CN113677171A

CN113677171A - Navigator with energy-concerving and environment-protective structure

Info

Publication number: CN113677171A
Application number: CN202111105203.3A
Authority: CN
Inventors: 施锦章
Original assignee: Nantong Hefeng Environmental Protection Technology Co ltd
Current assignee: Nantong Hefeng Environmental Protection Technology Co ltd
Priority date: 2021-09-22
Filing date: 2021-09-22
Publication date: 2021-11-19
Anticipated expiration: 2041-09-22
Also published as: CN113677171B

Abstract

The invention discloses a navigator with an energy-saving and environment-friendly structure, which comprises: the navigator is fixedly connected with the mounting cavity and one surface of the mounting cavity; the driving part comprises a driving rod, the driving rod vertically penetrates through the upper side wall of the installation cavity and is in sliding connection with the upper side wall of the installation cavity, and the driving part is used for providing power for a radiating structure of the navigator; the invention has the advantages that the air pressure component comprises the fixed transverse plates and the air bags, the two fixed transverse plates are respectively and fixedly connected to two sides of the upper end of the installation cavity, the fan blades rotate for a long time to perform heat extraction and air exchange effects in the installation cavity and in the navigator, so that the phenomenon that the power consumption is increased due to overhigh internal temperature under the continuous measurement of the high-temperature duration of the navigator is avoided, meanwhile, the temperature of the navigator can be effectively reduced, the use duration of internal elements and batteries is protected, and the energy-saving and environment-friendly effects of the navigator are achieved.

Description

Navigator with energy-concerving and environment-protective structure

Technical Field

The invention relates to the technical field of navigators, in particular to a navigator with an energy-saving and environment-friendly structure.

Background

Along with the improvement of living standard, when people travel, the navigator is indispensable, and the navigator is the driving auxiliary equipment of the instrument that guides the user to travel to the destination through map display and voice prompt two kinds of modes, plays great effect in the trip.

However, when the existing navigator works in high-temperature weather, the existing navigator leaks into the sun for a long time, the internal temperature of the navigator is extremely high, the power consumption of the internal battery is high, and meanwhile, the inside of the navigator lacks a heat dissipation function, so that the battery is easy to damage when working in high-temperature environment, and the navigator does not have the effects of energy conservation and environmental protection.

Disclosure of Invention

The invention aims to solve the following defects in the prior art, the existing navigator is exposed to the sun for a long time when working in high-temperature weather, the internal temperature of the navigator is extremely high, the power consumption of the internal battery is large, and meanwhile, the inside of the navigator lacks a heat dissipation function, so that the battery is easy to damage when working in high-temperature environment, and the navigator does not have the effects of energy conservation and environmental protection.

In order to achieve the purpose, the invention adopts the following technical scheme:

a navigator having an energy-saving and environment-friendly structure, comprising:

the navigator is fixedly connected with the mounting cavity and one surface of the mounting cavity;

the driving part comprises a driving rod, the driving rod vertically penetrates through the upper side wall of the installation cavity and is in sliding connection with the upper side wall of the installation cavity, and the driving part is used for providing power for a radiating structure of the navigator;

the air pressure component comprises fixed transverse plates and air bags, the two fixed transverse plates are fixedly connected to two sides of the upper end of the installation cavity respectively, one ends of the two air bags are fixedly connected to the upper surfaces of the fixed transverse plates respectively, and the air pressure component is used for accelerating the flow of hot air in the navigator;

the heat dissipation component is mounted at the lower end inside the mounting cavity and used for dissipating heat of the back of the navigator, the heat dissipation component comprises fan blades, a rotating shaft, transverse grooves, mounting blocks and a third spring, the rear side wall of the mounting cavity is provided with the transverse grooves for the sliding of the mounting blocks, the third spring is fixedly connected between the upper side wall of each transverse groove and the corresponding mounting block, one end of each rotating shaft is rotatably connected to one surface of the corresponding mounting block, the fan blade annular array is arranged at the other end of the rotating shaft, and the lower ends of the two hinge rods are respectively hinged to the corresponding mounting blocks;

damping part, damping part sets up radiating part with between the lateral wall under the installation cavity, and be used for right radiating part has better radiating effect, damping part includes rack plate, sealed chamber, second spring, support column, sliding chamber, two sliding chamber sets up respectively on the lateral wall of installation cavity lower extreme, rack plate both ends sliding connection respectively is in sliding chamber, two rack plate with two second springs of fixedly connected with between the lateral wall under the installation cavity, two sealed chamber fixed connection respectively is in on the lateral wall under the installation cavity, two fixed connection respectively is in on the support column top the rack plate, the support column lower extreme passes through sealing plug sliding connection is in the sealed chamber, set up the through-hole that is used for mobile liquid on the sealing plug.

Preferably, the drive part still includes positive spring, square piece, sleeve, hinge bar, positive spring both ends respectively fixed connection be in on the installation cavity lateral wall with on the actuating lever, the sleeve cup joints actuating lever middle part, two square piece wherein one end respectively fixed connection be in on the lateral wall on the sleeve, two the hinge bar is articulated respectively the sleeve lower extreme, and with the actuating lever is the symmetry setting for the central line, the drive bar top fixedly connected with is convenient for press down the dish, the sleeve both sides are equipped with the down tube respectively.

Preferably, the atmospheric pressure part includes spout, branch, connecting pipe, two the spout has been seted up on the fixed diaphragm respectively, two branch is fixed vertical fixed connection respectively on the opposite lateral wall in spout both sides, fixed diaphragm wherein one end both sides fixedly connected with fixed plate respectively, the fixed plate is located the spout both sides, the fixed plate with fixedly connected with is used for accelerating between the gasbag the first spring of gasbag shrink, the connecting pipe is fixed the intercommunication is in the gasbag with between the navigator intracavity.

Preferably, two all cup jointed the chamber of giving vent to anger in the pivot, the annular array has the blade in the pivot, the blade sets up the intracavity of giving vent to anger, the gasbag with it has the blast pipe to go out fixed intercommunication between the chamber.

Preferably, the rotating shaft is close to one end of the rack plate and is provided with insections, and the rotating shaft is meshed with the rack plate.

Preferably, one end of each of the two inclined rods is hinged to the air bag, and the other end of each of the two inclined rods is located on the lower side of the square block.

Preferably, the connecting pipe and the exhaust pipe are both provided with a single valve.

Compared with the prior art, the invention has the beneficial effects that:

1. when one end of the inclined rod moves downwards, and the supporting rod is used as a fulcrum, one end of the air bag is pulled by the other end of the inclined rod to move, so that the single valve on the connecting pipe is opened in the process that the air bag is enlarged, the one-way valve on the exhaust pipe is closed, and therefore the hot air inside the navigator enters the air bag through the connecting pipe, the effect of discharging the hot air inside the navigator is achieved, the temperature inside the navigator can be quickly reduced, the power consumption of electronic elements inside the navigator is reduced, and the navigator has a certain energy-saving effect.

2. Compress at the gasbag that contains atmospheric pressure, the inside gas of gasbag passes through the blast pipe and gets into the exhaust intracavity, and the continuous blade that blows, make the pivot rotatory with the flabellum of fixing in the pivot, simultaneously the gas of exhaust intracavity flows to the installation cavity outside through the gas vent of lower extreme, thereby the long-time rotation of flabellum has the effect that the heat extraction was taken a breath in to installation cavity and the navigator, in order to avoid under the long-time duration measurement of time at navigator high temperature, the too high power consumption of inside temperature increases, simultaneously can effectually cool down the navigator, it is long when protecting the use of internal element and battery, it has energy-concerving and environment-protective effect to reach the navigator.

Drawings

Fig. 1 is a schematic front structural view of a navigator with an energy-saving and environment-friendly structure according to the present invention;

FIG. 2 is a schematic structural diagram of an internal structure of an installation cavity of a navigator with an energy-saving and environment-friendly structure, which is provided by the invention;

FIG. 3 is a schematic diagram of an internal structure of an exhaust chamber of a navigator with an energy-saving and environment-friendly structure according to the present invention;

FIG. 4 is a schematic view of a portion of the enlarged structure of A in FIG. 2;

fig. 5 is a schematic structural diagram of an internal structure of a sealed cavity of a navigator with an energy-saving and environment-friendly structure provided by the invention.

In the figure: 1 navigator, 2 connecting pipes, 3 airbags, 4 installation cavities, 5 positive springs, 6 chutes, 7 rack plates, 8 fan blades, 9 exhaust pipes, 10 fixing plates, 11 supporting rods, 12 pressing plates, 13 square blocks, 14 sleeves, 15 first springs, 16 hinge rods, 17 rotary drums, 18 rotary shafts, 19 sealing cavities, 20 transverse grooves, 21 driving rods, 22 second springs, 23 through holes, 24 supporting columns, 25 sealing plugs, 26 sliding cavities, 27 fixing transverse plates, 28 blades, 29 installation blocks, 30 third springs, 31 air outlet cavities and 32 inclined rods.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 5, a navigator having an energy-saving and environment-friendly structure includes:

the navigator 1 is fixedly connected with one surface of the installation cavity 4 and the installation cavity 4, and the back of the navigator 1 is fixed on one side of the installation cavity 4;

the driving part comprises a driving rod 21, the driving rod 21 vertically penetrates through the upper side wall of the installation cavity 4 and is in sliding connection with the upper side wall of the installation cavity 4, the driving part further comprises a positive spring 5, a square block 13, a sleeve 14 and a hinge rod 16, two ends of the positive spring 5 are respectively and fixedly connected to the upper side wall of the installation cavity 4 and the driving rod 21, after the driving rod 21 is pressed downwards, the driving rod 21 is pulled to move upwards quickly under the pulling force of the positive spring 5 when the driving rod 21 is loosened, the sleeve 14 is sleeved in the middle of the driving rod 21, the sleeve 14 is fixed on the driving rod 21, one end of each of the two square blocks 13 is respectively and fixedly connected to the upper side wall of the sleeve 14, one end of each of the two square blocks 13 is arranged at the upper end of the inclined rod 32, therefore, when the square block 13 moves downwards, one end of the inclined rod 32 can be extruded to move downwards, the two hinge rods 16 are respectively hinged at the lower end of the sleeve 14 and are symmetrically arranged by taking the driving rod 21 as a central line, therefore, when the sleeve 14 moves downwards along with the driving rod 21, the hinge rods 16 are pushed, the mounting blocks 29 are respectively pushed to be away from each other through the two hinge rods 16, the top end of the driving rod 21 is fixedly connected with the pressing disc 12 convenient to press, the two sides of the sleeve 14 are respectively provided with the inclined rods 32, and the driving part is used for providing power for a heat dissipation structure of the navigator 1;

the air pressure component comprises a fixed transverse plate 27 and air bags 3, the two fixed transverse plates 27 are respectively and fixedly connected with two sides of the upper end of the installation cavity 4, one ends of the two air bags 3 are respectively and fixedly connected with the upper surface of the fixed transverse plate 27, the ends, close to the two air bags 3, of the two air bags respectively slide on the fixed transverse plates 27, the air pressure component comprises a sliding chute 6, a supporting rod 11 and a connecting pipe 2, the sliding chute 6 is respectively arranged on the two fixed transverse plates 27, so that the fixed transverse plates 27 are arranged in a concave shape, one ends of two inclined rods 32 are respectively hinged on the air bags 3, the other ends of the inclined rods 32 are positioned at the lower side of the square block 13, therefore, the two inclined rods 32 can respectively slide up and down on the sliding chute 6, the two supporting rods 11 are respectively and fixedly and longitudinally connected on the opposite side walls at two sides of the sliding chute 6, the inclined rods 32 are arranged at the upper side of the supporting rod 11, and one end of the inclined rods 32 is positioned at the lower side of the square block 13, the other end is hinged at one end of the air bag 3, so that when one end of the inclined rod 32 is downwards extruded by the square block 13, one end of the air bag 3 is pulled by the other end of the inclined rod 32 to move through the lever, so that the air bag 3 becomes large, two sides of one end of the transverse fixing plate 27 are respectively and fixedly connected with the fixing plates 10, the fixing plates 10 are positioned at two sides of the chute 6, a first spring 15 for accelerating the contraction of the air bag 3 is fixedly connected between the fixing plates 10 and the air bag 3, the connecting pipe 2 and the exhaust pipe 9 are respectively provided with a one-way valve, the connecting pipe 2 is fixedly communicated between the air bag 3 and the cavity of the navigator 1, one end of the air bag 3 is pulled by the other end of the inclined rod 32 to move, so that the air bag 3 is enlarged, the one-way valve on the connecting pipe 2 is opened in the process of enlarging of the air bag 3, the one-way valve on the exhaust pipe 9 is closed, so that hot air in the navigator 1 enters the air bag 3 through the connecting pipe 2, when the driving rod 21 is loosened, the direction block 13 does not extrude the inclined rod 32 any more, therefore, one end of the air bag 3 is pushed by the first spring 15, so that the air bag 3 is compressed, the one-way valve on the connecting pipe 2 is closed while the air bag 3 is compressed, the one-way valve on the exhaust pipe 9 is opened, the gas in the air bag 3 enters the air outlet cavity 31 through the exhaust pipe 9, and the air pressure component is used for accelerating the flow of hot air in the navigator 1;

the heat dissipation part is arranged at the lower end inside the mounting cavity 4 and comprises fan blades 8, a rotating shaft 18, a transverse groove 20, a mounting block 29 and a third spring 30, wherein the rear side wall of the mounting cavity 4 is provided with the transverse groove 20 for the mounting block 29 to slide stably, so that the mounting block 29 can slide stably and stably in the transverse groove 20, the third spring 30 is fixedly connected between the upper side wall of the transverse groove 20 and the mounting block 29, the mounting block 29 slides on the upper side wall of the transverse groove 20 through the third spring 30 in a normal state, when the driving rod 21 moves downwards, the hinge rod 16 is extruded through the sleeve 14, so that the mounting block 29 is pushed to move downwards and slide on the lower side wall of the transverse groove 20 when the driving rod 21 moves downwards, one end of the rotating shaft 18 is rotatably connected to one side of the mounting block 29, the annular array of the fan blades 8 is arranged at the other end of the rotating shaft 18, one end of the rotating shaft 18 close to the rack plate 7 is provided with insections, the rotating shaft 18 is meshed with the rack plate 7, so that when the two mounting blocks 29 move away from each other, the rotating shaft 18 is meshed with the rack plate 7 to rotate the rotating shaft 18 and drive the fan blades 8 to rotate, and the effect of dissipating heat of the back of the navigator 1 is achieved, so that the temperature inside the navigator 1 can be reduced, the power consumption inside the navigator 1 can be reduced, the energy-saving and environment-friendly effects of the navigator 1 can be achieved, the lower ends of the two hinge rods 16 are respectively hinged to the mounting blocks 29, and the heat dissipation part is used for dissipating heat of the back of the navigator 1;

damping part, damping part sets up between radiating part and the mounting cavity 4 lower side wall, and be used for having better radiating effect to radiating part, damping part includes rack plate 7, sealed chamber 19, second spring 22, support column 27, sliding chamber 26, two sliding chambers 26 are seted up respectively on the lateral wall of mounting cavity 4 lower extreme, rack plate 7 both ends are sliding connection respectively in sliding chamber 26, consequently two second springs 22 of fixedly connected with between two rack plates 7 and the mounting cavity 4 lower side wall, two sealed chambers 19 are fixed connection respectively on the mounting cavity 4 lower side wall, two support column 24 tops are fixed connection respectively on rack plate 7, the support column 24 lower extreme passes through sealing plug 25 sliding connection in sealed chamber 19, the through-hole 23 that is used for flowing liquid is seted up on the sealing plug 25, quick upward movement in mounting block 29, and make pivot 18 break away from with rack plate 7, the rack plate 7 has an upward moving effect under the urging force of the second spring 22 at this time, but when the sealing plug 25 is pulled upward by the supporting post 24 while the rack plate 7 moves upward, and at this time, when the liquid on the upper side of the sealing plug 25 flows to the lower side through the through hole 23, the liquid flow rate is slow due to the small diameter of the through hole 23, so that the upward moving speed of the rack plate 7 is slow, so that the time for engaging with the rotating shaft 18 is long, and therefore the rack plate 7 and the rotating shaft 18 do not engage with each other for a while, but finally the rack plate 7 moves upward under the urging force of the second spring 22 and engages with the rotating shaft 18 again.

The two rotating shafts 18 are sleeved with air outlet cavities 31, the rotating shafts 18 are provided with annular arrays of blades 28, the blades 28 are arranged in the air outlet cavities 31, the exhaust pipes 9 are fixedly communicated between the air bags 3 and the air outlet cavities 31, the rack plates 7 can move upwards slowly, the rack plates 7 and the rotating shafts 18 are not meshed with each other, when the driving rods 21 move upwards, the square blocks 13 do not extrude the inclined rods 32 any more, so that one ends of the air bags 3 are pushed by the first springs 15, the air bags 3 are compressed, the check valves on the connecting pipes 2 are closed when the air bags 3 are compressed, the single valves on the exhaust pipes 9 are opened, the air in the air bags 3 enters the air outlet cavities 31 through the exhaust pipes 9, the blades 28 are blown continuously, the rotating shafts 18 and the fan blades 8 fixed on the rotating shafts 18 rotate, and meanwhile, the air in the air outlet cavities 31 flows to the outer side of the mounting cavities 4 through the exhaust ports at the lower ends, therefore, the rotating shaft 18 and the fan blades 8 fixed on the rotating shaft 18 are continuously blown to rotate while the air bag 3 is shrunk, and heat extraction and air exchange in the installation cavity 4 and the navigator 1 are achieved for a long time.

In the invention, when the navigator 1 is used for measurement and is irradiated by external sunlight and works with electronic elements in the navigator to generate heat, the pressing disc 12 is pressed to push the driving rod 21 to move downwards, meanwhile, the positive spring 5 fixed on the upper side wall of the driving rod 21 and the mounting cavity 4 is extended, the driving rod 21 moves downwards to drive the sleeve 14 to move downwards, the square block 13 fixed to the sleeve 14 presses one end of the diagonal rod 32 to move downward, since the diagonal bar 32 is provided on the strut 11, when one end of the diagonal bar 32 is moved downward, the other end of the diagonal rod 32 pulls one end of the air bag 3 to move by taking the strut 11 as a fulcrum, so that the air bag 3 is enlarged, in the process of increasing the air bag 3, the single valve on the connecting pipe 2 is opened, and the one-way valve on the exhaust pipe 9 is closed, so that hot air in the navigator 1 enters the air bag 3 through the connecting pipe 2;

meanwhile, when the driving rod 21 moves downwards, the sleeve 14 presses the hinge rod 16, the end of the hinge rod 16 far away from the sleeve 14 is hinged on the mounting block 29, so that the mounting block 29 is pushed to move downwards and slide on the lower side wall of the transverse groove 20 when the driving rod 21 moves downwards, the rack plate 7 is pressed to move downwards through the rotating shaft 18 and compress the second spring 22 as the mounting block 29 moves downwards, the supporting column 24 and the sealing plug 25 fixed at the lower end of the supporting column 24 slide downwards in the sealing cavity 19, because the sealing cavity 19 is filled with liquid, when the sealing plug 25 slides downwards, water at the lower end of the sealing plug 25 flows to the upper end of the sealing plug 25 through the through hole 23, and simultaneously, as the two mounting blocks 29 are far away from each other, the rotating shaft 18 is meshed and connected with the rack plate 7, so that the rotating shaft 18 has a rotating effect when the mounting blocks 29 are far away from each other, the fan blade 8 fixed at one end of the rotating shaft 18 rotates, the heat dissipation effect on the back of the navigator 1 is achieved, so that excessive power consumption caused by overhigh temperature in the navigator 1 is avoided, and the energy-saving effect on the navigator 1 is achieved while the heat dissipation is fast;

when the driving rod 21 is released, the driving rod 21 is pulled to move upwards under the pulling force of the positive spring 5, at the moment, the mounting block 29 is not acted by the downward extrusion force of the hinge rod 16 any more, under the pulling force of the third spring 30, the mounting block 29 is pulled to move upwards rapidly, the rotating shaft 18 is separated from the rack plate 7, the rack plate 7 has the effect of moving upwards under the pushing force of the second spring 22 at the moment, but when the rack plate 7 moves upwards and simultaneously pulls the sealing plug 25 to move upwards through the supporting column 24, at the moment, when the liquid on the upper side of the sealing plug 25 flows to the lower side through the through hole 23, the liquid flow rate is slow, so that the speed of moving upwards the rack plate 7 is slow, and the time for meshing with the rotating shaft 18 again is long;

meanwhile, the rack plate 7 is favorable for moving upwards slowly, when the time of meshing with the rotating shaft 18 is long, the square block 13 does not extrude the inclined rod 32 any more when the driving rod 21 moves upwards, so that one end of the air bag 3 is under the thrust of the first spring 15, the air bag 3 is compressed, the check valve on the connecting pipe 2 is closed when the air bag 3 is compressed, the single valve on the exhaust pipe 9 is opened, the gas inside the air bag 3 enters the air outlet cavity 31 through the exhaust pipe 9, and the blades 28 are blown continuously, so that the rotating shaft 18 and the fan blades 8 fixed on the rotating shaft 18 rotate, and meanwhile, the gas in the air outlet cavity 31 flows to the outer side of the mounting cavity 4 through the exhaust port at the lower end, so that the rotating shaft 18 and the fan blades 8 fixed on the rotating shaft 18 rotate continuously when the air bag 3 is reduced, and the long-time heat extraction and air exchange between the inside the mounting cavity 4 and the navigator 1 are achieved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A navigator having an energy-saving and environment-friendly structure is characterized by comprising:

the navigator (1) is fixedly connected with the installation cavity (4) and one surface of the installation cavity (4);

the driving component comprises a driving rod (21), the driving rod (21) vertically penetrates through the upper side wall of the installation cavity (4) and is in sliding connection with the upper side wall of the installation cavity (4), and the driving component is used for providing power for a heat dissipation structure of the navigator (1);

the air pressure component comprises fixing transverse plates (27) and air bags (3), the two fixing transverse plates (27) are fixedly connected to two sides of the upper end of the installation cavity (4) respectively, one ends of the two air bags (3) are fixedly connected to the upper surface of the fixing transverse plates (27) respectively, and the air pressure component is used for accelerating the flow of hot air in the navigator (1);

the heat dissipation component is arranged at the lower end inside the installation cavity (4) and used for dissipating heat of the back of the navigator (1), the heat dissipation component comprises fan blades (8), a rotating shaft (18), transverse grooves (20), installation blocks (29) and third springs (30), the transverse grooves (20) used for the sliding of the installation blocks (29) are formed in the rear side wall of the installation cavity (4), the third springs (30) are fixedly connected between the upper side wall of the transverse grooves (20) and the installation blocks (29), one end of each rotating shaft (18) is rotatably connected to one surface of each installation block (29), the fan blades (8) are arranged at the other end of the corresponding rotating shaft (18) in an annular array mode, and the lower ends of the two hinge rods (16) are hinged to the installation blocks (29) respectively;

the damping part is arranged between the heat dissipation part and the lower side wall of the installation cavity (4) and used for achieving a better heat dissipation effect on the heat dissipation part, the damping part comprises a rack plate (7), a sealing cavity (19), second springs (22), supporting columns (24) and sliding cavities (26), the two sliding cavities (26) are respectively arranged on the side wall of the lower end of the installation cavity (4), two ends of the rack plate (7) are respectively connected in the sliding cavities (26) in a sliding mode, the two rack plates (7) and the lower side wall of the installation cavity (4) are fixedly connected with the two second springs (22), the two sealing cavities (19) are respectively and fixedly connected on the lower side wall of the installation cavity (4), the top ends of the two supporting columns (24) are respectively and fixedly connected on the rack plate (7), and the lower ends of the supporting columns (24) are connected in the sealing cavity (19) in a sliding mode through the sealing plugs (25), the sealing plug (25) is provided with a through hole (23) for flowing liquid.

2. The navigator with the energy-saving and environment-friendly structure as claimed in claim 1, wherein the driving component further comprises a positive spring (5), square blocks (13), a sleeve (14) and hinge rods (16), two ends of the positive spring (5) are respectively and fixedly connected to the upper side wall of the installation cavity (4) and the driving rod (21), the sleeve (14) is sleeved on the middle portion of the driving rod (21), one ends of the two square blocks (13) are respectively and fixedly connected to the upper side wall of the sleeve (14), the two hinge rods (16) are respectively and relatively hinged to the lower end of the sleeve (14), the driving rod (21) is taken as a central line and is symmetrically arranged, the top end of the driving rod (21) is fixedly connected with a pressing plate (12) convenient to press, and two sides of the sleeve (14) are respectively provided with an oblique rod (32).

3. The navigator with the energy-saving and environment-friendly structure as claimed in claim 2, wherein the air pressure component comprises a sliding groove (6), two supporting rods (11) and a connecting pipe (2), the two fixing transverse plates (27) are respectively provided with the sliding groove (6), the two supporting rods (11) are respectively fixedly and longitudinally fixedly connected to opposite side walls at two sides of the sliding groove (6), two sides of one end of each fixing transverse plate (27) are respectively and fixedly connected with a fixing plate (10), the fixing plates (10) are located at two sides of the sliding groove (6), a first spring (15) for accelerating contraction of the air bag (3) is fixedly connected between the fixing plates (10) and the air bag (3), and the connecting pipe (2) is fixedly communicated between the air bag (3) and the cavity of the navigator (1).

4. The navigator with the energy-saving and environment-friendly structure as claimed in claim 1, wherein the two rotating shafts (18) are sleeved with air outlet cavities (31), the rotating shafts (18) are annularly arrayed with blades (28), the blades (28) are arranged in the air outlet cavities (31), and an exhaust pipe (9) is fixedly communicated between the air bag (3) and the air outlet cavities (31).

5. The navigator with an energy-saving and environment-friendly structure as claimed in claim 1, wherein one end of the rotating shaft (18) close to the rack plate (7) is provided with insections, and the rotating shaft (18) is engaged with the rack plate (7).

6. The navigator having an energy-saving and environment-friendly structure as claimed in claim 2, wherein one end of each of the two diagonal rods (32) is hinged to the air bag (3), and the other end of each of the diagonal rods (32) is located at the lower side of the square block (13).

7. The navigator with an energy-saving and environment-friendly structure as claimed in claim 4, characterized in that a single valve is arranged on each of the connecting pipe (2) and the exhaust pipe (9).