CN216475350U - Integrated waterway module - Google Patents

Abstract

The utility model belongs to the technical field of water supply accessories, and particularly relates to an integrated waterway module which comprises a water inlet part, a water outlet part and a flow guide part, wherein the water inlet part is connected with the water inlet part; the water inlet part is provided with a water cooling runner, a flow detection runner and a flow guide piece; the water outlet part is provided with a water outlet flow passage, and the water outlet flow passage is provided with a first connecting end for water inlet and a second connecting end for communicating with a heating device; the flow guiding part is provided with a flow guiding channel, two ends of the flow guiding channel are respectively communicated with the first connecting end of the flow detecting channel and the first connecting end of the water outlet channel, and the water inlet part, the flow guiding part and the water outlet part are sequentially communicated to form an integrated water path; the integrated water route module is integrated with a plurality of different runners for liquid flow, and the water supply part with high integration degree is formed, so that the space utilization rate is higher, the modular production of the water supply part is more facilitated, and the water supply part is convenient to use on more universal equipment.

Description

Integrated waterway module

Technical Field

The utility model belongs to the technical field of water supply accessories, and particularly relates to an integrated waterway module.

Background

Traditional water supply installation's water supply part is more, leads to the assembly procedure loaded down with trivial details, and every part all needs water piping connection, and consequently water piping connection position is more, and every position all has the risk of leaking, leads to leaking easily, and the bulky that occupies moreover needs further improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an integrated waterway module, and aims to solve the technical problem that water is easy to leak due to the fact that a plurality of water pipes are arranged in a water supply device for connection in the prior art.

In order to achieve the above object, an integrated waterway module provided in an embodiment of the present invention includes:

the water inlet part is provided with a water cooling runner, a flow detection runner and a flow guide piece, the flow guide piece is provided with a flow guide end and a clamping end, the flow guide end of the flow guide piece is respectively communicated with the water cooling runner and the flow detection runner, and the clamping end of the flow guide piece is used for being communicated with a negative pressure device;

the water outlet part is provided with a water outlet flow channel, and the water outlet flow channel is provided with a first connecting end for water inlet and a second connecting end for communicating with a heating device;

the flow guide part is provided with a flow guide channel, two ends of the flow guide channel are respectively communicated with the first connecting end of the flow detection channel and the first connecting end of the water outlet channel, and the water inlet part, the flow guide part and the water outlet part are sequentially communicated to form an integrated water path.

Optionally, the water-cooling runner has the cooling opening that is used for with the fin contact, cooling open-ended edge is connected with the sealing rubber ring in order to improve the fin with leakproofness between the cooling opening.

Optionally, the bottom of the integrated waterway module is provided with an installation surface, and the clamping end of the diversion piece and the second connection end of the water outlet channel are both arranged towards one side of the installation surface of the integrated waterway module.

Optionally, a water cavity is arranged in the middle of the flow guide piece; the flow guide end of the flow guide piece is provided with a first water outlet and a first water inlet, and the first water inlet is communicated with the water cavity; the joint end of water conservancy diversion spare is equipped with second delivery port and second water inlet, the second delivery port with the water cavity intercommunication, the second water inlet with be equipped with the pipeline between the first delivery port in order will the second water inlet with first delivery port intercommunication.

Optionally, the negative pressure device is including the upper cover, sealed pad, valve plate, the check valve that intakes that set gradually, leather cup, cylinder body, rocker, steel needle, steel ball, eccentric wheel, bottom and motor, on cover and be equipped with input port and delivery outlet, the input port of upper cover with the second delivery port switches on, the delivery outlet of upper cover with the second water inlet intercommunication, be equipped with input hole and delivery outlet on the valve plate, still be equipped with elastomeric element and leak protection part between upper cover and the sealed pad, delivery outlet, elastomeric element, leak protection part and delivery outlet locate on the same straight line, elastomeric element's one end links to each other with the bottom of delivery outlet, and the other end links to each other with the top of leak protection part, the leak protection part is used for sealing the delivery outlet.

Optionally, a third water inlet is formed in a side wall of the flow detection runner, the third water inlet is communicated with the flow guide piece, an impeller is rotatably connected to the flow detection runner, the impeller is arranged on one side of the third water inlet, and the rotation direction of the impeller is perpendicular to the water inlet direction of the third water inlet.

Optionally, the periphery of the flow guide channel is provided with a reinforcing part for reinforcing the strength of the flow guide channel, and a sensor for detecting temperature is arranged in the flow guide channel.

Optionally, a one-way flow structure for preventing the water outlet flow channel from flowing backwards is arranged at the first end of the water outlet flow channel.

Optionally, the heating device comprises a heating element assembly connected to the second connection end.

Optionally, integrated water route module includes epitheca and inferior valve, the water-cooling runner the flow detection runner with go out the water flow and say all locate in the inferior valve, the water conservancy diversion runner is located in the epitheca, the epitheca connect in so that in the inferior valve the both ends of water conservancy diversion runner respectively with the flow detection runner with go out the water flow and say the circulation.

One or more technical solutions in the integrated waterway module provided by the embodiment of the present invention at least have one of the following technical effects: the integrated waterway module is integrated with a plurality of different runners for liquid to flow, so that a water supply component with high integration degree is formed, the integral structure is compact, the volume is effectively reduced, the assembly is simple and convenient, the production efficiency is high, the parts are not required to be connected by conventional water pipes, and the water leakage risk is low; the integrated water route module can be connected with parts with different functions, the layout of the parts and the integrated water route module is optimized, the space in the runner body is fully utilized, the structure is more reasonable, the space utilization rate is higher, modular production of water supply parts is more facilitated, and the integrated water route module is convenient to use on more universal equipment.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of an integrated waterway module according to an embodiment of the present invention.

Fig. 2 is an exploded schematic view of an integrated waterway module according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of a lower case provided in an embodiment of the present invention.

Fig. 4 is a schematic cross-sectional view of a lower case and an upper case provided in an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

10-water inlet part 11-water cooling runner 12-flow detection runner

13-flow guide piece 20-water outlet part 21-water outlet flow channel

30-flow guide part 31-flow guide runner 40-negative pressure device

50-heating device 100-upper shell 101-lower shell

110-cooling opening 120-third water inlet 121-impeller

130-water cavity 131-first water outlet 132-first water inlet

133-second outlet 134-second inlet 210-one-way flow structure.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to fig. 1-4 are exemplary and intended to be used to illustrate embodiments of the utility model, and should not be construed as limiting the utility model.

In the description of the embodiments of the present invention, it should be understood that the terms "length", "width", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the embodiments of the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. Specific meanings of the above terms in the embodiments of the present invention can be understood by those of ordinary skill in the art according to specific situations.

In one embodiment of the present invention, as shown in fig. 1 to 4, an integrated waterway module is provided, which includes a water inlet portion 10, a water outlet portion 20 and a diversion portion 30.

The water inlet part 10 is provided with a water cooling runner 11, a flow detection runner 12 and a flow guide piece 13, the flow guide piece 13 is provided with a flow guide end and a clamping end, the flow guide end of the flow guide piece 13 is respectively communicated with the water cooling runner 11 and the flow detection runner 12, and the clamping end of the flow guide piece 13 is used for being communicated with a negative pressure device 40;

the water outlet part 20 is provided with a water outlet flow passage 21, and the water outlet flow passage 21 is provided with a first connecting end for water inlet and a second connecting end for communicating with a heating device 50;

the flow guiding part 30 is provided with a flow guiding channel 31, two ends of the flow guiding channel 31 are respectively communicated with the first connecting ends of the flow detecting channel 12 and the water outlet channel 21, and the water inlet part 10, the flow guiding part 30 and the water outlet part 20 are sequentially communicated to form an integrated water path.

In the embodiment of the utility model, a plurality of different channels are integrated in the integrated waterway module to supply liquid to flow, so that a water supply component with high integration degree is formed, the integral structure is compact, the volume is effectively reduced, the assembly is simple and convenient, the production efficiency is high, the components do not need to be connected by conventional water pipes, and the water leakage risk is low; the integrated water route module can be connected with parts with different functions, the layout of the parts and the integrated water route module is optimized, the space in the runner body is fully utilized, the structure is more reasonable, the space utilization rate is higher, modular production of water supply parts is more facilitated, and the integrated water route module is convenient to use on more universal equipment.

In another embodiment of the present invention, the water-cooling channel 11 of the integrated waterway module has a cooling opening 110 for contacting with a heat sink, and a sealing rubber ring is connected to an edge of the cooling opening 110 to improve the sealing property between the heat sink and the cooling opening 110; one end of the radiating fin is connected with the thyristor, the other end of the radiating fin is arranged on one side of the cooling opening 110 and covers the cooling opening 110, and liquid is in contact with the radiating fin when flowing through the water-cooling flow channel 11 and takes away heat on the radiating fin, so that the thyristor is radiated; a sealing rubber ring is additionally arranged between the cooling opening 110 and the radiating fin to improve the sealing property.

Specifically, be equipped with first connecting portion on the integrated water route module, cooling opening 110's both sides are located to first connecting portion, are equipped with first mounting hole in the first connecting portion, are equipped with the internal thread in the first mounting hole, are equipped with the second mounting hole on the fin, and when cooling opening 110 one side was located to the fin, second mounting hole and first mounting hole set up relatively, thereby fixed with first mounting hole threaded connection the fin behind the second mounting hole is passed to the screw portion of screw.

In another embodiment of the present invention, an installation surface is disposed at the bottom of the integrated waterway module, and the clamping end of the diversion member 13 and the second connection end of the water outlet channel 21 are both disposed toward one side of the installation surface of the integrated waterway module; install negative pressure device 40 on the joint end of water conservancy diversion spare 13, install heating device 50 on the second connecting end of outlet flow 21, the joint end of water conservancy diversion spare 13 and the second connecting end of outlet flow 21 all set up towards installation face direction for negative pressure device 40 and heating device 50 all locate the one side of installation face, compact structure, and space utilization is high, the assembly of being convenient for.

In another embodiment of the present invention, the middle of the flow guide 13 of the integrated waterway module is provided with a water cavity 130; the diversion end of the diversion piece 13 is provided with a first water outlet 131 and a first water inlet 132, and the first water inlet 132 is communicated with the water cavity 130; a second water outlet 133 and a second water inlet 134 are arranged at the clamping end of the flow guide piece 13, the second water outlet 133 is communicated with the water cavity 130, and a pipeline is arranged between the second water inlet 134 and the first water outlet 131 so as to communicate the second water inlet 134 with the first water outlet 131; the liquid in the water-cooled runner 11 flows into the water cavity 130 through the first water inlet 132 and flows out of the water cavity 130 through the second water outlet 133, and the liquid in the water-cooled runner 11 flows into the pipeline through the second water inlet 134 and flows out of the pipeline through the first water outlet 131; the negative pressure device 40 is connected to the clamping end of the flow guide piece 13, the negative pressure device 40 extracts the liquid in the water cavity 130 and conveys the liquid into the pipeline, and the liquid in the water-cooling flow channel 11 is conveyed into the flow check flow channel to realize liquid conveying.

In another embodiment of the present invention, the negative pressure device 40 of the integrated waterway module comprises an upper cover, a sealing pad, a valve plate, a water inlet check valve, a cup, a cylinder, a swing frame, a steel needle, a steel ball, an eccentric wheel, a bottom cover and a motor, which are sequentially arranged, wherein the upper cover is provided with an input port and an output port, the input port of the upper cover is communicated with a second water outlet 133, the output port of the upper cover is communicated with a second water inlet 134, the valve plate is provided with an input hole and an output hole, an elastic component and a leakage-proof component are further arranged between the upper cover and the sealing pad, the output port, the elastic component, the leakage-proof component and the output hole are arranged on the same straight line, one end of the elastic component is connected with the bottom of the output port, the other end of the elastic component is connected with the top of the leakage-proof component, and the leakage-proof component is used for sealing the output hole. In the embodiment of the present invention, the negative pressure device 40 is provided with an elastic member and a leakage-proof member between the input port and the gasket, and the input port, the leakage-proof member and the elastic member are arranged on the same line, so that the leakage-proof member effectively seals the input port. When the suction force borne by the anti-leakage part is larger than the elastic force of the elastic part, the elastic part contracts, the anti-leakage part leaves the input port, and the liquid enters the upper cover through the input port of the upper cover; when the suction force borne by the leakage-proof component is smaller than the elastic force of the elastic component, the elastic component stretches to drive the leakage-proof component to move towards the input port, so that the leakage-proof component seals the input port, liquid is prevented from flowing into or out of the input port, and the phenomenon of dripping and leaking of the negative pressure device 40 is avoided. Meanwhile, the elastic part and the leakage-proof part are mutually independent, the elastic parts with different elastic coefficients can be replaced according to actual use requirements, so that the elasticity of the elastic parts is controlled, the leakage-proof effect of the negative pressure device 40 is ensured, and the flexibility and the applicability are strong.

When the negative pressure device 40 is used, the motor is electrified, the output shaft of the motor drives the steel needle to rotate through the eccentric wheel, the rotating steel needle drives the swing frame to rotate around the output shaft, the swing arm on the swing frame moves and respectively pulls the leather cup to stretch and compress, and therefore the volume of a cavity in the leather cup changes. When the suction force is larger than the elastic force of the elastic part, the elastic part contracts downwards to enable the leakage-proof part to leave the input port, liquid enters the upper cover through the input port of the upper cover and then enters the inner cavity of the leather cup along the input hole through the water inlet one-way valve; at this time, the water outlet check valve is in a closed state. When the volume of the cavity in the leather cup is reduced, the atmospheric pressure in the leather cup becomes a positive high pressure value, and the liquid in the leather cup flows to the upper cover along the output hole through the water outlet one-way valve and then is output to the negative pressure device 40 through the output port of the upper cover; at this time, the water inlet check valve is in a closed state. The motor cuts off the power supply, and the motor stop motion is so that negative pressure device 40 stops to take out and send, and the cavity of leather cup stops breathing in, and the leather cup still exerts suction to the leak protection part under inertial action, but suction is obviously less than elastomeric element's elasticity, and elastomeric element upwards stretches, drives the motion of leak protection part to the input port, makes the leak protection part seal the input port, prevents that liquid from flowing into or flowing out, avoids negative pressure device 40 to appear the dribbling phenomenon. Meanwhile, liquid outside the output port flows back to the negative pressure device 40, and at the moment, the backflow liquid cannot pass through the output hole under the blocking of the water outlet one-way valve, so that the dripping phenomenon can be effectively avoided. Compared with the prior art, the elastic component and the leakage-proof component are arranged between the input port and the sealing gasket, so that the leakage-proof component can effectively seal the input port. When the suction force borne by the anti-leakage part is larger than the elastic force of the elastic part, the elastic part contracts, the anti-leakage part leaves the input port, and the liquid enters the upper cover through the input port of the upper cover; when the suction force borne by the leakage-proof component is smaller than the elastic force of the elastic component, the elastic component stretches to drive the leakage-proof component to move towards the input port, so that the leakage-proof component seals the input port.

In another embodiment of the present invention, a third water inlet 120 is formed in a side wall of the diversion channel 31 of the integrated waterway module, the third water inlet 120 is communicated with the diversion element 13, an impeller 121 is rotatably connected in the flow detection channel 12, the impeller 121 is disposed at one side of the third water inlet 120, and a rotation direction of the impeller 121 is perpendicular to a water inlet direction of the third water inlet 120; the liquid flows into the flow rate detection flow channel 12 from the third water inlet 120, the impeller 121 is driven to rotate by the flow rate detection flow channel 12, and the liquid flow rate of the flow rate detection flow channel 12 is fed back by detecting the number of rotation turns of the impeller 121, so that the function of detecting the liquid flow rate is realized.

In another embodiment of the present invention, a reinforcement portion is disposed at the periphery of the diversion channel 31 of the integrated waterway module to reinforce the strength of the diversion channel 31, a sensor for detecting temperature is disposed in the diversion channel 31, and the sensor is additionally disposed to monitor the temperature of the liquid in the diversion channel 31, thereby improving the functionality of the integrated waterway module, enhancing the practical effect, and realizing the liquid temperature detection function.

In another embodiment of the present invention, a one-way flow structure 210 for preventing backflow of the water outlet channel 21 is disposed at a first end of the water outlet channel 21 of the integrated waterway module, and the one-way flow structure 210 is additionally disposed to avoid backflow of the water outlet channel 21 during liquid conveying, so as to improve the stability of the integrated waterway module in liquid conveying; specifically, the one-way flow structure 210 is provided with a one-way valve, the one-way valve is of a spring type, when liquid flows through the flow guide channel 31, the valve flap controlled by the spring is jacked up, and after pressure disappears, the valve flap is pressed down by the spring force, so that the liquid is sealed to flow backwards, and the function of preventing the liquid from flowing backwards is realized.

In another embodiment of the present invention, the heating device 50 of the integrated waterway module includes a heating element assembly, the heating element assembly is connected to the second connection end, the liquid flows into the heating element assembly after passing through the water outlet channel 21, and the heating element assembly heats the liquid flowing through the heating element assembly to realize a heating function.

In another embodiment of the present invention, the integrated waterway module includes an upper shell 100 and a lower shell 101, the water-cooling channel 11, the flow detection channel 12 and the water outlet channel 21 are all disposed in the lower shell 101, the diversion channel 31 is disposed in the upper shell 100, and the upper shell 100 is connected to the lower shell 101 so that two ends of the diversion channel 31 respectively communicate with the flow detection channel 12 and the water outlet channel 21; the integrated water route module comprises epitheca 100 and inferior valve 101, and the compound mode through the components of a whole that can function independently setting is convenient for assemble each spare part, the dismouting maintenance of being convenient for simultaneously, stable in structure, the practicality is strong.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An integrated waterway module, comprising:

the water inlet part is provided with a water cooling runner, a flow detection runner and a flow guide piece, the flow guide piece is provided with a flow guide end and a clamping end, the flow guide end of the flow guide piece is respectively communicated with the water cooling runner and the flow detection runner, and the clamping end of the flow guide piece is used for being communicated with a negative pressure device;

the water outlet part is provided with a water outlet flow channel, and the water outlet flow channel is provided with a first connecting end for water inlet and a second connecting end for communicating with a heating device;

the flow guide part is provided with a flow guide channel, two ends of the flow guide channel are respectively communicated with the first connecting end of the flow detection channel and the first connecting end of the water outlet channel, and the water inlet part, the flow guide part and the water outlet part are sequentially communicated to form an integrated water path.

2. The integrated waterway module of claim 1, wherein: the water-cooling runner has the cooling opening that is used for with the fin contact, cooling open-ended edge is connected with the sealing rubber ring in order to improve the fin with leakproofness between the cooling opening.

3. The integrated waterway module of claim 1, wherein: the bottom of the integrated waterway module is provided with an installation surface, and the clamping end of the diversion piece and the second connecting end of the water outlet channel are both arranged towards one side of the installation surface of the integrated waterway module.

4. The integrated waterway module of claim 1, wherein: a water cavity is arranged in the middle of the flow guide piece; the flow guide end of the flow guide piece is provided with a first water outlet and a first water inlet, and the first water inlet is communicated with the water cavity; the joint end of water conservancy diversion spare is equipped with second delivery port and second water inlet, the second delivery port with the water cavity intercommunication, the second water inlet with be equipped with the pipeline between the first delivery port in order will the second water inlet with first delivery port intercommunication.

5. The integrated waterway module of claim 4, wherein: negative pressure device is including the upper cover, sealed pad, valve plate, the check valve that intakes, leather cup, cylinder body, rocker, steel needle, steel ball, eccentric wheel, bottom and the motor that set gradually, on cover and be equipped with input port and delivery outlet, the input port of upper cover with the second delivery port switches on, the delivery outlet of upper cover with the second water inlet intercommunication, be equipped with input hole and delivery outlet on the valve plate, still be equipped with elastomeric element and leak protection part between upper cover and the sealed pad, delivery outlet, elastomeric element, leak protection part and delivery outlet are located on the same straight line, elastomeric element's one end links to each other with the bottom of delivery outlet, and the other end links to each other with the top of leak protection part, the leak protection part is used for sealing the delivery outlet.

6. The integrated waterway module of claim 1, wherein: the lateral wall of the flow detection runner is provided with a third water inlet, the third water inlet is communicated with the flow guide piece, an impeller is rotatably connected in the flow detection runner and is arranged on one side of the third water inlet, and the rotation direction of the impeller is perpendicular to the water inlet direction of the third water inlet.

7. The integrated waterway module of claim 1, wherein: the periphery of water conservancy diversion runner is equipped with the rib in order to be used for the reinforcing the intensity of water conservancy diversion runner, be equipped with the sensor that is used for detecting the temperature in the water conservancy diversion runner.

8. The integrated waterway module of claim 1, wherein: the first end of the water outlet flow channel is provided with a one-way flow structure for preventing the water outlet flow channel from flowing backwards.

9. The integrated waterway module of claim 1, wherein: the heating device comprises a heating element assembly, and the heating element assembly is connected to the second connecting end.

10. The integrated waterway module of claim 1, wherein: integrated water route module includes epitheca and inferior valve, the water-cooling runner the flow detection runner with go out the water flow and say all locate in the inferior valve, the water conservancy diversion runner is located in the epitheca, the epitheca connect in so that in the inferior valve the both ends of water conservancy diversion runner respectively with the flow detection runner with go out the water flow and say the circulation.

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