CN210739503U - Manual regulation diaphragm type ultralow temperature expansion valve - Google Patents

Manual regulation diaphragm type ultralow temperature expansion valve Download PDF

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Publication number
CN210739503U
CN210739503U CN201920768770.9U CN201920768770U CN210739503U CN 210739503 U CN210739503 U CN 210739503U CN 201920768770 U CN201920768770 U CN 201920768770U CN 210739503 U CN210739503 U CN 210739503U
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valve
diaphragm
hole
flow passage
temperature expansion
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CN201920768770.9U
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Chinese (zh)
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刘秋峰
王亚洲
韩立建
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Zhongke Meiqi Tianjin Technology Co ltd
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Zhongke Meiqi Tianjin Technology Co ltd
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Abstract

The utility model provides a manual regulation diaphragm type ultralow temperature expansion valve, which comprises a valve seat and a valve cover which are mutually covered, a diaphragm clamped between the valve seat and the valve cover, and a valve core and a valve rod component which are respectively fixed on two sides of the opposite side of the diaphragm; the valve seat is provided with a first accommodating groove, a first flow passage and a second flow passage, wherein the first flow passage is communicated with the first accommodating groove, and a valve hole for accommodating the valve core is formed in the position where the first flow passage is communicated with the first accommodating groove; a second containing groove is formed in the valve cover, and the surfaces of the two sides of the membrane back to the outside correspond to the first containing groove and the second containing groove respectively; the valve rod assembly drives the diaphragm to deform in the second accommodating groove, and the valve core is driven to be far away from or close to the valve hole. The utility model provides a diaphragm type expansion valve, the structure is simple relatively, adjust the convenience and adjust the sensitivity.

Description

Manual regulation diaphragm type ultralow temperature expansion valve
Technical Field
The utility model relates to an expansion valve field especially relates to a manual regulation diaphragm formula ultra-low temperature expansion valve.
Background
Various thermal expansion valves are available, and the flow rate of the refrigerant is regulated by sensing the temperature change of the refrigerant at the outlet of the evaporator through a temperature sensing bulb. When the temperature sensing bulb has leakage fault, the expansion valve is closed, the flow of the refrigerant supplied to the evaporator is zero, and the system cannot work. In addition, the ideal expansion valve operating state is to control the flow rate by changing the opening degree in real time with the change of the load of the evaporator. In practice, however, the temperature sensed by the bulb is delayed in heat transfer, so that the response of the expansion valve is always slow and half-beat, and the regulating function of the expansion valve is not precise enough. On the other hand, in the prior art, the thermal expansion valve can only be applied to the application occasions of more than minus 40 degrees.
In view of the above, it is actually necessary to provide a new manually adjustable diaphragm type ultra-low temperature expansion valve.
SUMMERY OF THE UTILITY MODEL
The utility model provides a structure is simple relatively, adjust convenient, adjust sensitive and resistant ultra-low temperature's manual regulation diaphragm formula ultra-low temperature expansion valve.
The utility model provides a manual regulation diaphragm type ultralow temperature expansion valve, which comprises a valve seat and a valve cover which are mutually covered, a diaphragm clamped between the valve seat and the valve cover, and a valve core and a valve rod component which are respectively fixed on two sides of the opposite side of the diaphragm; the valve seat is provided with a first accommodating groove, a first flow passage and a second flow passage, wherein the first flow passage is communicated with the first accommodating groove, and a valve hole for accommodating the valve core is formed in the position where the first flow passage is communicated with the first accommodating groove; a second containing groove is formed in the valve cover, and the surfaces of the two sides of the membrane back to the outside correspond to the first containing groove and the second containing groove respectively; the valve rod assembly drives the diaphragm to deform in the second accommodating groove, and the valve core is driven to be far away from or close to the valve hole.
In a preferred embodiment, the valve seat comprises a base surface and a side surface connected with the base surface, and the first receiving groove is arranged on the base surface; the side face is provided with a valve inlet communicated with the first flow channel and a valve outlet communicated with the second flow channel, a first pressure gauge for measuring the pressure of the flowing medium in the first flow channel is arranged at the position of the valve inlet, and a second pressure gauge for measuring the pressure of the flowing medium in the second flow channel is arranged at the position of the valve outlet.
In a preferred embodiment, the valve seat is cylindrical and the base surface is circular; the first flow channel and the second flow channel are respectively circular; the axis of the first flow passage and the axis of the second flow passage are parallel to the base surface, and the axes of the first flow passage and the second flow passage intersect through the axis of the valve seat.
In a preferred embodiment, the valve cover comprises a top surface and a bottom surface which are opposite to each other, and the second containing groove is arranged on the bottom surface; the diaphragm is clamped between the base surface and the bottom surface and respectively encloses a first cavity and a second cavity with the first containing groove and the second containing groove; the valve cover is cylindrical, the diameter of the valve cover corresponds to that of the valve seat, and the diameter of the diaphragm corresponds to that of the valve cover.
In a preferred embodiment, the first receiving groove is circular and is arranged coaxially with the valve seat, and the valve hole is located at the center of the first receiving groove; the valve core is arranged at the circle center position of the diaphragm and clamped with the valve hole.
In a preferred embodiment, the valve hole is in a circular truncated cone shape and is coaxially arranged with the first accommodating groove, one end of the circular truncated cone lower bottom surface of the valve hole is positioned at the bottom surface of the first accommodating groove, and one end of the circular truncated cone upper bottom surface of the valve hole is communicated with the first flow passage; the valve core is in a circular truncated cone shape, the shape of the valve core corresponds to that of the valve hole, and the lower bottom surface of the circular truncated cone of the valve core is fixedly connected to the diaphragm.
In a preferred embodiment, the valve stem assembly comprises a valve stem and a rotary transmission joint rotatably connected to one end of the valve stem, wherein the rotary transmission joint is fixedly connected to the diaphragm; the bottom of the second containing groove is provided with a through hole penetrating through the top surface, and one end, far away from the rotary transmission joint, of the valve rod penetrates through the through hole.
In a preferred embodiment, the rotary transmission joint comprises a fixed shell and a cover body which are mutually covered, and the fixed shell and the cover body enclose an accommodating space; the valve rod comprises a main body part and an adapter connected to one end of the main body part, and the valve rod penetrates through the cover body and the adapter and is accommodated in the accommodating space.
In a preferred embodiment, an internal thread is formed in the through hole, an external thread corresponding to the internal thread of the through hole is formed at one end of the main body part close to the adapter, and the valve rod assembly drives the rotary transmission joint to reciprocate in the second accommodating groove by rotating the valve rod.
In a preferred embodiment, the fixed housing includes a fixed plate and a side plate extending from a side surface of the fixed plate, wherein the fixed plate is circular and a surface of the fixed plate facing away from the side plate is connected to a center position of a surface of the diaphragm facing away from the valve core.
The utility model provides a manual regulation diaphragm type ultralow temperature expansion valve, which controls the moving distance of the main body part by rotating the main body part, drives the diaphragm to deform and further drives the valve core to be far away from or close to the valve hole; high-pressure flowing medium passes through a gap between the valve hole and the valve core and then the first accommodating cavity is converted into low-pressure flowing medium; in addition, the moving distance of the main body part is determined by respectively arranging a first pressure measuring meter and a second pressure measuring meter at the position of the valve inlet and the valve outlet. The utility model provides a manual regulation diaphragm formula ultra-low temperature expansion valve, the structure is simple relatively, adjust the convenience and adjust the sensitivity.
Drawings
Fig. 1 is a perspective view of the manual regulation diaphragm type ultra-low temperature expansion valve provided by the present invention.
Fig. 2 is a sectional view of the manually adjustable diaphragm type ultra-low-temperature expansion valve shown in fig. 1.
Fig. 3 is an exploded view of the manually adjustable diaphragm type ultra-low temperature expansion valve shown in fig. 2.
Detailed Description
In order to make the objects, technical solutions and advantageous technical effects of the present invention more clearly understood, the present invention is further described in detail with reference to the accompanying drawings and the following detailed description. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration only and not by way of limitation.
Referring to fig. 1 to 3, the present invention provides a manual adjustment diaphragm type ultra-low temperature expansion valve 100, which comprises a valve seat 10 and a valve cover 20 that are mutually covered, a diaphragm 30 sandwiched between the valve seat 10 and the valve cover 20, and a valve core 40 and a valve rod assembly 50 that are respectively fixed on two sides of the diaphragm 30, which are opposite to each other.
The valve seat 10 is provided with a first receiving groove 101, and a first flow passage 102 and a second flow passage 103 communicating with the first receiving groove 101, and a valve hole 104 for receiving the valve body 40 is provided at a position where the first flow passage 102 communicates with the first receiving groove 101. The valve cover 20 is provided with a second accommodating groove 201; the two side surfaces of the diaphragm 30 opposite to each other respectively correspond to the first receiving groove 101 and the second receiving groove 201, and respectively enclose the first receiving groove 101 and the second receiving groove 201 to form a first cavity 1011 and a second cavity 2011. The flowing medium flows in from the first flow passage 102, sequentially flows through the valve hole 104, the first cavity 1011 and flows out from the second flow passage 103. One end of the valve rod assembly 50 is accommodated in the second cavity 2011 and drives the diaphragm 30 to deform in the second accommodating groove 201, so as to drive the valve core 40 to be far away from or close to the valve hole 104, and the liquid flow flowing through the second flow channel 103 is adjusted by controlling the opening and closing of the valve core 40 and the valve hole 104. In the present embodiment, the fluid medium is a liquid or a gas having no corrosive property.
Specifically, the valve seat 10 includes a base surface 11 and a side surface 12 connecting the base surface 11, and the first receiving groove 101 is disposed on the base surface 11. The side surface 12 is provided with a valve inlet 121 communicated with the first flow channel 102 and a valve outlet 122 communicated with the second flow channel 103, and a flowing medium enters the first flow channel 102 from the valve inlet 121, passes through the valve hole 104 and the first cavity 1011, enters the second flow channel 103, and is discharged from the valve outlet 122. The high-pressure flowing medium in the first flow channel 102 enters the first receiving cavity 1011 through the gap between the valve hole 104 and the valve core 40 and is converted into a low-pressure flowing medium.
In this embodiment, the valve seat 10 has a cylindrical shape, and the base surface 11 has a circular shape. The first flow channel 102 and the second flow channel 103 are respectively circular, so that on one hand, the first flow channel 102 and the second flow channel 103 are machined, and on the other hand, the valve inlet 121 of the first flow channel 102 and the valve outlet 122 of the second flow channel 103 are convenient to install and connect with other devices. The axis of the first flow passage 102 and the axis of the second flow passage 103 are parallel to the base surface 11, and the axes of the first flow passage 102 intersect with each other through the axis of the valve seat 10.
The valve cover 20 includes a top surface 21 and a bottom surface 22 opposite to each other, and the second receiving groove 201 is disposed on the bottom surface 22. The diaphragm 30 is clamped between the base surface 11 and the bottom surface 22, and is fixedly connected with the valve seat 10 and the valve cover 20 by welding, so that the valve seat 10 and the valve cover 20 are sealed and isolated, the first cavity 1011 is sealed and pressure-resistant, and a flowing medium in the first cavity 1011 is prevented from leaking. When the valve core 40 moves away from the valve hole 104, the flowing medium in the first flow passage 102 is buffered by the first cavity 1011 and enters the second flow passage 103. In this embodiment, valve gap 20 is cylindricly and the diameter corresponds to the diameter of disk seat 10, diaphragm 30 diameter corresponds to disk seat 10 with valve gap 20's diameter, on the one hand diaphragm 30 presss from both sides in disk seat 10 with between the valve gap 20, it is convenient diaphragm 30 respectively with disk seat 10 reaches valve gap 20 welded connection and direct contact are sealed, strengthen first cavity 1011's sealing performance, on the other hand make manual regulation diaphragm formula ultra-low temperature expansion valve 100 structure is pleasing to the eye. In this embodiment, the valve seat 10, the valve cover 20 and the diaphragm 30 are all made of 304 stainless steel and are formed by precision machining, so as to improve the working performance of the manual adjustment diaphragm type ultra-low temperature expansion valve 100 in an ultra-low temperature state, and enable the manual adjustment diaphragm type ultra-low temperature expansion valve 100 to operate reliably at-200 ℃ to 200 ℃; on the other hand, the pressure resistance of the manual adjustment diaphragm type ultralow temperature expansion valve 100 is enhanced, so that the first flow channel 102 and the valve hole 104 are not obviously deformed within the pressure range of not more than 3MPa, and the first cavity 1011 is not obviously leaked.
Further, the first accommodating groove 101 is circular and is coaxially arranged with the valve seat 10, and the valve hole 104 is located at the center of the first accommodating groove 101; the valve core 40 is disposed at the center of the diaphragm 30 and is clamped with the valve hole 104. When the diaphragm 30 is deformed under the driving of the valve rod assembly 50, the diaphragm 30 drives the valve core 40 to be away from the valve hole 104, so as to communicate the first cavity 1011 with the first flow channel 102.
Furthermore, the valve hole 104 is circular truncated cone-shaped and is coaxially disposed with the first receiving groove 101, one end of the circular truncated cone lower bottom surface of the valve hole 104 is located at the bottom surface of the first receiving groove 101, and one end of the circular truncated cone upper bottom surface of the valve hole 104 is communicated with the first flow channel 102. The valve core 40 is circular truncated cone-shaped and has a shape corresponding to the shape of the valve hole 104, and the lower bottom surface of the circular truncated cone of the valve core 40 is fixedly connected to the diaphragm 30. When the diaphragm 30 is not deformed, the valve core 40 is clamped in the valve hole 104; the diaphragm 30 is deformed in the second receiving groove 2011 under the driving of the valve rod assembly 50, and the diaphragm 30 drives the valve core 40 to be far away from the valve hole 104; the size of the gap between the valve hole 104 and the valve core 40 is linearly related to the amount of deformation of the diaphragm 30, that is, the flow rate of the flowing medium passing through the valve hole 104 is linearly related to the amount of deformation of the diaphragm 30.
The valve rod assembly 50 includes a valve rod 51 and a rotary transmission joint 52 rotatably connected to one end of the valve rod 51, wherein the rotary transmission joint 52 is fixedly connected to the diaphragm 30. A through hole 211 penetrating through the top surface 21 is formed at the bottom of the second receiving groove 201, and one end of the valve rod 51, which is far away from the rotary transmission joint 52, penetrates through the through hole 211 to drive the diaphragm 30 to deform in the second receiving groove 201, so that the valve core 40 is far away from or close to the valve hole 104.
Further, the rotary transmission joint 52 includes a fixed housing 521 and a cover 522 that are covered with each other, and an accommodation space 520 is defined by the fixed housing and the cover 522. The valve rod 51 comprises a main body part 511 and an adapter 512 connected to one end of the main body part 511, the valve rod 51 penetrates through the cover body 522 and the adapter 512 is accommodated in the accommodating space 520, so that the valve rod assembly 50 drives the diaphragm 30 to move while reducing the radial stress of the valve rod 51, and further protects the diaphragm 30.
Specifically, the fixed housing 521 includes a fixed plate 5211 and a side plate 5212 formed by extending from a side surface of the fixed plate 5211, wherein the fixed plate 5211 is circular, and a surface of the fixed plate 5211 facing away from the side plate 5212 is connected to a center position of a surface of the diaphragm 30 facing away from the valve core 40, so that the valve rod 51 can drive the diaphragm 30 to deform maximally with a minimum displacement. The main body part 511 and the adapter 512 are both cylindrical, and the diameter of the main body part 511 is smaller than that of the adapter 512; the receiving space 520 is circular and corresponds to the adapter 512, so that the adapter 512 can rotate in the receiving space 520 along the axial direction.
An internal thread is formed in the through hole 211, an external thread corresponding to the internal thread of the through hole 211 is formed in one end, close to the adapter 512, of the main body portion 511, the valve rod assembly 50 drives the rotary transmission joint 52 to reciprocate in the second accommodating groove 201 through rotation, so that the diaphragm 30 is driven to deform, and the valve core 40 is driven to be far away from or close to the valve hole 104.
Further, the main body 40 is provided with a scale, and the valve rod assembly 50 can precisely control the flow rate of the medium flowing through the valve hole 104 by controlling the moving distance of the main body 511.
Further, the valve inlet 121 is provided at a position thereof with a first pressure gauge 1211 for measuring a pressure of the medium flowing in the first flow passage 102, and the valve outlet is provided at a position thereof with a second pressure gauge 1221 for measuring a pressure of the medium flowing in the second flow passage 103. The moving distance of the main body 511 is calculated and adjusted according to the pressure values of the first pressure gauge 1211 and the second pressure gauge 1221, thereby achieving accurate control of the flow rate of the medium flowing through the valve hole 104.
The utility model provides a manual regulation diaphragm formula ultra-low temperature expansion valve 100, through rotatory main part 511 control the displacement of main part 511, drive diaphragm 30 take place deformation and then drive the case 40 keep away from or be close to the valve opening 104; high-pressure flowing medium passes through a gap between the valve hole 104 and the valve core 40, and then the first accommodating cavity 1011 is converted into low-pressure flowing medium; in addition, the moving distance of the main body 511 is determined by providing a first pressure gauge 1211 and a second pressure gauge 1221 at the valve inlet 121 and the valve outlet 102, respectively. The utility model provides a manual regulation diaphragm formula ultra-low temperature expansion valve 100, the structure is simple relatively, adjust the convenience and adjust the sensitivity.
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by the ordinary skilled person without creative work belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a manual regulation diaphragm formula ultra-low temperature expansion valve which characterized in that: the valve comprises a valve seat and a valve cover which are mutually covered, a diaphragm clamped between the valve seat and the valve cover, and a valve core and a valve rod assembly which are respectively fixed on two opposite sides of the diaphragm; the valve seat is provided with a first accommodating groove, a first flow passage and a second flow passage, wherein the first flow passage is communicated with the first accommodating groove, and a valve hole for accommodating the valve core is formed in the position where the first flow passage is communicated with the first accommodating groove; a second containing groove is formed in the valve cover, and the surfaces of the two sides of the membrane back to the outside correspond to the first containing groove and the second containing groove respectively; the valve rod assembly drives the diaphragm to deform in the second accommodating groove, so that the valve core is driven to be far away from or close to the valve hole.
2. The manually regulated membrane type ultra-low temperature expansion valve of claim 1, wherein: the valve seat comprises a base surface and a side surface connected with the base surface, and the first accommodating groove is arranged on the base surface; the side face is provided with a valve inlet communicated with the first flow channel and a valve outlet communicated with the second flow channel, a first pressure gauge used for measuring the pressure of the flowing medium in the first flow channel is arranged at the position of the valve inlet, and a second pressure gauge used for measuring the pressure of the flowing medium in the second flow channel is arranged at the position of the valve outlet.
3. The manually adjustable diaphragm ultra-low temperature expansion valve of claim 2, wherein: the valve seat is cylindrical, and the base surface is circular; the first flow channel and the second flow channel are respectively circular; the axis of the first flow passage and the axis of the second flow passage are parallel to the base surface, and the axes of the first flow passage and the second flow passage intersect through the axis of the valve seat.
4. The manually regulated membrane type ultra-low temperature expansion valve of claim 3, wherein: the valve cover comprises a top surface and a bottom surface which are opposite, and the second accommodating groove is formed in the bottom surface; the diaphragm is clamped between the base surface and the bottom surface and respectively encloses a first cavity and a second cavity with the first containing groove and the second containing groove; the valve cover is cylindrical, the diameter of the valve cover corresponds to that of the valve seat, and the diameter of the diaphragm corresponds to that of the valve cover.
5. The manually regulated membrane type ultra-low temperature expansion valve of claim 4, wherein: the first accommodating groove is circular and is coaxial with the valve seat, and the valve hole is positioned at the circle center of the first accommodating groove; the valve core is arranged at the circle center position of the diaphragm and clamped with the valve hole.
6. The manually regulated membrane type ultra-low temperature expansion valve of claim 5, wherein: the valve hole is in a circular truncated cone shape and is coaxially arranged with the first accommodating groove, one end of the circular truncated cone lower bottom surface of the valve hole is positioned on the bottom surface of the first accommodating groove, and one end of the circular truncated cone upper bottom surface of the valve hole is communicated with the first flow passage; the valve core is in a circular truncated cone shape, the shape of the valve core corresponds to that of the valve hole, and the lower bottom surface of the circular truncated cone of the valve core is fixedly connected to the diaphragm.
7. The manually regulated membrane type ultra-low temperature expansion valve of claim 5, wherein: the valve rod assembly comprises a valve rod and a rotary transmission joint which is rotatably connected to one end of the valve rod, wherein the rotary transmission joint is fixedly connected to the diaphragm; the bottom of the second containing groove is provided with a through hole penetrating through the top surface, and one end, far away from the rotary transmission joint, of the valve rod penetrates through the through hole.
8. The manually adjustable diaphragm-type ultra-low-temperature expansion valve according to claim 7, wherein: the rotary transmission joint comprises a fixed shell and a cover body which are mutually covered, and an accommodating space is enclosed by the fixed shell and the cover body; the valve rod comprises a main body part and an adapter connected to one end of the main body part, and the valve rod penetrates through the cover body and the adapter and is accommodated in the accommodating space.
9. The manually regulated membrane type ultra-low temperature expansion valve of claim 8, wherein: set up the internal thread in the through hole, the main part is close to the one end of adapter set up with the external screw thread that the internal thread of through hole is corresponding, valve rod assembly is through rotating the valve rod drives rotatory transmission festival is in reciprocating motion in the second accepting groove.
10. The manually regulated membrane type ultra-low temperature expansion valve of claim 8, wherein: the fixed shell comprises a fixed plate and a side plate formed by extending from the surface of one side of the fixed plate, wherein the fixed plate is circular, and the surface of the fixed plate departing from the side plate is connected to the circle center position of the surface of the diaphragm departing from the valve core.
CN201920768770.9U 2019-05-23 2019-05-23 Manual regulation diaphragm type ultralow temperature expansion valve Active CN210739503U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920768770.9U CN210739503U (en) 2019-05-23 2019-05-23 Manual regulation diaphragm type ultralow temperature expansion valve

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920768770.9U CN210739503U (en) 2019-05-23 2019-05-23 Manual regulation diaphragm type ultralow temperature expansion valve

Publications (1)

Publication Number Publication Date
CN210739503U true CN210739503U (en) 2020-06-12

Family

ID=70984930

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201920768770.9U Active CN210739503U (en) 2019-05-23 2019-05-23 Manual regulation diaphragm type ultralow temperature expansion valve

Country Status (1)

Country Link
CN (1) CN210739503U (en)

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