CN113067589B - Portable communication signal collecting and processing device - Google Patents

Abstract

The invention discloses a portable communication signal collecting and processing device, which comprises a box body (1); the box body (1) comprises a receiver containing box (12) and a processor containing box (11) which are connected through a hinge (2), an inflation mechanism (4) is arranged in the receiver containing box (12), the inflation mechanism (4) is in pneumatic connection with an air bag receiver, the air bag receiver comprises a bag body (3), a metal film (31) layer is connected in the bag body (3), the metal film (31) is electrically connected with a signal processor in the receiver containing box (12), and a sealing plate is connected to the side surface of the receiver containing box (12); the problem that in the prior art, a portable communication device firstly needs to be capable of receiving signals, and people using the portable communication device often need to collect data in the field, forest or even island, is solved, and the portable communication device is used in the environment with poor communication signals; leading to the technical problems that signals cannot be effectively acquired and the like.

Description

Portable communication signal collecting and processing device

Technical Field

The invention belongs to the field of communication, and particularly relates to a portable communication signal collecting and processing device.

Background

Wireless communication signals are transmitted in an environment in the form of electromagnetic waves, signal editing and transmitting equipment is needed for signal transmission, signal receiving and processing equipment is also needed for signal transmission, and due to the fact that communication signals in most living environments are high in strength and good in communication quality, signals in some areas are poor, and particularly in positions far away from human living areas.

Patent application No. CN103095404B discloses a portable network communication device, which selects a first network interface unit used by a communication processing unit to transmit and receive a packet among a plurality of first network interface units, based on a calculated change value. However, the portable communication device firstly needs to be able to receive signals, and people using the portable communication device often need to collect data in the field, in forests and even in islands, and under the environment with poor communication signals; resulting in inefficient signal acquisition.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the portable communication signal collecting and processing device is provided to solve the problem that in the prior art, a portable communication device firstly needs to be capable of receiving signals, and people using the portable communication device often need to collect data in the field, in forests or even in islands, and under the environment with poor communication signals; leading to the technical problems that signals cannot be effectively acquired and the like.

The technical scheme of the invention is as follows:

a portable communication signal collecting and processing device comprises a box body, wherein the box body comprises a receiver containing box and a processor containing box which are connected through hinges, an inflation mechanism is arranged in the receiver containing box and is pneumatically connected with an air bag receiver, the air bag receiver comprises a bag body, a metal film layer is connected in the bag body, the metal film is electrically connected with a signal processor in the receiver containing box, and a sealing plate is connected to the side surface of the receiver containing box;

the box passes through the hinge rotation by receiver containing box and treater containing box and is connected the formation, as a whole under non-user state, and portable, when using, receiver containing box and treater containing box rotate relatively, the gasbag receiver in the receiver containing box stretches out and expands under the effect of mechanism of aerifing, its internally connected's metallic film expandes as accepting the antenna, can accept communication signal on a large scale, realize good communication in the comparatively weak area of signal, and portable, the metallic film can adopt the aluminium membrane, and electric conductivity, ductility are good.

Preferably, the bag body is fan-shaped, the inner edge of the bag body is fixedly connected with an inner ring fixedly connected in the receiver containing box, the outer edge of the bag body is fixed with an outer ring fixedly connected in the processor containing box, and the inflation mechanism is communicated with the part of the receiver containing box, which is positioned between the outer ring and the inner ring;

the inner edge of the bag body is fixed with an inner ring fixed on the sealing plate, the outer edge of the bag body is fixed with an outer ring fixed in the receiver containing box, and the inner ring and the outer ring are connected through the bag body to form a sealing space with a port positioned between the inner ring and the outer ring, so that the bag body can be formed after being inflated.

Preferably, at least two interlayers are arranged in the bag body, a metal film is connected in each interlayer respectively, and a clamping and conveying mechanism is arranged in the receiver containing box;

at least two layers of interlayers are arranged in the bag body and connected with the metal film, so that the problem of signal receiving omission caused by local fracture of the metal film in the repeated opening and closing process is avoided.

Preferably, the clamping and conveying mechanism comprises a lower roller rotatably connected to one side in the receiver containing box, an upper roller is rotatably connected between the inner ring and the outer ring at the other side in the receiver containing box, the upper roller and the lower roller are respectively attached to two sides of the bag body, and the lower roller is pneumatically connected with the inflating mechanism;

the mode that roller and lower roller were laminated with utricule upper and lower side respectively on setting up, the frictional force drive utricule that produces relative to the utricule when lower roller rotates is retrieved, and is comparatively convenient.

Preferably, the inflation mechanism comprises an inflation opening fixed on the side surface of the receiver storage box, a threaded sleeve is arranged on the edge of the inflation opening, and the threaded sleeve is in threaded connection with the inflator pump;

an inflator in the inflation mechanism is connected with the threaded sleeve at the edge of the inflation opening, and the connection degree of the inflator and the threaded sleeve can be controlled to determine inflation or exhaust in the bag body.

Preferably, a sealing valve is arranged at the inflation port and is abutted against an inflation tube at the end part of the inflator pump;

the air inflation opening is provided with a sealing valve which is abutted against the air inflation tube, so that the phenomenon that the air in the bag body leaks to cause the bag body to shrink and deform when the inflator is not connected is avoided.

Preferably, the side surface of the receiver containing box is connected with a lock rod, and the lock rod is clamped with a lock catch on the side surface of the processor containing box;

the locking rod is connected with the buckle to ensure that the receiver containing box is stably connected with the processor containing box.

Preferably, the number of the lock rods is two, and the two lock rods are respectively clamped with the two symmetrical lock catches;

the two sets of symmetrical lock bars are connected with the lock catch, so that the receiver containing box and the processor containing box are prevented from rotating relatively due to the fact that the lock catch and the lock bars slide down in the carrying process of the box body.

Preferably, the bottom end of the lock rod is abutted against the side surface of the lock catch;

the end part of the lock rod is abutted against the side surface of the lock catch, so that the receiver containing box and the processor containing box are relatively rotated to be in an opening state and are relatively stable under the supporting action of the lock rod.

Preferably, empty grooves are formed in two sides of the bottom of the receiver accommodating box respectively, folding supports are rotationally connected in the empty grooves, and each folding support comprises a plurality of support rods which are sequentially rotationally connected;

the bottom of the receiver is provided with an empty groove for placing the folding support, and the support rods connected with the support rods in a rotating mode in sequence can be stored in the empty groove when being carried, so that the occupied space is reduced.

The invention has the beneficial effects that:

1. an air bag receiver with a metal film laid inside is arranged in the receiver containing box, the air bag is controlled by the inflating mechanism to stretch, so that the metal film with certain toughness can stretch to form an antenna for receiving communication signals, and the signal receiving area is enlarged, so that the communication signals can be received as far as possible in the environment with poor signals;

2. the metal film in the bag body is at least provided with two layers, so that the metal film is prevented from being locally broken due to exceeding the elastic deformation limit value when the air bag contracts, and the electric wave signal omission caused by local breakage is avoided due to the structure of the at least two layers of metal films;

3. a lower roller and an upper roller which are rotatably connected are arranged in the receiver containing box and are used for clamping the capsule body so as to facilitate the capsule body to be recovered by rotating the transmission disc;

4. the locking rod is connected to the side face of the receiver containing box, when the air bag receiver is located in the receiver containing box, the locking rod is matched with the lock catch to lock the box body, and after the air bag receiver is opened, the end portion of the locking rod is abutted against the lock catch, so that the receiver containing box and the processor containing box are kept relatively fixed.

The problem that in the prior art, a portable communication device firstly needs to be capable of receiving signals, and people using the portable communication device often need to collect data in the field, forest or even island, is solved, and the portable communication device is used in the environment with poor communication signals; leading to the technical problems that signals cannot be effectively acquired and the like.

Drawings

FIG. 1 is a schematic view of the present invention in a retracted state;

FIG. 2 is a schematic structural view of the present invention in an unfolded state;

figure 3 is a partial cross-sectional view of a bladder of the present invention;

FIG. 4 is a cross-sectional view of the receiver receptacle of the present invention in an expanded state;

FIG. 5 is a cross-sectional view of an airway tube of the present invention;

reference numerals are as follows: 1. a box body; 11. a processor storage box; 111. locking; 12. a receiver storage box; 121. a sealing plate; 122. a lock lever; 123. a strut; 124. a handle; 2. a hinge; 3. a capsule body; 31. a metal film; 32. an air cavity; 4. an inflation mechanism; 41. an inflator; 42. an inflation tube; 5. a sealing valve; 6. a roller is arranged; 7. a roller is arranged; 71. a fan plate; 8. a threaded sleeve; 9. an air duct.

Detailed Description

Specific embodiments of the present invention are described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1-5, a portable communication signal collecting and processing device comprises a box body 1, wherein the box body 1 comprises a receiver containing box 12 and a processor containing box 11 which are connected through a hinge 2, an inflation mechanism 4 is arranged in the receiver containing box 12, the inflation mechanism 4 is pneumatically connected with an air bag receiver, the air bag receiver comprises a bag body 3, a metal film 31 layer is connected in the bag body 3, the metal film 31 is electrically connected with a signal processor in the receiver containing box 12, and a sealing plate is connected to the side surface of the receiver containing box 12;

the air bag is in a fan shape, the inner edge of the air bag is fixedly connected with an inner ring fixedly connected in the processor containing box 11, the outer edge of the air bag is fixed with an outer ring fixedly connected in the processor containing box 11, and the inflating mechanism 4 is communicated with a part of the receiver containing box 12 positioned between the outer ring and the inner ring.

At least two layers of interlayers are arranged in the capsule body 3, a metal film 31 is respectively connected in each layer of interlayer, and a clamping and conveying mechanism is arranged in the receiver containing box 12.

The pinch mechanism comprises a lower roller 7 which is rotatably connected to one side in a receiver containing box 12, an upper roller 6 is rotatably connected between an inner ring and an outer ring at the other side in the containing box, the upper roller 6 and the lower roller 7 are respectively attached to two sides of the bag body 3, and the lower roller 7 is pneumatically connected with the inflating mechanism 4.

When the portable airbag receiver is carried, the receiver containing box 12 is used for storing the airbag receiver, the processor containing box 11 is used for placing a signal processor, the airbag receiver is stored in the receiver containing box 12 during carrying, the receiver containing box 12 is connected with the processor containing box 11 through the hinge 2, the receiver containing box 12 is positioned above the processor containing box 11 to form a box body 1, when a communication signal is received and processed, the receiver containing box 12 and the processor containing box 11 are relatively rotated, the processor containing box 11 is positioned at one side of the receiver containing box, meanwhile, the airbag 3 is inflated through the inflating mechanism 4, the sealing plate 121 is opened, the airbag 3 in the receiver containing box 12 is extruded out of the receiver containing box 12 under the action of gas pressure and is fixed into a fan-shaped shape under the support of gas in the internal air cavity 32, the metal film 31 arranged in the internal interlayer is used for receiving the communication signal and converting the signal into an electric signal, the signal is transmitted to the signal processor in the processor containing box 11 electrically connected with the electric signal, and after the use, the friction force generated on the surface of the airbag 3 is generated by driving the upper roller 6 and the lower airbag 7 to rotate, so that the airbag 3 is stored in the receiver containing box 12 again;

in the process of containing the capsule 3, air is blown into the air guide pipe 9 through the inflating mechanism 4, at the moment, the fan plate 71 connected with the part of the lower roller 7 positioned in the air guide pipe 9 rotates under the action of air flow, so that friction is generated on the surface of the capsule 3, the capsule 3 is contained in the receiver containing box 12, and the clamping and conveying mechanism formed by matching the upper roller 6 and the lower roller 7 takes the center of the capsule 3 as a circular array, so that all parts of the capsule 3 can be uniformly contained in all parts of the receiver containing box 12, the capsule 3 is prevented from being accumulated at a certain position to cause the extrusion damage of the capsule 3, and attention needs to be paid to that an air release valve is arranged at the part of the receiver containing box 12 positioned between an inner ring and an outer ring, so that the internal air can be smoothly discharged when the capsule 3 is contained, and the sealing is kept during inflation.

Example 2

As shown in fig. 1-3, a portable communication signal collecting and processing device includes a box 1, and is characterized in that: the box body 1 comprises a receiver containing box 12 and a processor containing box 11 which are connected through a hinge 2, an inflation mechanism 4 is arranged in the receiver containing box 12, the inflation mechanism 4 is pneumatically connected with an air bag receiver, the air bag receiver comprises a bag body 3, a metal film 31 layer is connected in the bag body 3, the metal film 31 is electrically connected with a signal processor in the receiver containing box 12, and a sealing plate is connected to the side surface of the receiver containing box 12;

the inflation mechanism 4 comprises an inflation inlet fixed on the side surface of the receiver containing box 12, the edge of the inflation inlet is provided with a threaded sleeve 8, and the threaded sleeve 8 is in threaded connection with the inflator 41;

a sealing valve 5 is arranged at the inflation opening, and the sealing valve 5 is abutted against an inflation tube 42 at the end part of an inflator 41.

The inflation mechanism 4 adopts a connection mode of fixedly connecting an inflator 41 with the threaded sleeve 8 at the bottom side of the receiver containing box 12 to tightly connect the gas with the receiver containing box 12, the inflation tube 42 at the end part of the inflator continuously extends into the receiver containing box 12 along with the rotation of the inflator 41 relative to the threaded sleeve 8, when the end part of the inflation tube 42 is abutted against the sealing valve 5, the circular plate connected with the bottom end by the pressure spring relatively slides relative to the sliding sleeve fixed at the middle part of the receiver containing box 12, the circular plate connected with the top end of the pressure spring is relatively fixed with the sliding sleeve, and the side surface of the sliding sleeve is provided with a through hole, when the inflation tube 42 is communicated with the through hole, the inflation tube can inflate the air cavity 32 in the bag body 3 to extend the air bag receiver;

when the bag body 3 is stored, the inflation tube 42 is communicated with the inside of the threaded sleeve 8, the side surface of the threaded sleeve 8 is communicated with the air guide tube 9, and the inflator is inflated to enable the lower roller 7 connected with the fan plate 71 in the air guide tube 9 to rotate, so that the storage, the stretching and the storage are realized, the full-pneumatic operation is realized, and the bag body is more convenient and labor-saving.

Example 3

As shown in fig. 1-3, a portable communication signal collecting and processing device includes a box 1, and is characterized in that: the box body 1 comprises a receiver containing box 12 and a processor containing box 11 which are connected through a hinge 2, an inflation mechanism 4 is arranged in the receiver containing box 12, the inflation mechanism 4 is pneumatically connected with an air bag receiver, the air bag receiver comprises a bag body 3, a metal film 31 layer is connected in the bag body 3, the metal film 31 is electrically connected with a signal processor in the receiver containing box 12, and a sealing plate is connected to the side surface of the receiver containing box 12;

the side surface of the receiver containing box 12 is connected with a lock rod 122, and the lock rod 122 is clamped with a lock catch 111 on the side surface of the processor containing box 11;

two lock rods 122 are provided, and the two lock rods 122 are respectively clamped with the two symmetrical lock catches 111;

the bottom end of the lock rod 122 is abutted against the side surface of the lock catch 111;

two sides of the bottom of the receiver containing box 12 are respectively provided with an empty groove, a folding bracket is rotationally connected in the empty groove, and the folding bracket comprises a plurality of supporting rods 123 which are sequentially rotationally connected;

the lock rod 122 is rotatably connected to the side surface of the receiver containing box 12 through a pin extending into the receiver containing box 12, in a portable state of the box 1, the lock rod 122 is clamped with the lock catches 111 on the side surface of the processor containing box 11, and two sets of lock catches 111 are symmetrically arranged on one side of the box 1, so that the situation that the box 1 is automatically opened due to the fact that the lock catches 122 slide down under the inclined state of the box 1 is avoided, similarly, in an unopened state of the box 1, the support rods 123 in the folding bracket are sequentially and rotatably connected to empty grooves formed in the bottom of the receiver containing box 12, when the receiver containing box 12 rotates relative to the processor containing box 11 in the box 1 and is located on the same horizontal plane, as shown in fig. 2, the lock rods 122 are rotated to abut against the edges of the lock catches 111, at the moment, the lock catches 122 are located between the receiver containing box 12 and the processor containing box 11 as support rods, so that the front surface of the processor containing box 11 faces upwards to facilitate reading communication information due to gravity, here, the front surface of the processor containing box 11 is a relative to the side of the processor containing box 11 and is provided with a sealing plate 121, after the box 1 is opened, the box 1, the handle support is located under the box 1, and is used for automatically carrying the receiver containing box 1, and is used for carrying the receiver containing box 1 under the handle.

The working principle is as follows: when the portable air bag receiver is carried, the processor containing box 11 and the side face of the receiver containing box 12 are connected to form the box body 1, the air bag receiver is positioned in the receiver containing box 12 and is convenient to carry, the bag body 3 is inflated through the inflating mechanism 4 to expand the bag body 3 when being stretched, the metal film 31 in the bag body 3 deforms along with the bag body 3 to cover a large enough receiving area, the communication quality in a signal weak area is improved, and the portable air bag receiver is convenient to carry.

Claims (7)

1. A portable communication signal collection processing apparatus, includes box (1), its characterized in that: the box body (1) comprises a receiver containing box (12) and a processor containing box (11) which are connected through a hinge (2), an inflation mechanism (4) is arranged in the receiver containing box (12), the inflation mechanism (4) is in pneumatic connection with an air bag receiver, the air bag receiver comprises a bag body (3), a metal film (31) layer is connected in the bag body (3), the metal film (31) is electrically connected with a signal processor in the receiver containing box (12), and a sealing plate is connected to the side surface of the receiver containing box (12);

the bag body (3) is fan-shaped, the inner edge of the bag body (3) is fixedly connected with an inner ring fixedly connected in the processor containing box (11), the outer edge of the bag body (3) is fixed with an outer ring fixedly connected in the processor containing box (11), and the inflating mechanism (4) is communicated with a part of the receiver containing box (12) positioned between the outer ring and the inner ring;

at least two layers of interlayers are arranged in the bag body (3), a metal film (31) is connected in each layer of interlayer, and a clamping and conveying mechanism is arranged in the receiver containing box (12);

the clamping and conveying mechanism comprises a lower roller (7) which is rotatably connected to one side in the receiver containing box (12), an upper roller (6) is rotatably connected between the inner ring and the outer ring at the other side in the receiver containing box, the upper roller (6) and the lower roller (7) are respectively attached to two sides of the bag body (3), and the lower roller (7) is pneumatically connected with the inflating mechanism (4).

2. A portable communication signal collection processing device according to claim 1, wherein: the inflation mechanism (4) comprises an inflation inlet fixed on the side face of the receiver storage box (12), a threaded sleeve (8) is arranged on the edge of the inflation inlet, and the threaded sleeve (8) is in threaded connection with the inflator pump (41).

3. A portable communication signal collection processing apparatus according to claim 2, wherein: a sealing valve (5) is arranged at the inflation opening, and the sealing valve (5) is abutted against an inflation tube (42) at the end part of an inflator pump (41).

4. A portable communication signal collection processing device according to claim 1, wherein: receiver containing box (12) side is connected with locking lever (122), locking lever (122) and hasp (111) the joint of treater containing box (11) side.

5. The portable communication signal collection processing device of claim 4, wherein: the number of the lock rods (122) is two, and the two lock rods (122) are respectively clamped with the two symmetrical lock catches (111).

6. A portable communication signal collection processing apparatus according to claim 5, wherein: the bottom end of the lock rod (122) is abutted against the side surface of the lock catch (111).

7. A portable communication signal collection processing apparatus according to claim 1, wherein: the receiver containing box (12) bottom both sides are provided with the dead slot respectively, the dead slot internal rotation is connected with folding support, folding support includes a plurality of branch (123) that rotate the connection in proper order.

Images