CN219368846U - Intelligent water meter box with embedded structure - Google Patents

Abstract

The utility model belongs to the technical field of intelligent water meters and discloses an intelligent water meter box with a jogged structure, which comprises a module box, a circuit board and a sensor, wherein the circuit board is electrically connected with the sensor, a first accommodating cavity with a lateral opening is formed in the module box, the circuit board is fixedly clamped with the module box, the circuit board is positioned in the first accommodating cavity, a jogged part is arranged on the module box, and a jogged groove is formed on the outer surface of the jogged part; the sensor box is connected and fixed with the module box, and the sensor is positioned in the sensor box.

Description

Intelligent water meter box with embedded structure

Technical Field

The utility model belongs to the technical field of intelligent water meters, and particularly relates to an intelligent water meter box with a jogged structure.

Background

Along with the development of society and the development of science and technology, the water meter has been developed to a remote intelligent water meter from a manually-transcribed mechanical transmission type water meter, and a common intelligent water meter generally comprises a traditional mechanical water meter and an intelligent module arranged above the mechanical water meter, wherein the intelligent module of the water meter is used for converting mechanical counting of the water meter into an electric signal and sending the electric signal to a data receiving platform for data statistics, so that the labor cost is reduced compared with manual transcription type water meter reading.

The intelligent module of the water meter on the market is usually a meter box, a sensor for counting the reading of the water meter is arranged in the meter box, the sensor is correspondingly arranged with a sensing pointer in the water meter, and the distance between the sensor and the sensing pointer needs to be met within a specified short distance to realize accurate metering, wherein along with the development of the intelligent water meter, the water meter glass of the intelligent water meter is generally provided with two types of resin glass with higher cost and toughened glass with lower cost, when the meter box is matched with the resin glass, the glass is generally made into a special-shaped structure, the sensing pointer of the mechanical water meter is upwards close to the sensor of the meter box, a lateral demolding structure can be adopted, and when the meter box is matched with the mechanical water meter with the toughened glass, the toughened glass can only be made into a plane structure, and the mounting structure for mounting the sensor is required to be sunk and attached to the toughened glass, so that the sensing pointer distance below the sensor and the toughened glass is sufficiently close.

Along with market competition aggravates, in order to save the manufacturing cost of intelligent water gauge, the gauge box of upper and lower lid demoulding structure is usually adopted and ordinary toughened glass mechanical water gauge is matchd, upper and lower lid demoulding structure's gauge box is at first with sensor fixed-position welding in the circuit board, pass through the screw fixation with the circuit board in the cavity of gauge box, make sensor and the water gauge glass laminating of intelligent water gauge of below, wherein, upper and lower lid structure need carry out the encapsulating to the whole cavity of gauge box, thereby carry out sealed fixation to cavity and circuit board, the encapsulating area is great, manufacturing cost is higher, in addition, upper and lower lid structure is in the open air ponding easily, need carry out the fastening seal with transparent lid and gauge box upper cover through screw or ultrasonic welding's mode, lead to gauge box's production technology and equipment mode comparatively complicated.

To improve the above problems, it is necessary to provide an intelligent water meter box with a fitting structure.

Disclosure of Invention

The utility model aims to provide an intelligent water meter box with a jogged structure, which solves the problem that the assembly mode of the meter box is complex when the meter box adopting an upper cover structure and a lower cover structure is matched with a mechanical water meter of common toughened glass in the background art.

In order to achieve the aim of the utility model, the technical scheme adopted is as follows: the intelligent water meter box with the embedded structure comprises a module box, a circuit board and a sensor, wherein the circuit board is electrically connected with the sensor, a first accommodating cavity with a lateral opening is formed in the module box, the circuit board is fixedly clamped with the module box, the circuit board is positioned in the first accommodating cavity, an embedded part is arranged on the module box, and an embedded groove is formed in the outer surface of the embedded part;

the sensor box is arranged below the module box and attached to the water meter, the sensor box is provided with an embedded strip, the embedded strip is matched with the embedded groove, the sensor box is fixedly connected with the module box, and the sensor is positioned in the sensor box.

The utility model is further provided with: the circuit board is characterized in that a support plate is arranged in the first accommodating cavity, rib grooves are respectively formed in the relative positions of the support plate and the inner wall of the first accommodating cavity, and the circuit board is mounted in the rib grooves in a clamping mode.

The utility model is further provided with: a second accommodating cavity which is opened towards the module box is formed in the sensor box, and a lower counter bore which is communicated with the first accommodating cavity and the second accommodating cavity is formed in the embedded part;

the lower counter bore is provided with a flexible wire, one end of the flexible wire is connected with the circuit board, and the other end of the flexible wire is connected with the sensor.

The utility model is further provided with: the module box is internally provided with a partition board and forms a third accommodating cavity isolated from the first accommodating cavity, a sealing cover plate is connected to the opening of the third accommodating cavity, an antenna is arranged in the third accommodating cavity, and the connecting end of the antenna penetrates through the partition board and is connected with the circuit board.

The utility model is further provided with: the embedded part is provided with a limit column, and a fixed end is formed on the limit column;

the sensor is provided with a fixing hole matched with the fixing end head, and the sensor is fixedly clamped with the limiting column.

The utility model is further provided with: be equipped with first buckle lug on the sensor box, be equipped with first buckle riser on the gomphosis portion, first buckle hole has been seted up on the first buckle riser, first buckle lug with first buckle riser lock joint.

The utility model is further provided with: a second buckle vertical plate is arranged on the sensor box, and a second buckle hole is formed in the second buckle vertical plate;

the embedded part is provided with a second buckling convex block which is buckled with the second buckling vertical plate.

The utility model is further provided with: the circuit board is provided with a clamping groove, the second clamping vertical plate is provided with a clamping end strip matched with the clamping groove, and the second clamping vertical plate is fixedly connected with the circuit board in an abutting mode.

The utility model is further provided with: the module box side direction opening part is provided with transparent apron, be equipped with the go-between strip on the module box, be equipped with on the transparent apron with go-between strip looks adaptation's connection recess, the transparent apron with the module box lock joint is fixed.

In summary, compared with the prior art, the utility model discloses an intelligent water meter box with an embedded structure, which comprises a module box, a circuit board and a sensor, wherein the circuit board is electrically connected with the sensor, a first accommodating cavity with a lateral opening is formed in the module box, the circuit board is fixedly clamped with the module box, the circuit board is positioned in the first accommodating cavity, an embedded part is arranged on the module box, and an embedded groove is formed in the outer surface of the embedded part; the sensor box is arranged below the module box and is attached to the water meter, the sensor box is provided with an embedding strip, the embedding strip is matched with the embedding groove, the sensor box is fixedly connected with the module box, the sensor is positioned in the sensor box, and the sensor box is in embedding connection with the module box through the structural arrangement of the embedding groove and the embedding strip, so that the assembly and the installation mode of the meter box are simplified, and the assembly efficiency of the meter box is improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the whole structure of an intelligent water meter box with a jogged structure according to the embodiment;

fig. 2 is an exploded view of a smart water meter case with a fitting structure according to the present embodiment;

FIG. 3 is another angular exploded view of a smart water meter case with a chimeric configuration according to the present embodiment;

fig. 4 is a schematic cross-sectional view of a smart water meter box with a fitting structure according to the present embodiment;

FIG. 5 is a schematic view of another cross-sectional view of a case of an intelligent water meter with a fitting structure according to the present embodiment;

FIG. 6 is a schematic view of the structure of the module case in this embodiment;

fig. 7 is a schematic structural view of the sensor cartridge in this embodiment.

Reference numerals:

10. a module case; 11. a first accommodation chamber; 111. a support plate; 112. a rib groove; 12. a fitting portion; 121. a fitting groove; 122. a lower counter bore; 123. a limit column; 1231. fixing the end head; 13. a partition plate; 14. a third accommodation chamber; 15. a sealing cover plate; 16. an antenna; 17. a first snap riser; 171. a first snap hole; 18. a second snap bump; 19. a connecting ring strip; 20. a circuit board; 21. a clamping groove; 30. a sensor; 31. a flexible wire; 32. a fixing hole; 40. a sensor cartridge; 41. a fitting strip; 42. a second accommodation chamber; 43. a first snap bump; 44. a second buckle riser; 441. a second snap hole; 442. a clamping end strip; 50. a transparent cover plate; 51. a connection groove; 60. a power supply; 61. an infrared tube; 62. a transparent cover; 70. a mechanical water meter; 71. water meter glass; 72. the sense pointer is taken.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present utility model, the present utility model will be further described in detail with reference to the accompanying drawings and examples, it being understood that the specific examples described herein are for illustration only and are not intended to limit the present utility model.

In addition, the technical features described above in the different embodiments of the present utility model may be combined with each other as long as they do not collide with each other.

It should be noted that, referring to fig. 1 to 3, a battery is disposed in the module case 10, the battery is fixedly disposed in the first accommodating cavity 11, and the battery is electrically connected with the circuit board 20, so as to provide a power supply 60 for the circuit board 20, a bending portion is disposed on the partition 13 for separating the first accommodating cavity 11 and the second accommodating cavity 42, an infrared tube 61 is disposed corresponding to the bending portion, the infrared tube 61 is disposed in the first accommodating cavity 11, and the infrared tube 61 is disposed above the circuit board 20 and is welded and fixed with the circuit board 20.

Referring to fig. 1 to 7, an intelligent water meter box with embedded structure comprises a module box 10, a circuit board 20 and a sensor 30, wherein the circuit board 20 is electrically connected with the sensor 30, a first accommodating cavity 11 with a lateral opening is formed in the module box 10, the sensor 30 is fixedly clamped with the module box 10, the sensor 30 is arranged below the module box 10, the circuit board 20 is fixedly clamped with the module box 10, the circuit board 20 is positioned in the first accommodating cavity 11, and long-term water accumulation in the first accommodating cavity 11 after glue filling can be effectively avoided when the intelligent water meter box is used outdoors by arranging the circuit board 20 in the first accommodating cavity 11 with the lateral opening relative to the accommodating cavity with the upper opening.

The module box 10 is provided with a fitting portion 12, the inner surface of the fitting portion 12 forms a protrusion of the fitting portion 12 in the first accommodating cavity 11, a fitting groove 121 is formed on the outer surface of the fitting portion 12, in addition, a sensor box 40 attached to the mechanical water meter 70 is provided below the module box 10, a fitting strip 41 is provided on the sensor box 40, the fitting groove 121 is matched with the fitting strip 41, the fitting strip 41 is embedded in the fitting groove 121, the inner side surface of the pair of fitting strips 41 is abutted with the inner side wall of the fitting groove 121, a structure for wrapping and clamping connection is formed, the tightness of the fitting strip 41 and the fitting groove 121 is improved, the sensor box 40 and the module box 10 are fixedly connected through the structure of the fitting groove 121 and the fitting strip 41, specifically, the connection mode of the sensor box 40 and the module box 10 can be the clamping fixed connection, the threaded connection fixed connection, the welded fixation and the like, in addition, the sensor 30 is positioned in the sensor box 40, the sensor box 40 is provided with mechanical water meter 70 glass, the sensor 30 is installed below the sensor box 40, the sensor 30 meets the accurate measurement distance between the sensor 30 and the mechanical water meter 70 and the accurate measurement distance of the sensor 70 is smaller than the sensor 72, and the accurate measurement distance of the sensor is smaller than the sensor distance of the sensor 30.

It should be explained that, the circuit board 20 is fixed in the first accommodating cavity 11 formed by the module case 10 through the clamping groove structure, in addition, the module case 10 is provided with the embedded part 12, the embedded part 12 and the sensor case 40 are respectively provided with the embedded groove 121 and the embedded strip 41 which are mutually matched, the embedded groove 121 is connected with the embedded strip 41 in an embedded way, the alignment and the connection tightness of the sensor case 40 and the module case 10 are improved, the pre-sealing of the sensor case 40 and the module case 10 is facilitated, the first accommodating cavity 11 of the module case 10 is laterally filled with glue after the pre-sealing is finished, so that the meter case meets the protection requirement of the IP 68.

Further, referring to fig. 2 to 4, a support plate 111 is integrally connected in the first accommodating cavity 11, a rib groove 112 is formed on a side surface of the support plate 111, a rib groove 112 is also formed on an inner wall of the first accommodating cavity 11 opposite to a side surface of the support plate 111, the rib groove 112 on the support plate 111 and the rib groove 112 on the inner wall of the first accommodating cavity 11 are located on the same horizontal plane, the circuit board 20 is fixedly connected in the rib groove 112 in a sliding manner, and compared with the prior art that the circuit board 20 is fixed in a meter box through a limiting bracket and a screw, the fixing mode of the rib groove 112 is more convenient and rapid, and the assembly efficiency is higher.

Further, referring to fig. 2 to 5, a second accommodating cavity 42 with an opening facing the connection with the module case 10 is formed in the sensor case 40, and the sensor 30 is located at the bottom of the second accommodating cavity 42, wherein the embedded portion 12 of the module case 10 is provided with lower counter bores 122 of the first accommodating cavity 11 and the second accommodating cavity 42, so that when the first accommodating cavity 11 is laterally sealed, glue flows into the second accommodating cavity 42 from the first accommodating cavity 11 through the lower counter bores 122, and the sensor 30 in the circuit board 20, the infrared tube 61, the battery and the like in the first accommodating cavity 11 and the second accommodating cavity 42 are sealed through the lateral glue filling, so that the meter case meets the protection requirement of the IP 68.

In addition, the lower counterbore 122 is provided with a flexible wire 31, one end of the flexible wire 31 is located in the first accommodating cavity 11 and is welded and fixed with the circuit board 20, the other end of the flexible wire 31 is located in the second accommodating cavity 42 and is welded and fixed with the sensor 30, in some embodiments, two ends of the flexible wire 31 are connected with buckles, and the sensor 30 and the circuit board 20 are respectively provided with clamping grooves, so that the flexible wire 31 is clamped with the sensor 30 and the circuit board 20 through the buckles, and the assembly and installation efficiency of the utility model are improved to a certain extent.

Further, referring to fig. 2 to 5, a partition 13 is disposed in the module case 10, the partition 13 is welded to an inner wall of the first accommodating cavity 11 of the module case 10, and forms a first accommodating cavity 11 and a third accommodating cavity 14 separated from each other by the arrangement of the partition 13, the third accommodating cavity 14 is located above the first accommodating cavity 11, the partition 13 is located above the circuit board 20, an antenna 16 for transmitting or receiving signals is disposed in the third accommodating cavity 14, a fixing slot is formed in the partition 13, the antenna 16 is fixedly clamped in the fixing slot, a connection end of the antenna 16 penetrates through the fixing slot and extends to the first accommodating cavity 11 and is electrically connected with the circuit board 20, in addition, a sealing cover plate 15 is disposed at an opening of the second accommodating cavity 42, an outer contour of a short side cross section of the sealing cover plate 15 is matched with an inner contour of an opening cross street of the second accommodating cavity 42, the sealing cover plate 15 can seal the opening of the second accommodating cavity 42, one side of the sealing cover plate 15 is sealed and fixed with the partition 13 through hot melt adhesive, the other side of the sealing cover plate 15 is also sealed and fixed with the module box 10 through hot melt adhesive, the sealing cover plate 15 seals the second accommodating cavity 42, when the meter box is subjected to the assembly procedure of glue filling and sealing, the first accommodating cavity 11 and the second accommodating cavity 42 are only required to be subjected to glue filling and sealing, compared with the meter box with an upper cover structure and a lower cover structure, the glue filling of the space of the third accommodating cavity 14 is reduced, so that the cost of glue filling is reduced, and after the first accommodating cavity 11 is subjected to lateral glue filling and sealing, the opening of the module box 10 is arranged on the side surface, and rainwater and the like are not easy to flow into the first accommodating cavity 11 of the module box 10 from a gap between the glue and the module box 10 in the outdoor use process, so that the practicability of the utility model is improved.

Further, referring to fig. 2 to 7, the embedded portion 12 is provided with 2 limit posts 123 towards the sensor box 40, the limit posts 123 are welded with the module box 10, a fixed end 1231 is formed at the tail end of the limit posts 123, 2 fixing holes 32 adapted to the fixed end 1231 are formed in the sensor 30, the sensor 30 is connected and fixed with the limit posts 123 through the fixed end 1231 and the fixing holes 32, wherein the length of the limit posts 123 is always equal to the depth of the second accommodating cavity 42 in the sensor box 40, so that the distance between the sensor 30 and the sensing pointer 72 of the mechanical water meter 70 meets the distance of accurate measurement, in addition, an abutting post is welded on the embedded portion 12, after the sensor 30 is connected with the limit posts 123 in a clamping mode, the abutting post abuts against one face of the sensor 30 towards the module box 10, and the fact that the distance between the fixing holes 32 of the sensor 30 and the limit posts 123 is excessive in clamping mode, and the sensing pointer 72 of the sensor 30 and the mechanical water meter 70 is avoided.

Further, referring to fig. 4 to 7, a first fastening protrusion 43 is disposed on the sensor case 40, the first fastening protrusion 43 is fixed with the inner wall of the second accommodating cavity 42 and is located in the second accommodating cavity 42, a first fastening riser 17 is disposed on the fitting portion 12, the first fastening riser 17 is fixed with the inner wall of the fitting groove 121, a first fastening hole 171 is formed in the first fastening riser 17, the first fastening protrusion 43 is fastened with the first fastening riser 17 through the first fastening hole 171, so that after the sensor case 40 and the module case 10 are aligned in an embedding manner through the fitting strip 41 and the fitting groove 121, the fastening connection is performed by combining the first fastening protrusion 43 and the first fastening riser 17, so that the pre-sealing connection of the module case 10 and the sensor case 40 is completed.

Further, referring to fig. 4 to 7, 2 second fastening risers 44 are further disposed on the sensor box 40, the second fastening risers 44 are welded and fixed to the inner wall of the second accommodating cavity 42 and are located in the second accommodating cavity 42, second fastening holes 441 are formed in the second fastening risers 44, 2 second fastening protrusions 18 are disposed on the fitting portion 12, the second fastening protrusions 18 are welded and fixed to the inner side walls of the fitting groove 121, the 2 second fastening protrusions 18 are respectively disposed corresponding to the 2 second fastening risers 44, and the second fastening protrusions 18 are fastened and connected to the second fastening risers 44 through the second fastening holes 441, so that the pre-sealed connection between the module box 10 and the sensor box 40 is further reinforced.

In this embodiment, referring to fig. 4 to 7, when the sensor box 40 and the module box 10 are fixed in a pre-sealed connection by adopting a snap connection manner, the first snap projection 43 and the 2 second snap projections 44 are distributed in a triangular shape on the sensor box 40, and the first snap projection 17 and the 2 second snap projections 18 are distributed at the jogged portion 12 to correspond to the same, so that three connection structures are formed between the module box 10 and the sensor box 40, and the three connection structures are distributed in a triangular shape, which improves the connection stability between the module box 10 and the sensor box 40, and connects and fixes the module box 10 and the sensor box 40 through a bayonet structure, which is more convenient than the connection and fixation through screws.

In some embodiments, referring to fig. 4 to 7, the sensor case 40 and the module case 10 are fixed in a pre-sealed connection manner by adopting a threaded connection fixing manner, specifically, the inner side of the embedded strip 41 of the sensor case 40 is provided with threads, the side wall of the embedded groove 121 of the embedded part 12 is provided with a threaded groove, the embedded strip 41 is in threaded connection with the threaded groove in the embedded groove 121 through threads, so that the module case 10 and the sensor case 40 are in threaded connection to complete the pre-sealed connection fixing.

In some embodiments, referring to fig. 4 to 7, the sensor box 40 and the module box 10 are fixed by pre-sealing connection through an ultrasonic welding connection mode, specifically, the sensor box 40 is embedded in the embedded groove 121 of the module box 10 through the embedded strip 41, so that the sensor box 40 is aligned with and embedded in the module box 10, and then the connection part of the sensor box 40 and the module box 10 is connected through ultrasonic welding.

Further, referring to fig. 2 to 4, the circuit board 20 is provided with a clamping groove 21, the end of the second clamping vertical plate 44 is provided with an abutting end, the clamping groove 21 is matched with the abutting end of the second clamping vertical plate 44, the second clamping vertical plate 44 abuts against the circuit board 20 through the abutting end, the abutting end abuts against in the clamping groove 21, specifically, after the second clamping projection 18 is clamped and connected in place with the second clamping vertical plate 44 through the second clamping hole 441, the abutting end penetrates through the lower counter bore 122 and extends into the clamping groove 21 and abuts against the circuit board 20, and therefore the circuit board 20 is further limited and fixed.

Further, referring to fig. 5, a transparent cover plate 50 is disposed at the opening of the module case 10, a connection ring strip 19 is disposed on the module case 10, a connection groove 51 corresponding to the connection ring strip 19 is disposed on the transparent cover plate 50, and the transparent cover plate 50 is fastened to the module case 10.

Specifically, the module case 10 is provided with an opening in the lateral direction, the opening is provided with a transparent cover plate 50, the transparent cover plate 50 is used for integrally sealing the first accommodating cavity 11 and the second accommodating cavity 42, a circle of connecting ring strips 19 are arranged along the opening of the module case 10, the inner sides of the connecting ring strips 19 are welded with the module case 10, in this embodiment, the connecting ring strips 19 are rubber rings, in addition, a connecting groove 51 matched with the connecting ring strips 19 is formed in one surface of the transparent cover plate 50, which is contacted with the module case 10, the connecting groove 51 is annularly arranged along one surface of the transparent cover plate 50, which is close to the module case 10, and when the transparent cover plate 50 is closed with the module case 10, the connecting ring strips 19 are wrapped by grooves of the transparent cover plate 50, so that the transparent cover plate 50 and the module case 10 are fastened through the connecting groove 51 and the connecting ring strips 19, and the connecting mode of fastening is faster and higher in efficiency relative to the connecting mode of screws and limiting brackets when being assembled.

Further, referring to fig. 2 to 5, a transparent cover 62 is provided on the transparent cover plate 50, and the transparent cover 62 is used for signal transmission.

Specifically, the first accommodating cavity 11 is provided with the infrared tube 61, the infrared tube 61 is located above the circuit board 20 and is electrically connected with the circuit board 20, wherein the light emitting direction of the infrared tube 61 is set towards the lateral opening of the module box 10, in addition, when the first accommodating cavity 11 is filled with glue and sealed in the assembly process, glue is filled from the lateral opening of the module box 10, after the glue is filled, the infrared tube 61 is higher than the pouring sealant surface, and the transparent cover 62 of the transparent cover plate 50 corresponds to the position of the infrared tube 61 higher than the pouring sealant surface, so that the light source of the infrared tube 61 can be irradiated to the outside through the transparent cover 62, thereby realizing the communication function of the utility model.

In summary, the utility model has the following beneficial effects: the utility model discloses an intelligent water meter box with a jogged structure, which comprises a module box 10, a circuit board 20 and a sensor 30, wherein the circuit board 20 is electrically connected with the sensor 30, a first accommodating cavity 11 with a lateral opening is formed in the module box 10, the circuit board 20 is fixedly clamped with the module box 10, the circuit board 20 is positioned in the first accommodating cavity 11, a jogged part 12 is arranged on the module box 10, and a jogged groove 121 is formed on the outer surface of the jogged part 12; the sensor box 40 attached to the water meter is arranged below the module box 10, the sensor box 40 is provided with an embedded strip 41, the embedded strip 41 is matched with the embedded groove 121, the sensor box 40 is fixedly connected with the module box 10, and the sensor 30 is positioned in the sensor box 40.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (9)

1. The intelligent water meter box with the embedded structure comprises a module box, a circuit board and a sensor, wherein the circuit board is electrically connected with the sensor, a first accommodating cavity with a lateral opening is formed in the module box, and the intelligent water meter box is characterized in that the circuit board is fixedly clamped with the module box, the circuit board is positioned in the first accommodating cavity, an embedded part is arranged on the module box, and an embedded groove is formed in the outer surface of the embedded part;

the sensor box attached to the toughened glass surface of the water meter is arranged below the module box, an embedded strip is arranged on the sensor box, the embedded strip is matched with the embedded groove, the sensor box is fixedly connected with the module box, and the sensor is located in the sensor box.

2. The intelligent water meter box with the embedded structure according to claim 1, wherein a support plate is arranged in the first accommodating cavity, rib grooves are respectively arranged at the opposite positions of the support plate and the inner wall of the first accommodating cavity, and the circuit board is clamped and installed in the rib grooves.

3. The intelligent water meter box with the embedded structure as claimed in claim 2, wherein a second accommodating cavity which is opened towards the module box is formed in the sensor box, and the embedded part is provided with a lower counter bore which is communicated with the first accommodating cavity and the second accommodating cavity;

the lower counter bore is provided with a flexible wire, one end of the flexible wire is connected with the circuit board, and the other end of the flexible wire is connected with the sensor.

4. The intelligent water meter box with the embedded structure according to claim 3, wherein a partition board is arranged in the module box and forms a third accommodating cavity isolated from the first accommodating cavity, a sealing cover plate is connected to an opening of the third accommodating cavity, an antenna is arranged in the third accommodating cavity, and a connecting end of the antenna penetrates through the partition board and is connected with the circuit board.

5. An intelligent water meter box with a jogged structure as in claim 1 or 2, wherein, the jogged part is provided with a limit post, and a fixed end is formed on the limit post;

the sensor is provided with a fixing hole matched with the fixing end head, and the sensor is fixedly clamped with the limiting column.

6. The intelligent water meter box with the embedded structure according to claim 5, wherein a first buckle protruding block is arranged on the sensor box, a first buckle vertical plate is arranged on the embedded portion, a first buckle hole is formed in the first buckle vertical plate, and the first buckle protruding block is buckled with the first buckle vertical plate.

7. The intelligent water meter box with the embedded structure according to claim 6, wherein a second buckle vertical plate is arranged on the sensor box, and a second buckle hole is formed in the second buckle vertical plate;

the embedded part is provided with a second buckling convex block which is buckled with the second buckling vertical plate.

8. The intelligent water meter box with the embedded structure according to claim 7, wherein the circuit board is provided with a clamping groove, the second clamping vertical plate is provided with a clamping end strip matched with the clamping groove, and the second clamping vertical plate is in abutting connection and fixation with the circuit board.

9. The intelligent water meter box with the embedded structure according to claim 1, wherein a transparent cover plate is arranged at a lateral opening of the module box, a connecting ring strip is arranged on the module box, a connecting groove matched with the connecting ring strip is arranged on the transparent cover plate, and the transparent cover plate is fastened and fixed with the module box.