CN214149662U - Portable data remote transmission accessory used in axle pressure detection system of suspension holding pole - Google Patents

Abstract

The utility model relates to the technical field of data transmission, and discloses a portable data remote transmission accessory used in a shaft pressure detection system of a suspension holding rod, which comprises a shell, wherein a lifting cavity is arranged on the upper side surface of the shell and positioned at the end part of the shell, a sliding groove is arranged on the side wall opposite to the lifting cavity along the up-down direction, and a stand column is arranged in the sliding groove; but the lifter plate of oscilaltion is equipped with on the lifter plate, be equipped with on the lifter plate and be used for the data socket that links to each other with mobile terminal, be equipped with the slider that stretches into in the spout on the lifter plate, the stand passes and corresponds the slider setting, and the cover is equipped with the first spring that is used for promoting the slider to shift up on the stand, is equipped with on the end wall of casing to be used for fixing the stop gear at the lifter plate in the lifter cavity. Through the structure, the lifting plate is lifted in the lifting cavity, so that the data socket on the lifting plate is conveniently connected with the mobile terminal, and the data remote transmission hardware is convenient to use.

Description

Portable data remote transmission accessory used in axle pressure detection system of suspension holding pole

Technical Field

The utility model relates to a data transmission technical field, specifically speaking relates to a portable data teletransmission accessory that is arranged in pole's axle load detecting system is embraced in suspension.

Background

The suspension holding pole has the advantages of simple structure, light weight, convenient transportation and transition and the like, so that the suspension holding pole is widely used in the erection construction of the transmission line iron tower in China. In the actual construction process, the suspension holding pole construction accidents happen occasionally under the influence of various factors such as constructors quality, construction environment and the like, so that research on the aspects of carrying out actual hoisting working condition stress algorithm, holding pole body strain and pressure monitoring on the suspension holding pole is very necessary.

At present, a tension sensor and an inclination sensor are generally used for monitoring the bracing wire tension of a holding pole and the local inclination of a pole body, so that the monitoring of a suspended holding pole is indirectly realized; also there is the direct pole of embracing of suspending to monitor among the prior art, but because it utilizes the circuit to transmit data, because external environment influences, it is inconvenient to lead to data transmission.

SUMMERY OF THE UTILITY MODEL

To the inconvenient defect of utilizing line transmission to come to monitor the axle load of pole is embraced in the suspension that exists among the prior art, the utility model provides a portable data teletransmission accessory for suspending among the axle load detecting system of pole is embraced. The data socket connected with the mobile terminal can be lifted on the shell, and the function of using by a user is facilitated.

In order to solve the above technical problem, the present invention solves the above technical problems.

The portable data remote transmission accessory used in the axle load detection system of the suspension holding pole comprises a shell, wherein a lifting cavity is arranged on the upper side surface of the shell and positioned at the end part of the shell, sliding grooves are oppositely arranged on the opposite side walls of the lifting cavity along the vertical direction, and stand columns are arranged in the sliding grooves; but the lifter plate of oscilaltion is equipped with on the lifter plate, be equipped with on the lifter plate and be used for the data socket that links to each other with mobile terminal, be equipped with the slider that stretches into in the spout on the lifter plate, the stand passes and corresponds the slider setting, and the cover is equipped with the first spring that is used for promoting the slider to shift up on the stand, is equipped with on the end wall of casing to be used for fixing the stop gear at the lifter plate in the lifter cavity.

Through the utility model provides a structure for the lifter plate stretches out the lift chamber and is convenient for be connected with mobile terminal, realizes embracing pole axle load detecting system with the suspension and carries out alternately, and simultaneously, stop gear can make the lifter plate accomodate in the lift intracavity, thereby makes data teletransmission hardware use comparatively convenient.

Preferably, the end wall of the shell is provided with a blind hole in parallel, the bottom wall of the blind hole is provided with a through hole communicated with the lifting cavity, and the opening of the blind hole is provided with a plugging ring; the limiting mechanism comprises a positioning rod positioned in the corresponding blind hole, one end of the positioning rod penetrates through the through hole and extends into the lifting cavity, the other end of the positioning rod penetrates through the plugging ring and extends out of the shell, the positioning rods extending out of the shell are connected through a connecting plate, a blocking ring is arranged on the positioning rod positioned in the blind hole, and a second spring used for pushing the blocking ring to move into the blind hole is sleeved on the positioning rod; the lifting plate is provided with a positioning hole for the corresponding positioning rod to extend into to fix the lifting plate in the lifting cavity.

Through the utility model provides a structure for the second spring promotes the locating lever and stretches into in the locating hole realization lifter plate and accomodate at the lift intracavity, makes the pulling even board remove the restriction to the lifter plate in making the locating lever withdrawal blind hole, and first spring promotes the lifter plate automatically and stretches out the lift chamber, and convenient to use user uses.

Preferably, the lower side surface of the shell is provided with a mounting cavity, the opening of the mounting cavity is provided with a stepped groove, and a plugging plate is mounted in the stepped groove through bolts, so that the antenna circuit, the wireless communication circuit and the data transmission and power supply interface circuit can be conveniently disassembled and assembled in the mounting cavity.

Preferably, the plugging plate is uniformly provided with heat dissipation holes, and the installation cavity is preferably subjected to heat dissipation.

Preferably, a sliding cavity with an opening at one end is arranged in the blocking plate, a sliding plate which can slide and is used for blocking the heat dissipation holes is arranged in the sliding cavity, and a clamping groove for the sliding plate to extend out is formed in the end wall of the shell.

Through the utility model provides a structure for the sliding plate slides in the slip intracavity and can realize opening and shutting the shutoff to the louvre, avoids under the not user state better, and the dust gets into the installation intracavity and causes the damage of installation intracavity electrical component.

As preferred, be equipped with the strip groove that the intercommunication slides the chamber along left right direction on the downside of shutoff board, be located to slide and be equipped with the post of dialling that stretches out the strip groove on the sliding plate in intracavity, the user of being convenient for preferably dials the post and drives the sliding plate and remove at the intracavity that slides, easy operation is convenient.

Drawings

Fig. 1 is a schematic view of a portable data remote transmission accessory in an axle load detection system for a suspension holding pole in embodiment 1;

FIG. 2 is a schematic view of the housing in embodiment 1;

FIG. 3 is a schematic sectional view of the housing in embodiment 1 at the lifter plate;

fig. 4 is a schematic sectional view of the housing at the stopper mechanism in embodiment 1;

FIG. 5 is an enlarged view of portion A of FIG. 4;

FIG. 6 is a schematic view of a plugging plate in example 1;

fig. 7 is a system configuration block diagram of data remote transmission hardware in embodiment 1.

The names of the parts indicated by the numerical references in the drawings are as follows: 100. a mobile terminal; 110. a housing; 120. a lifting plate; 130. a limiting mechanism; 211. a lifting cavity; 212. a mounting cavity; 213. a stepped groove; 214. a card slot; 311. a chute; 312. a column; 313. a first spring; 321. a slider; 322. positioning holes; 511. blind holes; 512. a through hole; 520. a plugging ring; 530. positioning a rod; 531. connecting plates; 532. a baffle ring; 540. a second spring; 600. a plugging plate; 601. heat dissipation holes; 602. a strip-shaped groove; 610. a sliding plate; 611. and (4) poking the column.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the invention only and are not limiting.

Example 1

As shown in fig. 1 to 7, the present embodiment provides a portable data remote transmission accessory for use in an axle load detection system of a suspension holding pole, which includes a housing 110, a lifting cavity 211 is disposed at an end of the upper side of the housing 110, a sliding slot 311 is disposed on a side wall of the lifting cavity 211 opposite to the upper side, and a column 312 is disposed in the sliding slot 311; the lifting plate 120 capable of lifting up and down is arranged in the lifting cavity 211, a data socket used for being connected with the mobile terminal 100 is arranged on the lifting plate 120, a sliding block 321 extending into the sliding groove 311 is arranged on the lifting plate 120, the upright column 312 penetrates through the corresponding sliding block 321, a first spring 313 used for pushing the sliding block 321 to move up is sleeved on the upright column 312, and a limiting mechanism 130 used for fixing the lifting plate 120 in the lifting cavity 211 is arranged on the end wall of the shell 110.

In this embodiment, an antenna circuit, a wireless communication circuit and a data transmission and power supply interface circuit are disposed in the housing 110, the wireless communication circuit is configured to receive data in the suspension holding pole axial compression detection system, wherein the mobile terminal 100 may be a mobile phone, a tablet computer, or the like, and a data jack in the data transmission and power supply interface circuit is connected to the mobile terminal 100, so that the mobile terminal 100 interacts with the suspension holding pole axial compression detection system, and the suspension holding pole is conveniently monitored; through the structure in the embodiment, the upright column 312 is arranged through the sliding block 321 extending into the sliding chute 311, so that the lifting plate 120 is arranged in the lifting cavity 211 in a lifting manner, wherein the lifting plate 120 always extends out of the lifting cavity 211 through the arrangement of the first spring 313, which is convenient for the connection of the data socket and the mobile terminal 100; wherein, through the setting of stop gear 130 for stop gear 130 can fix lifter plate 120 in lift chamber 211, thereby realizes accomodating of lifter plate 120 in lift chamber 211, makes data teletransmission hardware use comparatively convenient.

In this embodiment, a blind hole 511 is disposed in parallel on the end wall of the housing 110, a through hole 512 communicating with the lifting cavity 211 is disposed on the bottom wall of the blind hole 511, and a blocking ring 520 is disposed at the opening of the blind hole 511; the limiting mechanism 130 comprises a positioning rod 530 positioned in the corresponding blind hole 511, one end of the positioning rod 530 penetrates through the through hole 512 and extends into the lifting cavity 211, the other end of the positioning rod 530 penetrates through the blocking ring 520 and extends out of the shell 110, the positioning rods 530 extending out of the shell 110 are connected through a connecting plate 531, a blocking ring 532 is arranged on the positioning rod 530 positioned in the blind hole 511, and a second spring 540 used for pushing the blocking ring 532 to move towards the blind hole 511 is sleeved on the positioning rod 530; the lifting plate 120 is provided with a positioning hole 322 for the corresponding positioning rod 530 to extend into to fix the lifting plate 120 in the lifting cavity 211.

Through the structure in this embodiment, the second spring 540 pushes the retainer ring 532 to move backward to drive the positioning rod 530 to pass through the through hole 512 to extend into the lifting cavity 211 and to be inserted into the positioning hole 322 to realize that the limiting mechanism 130 enables the lifting plate 120 to be accommodated in the lifting cavity 211, wherein the connecting plate 531 is provided with the lifting block, and a user pulls the lifting block to drive the positioning rod 530 to retract into the blind hole 511, so that the limitation on the lifting plate 120 is removed, the first spring 313 can automatically push the lifting plate 120 to extend out of the lifting cavity 211, and the use by the user is facilitated.

In this embodiment, a mounting cavity 212 is disposed on the lower side surface of the housing 110, a stepped groove 213 is disposed at an opening of the mounting cavity 212, and a plugging plate 600 is mounted in the stepped groove 213 via bolts.

Through the setting of installation cavity 212 in this embodiment for antenna circuit, wireless communication circuit and data transmission and power supply interface circuit can install in installation cavity 212, and wherein, through the setting of ladder groove 213 and closure plate 600, make the dismouting of closure plate 600 at installation cavity 212 opening part comparatively convenient, thereby be convenient for antenna circuit, wireless communication circuit and data transmission and the dismouting of power supply interface circuit in installation cavity 212.

In this embodiment, the heat dissipation holes 601 are uniformly distributed on the blocking plate 600, so as to better dissipate heat from the mounting cavity 212.

In this embodiment, a sliding cavity with an opening at one end is disposed in the blocking plate 600, a sliding plate 610 which is slidable and used for blocking the heat dissipation hole 601 is disposed in the sliding cavity, and a clamping groove 214 for extending the sliding plate 610 is disposed on an end wall of the housing 110.

Through the structure in the embodiment, when the sliding plate 610 slides out of the sliding cavity from the clamping groove 214, the heat dissipation holes 601 can dissipate heat of the mounting cavity 211, and when the sliding plate 610 slides into the sliding cavity, the heat dissipation holes 601 can be blocked, so that dust is preferably prevented from entering the mounting cavity 212 when the sliding plate is not in use.

In this embodiment, a strip-shaped groove 602 communicating with the sliding cavity is formed in the lower side surface of the blocking plate 600 along the left-right direction, and a shifting column 611 extending out of the strip-shaped groove 602 is formed on the sliding plate 610 located in the sliding cavity, so that a user can preferably shift the shifting column 611 to drive the sliding plate 610 to move in the sliding cavity, and the operation is simple and convenient.

When the portable data remote transmission accessory in the axle load detection system for the suspension holding pole is used specifically, the positioning rod 530 is retracted into the blind hole 511 by pulling the lifting block, so that the lifting plate 120 automatically extends out of the lifting cavity 211 under the action of the first spring 313, and then the data jack is inserted into the mobile terminal 100, so that the interaction between the mobile terminal 100 and the axle load detection system for the suspension holding pole is realized; in the using process, the shifting column 611 is shifted to enable the sliding plate 610 to slide out of the sliding cavity, so that the heat dissipation holes 601 dissipate heat of the installation cavity 211, and damage to electric elements in the installation cavity 211 due to overhigh temperature is avoided; when the device is not used, the lifting plate 120 is pressed down to be retracted into the lifting cavity 211, so that the positioning rod 530 is inserted into the positioning hole 322, the lifting plate 120 is accommodated in the lifting cavity 211, and the shifting post 611 is shifted to drive the sliding plate 610 to slide into the sliding cavity to seal the heat dissipation hole 601, thereby preventing dust from entering the mounting cavity 212 to cause damage to the electrical components.

In short, the above description is only a preferred embodiment of the present invention, and all the equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the scope of the present invention.

Claims (6)

1. A portable data teletransmission accessory for suspending among pole's the axle load detecting system, its characterized in that: the lifting device comprises a shell (110), wherein a lifting cavity (211) is arranged on the upper side surface and the end part of the shell (110), sliding grooves (311) are oppositely arranged on the opposite side walls of the lifting cavity (211) along the vertical direction, and upright columns (312) are arranged in the sliding grooves (311); but be equipped with lifter plate (120) of oscilaltion in lift chamber (211), be equipped with on lifter plate (120) and be used for the data socket that links to each other with mobile terminal (100), be equipped with slider (321) that stretch into in spout (311) on lifter plate (120), stand (312) pass and correspond slider (321) setting, the cover is equipped with first spring (313) that are used for promoting slider (321) to shift up on stand (312), be equipped with on the end wall of casing (110) and be used for fixing stop gear (130) in lift chamber (211) lifter plate (120).

2. The portable data remote transmission accessory for the axle load detection system of the suspension holding pole, according to claim 1, is characterized in that: a blind hole (511) is arranged on the end wall of the shell (110) in parallel, a through hole (512) communicated with the lifting cavity (211) is arranged on the bottom wall of the blind hole (511), and a plugging ring (520) is arranged at the opening of the blind hole (511); the limiting mechanism (130) comprises a positioning rod (530) located in the corresponding blind hole (511), one end of the positioning rod (530) penetrates through the through hole (512) and extends into the lifting cavity (211), the other end of the positioning rod (530) penetrates through the blocking ring (520) and extends out of the shell (110), the positioning rods (530) extending out of the shell (110) are connected through a connecting plate (531), a blocking ring (532) is arranged on the positioning rod (530) located in the blind hole (511), and a second spring (540) used for pushing the blocking ring (532) to move towards the blind hole (511) is sleeved on the positioning rod (530); the lifting plate (120) is provided with a positioning hole (322) for the corresponding positioning rod (530) to extend into to fix the lifting plate (120) in the lifting cavity (211).

3. The portable data remote transmission accessory for the axle load detection system of the suspension holding pole, according to claim 1, is characterized in that: the lower side surface of the shell (110) is provided with a mounting cavity (212), the opening of the mounting cavity (212) is provided with a stepped groove (213), and a plugging plate (600) is mounted in the stepped groove (213) through a bolt.

4. The portable data remote transmission accessory for the axle load detection system of the suspension holding pole, according to claim 3, is characterized in that: the plugging plate (600) is uniformly provided with heat dissipation holes (601).

5. The portable data remote transmission accessory for the axle load detection system of the suspension holding pole, according to claim 4, is characterized in that: a sliding cavity with an opening at one end is arranged in the plugging plate (600), a sliding plate (610) which can slide and is used for plugging the heat dissipation holes (601) is arranged in the sliding cavity, and a clamping groove (214) for the sliding plate (610) to extend out is arranged on the end wall of the shell (110).

6. The portable data remote transmission accessory for the axle load detection system of the suspension holding pole, according to claim 5, is characterized in that: a strip-shaped groove (602) communicated with the sliding cavity is formed in the lower side face of the blocking plate (600) in the left-right direction, and a shifting column (611) extending out of the strip-shaped groove (602) is arranged on a sliding plate (610) located in the sliding cavity.

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