and blind hole 2a corresponds the setting with air vent 4a, and blind hole 2b corresponds the setting with air vent 4b, and fire hole 2c corresponds the setting with air vent 4c, and blind hole 2d corresponds the setting with air vent 4d, and blind hole 2e corresponds the setting with air vent 4e, and blind hole 2g corresponds the setting with air vent 4 g. The outer wall of the core housing 1 blocks the bottom connection holes 25 and the connection holes 26.

As shown in fig. 14, the combustion composition is a graph according to the present embodiment. The present embodiment achieves precise control of the fire power at each rotation angle. The frequently used angle has memory hand feeling, and the angle is adjusted in place once every time. Besides accurate control of firepower and hand feeling memory, the angle of the stepless adjusting part is arranged at 0-90 degrees, and synchronous small fire, small inside and large outside fire can be adjusted. And various firepower requirements of users are met.

Claims (7)

1. An inner and outer ring flow gas regulating valve comprises

The valve body (5) is provided with a valve cavity, the valve body (5) is at least internally provided with an air inlet channel (53), an outer ring air outlet channel (51) and an inner ring air outlet channel (52) which are communicated with the valve cavity, and the air inlet channel (53), the outer ring air outlet channel (51) and the inner ring air outlet channel (52) are respectively provided with an air outlet hole, an outer ring air inlet hole and an inner ring air inlet hole on the side wall of the valve cavity;

the valve core (10) can be rotatably arranged in the valve cavity of the valve body (5) and can adjust the flow of the outer ring air outlet channel (51) and the inner ring air outlet channel (52);

the electromagnetic valve (7) is arranged on the valve body (5);

a push rod (8) which is rotatably arranged in the valve body (5), one end of the push rod is abutted against the electromagnetic valve (7), and the other end of the push rod forms a lug (81);

the valve needle (42) is inserted into the valve core (10), the bottom end of the valve needle can be abutted against the convex block (81) of the ejector rod (8), and the length direction of the valve needle (42) is vertical to the length direction of the ejector rod (8);

a valve rod (4) which is arranged above the valve needle (42), the upper end of the valve rod extends out of the valve body (5), and the valve rod (4) opens the electromagnetic valve (7) through the valve needle (42) and the ejector rod (8) in the pressing process;

the valve core (10) is characterized by comprising a core shell (1) and a sleeve (2), wherein the core shell (1) is hollow in the axial direction, the upper end of the side wall of the core shell is provided with a circle of first outer vent holes which are matched with an inner ring air outlet channel (52) to adjust the air outlet flow, and the lower end of the side wall of the core shell is provided with a circle of second outer vent holes which are matched with an outer ring air outlet channel (51) to adjust the air outlet flow; the sleeve (2) is axially hollow and hermetically arranged in the inner cavity of the core shell (1), the upper end of the side wall of the sleeve (2) is provided with a circle of first inner vent holes corresponding to the first outer vent holes, the lower end of the side wall is provided with a circle of second inner vent holes corresponding to the front second outer vent holes, and the valve needle (42) is arranged in the sleeve (2) in a penetrating manner;

the first inner vent hole at least comprises a first blind hole, the side wall or the bottom of the first blind hole is provided with a first connecting hole communicated with the inner cavity of the sleeve (2), and the first connecting hole is communicated with the first outer vent hole through the first blind hole;

the second inner vent hole at least comprises a second blind hole, a second connecting hole communicated with the inner cavity of the sleeve (2) is formed in the side wall or the bottom of the second blind hole, and the second connecting hole is communicated with the second outer vent hole through the second blind hole.

2. Inner and outer ring flow gas regulating valve according to claim 1, characterized in that the inner wall of the cartridge housing (1) has a raised first step (12) and correspondingly the outer wall of the sleeve (2) has a raised second step (22) which sealingly engages the first step (12).

3. The inner and outer ring flow gas regulating valve according to claim 2, characterized in that the outer periphery of the sleeve (2) is positioned above the first inner vent hole to form an annular groove (21), a first sealing ring (31) is arranged in the annular groove (21), and the outer ring of the first sealing ring (31) is in sealing contact with the inner wall of the core shell (1).

4. The inner and outer ring flow gas regulating valve according to claim 3, characterized in that the upper end of the valve needle (42) has a stopper portion (421) extending radially outward, the inner wall of the upper end of the sleeve (2) extends radially to form a stopper portion (23), a second sealing ring (32) is sleeved on the outer periphery of the valve needle (42) and is located on the stopper portion (23), the upper end surface of the second sealing ring (32) is provided with a pressure plate (33), a compression spring (43) is sleeved on the valve needle (42) and has an upper end abutting against the stopper portion (421), and a lower end abutting against the pressure plate (33).

5. The gas regulating valve for internal and external circular flow rates as claimed in any one of claims 1 to 4, characterized in that the core housing (1) has a groove (11) at its port, the valve body (5) is provided with an upper cover (6) at its port located in the valve cavity, the upper cover (6) has a plurality of shift grooves (61) arranged annularly at its lower end face, the lower end of the valve rod (4) penetrates through the upper cover (6) to abut against the upper end face of the valve needle (42) and is transversely provided with a cross rod, the lower end of the cross rod is provided with the groove (11) and can drive the core housing (1) to rotate, and the upper end face is engaged with the shift grooves (61) in a shift manner.

6. The gas regulating valve according to any one of claims 1 to 4, wherein the first inner vent hole further comprises a maximum flow inner fire hole (1d) independent of the first blind hole and the first connecting hole; the second inner vent hole also comprises a maximum flow outer fire hole (2d) independent of the second blind hole and the second connecting hole; the core shell (1) is provided with a first matching through hole (3d) corresponding to the maximum flow inner fire hole (1d) and a second matching through hole (4d) corresponding to the maximum flow outer fire hole.

7. The inner and outer ring flow gas regulating valve according to claim 1, wherein the first connecting hole is opened at the bottom of the first blind hole, the second connecting hole is opened at the bottom of the second blind hole, and the outer wall of the core housing (1) blocks the first connecting hole and the second connecting hole.

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