CN212064682U - Wireless teletransmission equipment suitability module based on GPRS - Google Patents

Abstract

The utility model discloses a wireless teletransmission equipment suitability module based on GPRS, casing under casing and the module on the module, the casing is located the top of casing under the module on the module, the top bilateral symmetry of casing has seted up rectangle half groove under the bottom of casing and the module on the module, the symmetry is equipped with the lug around two inside walls of casing under the module, the bottom of casing top and module casing is installed the rectangle ventilation pipe in proper order by outer to in respectively under the module, and every rectangle ventilation pipe equidistance seted up a plurality of air outlets, connects through the guide duct between the adjacent rectangle ventilation pipe, is connected with the air-supply line that runs through casing outer wall on the module on the rectangle ventilation pipe of casing outside. This wireless teletransmission equipment suitability module based on GPRS can cool down the module body, guarantees each part job stabilization on the module body, optimizes the behavior of module body, improves data transmission's quality, optimizes data transmission.

Description

Wireless teletransmission equipment suitability module based on GPRS

Technical Field

The utility model belongs to the technical field of the GPRS module, concretely relates to wireless teletransmission equipment suitability module based on GPRS.

Background

GPRS wireless data transmission module for remote equipment's monitoring, control, application such as long-range meter reading provide the data transmission passageway, however current GPRS wireless data transmission module internal part is easily producing a large amount of heats in work, if discharge seriously influence GPRS wireless data transmission module job stabilization nature in time not, so release a wireless teletransmission equipment suitability module based on GPRS and solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wireless teletransmission equipment suitability module based on GPRS to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a GPRS-based wireless remote transmission equipment adaptive module comprises an upper module shell and a lower module shell, wherein the upper module shell is positioned above the lower module shell, rectangular half grooves are symmetrically formed in the two sides of the bottom of the upper module shell and the top of the lower module shell, lugs are symmetrically arranged on the front side and the rear side of the two inner side walls of the lower module shell, a module body is installed above the four lugs, a communication interface penetrating through the two rectangular half grooves on the left side is arranged on one side of the module body, an antenna seat penetrating through the two rectangular half grooves on the right end is arranged on the other side of the module body, an antenna is screwed on the antenna seat, a connecting plate is sleeved on the outer wall of the communication interface, a connecting plate is also sleeved on the outer wall of the antenna seat, locking screws for connecting the upper module shell and the lower module shell are symmetrically arranged on the upper module shell and the bottom of the lower module shell, rectangular ventilation pipes are sequentially installed on the top of, and a plurality of air outlets are formed in each rectangular ventilation pipe at equal intervals, adjacent rectangular ventilation pipes are connected through an air guide pipe, an air inlet pipe penetrating through the outer wall of the upper shell of the module is connected to the rectangular ventilation pipe on the outermost side of the upper shell of the module, and an air inlet pipe penetrating through the outer wall of the lower shell of the module is connected to the rectangular ventilation pipe on the outermost side of the lower shell of the module.

Preferably, the inner rings of the rectangular ventilation pipes on the innermost sides of the upper module shell and the lower module shell are connected with a plurality of vertical ventilation pipes, and a plurality of air outlets are formed in the vertical ventilation pipes at equal intervals.

Preferably, the air exit has been seted up to the position department that the lower extreme of casing is close to the rectangle half groove on the module, the air exit has also been seted up to the position department that the upper end of casing is close to the rectangle half groove under the module, the air exit is equipped with a plurality of, and the dust screen is installed to the outer end of air exit.

Preferably, the module body is provided with first connecting screw holes at four corner positions, the bump is provided with second connecting screw holes aligned with the first connecting screw holes, and the first connecting screw holes and the second connecting screw holes are connected through first locking bolts.

Preferably, the size of the rectangular ventilation pipe is gradually reduced from outside to inside, the two ends of each rectangular ventilation pipe are respectively provided with a wind pipe clamp, and the wind pipe clamps are respectively and fixedly installed at the top of the upper module shell and the bottom of the lower module shell through second locking bolts.

The utility model discloses a technological effect and advantage: this wireless teletransmission equipment suitability module based on GPRS can cool down the module body, guarantees each part job stabilization on the module body, optimizes the behavior of module body, improves data transmission's quality, optimizes data transmission.

The utility model discloses utilize two air-supply lines to send into the wind respectively in the rectangle ventilation pipe of casing bottom under module and the module to casing top on the module, utilize the air outlet and erect the ventilation pipe and blow to the up end and the lower terminal surface of module body, can carry out quick thermal treatment to the module body.

The utility model discloses setting up of air exit is used for hot-blast derivation, and setting up of dust screen can prevent that the dust from getting into casing and module inferior valve internal on the module from the air exit.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the bottom view structure of the upper housing of the module of the present invention.

In the figure: 1. a module upper housing; 2. a module lower housing; 3. a rectangular half-groove; 4. a bump; 5. a module body; 6. a communication interface; 7. an antenna mount; 8. an antenna; 9. a connecting plate; 10. a rectangular ventilation pipe; 11. An air outlet; 12. an air guide pipe; 13. an air inlet pipe; 14. erecting a ventilation pipe; 15. an air outlet; 16. a dust screen; 17. a wind pipe hoop; 18. a first locking bolt.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a GPRS-based wireless remote transmission device adaptive module as shown in figure 1-2, which comprises an upper module shell 1 and a lower module shell 2, wherein the upper module shell 1 is positioned above the lower module shell 2, rectangular half-grooves 3 are symmetrically arranged at the bottom of the upper module shell 1 and the top of the lower module shell 2, two inner side walls of the lower module shell 2 are symmetrically provided with lugs 4 at the front and back, a module body 5 is arranged above the four lugs 4, one side of the module body 5 is provided with a communication interface 6 penetrating the two rectangular half-grooves 3 at the left side, the other side of the module body 5 is provided with an antenna seat 7 penetrating the two rectangular half-grooves 3 at the right side, the antenna seat 7 is screwed with an antenna 8, the outer wall of the communication interface 6 is sleeved with a connecting plate 9, the outer wall of the antenna seat 7 is also sleeved with the connecting plate 9, and two connecting plates 9 are provided with locking screws for connecting the upper module shell 1 and the lower module shell 2 in an up-and-down symmetrical manner, the connecting plates 9 are used for realizing the connection between the upper module shell 1 and the lower module shell 2, the top of the upper module shell 1 and the bottom of the lower module shell 2 are respectively provided with rectangular ventilation pipes 10 from outside to inside in sequence, each rectangular ventilation pipe 10 is provided with a plurality of air outlets 11 at equal distances, the adjacent rectangular ventilation pipes 10 are connected through an air guide pipe 12, the rectangular ventilation pipe 10 on the outermost side of the upper module shell 1 is connected with an air inlet pipe 13 penetrating through the outer wall of the upper module shell 1, and the rectangular ventilation pipe 10 on the outermost side of the lower module shell 2 is connected with an air inlet pipe 13 penetrating through the outer wall of.

The inner rings of the rectangular ventilation pipes 10 on the innermost sides of the module upper shell 1 and the module lower shell 2 are connected with a plurality of vertical ventilation pipes 14, and a plurality of air outlets 11 are formed in the vertical ventilation pipes 14 at equal intervals.

The air exit 15 has been seted up to the position department that the lower extreme of casing 1 is close to rectangle half groove 3 on the module, air exit 15 has also been seted up to the position department that the upper end of casing 2 is close to rectangle half groove 3 under the module, air exit 15 is equipped with a plurality of, and dust screen 16 is installed to the outer end of air exit 15. The air outlet 15 is used for leading out hot air, and the dust screen 16 is arranged to prevent dust from entering the upper module shell 1 and the lower module shell 2 from the air outlet 15.

The module is characterized in that first connecting screw holes are formed in four corner positions of the module body 5, second connecting screw holes aligned with the first connecting screw holes are formed in the protruding block 4, the first connecting screw holes and the second connecting screw holes are connected through first locking bolts 18, and the module is used for fixedly mounting the module body 5 on the protruding block 4.

The size of the rectangular ventilation pipe 10 is gradually reduced from outside to inside, the two ends of each rectangular ventilation pipe 10 are provided with air pipe clamps 17, and the air pipe clamps 17 are fixedly mounted at the top of the upper module shell 1 and the inner bottom of the lower module shell 2 through second locking bolts. This arrangement is used to support and secure the rectangular vent tube 10.

When the module body is used specifically, two air inlet pipes 13 are used for respectively feeding air into the rectangular ventilation pipes 10 at the top of the upper module shell 1 and the bottom of the lower module shell 2, and the air outlet 11 and the vertical ventilation pipes 14 are used for blowing the air to the upper end face and the lower end face of the module body 5, so that the module body 5 can be subjected to rapid heat dissipation treatment.

The utility model discloses what should explain at last when using is: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (5)

1. The utility model provides a wireless teletransmission equipment suitability module based on GPRS, includes casing (2) under casing (1) and the module on the module, its characterized in that: the module upper shell (1) is positioned above the module lower shell (2), rectangular half grooves (3) are symmetrically formed in the bottom of the module upper shell (1) and the two sides of the top of the module lower shell (2), lugs (4) are symmetrically arranged on the front and back of the two inner side walls of the module lower shell (2), a module body (5) is installed above the four lugs (4), a communication interface (6) penetrating through the two rectangular half grooves (3) on the left side is arranged on one side of the module body (5), an antenna base (7) penetrating through the two rectangular half grooves (3) on the right side is arranged on the other side of the module body (5), an antenna (8) is screwed on the antenna base (7), a connecting plate (9) is sleeved on the outer wall of the communication interface (6), a connecting plate (9) is also sleeved on the outer wall of the antenna base (7), and locking screws for connecting the module upper shell (1) and the module lower shell (2) are symmetrically arranged on the two connecting plates (9), the module is characterized in that rectangular ventilation pipes (10) are sequentially arranged on the top of the module upper shell (1) and the bottom of the module lower shell (2) from outside to inside respectively, a plurality of air outlets (11) are formed in each rectangular ventilation pipe (10) at equal intervals, adjacent rectangular ventilation pipes (10) are connected through air guide pipes (12), an air inlet pipe (13) penetrating through the outer wall of the module upper shell (1) is connected to the rectangular ventilation pipe (10) on the outermost side of the module upper shell (1), and an air inlet pipe (13) penetrating through the outer wall of the module lower shell (2) is connected to the rectangular ventilation pipe (10) on the outermost side of the module lower shell (2).

2. The GPRS-based wireless remote transmission device suitability module as claimed in claim 1, wherein: a plurality of vertical ventilation pipes (14) are connected to the inner rings of the rectangular ventilation pipes (10) on the innermost sides of the upper module shell (1) and the lower module shell (2), and a plurality of air outlets (11) are formed in the vertical ventilation pipes (14) at equal intervals.

3. The GPRS-based wireless remote transmission device suitability module as claimed in claim 1, wherein: the air exit (15) have been seted up to the position department that the lower extreme of casing (1) is close to rectangle half groove (3) on the module, air exit (15) have also been seted up to the position department that the upper end of casing (2) is close to rectangle half groove (3) under the module, air exit (15) are equipped with a plurality of, and dust screen (16) are installed to the outer end of air exit (15).

4. The GPRS-based wireless remote transmission device suitability module as claimed in claim 1, wherein: the module is characterized in that first connecting screw holes are formed in four corner positions of the module body (5), second connecting screw holes aligned with the first connecting screw holes are formed in the protruding blocks (4), and the first connecting screw holes and the second connecting screw holes are connected through first locking bolts (18).

5. The GPRS-based wireless remote transmission device suitability module as claimed in claim 1, wherein: the size of the rectangular ventilation pipe (10) is gradually reduced from outside to inside, the two ends of each rectangular ventilation pipe (10) are respectively provided with a wind pipe clamp (17), and the wind pipe clamps (17) are respectively and fixedly installed at the top of the upper module shell (1) and the inner bottom of the lower module shell (2) through second locking bolts.

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