CN218724398U - Integrated ultrasonic water meter structure - Google Patents

Abstract

The utility model discloses an integral type supersound water gauge structure, fluid pipeline, two transducers, two support bar reorganizers and two reflectors including integrated into one piece, fluid pipeline is hollow structure and forms the fluid chamber that link up, and two transducers set firmly on fluid pipeline, two the support bar reorganizer sets firmly in the fluid intracavity relatively, the support bar reorganizer includes the axostylus axostyle that follows fluid passage axis setting, a plurality of support claws have set firmly in the outer end circumference of axostylus axostyle, the relevant position department of fluid chamber internal face is equipped with the cell body that the holding supported the claw, the first end of reflector inlays locates in the support bar reorganizer, the slope plane of reflection of reflector second end sets up towards the transducer, so that two the transducer transmission with receive the ultrasonic signal who passes the fluid chamber. The utility model discloses rational in infrastructure, be favorable to reducing production manufacturing cost and the reflector is fixed firm.

Description

Integral type supersound water gauge structure

Technical Field

The utility model relates to a flow measuring equipment technical field specifically is an integral type supersound water gauge structure.

Background

Electronic flow meters or steady state flow meters, such as ultrasonic flow meters, are increasingly being used as utility meters for measuring water usage. Ultrasonic flow meters offer the advantage of no moving parts compared to conventional mechanical flow meters. Since the ultrasonic flow meter includes a power source, typically a battery, for powering the measurement circuitry, radio communication means for external communication may also be integrated. In addition, ultrasonic flow meters typically include onboard processing capability so that data processing can be implemented in the meter.

In the prior art, the fluid pipeline is complex in structure and high in production and manufacturing cost, the reflector in the fluid pipeline can displace in the expansion and contraction process, the measurement precision is low, even the reflector is separated, and the like, and the problems of high pressure loss in the fluid pipeline, large fluid energy loss, poor turbulence resistance and the like exist.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an integral type supersound water gauge structure, it has solved the technical problem that the fluid pipeline structure that exists is complicated among the prior art, with high costs and the reflector is not firm, has rational in infrastructure, be favorable to reducing production manufacturing cost and the fixed firm technological effect of reflector. The adopted technical scheme is as follows:

integral type supersound water gauge structure, including integrated into one piece's fluid pipeline, two transducers, two support muscle collators and two reflectors, the fluid pipeline is hollow structure and forms the fluid chamber that link up, and two transducers set firmly on the fluid pipeline, two the support muscle collator sets firmly in the fluid intracavity relatively, the support muscle collator includes the axostylus axostyle that follows fluid passage axis setting, a plurality of support claws have set firmly in the outer end circumference of axostylus axostyle, the relevant position department of fluid chamber internal face is equipped with the cell body of holding support claw, the first end of reflector inlays locates in the support muscle collator, the slope plane of reflection of reflector second end sets up towards the transducer, so that two the transducer transmission with receive the ultrasonic signal who passes the fluid chamber.

On the basis of the technical scheme, the supporting rib collator is made of plastic, the reflector is made of metal and embedded into the shaft rod of the supporting rib collator in any one of injection molding, hot melting or bonding modes, and a plurality of fins are fixedly arranged on the part, embedded into the shaft rod, of the reflector.

On the basis of the technical scheme, the side wall of the support claw facing the shaft rod has an inward inclined angle from two ends of the fluid pipeline to the middle of the fluid pipeline, and the side wall and the end surface of the support claw in the fluid cavity are in smooth transition.

On the basis of the technical scheme, the side wall surface of the shaft rod far away from the reflector is a spherical surface or an ellipsoid surface so as to reduce the pressure loss.

On the basis of the technical scheme, the fluid pipeline is made of plastic, the fluid cavity comprises a middle reducing section, and the two transducers are respectively arranged on two sides of the middle reducing section.

On the basis of the technical scheme, the support rib collator further comprises two end pressing rings, wherein the two end pressing rings are arranged in the fluid cavity and press the support rib collator inwards on the side wall of the groove body.

On the basis of the technical scheme, the end clamping ring is embedded in the fluid cavity through any mode of hot melting, injection molding, bonding or interference fit, and works as when the end clamping ring is embedded in the fluid cavity in interference fit, the outer wall surface of the end clamping ring is integrally formed with a plurality of axial convex ribs arranged in the circumferential direction, and the convex rib top surface close to the supporting rib collator is provided with an angle inclined downwards so as to lead the end clamping ring to stretch into the fluid cavity and be in interference fit with the fluid cavity.

On the basis of above-mentioned technical scheme, fluid conduit's both ends communicate respectively has inlet tube and outlet pipe, the fluid conduit rigid coupling has the casing, the casing is plastics material and integrative injection moulding with fluid conduit, the casing is including holding the chamber, hold the group battery that circuit board, temperature sensor, display, communication module were held to the intracavity, the circuit board respectively with transducer, temperature sensor, display, communication module and group battery electric connection, the accommodation hole has been seted up on the fluid conduit, the accommodation hole extends and forms and holds the pipe to holding the intracavity, the transducer is located in the accommodation hole and accommodation hole sealing connection, the ultrasonic signal that passes this fluid chamber is launched and received to the transducer, the display is used for reflecting fluid data information, communication module is used for communicating with outside intelligent equipment.

On the basis of above-mentioned technical scheme, the internal face that holds the chamber partially extends and forms two barricades to holding the intracavity, the both sides of accommodation hole are located to barricade extension and branch along the axis of fluid chamber, and two the barricade encloses the cavity that closes the formation and is used for the encapsulating with sealed accommodation hole.

On the basis of the technical scheme, the novel liquid crystal display further comprises an upper cover plate and a cover cap, the containing cavity is vertically intersected with the axis of the liquid cavity, the containing cavity is extended along the axis of the containing cavity and forms an opening on the shell, the upper cover plate is connected with the upper end of the shell through a second sealing ring to seal the opening, a display screen of the display is checked through a transparent window embedded on the upper cover plate, the first end of the cover cap is hinged to the upper cover plate, a turning plate is arranged at the second end of the cover cap, and the cover cap is used for covering the upper cover plate.

Advantageous effects

The utility model discloses well fluid pipeline integrated into one piece, and the fluid intracavity integrated into one piece that forms have middle reducing section, can simplify fluid pipeline production technology, reduction production manufacturing cost greatly. In addition, the fluid pipeline is made of plastic materials, has good environmental tolerance and is beneficial to improving the sealing property. The supporting rib collator comprises a plurality of supporting claws, the side walls of the supporting claws facing the shaft rod are provided with angles which incline outwards from the reflector to the end pressing ring direction so as to improve the rectification effect, and the side wall surface of the shaft rod far away from the reflector is a spherical surface or an ellipsoidal surface so as to effectively reduce the pressure loss and improve the measurement precision; the middle end pressing ring can be inwards abutted with the supporting claw and axially limit the supporting rib collator, so that the supporting rib collator has good position precision.

The utility model discloses well fluid pipeline still integrated into one piece ground rigid coupling has the casing, and the intracavity that holds of casing still is equipped with circuit board, temperature sensor, display, communication module and group battery, is favorable to realizing that the modularization assembly is used, and assembles simple easy operation. In addition, an upper cover plate fixedly connected with the shell and a cover cap hinged with the upper cover plate are further arranged, so that a user can conveniently check recorded data. The fluid cavity and the accommodating cavity are communicated through the accommodating holes, so that signals can be prevented from being sent and received through the fluid cavity, the signal intensity can be improved, the subsequent signal processing flow can be simplified, the water meter measuring accuracy can be improved, and the product performance and the measuring stability can be improved. The vallecular cavity that two baffle plates of locating the accommodation hole both sides formed in addition for the encapsulating is in order to seal the accommodation hole, so can improve the sealing performance who holds hole department greatly, and the encapsulating volume that still can significantly reduce simultaneously avoids holding among the prior art that the process complexity that the sealed leads to of cavity wholly encapsulating wastes time and consumes power, drying time is long and with high costs the high-grade problem appears.

Drawings

In order to clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below. It is obvious that the drawing in the following description is only an embodiment of the invention, and that for a person skilled in the art, other embodiments can be derived from the drawing provided without inventive effort.

FIG. 1: a cross-sectional structure schematic diagram of a front view of the fluid conduit;

FIG. 2: a schematic diagram of a three-dimensional structure after the supporting rib collator and the reflector are assembled;

FIG. 3: a schematic three-dimensional structure diagram of the end pressure ring;

FIG. 4 is a schematic view of: three-dimensional structure schematic diagram I of fluid pipeline and shell

FIG. 5: three-dimensional structure schematic diagram of fluid pipeline and shell

FIG. 6: FIG. 5 is a schematic cross-sectional view of the front view of the assembled upper cover and lid;

Detailed Description

The following description and the drawings sufficiently illustrate specific embodiments herein to enable those skilled in the art to practice them. Portions and features of some embodiments may be included in or substituted for those of others. The scope of the embodiments herein includes the full ambit of the claims, as well as all available equivalents of the claims. The terms "first," "second," and the like, herein are used solely to distinguish one element from another without requiring or implying any actual such relationship or order between such elements. In practice, a first element can also be referred to as a second element, and vice versa. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a structure, apparatus, or device that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such structure, apparatus, or device. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of other like elements in a structure, device, or apparatus that comprises the element. The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like herein, as used herein, are defined as orientations or positional relationships based on the orientation or positional relationship shown in the drawings, and are used for convenience in describing and simplifying the description, but do not indicate or imply that the device or element being 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. In the description herein, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may include, for example, mechanical or electrical connections, communications between two elements, direct connections, and indirect connections via intermediary media, where the specific meaning of the terms is understood by those skilled in the art as appropriate.

Herein, the term "plurality" means two or more, unless otherwise specified.

Herein, the character "/" indicates that the preceding and succeeding objects are in an "or" relationship. For example, A/B represents: a or B.

Herein, the term "and/or" is an associative relationship describing objects, meaning that three relationships may exist. For example, a and/or B, represents: a or B, or A and B.

The integrated ultrasonic water meter structure shown in fig. 1 comprises an integrally formed fluid pipeline, two transducers 5, two supporting rib collators 16 and two reflectors 15, wherein the fluid pipeline is made of plastic, the fluid pipeline is of a hollow structure and integrally formed into a through fluid cavity 102 in an injection molding mode, the fluid cavity 102 comprises a middle reducing section, and the transducers 5 are fixedly arranged on the fluid pipeline and are respectively arranged on two sides of the middle reducing section.

The two support rib collators 16 have the same structure and are oppositely and fixedly arranged in the fluid cavity 102, each support rib collator 16 comprises a shaft rod 161 arranged along the axis of the fluid channel, a plurality of support claws 162 are fixedly arranged at the outer end of the shaft rod 161 in the circumferential direction, a groove body for accommodating the support claws 162 is arranged at the corresponding position on the inner wall surface of the fluid cavity 102, the groove body extends to the outer end surface of the fluid channel, the support rib collator 16 is pushed to a set position from outside to inside during convenient assembly, and the support claws 162 are in transition fit with the groove body.

As shown in fig. 1, the supporting rib collator 16 is made of plastic, the reflector 15 is made of metal, in this embodiment, the first end of the reflector 15 is embedded into the shaft rod 161 of the supporting rib collator 16 in an injection molding manner, and the part of the reflector 15 embedded into the shaft rod 161 is fixedly provided with a plurality of fins, so as to improve the connection strength between the shaft rod 161 and the first end of the reflector 15, in other embodiments of the present invention, the first end of the reflector 15 can also be embedded into the shaft rod 161 in a hot melting or adhesive bonding manner. The inclined reflecting surface of the second end of the reflector 15 is arranged facing the transducers 5 so that both transducers 5 transmit and receive ultrasonic signals through the fluid chamber 102.

As shown in fig. 2, a plurality of support claws 162 are uniformly fixed on the shaft 161 in the circumferential direction and perform a flow rectification function, the side walls of the support claws 162 facing the shaft 161 have an inward-inclined angle from the two ends of the fluid pipe to the middle of the fluid pipe, and the side walls of the support claws 162 in the fluid chamber 102 are in smooth transition with the end surfaces thereof.

In addition, the side wall surface of the shaft 161 away from the reflector 15 is a spherical surface or an ellipsoidal surface, so as to reduce the pressure loss, which is beneficial to improving the measurement accuracy.

As shown in fig. 3, the support rib arranging device further comprises two end press rings 17, wherein the two end press rings 17 are arranged in the fluid cavity 102 and press the support rib arranging device 16 inwards on the side walls of the fluid cavity. In this embodiment, the outer wall integrated into one piece of end clamping ring 17 has the axial protruding muscle that a plurality of circumference were arranged, and the protruding muscle top surface that is close to brace rod reorganizer 16 has the angle of downward sloping to leading end clamping ring 17 stretches into to fluid cavity 102 in, is favorable to improving assembly efficiency, end clamping ring 17 passes through protruding muscle and fluid cavity 102 interference fit. In addition, the inner wall surface of the end pressure ring 17 smoothly transitions with the inner wall surface of the fluid chamber 102. In other embodiments of the present invention, the end pressure ring can be fixed in the fluid chamber 102 by hot melting, injection molding or bonding, wherein the hot melting, injection molding or bonding process is the prior art, and is not repeated herein.

As shown in fig. 4 to 6, two ends of the fluid conduit are respectively connected with an inlet pipe 1021 and an outlet pipe 1022, and the ends of the inlet pipe 1021 and the outlet pipe 1022 are respectively provided with a connecting thread. The fluid pipeline rigid coupling has casing 1, casing 1 is plastic material and integrative injection moulding with the fluid pipeline, casing 1 is including holding chamber 101, hold chamber 101 and contain circuit board 4, temperature sensor, display 6, communication module's group battery 7, circuit board 4 respectively with transducer 5 ware, temperature sensor, display 6, communication module and 7 electric connection of group battery. The transducer 5 transmits and receives ultrasonic signals through the fluid chamber 102, the display 6 is used for reflecting fluid data information, and the communication module is used for communicating with external intelligent equipment.

As shown in fig. 4, the fluid chamber 102 and the accommodating chamber 101 are communicated through three accommodating holes 9, the accommodating holes 9 extend into the accommodating chamber 101 and form accommodating pipes, the three accommodating pipes are arranged on the same side of the fluid chamber 102, two accommodating pipes are arranged at two ends of a reduced diameter section in the fluid chamber 102, and the transducer 5 is arranged in the accommodating holes 9 and is connected with the accommodating holes in a sealing manner; another accommodating tube is arranged on the reduced diameter section of the fluid cavity 102, and the temperature sensor is arranged in the accommodating hole 9 and is connected with the accommodating hole 9 in a sealing way. Therefore, signals can be prevented from being sent and received through the wall surface of the fluid cavity 102, the signal intensity is improved, the subsequent signal processing flow is simplified, the water meter measuring precision is improved, and the product performance and the measuring stability are improved.

The inner wall surface of the accommodating cavity 101 partially extends into the accommodating cavity 101 to form two baffle plates 10, the baffle plates 10 extend along the axis of the fluid cavity 102 and are respectively arranged at two sides of the accommodating hole 9, and a cavity formed by enclosing the two baffle plates 10 is used for pouring glue to seal the accommodating hole. During specific operation, the height of the glue filling liquid level is higher than the accommodating hole 9 and lower than the top surface of the partition plate 10. Therefore, the glue consumption for glue filling can be greatly reduced, the glue filling operation is simple and easy to implement, the glue solution drying time is short, the drying effect is good, and the assembly efficiency is favorably improved. Therefore, a higher sealing grade can be realized at lower cost, and the operation is simple and easy.

As shown in fig. 5, the portable water meter further comprises a pressing plate 11, wherein a threading hole is formed in the pressing plate 11, and the pressing plate 11 is fixedly arranged in the accommodating cavity 101 and used for covering the accommodating hole 9 for accommodating the transducer 5, so that the transducer 5 is prevented from loosening under the action of water pressure. Still be equipped with first sealing washer 12 in the accommodation hole 9 that holds transducer 5, the internal face of accommodation hole 9 includes first step face, transducer 5's outer wall include with the second step face of first step face adaptation the clamp plate 11 is under the effect, the second step face on the transducer 5 is contradicted through first sealing washer 12 and first step face, so can further provide accommodation hole 9's sealing performance. In addition, for the pressing plate 11 is convenient to install, a plurality of connecting holes are fixedly arranged on the periphery of the accommodating hole 9, nuts are embedded in the connecting holes, and screws penetrate through the pressing plate 11 and are connected with the nuts to fix the pressing plate 11. In this embodiment, the glue filling operation is performed after the pressing plate 11 is installed.

As shown in fig. 6, the circuit board 4 includes a first circuit board 401 and a second circuit board 402 which are vertically and fixedly disposed in the accommodating cavity 101, the first circuit board 401 is disposed near the fluid cavity 102 and electrically connected to the two transducers 5 and the temperature sensor, the two transducers 5 and the temperature sensor can send signals to the first circuit board 401, the second circuit board 402 is disposed above the first circuit board 401 and electrically connected to the first circuit board 401 through the offset pins, and the second circuit board 402 is electrically connected to the display 6, the communication module and the battery pack 7, wherein the display 6 includes a display screen, a transparent window is embedded in the notch of the upper cover plate 2, the display screen can be viewed through the transparent window, and a ridge is disposed between two opposite end faces of the transparent window and the notch of the upper cover plate 2 to facilitate the ultrasonic welding of the transparent window and the notch of the window.

In this embodiment, the battery pack 7 includes two batteries, the batteries are electrically connected to the second circuit board 402, the two batteries are disposed along the axis of the fluid chamber 102 and are symmetrically disposed on the bottom surface of the second circuit board 402, as shown in fig. 4 to 6, the inner wall surface of the accommodating chamber 101 facing the batteries partially extends to form a plurality of rib plates 14, wherein the rib plates 14 are perpendicular to the axis of the retaining plate 10 and extend laterally to be fixedly connected to the retaining plate 10, the end surfaces of the rib plates 14 facing the batteries are adapted to the outer wall surface of the batteries, for example, the end surfaces of the rib plates 14 facing the batteries have arc notches or square notches to limit the batteries, and in addition, the end surfaces are abutted against the batteries through elastic pads, so as to flexibly support the batteries upwards, and further mount dry batteries with larger size, thereby realizing larger cruising ability.

As shown in fig. 6, the device further comprises an upper cover plate 2 and a cover 3, wherein the accommodating cavity 101 is perpendicular to the axis of the fluid cavity 102, a part of the wall surface of the fluid cavity 102 forms a common wall of the accommodating cavity 101 and the fluid cavity 102, the accommodating cavity 101 is extended along the axis and forms an opening on the housing 1, the upper cover plate 2 is connected with the upper end of the housing 1 through a second sealing ring 13 to seal the opening, a first end of the cover 3 is hinged with the upper cover plate 2, a second end of the cover 3 is provided with a turning plate, and the cover 3 is used for covering the upper cover plate 2. Casing 1 and upper cover plate 2 adopt the plastics material, 1 integrative injection moulding of casing, casing 1 is equipped with the rib between the terminal surface relative with upper cover plate 2, the outside extension of outer fringe level of upper cover plate 2 and downwardly extending form the slot on the reason of holding casing 1, and slot tank bottom department is located to the rib to make things convenient for upper cover plate 2 and casing 1 to pass through ultrasonic welding fixed the utility model discloses a in other embodiments, also can be fixed or bond fixedly through the laser welding, and when fixed or bond fixedly through the laser welding, need not to set up the rib. The ultrasonic welding, laser welding or bonding and fixing processes are all the prior art, and are not described herein again.

The present invention has been described above by way of example, but the present invention is not limited to the above-mentioned embodiments, and any modifications or variations based on the present invention are all within the scope of the present invention as claimed.

Claims (10)

1. The integrated ultrasonic water meter structure is characterized by comprising a fluid pipeline, two transducers (5), two supporting rib collators (16) and two reflectors (15), wherein the fluid pipeline is of a hollow structure and forms a through fluid cavity (102), the two transducers (5) are fixedly arranged on the fluid pipeline, the two supporting rib collators (16) are oppositely and fixedly arranged in the fluid cavity (102), each supporting rib collator (16) comprises a shaft rod (161) arranged along the axis of a fluid channel, a plurality of supporting claws (162) are circumferentially and fixedly arranged at the outer end of the shaft rod (161), a groove body for accommodating the supporting claws (162) is arranged at the corresponding position of the inner wall surface of the fluid cavity (102), the first end of each reflector (15) is embedded in the corresponding supporting rib collator (16), and the inclined reflecting surface of the second end of each reflector (15) is arranged towards the corresponding transducer (5) so that the two transducers (5) transmit and receive ultrasonic signals penetrating through the fluid cavity (102).

2. The structure of the integrated ultrasonic water meter according to claim 1, wherein the supporting rib collator (16) is made of plastic, the reflector (15) is made of metal and is embedded into the shaft rod (161) of the supporting rib collator (16) through any one of injection molding, hot melting or bonding, the first end of the reflector (15) is fixedly provided with a plurality of fins at the part of the reflector (15) embedded into the shaft rod (161).

3. The structure of an integrated ultrasonic water meter according to claim 1, wherein the side walls of the support claws (162) facing the shaft (161) are angled inwardly from the ends of the fluid conduit toward the middle of the fluid conduit, and the side walls and the end surfaces of the support claws (162) within the fluid chamber (102) are smoothly transitioned.

4. The ultrasonic water meter integral structure according to claim 1, wherein the side wall of said shaft (161) remote from the reflector (15) is spherical or ellipsoidal to reduce pressure loss.

5. An integral ultrasonic water meter construction as claimed in claim 1, wherein said fluid conduit is of plastics material, said fluid chamber (102) includes a central reduced diameter section, and two transducers (5) are provided on opposite sides of the central reduced diameter section.

6. An integrated ultrasonic water meter structure as claimed in any one of claims 1 to 5, further comprising end clamping rings (17), the end clamping rings (17) being disposed within the fluid chamber (102) and pressing the support rib collator (16) inwardly against the sidewall of the chamber.

7. The integral type supersound water gauge structure of claim 6, characterized in that, end clamping ring (17) are inlayed in fluid chamber (102) through any kind of mode of hot melt, mould plastics, bonding or interference fit, and work as when end clamping ring (17) are inlayed in the fluid intracavity with interference fit, the outer wall integrated into one piece of end clamping ring (17) has a plurality of axial protruding muscle that circumference was arranged, and the protruding muscle top surface that is close to brace rod reorganizer (16) has the angle of downward sloping to leading end clamping ring (17) stretch into in fluid chamber (102) and with fluid chamber (102) interference fit.

8. The integrated ultrasonic water meter structure according to any one of claims 1 to 5 and 7, wherein the two ends of the fluid pipeline are respectively communicated with an inlet pipe (1021) and an outlet pipe (1022), the fluid pipeline is fixedly connected with a housing (1), the housing (1) and the fluid pipeline are made of plastic materials and are integrally injection-molded, the housing (1) comprises a containing cavity (101), a circuit board (4), a temperature sensor, a display (6) and a battery pack (7) of a communication module are contained in the containing cavity (101), the circuit board (4) is respectively electrically connected with a transducer (5), a temperature sensor, a display (6), a communication module and the battery pack (7), the fluid pipeline is provided with a containing hole (9), the containing hole (9) extends into the containing cavity (101) and forms a containing pipe, the transducer (5) is arranged in the containing hole (9) and is hermetically connected with the containing hole (9), the transducer (5) transmits and receives ultrasonic signals passing through the containing hole (102), the display (6) is used for reflecting fluid data information, and the communication module is used for communicating with external intelligent equipment.

9. The structure of the integrated ultrasonic water meter according to claim 8, wherein the inner wall surface of the accommodating cavity (101) partially extends into the accommodating cavity (101) and forms two baffle plates (10), the baffle plates (10) extend along the axis of the fluid cavity (102) and are respectively arranged at two sides of the accommodating hole (9), and the cavity formed by enclosing the two baffle plates (10) is used for pouring glue to seal the accommodating hole (9).

10. The structure of the integrated ultrasonic water meter of claim 9, further comprising an upper cover plate (2) and a cover cap (3), wherein the containing cavity (101) is vertically intersected with the axis of the fluid cavity (102), the containing cavity (101) is extended along the axis and forms an opening on the housing (1), the upper cover plate (2) is connected with the upper end of the housing (1) through a second sealing ring (13) to seal the opening, the display screen of the display (6) can be displayed through a transparent window embedded in the upper cover plate (2), the first end of the cover cap (3) is hinged to the upper cover plate (2), the second end of the cover cap (3) is provided with a turning plate, and the cover cap (3) is used for covering the upper cover plate (2).

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