CN220206722U - Environment monitoring terminal structure - Google Patents

Abstract

The utility model relates to the technical field of environmental monitoring, and discloses an environmental monitoring terminal structure, which solves the problem that a corresponding storage groove is always open and dust or water is easy to enter the storage groove when a sensor of the existing environmental monitoring terminal is used. According to the utility model, the two groups of chucks are clamped together by the chucks, the sliding block A, the reset spring and the ejecting assembly through the convex blocks and the grooves, the diameter of a hollow area formed by encircling the two groups of chucks is consistent with that of the rubber block, the rubber block is just clamped, the rubber block and the two groups of chucks can seal the containing groove A, impurities are prevented from entering the containing groove A after the sensor is taken out, the sensor is prevented from being polluted during storage, the service life of the sensor can be prolonged, and the sensor is properly stored.

Description

Environment monitoring terminal structure

Technical Field

The utility model relates to the technical field of environmental monitoring, in particular to an environmental monitoring terminal structure.

Background

The environment monitoring terminal is a terminal set for monitoring data such as air quality, humidity and temperature in real time, and mainly comprises a sensor, a data acquisition device, a signal converter, a communication interface and the like, wherein the sensor is used for collecting environment parameters, the environment parameters are transmitted to the data acquisition device, the signal converter and the communication interface are used for transmitting the data to a cloud, and the real-time monitoring of the air environment is realized.

Through searching, the prior Chinese patent publication number is: CN216410236U, provide a portable environmental monitoring intelligent terminal, through spout and the slider that sets up, conveniently contract the protection to telescopic antenna, prevent that environmental monitoring terminal from causing the damage to telescopic antenna because of the accident when carrying, and through snap ring and first fixed plate, conveniently fix telescopic antenna, improve telescopic antenna's result of use, and conveniently place the sensor through the slot that sets up, and then conveniently carry, and through couple and elastic webbing, connect the cooperation of fixture block, can hang environmental monitoring terminal on waist of trousers or pocket, conveniently carry, and fix environmental monitoring terminal on the dead lever nearby when reusing, conveniently fix environmental monitoring terminal;

although the above-mentioned patent is convenient to house the antenna and the sensor, the above-mentioned environmental monitoring terminal has the following problems: the above-mentioned environment monitoring terminal need take out the sensor from accomodating the groove during monitoring, accomodate the groove and open this moment, but accomodate the groove opening and can't be closed, when outdoor monitoring environmental quality, let impurity or rainwater enter into accomodate the inslot easily, when the sensor finishes after putting into accomodate the inslot again, the sensor contacts with accomodating inslot impurity, pollutes the sensor, influences the life of sensor.

Aiming at the problems, innovative design is carried out on the basis of the original environment monitoring terminal.

Disclosure of Invention

The utility model aims to provide an environment monitoring terminal structure, which adopts the device to work and is used for solving the problem that the corresponding storage groove is always open and dust or water is easy to enter the storage groove when the sensor of the existing environment monitoring terminal is used.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the environment monitoring terminal structure comprises a shell, a display screen, a keyboard, a collecting assembly, a data collector, a signal converter and a receiving antenna, wherein the upper end of the shell is provided with a sealing waterproof assembly for sealing the collecting assembly, one side of the shell is provided with a containing groove B, and a pushing assembly is arranged in the containing groove B;

the waterproof sealing assembly comprises a storage groove A which is formed in the upper end of the shell, the storage groove A is internally connected with an ejecting assembly in a sliding manner, an external groove is formed in the upper end of the shell, a sliding block A is connected to the inner portion of the external groove in a sliding manner, chucks are connected to the upper end of the sliding block A, and the chucks are provided with two groups which are mutually clamped with the ejecting assembly.

Further, the display screen and the keyboard are arranged on the surface of the shell, the data collector is electrically connected with the signal converter, and the signal converter is in signal connection with the receiving antenna.

Further, the collection assembly comprises a sensor arranged inside the storage groove A, the upper end of the sensor is connected with a baffle, the upper end of the baffle is fixedly provided with a handle, and the tail end of the sensor is connected with a wiring storage assembly.

Further, the wiring storage component comprises a data wire connected to the tail end of the sensor, the data wire penetrates through the handle and the baffle, the tail end of the data wire is connected with a plug, the upper end of the shell is fixedly provided with a storage box, and the data wire is arranged inside the storage box.

Further, the inner sides of the two groups of chucks are respectively provided with a bump and a groove, the bumps and the grooves are mutually clamped, the two groups of chucks form a circular ring under the clamping state, and the inner diameter of the circular ring formed by the two groups of chucks in the clamping state is smaller than the diameter of the baffle plate.

Further, a clamping block is fixed on one side of the sliding block A, a reset spring is connected between the sliding block A and the external groove, the ejecting assembly comprises a rubber block which is slidably connected inside the storage groove A, inclined blocks are connected to two sides of the rubber block, and an extrusion spring is connected between the bottom of the rubber block and the inner side of the storage groove A.

Further, the storage groove A is provided with auxiliary grooves on two sides, the auxiliary grooves and the external grooves are provided with overlapping areas, the overlapping areas of the auxiliary grooves and the external grooves are provided with perforations, the clamping blocks are mutually clamped with the perforations, the positions of the clamping blocks are aligned with the positions of the oblique blocks, the diameter of the rubber block is consistent with the inner diameter of a circular ring formed by two groups of clamping blocks in clamping states, and the inner diameter of the circular ring formed by the clamping blocks in the two groups of clamping states is consistent with the outer diameter of the handle.

Further, the pushing-out assembly comprises a pushing block arranged on the outer side of the shell, the tail end of the pushing block is connected with a connecting rod, the tail end of the connecting rod is connected with a long plate, a clamping ring is arranged on the outer surface of the long plate, the clamping ring is clamped with the receiving antenna, a sliding block B is arranged on the bottom of the long plate, a track for the sliding block B and the connecting rod to slide is arranged on the side face of the storage groove B, a protection assembly is arranged on the surface of the storage groove B and comprises a limiting groove arranged on one side of the shell, a limiting block is connected inside the limiting groove in a sliding mode, a cover plate is connected on the outer side of the limiting block, and the size of the cover plate is larger than that of the storage groove B.

Compared with the prior art, the utility model has the following beneficial effects:

according to the environment monitoring terminal structure provided by the utility model, the corresponding storage groove of the sensor of the existing environment monitoring terminal is always open when the sensor is used, so that dust or water can easily enter the storage groove; according to the utility model, the two groups of chucks are clamped together by the chucks, the sliding block A, the reset spring and the ejecting assembly through the convex blocks and the grooves, the diameter of a hollow area formed by encircling the two groups of chucks is consistent with that of the rubber block, the rubber block is just clamped, the rubber block and the two groups of chucks can seal the containing groove A, impurities are prevented from entering the containing groove A after the sensor is taken out, the sensor is prevented from being polluted during storage, the service life of the sensor can be prolonged, and the sensor is properly stored.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of the whole structure of the present utility model;

FIG. 3 is a schematic view of the internal structure of the housing of the present utility model;

FIG. 4 is a schematic view of a receiving tank A according to the present utility model;

FIG. 5 is a schematic view of the collection assembly of the present utility model in a removed configuration;

FIG. 6 is a schematic view of an ejector assembly according to the present utility model;

FIG. 7 is a schematic view of a push-out assembly according to the present utility model;

fig. 8 is a schematic diagram of a cover plate structure of the present utility model.

In the figure: 1. a housing; 2. a display screen; 3. a keyboard; 4. a collection assembly; 41. a handle; 42. a baffle; 43. a sensor; 5. a data collector; 6. a signal converter; 7. a wiring receiving assembly; 71. a data line; 72. a storage box; 73. a plug; 8. sealing the waterproof assembly; 81. an external groove; 82. a sliding block A; 83. a clamping block; 84. a return spring; 85. a chuck; 851. a bump; 852. a groove; 86. an ejector assembly; 861. a rubber block; 862. extruding a spring; 863. a sloping block; 87. a storage groove A; 871. an auxiliary groove; 9. a protective assembly; 91. a limit groove; 92. a limiting block; 93. a cover plate; 10. a receiving antenna; 11. a push-out assembly; 111. a pushing block; 112. a connecting rod; 113. a long plate; 114. a clasp; 115. a sliding block B; 12. and a storage groove B.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

For a further understanding of the present utility model, the present utility model will be described in detail with reference to the drawings.

Referring to fig. 1 and 2, an environment monitoring terminal structure includes a housing 1, a display screen 2, a keyboard 3, a collecting assembly 4, a data collector 5, a signal converter 6 and a receiving antenna 10, wherein a sealing waterproof assembly 8 for sealing the collecting assembly 4 is arranged at the upper end of the housing 1, a storage groove B12 is formed in one side of the housing 1, and a pushing assembly 11 is arranged in the storage groove B12;

the utility model is further described below with reference to examples.

Example 1:

referring to fig. 3-6, the waterproof sealing assembly 8 includes a storage groove a87 formed at an upper end of the housing 1, and an ejecting assembly 86 slidably connected inside the storage groove a87, an external groove 81 is formed at an upper end of the housing 1, a slide block a82 is slidably connected inside the external groove 81, and a chuck 85 is connected to an upper end of the slide block a82, the chucks 85 are provided with two groups, and the two groups of chucks 85 are mutually clamped with the ejecting assembly 86, so that the two groups of chucks 85 and the ejecting assembly 86 can block an opening of the storage groove a87, and impurities are prevented from entering.

The display screen 2 and the keyboard 3 are arranged on the surface of the shell 1, the data collector 5 and the signal converter 6 are electrically connected, and the signal converter 6 is in signal connection with the receiving antenna 10, so that the normal operation of environmental quality monitoring is ensured.

The collection assembly 4 comprises a sensor 43 arranged in the storage groove A87, the upper end of the sensor 43 is connected with a baffle plate 42, the upper end of the baffle plate 42 is fixedly provided with a handle 41, the tail end of the sensor 43 is connected with a wiring storage assembly 7, and the sensor 43 is conveniently taken out by the handle 41.

The wiring storage assembly 7 comprises a data wire 71 connected to the tail end of the sensor 43, the data wire 71 penetrates through the handle 41 and the baffle 42, the tail end of the data wire 71 is connected with a plug 73, the upper end of the housing 1 is fixedly provided with a storage box 72, and the data wire 71 is arranged inside the storage box 72, so that the sensor 43 can be guaranteed to normally operate.

The inner sides of the two groups of chucks 85 are respectively provided with a bump 851 and a groove 852, the bump 851 and the groove 852 are mutually clamped, the two groups of chucks 85 form a circular ring shape in a clamping state, and the inner diameter of the circular ring formed by the two groups of chucks 85 in the clamping state is smaller than the diameter of the baffle plate 42, so that the two groups of chucks 85 can be mutually clamped.

The fixture block 83 is fixed on one side of the sliding block A82, the reset spring 84 is connected between the sliding block A82 and the external groove 81, the ejecting assembly 86 comprises a rubber block 861 which is slidably connected inside the accommodating groove A87, two sides of the rubber block 861 are connected with inclined blocks 863, and an extrusion spring 862 is connected between the bottom of the rubber block 861 and the inner side of the accommodating groove A87, and the rubber block 861 can be lifted through the extrusion spring 862.

The storage groove A87 is provided with auxiliary groove 871 on both sides, and auxiliary groove 871 has the coincidence region with external groove 81, and the perforation is seted up to the coincidence region of auxiliary groove 871 and external groove 81, fixture block 83 and the mutual block of perforation, and fixture block 83 position and sloping block 863 position alignment, the diameter of rubber piece 861 is unanimous with the ring internal diameter that chuck 85 of two sets of block states constitutes, and the ring internal diameter that chuck 85 of two sets of block states constitutes is unanimous with the external diameter of handle 41, utilize chuck 85 and rubber piece 861 of two sets of block states can seal storage groove A87.

Specifically, when the sensor 43 is taken out from the receiving groove a87, the two outer groups of chucks 85 are moved outwards, the chucks 85 move along the moving direction of the slider a82 connected at the bottom in the external groove 81, so that the protruding blocks 851 and the grooves 852 respectively arranged on the two groups of chucks 85 are separated, the tensile force applied by the return spring 84 is reduced, the worker releases both hands, the return spring 84 automatically drives the slider a82 to move outwards, the distance between the two groups of chucks 85 is larger than the diameter of the baffle plate 42, the worker holds the handle 41 to take the sensor 43 out of the receiving groove a87, the bottom of the sensor 43 is contacted with the rubber block 861 at the same time, the rubber block 861 always presses the pressing spring 862 connected at the bottom due to the weight of the sensor 43 in the initial state, the pressing force applied by the pressing spring 862 is reduced to drive the rubber block 861 to move upwards along the moving direction of the inclined block 863 in the auxiliary groove 871, when the extrusion spring 862 is restored to the original length, the rubber block 861 is just moved to the position with the same height as the highest point of the chucks 85, at the moment, the two groups of chucks 85 are moved inwards, the two groups of chucks 85 are clamped together by utilizing the convex blocks 851 and the grooves 852, the diameter of a hollow area formed by encircling the two groups of chucks 85 is consistent with that of the rubber block 861, the rubber block 861 is just clamped, the rubber block 861 and the two groups of chucks 85 can seal the containing groove A87, impurities are prevented from entering the inside of the containing groove A87 after the sensor 43 is taken out, the sensor 43 is prevented from being polluted when being stored, the service life of the sensor 43 can be prolonged, the sensor 43 is properly stored, and the inclined block 863 is positioned at the upper end of the clamping block 83 while the rubber block 861 and the two groups of chucks 85 are contacted with each other, as the auxiliary groove 871 and the external groove 81 are provided with perforations at the overlapping part, the perforation and the fixture block 83 mutually block, and the fixture block 83 enters into inside the auxiliary tank 871 through the perforation this moment, and fixture block 83 fixed in position because sloping block 863 is located fixture block 83 upper end, so fixture block 83 has restricted sloping block 863 down motion, guarantees that rubber piece 861 can not rock from top to bottom at will because of extrusion spring 862, guarantees sealing state's stability.

Example 2:

referring to fig. 7 and 8, the push-out assembly 11 includes a push block 111 disposed outside the housing 1, the end of the push block 111 is connected with a connecting rod 112, the end of the connecting rod 112 is connected with a long plate 113, a clasp 114 is disposed on the outer surface of the long plate 113, the clasp 114 is engaged with the receiving antenna 10, a slider B115 is disposed at the bottom of the long plate 113, a track for sliding the slider B115 and the connecting rod 112 is disposed on the side of the receiving slot B12, a protection assembly 9 is disposed on the surface of the receiving slot B12, the protection assembly 9 includes a limiting slot 91 disposed on one side of the housing 1, a limiting block 92 is slidably connected inside the limiting slot 91, a cover plate 93 is connected on the outer side of the limiting block 92, and the size of the cover plate 93 is larger than that of the receiving slot B12, so as to facilitate the staff to take out the receiving antenna 10.

Specifically, the receiving antenna 10 in the comparison patent is taken in and taken out from the required operation space angle, inconvenient receiving antenna 10 takes out when facing narrow space, can slide apron 93 earlier when this terminal use for apron 93 moves outside in the direction of movement of spacing groove 91 along stopper 92, thereby let take in groove B12 open, later pulling pushing block 111, pushing block 111 drives the outward removal of connecting rod 112, connecting rod 112 is connected with long board 113, make long board 113 follow together outwards remove, and long board 113 is installed receiving antenna 10 through fixed surface's snap ring 114, thereby drive receiving antenna 10 and follow the removal, long board 113 moves outside when, receiving antenna 10 shifts out and takes in groove B12, just take out receiving antenna 10 at this moment, need not occupy more space, can conveniently take out.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an environmental monitoring terminal structure, includes shell (1), display screen (2), keyboard (3), collection subassembly (4), data acquisition ware (5), signal converter (6) and receiving antenna (10), its characterized in that: the upper end of the shell (1) is provided with a sealing waterproof component (8) for sealing the collecting component (4), one side of the shell (1) is provided with a containing groove B (12), and a pushing component (11) is arranged in the containing groove B (12);

the waterproof sealing assembly (8) comprises a storage groove A (87) formed in the upper end of the shell (1), the storage groove A (87) is internally connected with an ejecting assembly (86) in a sliding mode, an external groove (81) is formed in the upper end of the shell (1), a sliding block A (82) is connected to the external groove (81) in a sliding mode, a chuck (85) is connected to the upper end of the sliding block A (82), two groups of chucks (85) are arranged, and the two groups of chucks (85) are clamped with the ejecting assembly (86) mutually.

2. An environmental monitoring terminal structure according to claim 1, wherein: the display screen (2) and the keyboard (3) are arranged on the surface of the shell (1), the data collector (5) is electrically connected with the signal converter (6), and the signal converter (6) is in signal connection with the receiving antenna (10).

3. An environmental monitoring terminal structure according to claim 1, wherein: the collecting assembly (4) comprises a sensor (43) arranged inside the accommodating groove A (87), the upper end of the sensor (43) is connected with a baffle plate (42), the upper end of the baffle plate (42) is fixedly provided with a handle (41), and the tail end of the sensor (43) is connected with a wiring accommodating assembly (7).

4. An environmental monitoring terminal structure according to claim 3, wherein: the wiring storage assembly (7) comprises a data wire (71) connected to the tail end of the sensor (43), the data wire (71) penetrates through the handle (41) and the baffle (42), the tail end of the data wire (71) is connected with a plug (73), the upper end of the shell (1) is fixedly provided with a storage box (72), and the data wire (71) is arranged inside the storage box (72).

5. An environmental monitoring terminal structure according to claim 4, wherein: the inner sides of the two groups of chucks (85) are respectively provided with a lug (851) and a groove (852), the lug (851) and the groove (852) are mutually clamped, the two groups of chucks (85) form a circular ring shape in a clamping state, and the inner diameter of the circular ring formed by the two groups of chucks (85) in the clamping state is smaller than the diameter of the baffle plate (42).

6. An environmental monitoring terminal structure according to claim 5, wherein: the utility model discloses a device for ejecting a piece of paper, including slider A (82), external groove (81), slider A (82) and spring (82) are connected with reset spring (84) between, pop out subassembly (86) including sliding connection at the inside rubber piece (861) of accomodating groove A (87), and rubber piece (861) both sides are connected with oblique piece (863), and be connected with extrusion spring (862) between rubber piece (861) bottom and accomodating groove A (87) inboard.

7. An environmental monitoring terminal structure according to claim 6, wherein: the storage groove A (87) is characterized in that auxiliary grooves (871) are formed in two sides of the storage groove A (87), the auxiliary grooves (871) are in overlapping areas with the external grooves (81), perforations are formed in the overlapping areas of the auxiliary grooves (871) and the external grooves (81), the clamping blocks (83) are clamped with the perforations, the positions of the clamping blocks (83) are aligned with the positions of the oblique blocks (863), the diameter of the rubber block (861) is identical to the inner diameter of a circular ring formed by two groups of clamping blocks (85), and the inner diameter of the circular ring formed by the two groups of clamping blocks (85) is identical to the outer diameter of the handle (41).

8. An environmental monitoring terminal structure according to claim 1, wherein: the push-out assembly (11) comprises a push block (111) arranged on the outer side of the shell (1), the tail end of the push block (111) is connected with a connecting rod (112), the tail end of the connecting rod (112) is connected with a long plate (113), the outer surface of the long plate (113) is provided with a clamping ring (114), the clamping ring (114) is mutually clamped with the receiving antenna (10), the bottom of the long plate (113) is provided with a sliding block B (115), the side surface of the accommodating groove B (12) is provided with a track for the sliding block B (115) and the connecting rod (112), the surface of the accommodating groove B (12) is provided with a protective assembly (9), the protective assembly (9) comprises a limiting groove (91) arranged on one side of the shell (1), the limiting groove (91) is internally connected with a limiting block (92), the outer side of the limiting block (92) is connected with a cover plate (93), and the size of the cover plate (93) is larger than the size of the accommodating groove B (12).