CN206844787U - A kind of emergency electric power communication information tower - Google Patents

Abstract

The utility model discloses an emergency power communication information tower, which relates to the technical field of communication equipment. An emergency power communication information tower, including a base and a tower body, the upper end of the tower body is fixedly connected with a communication antenna pole and a lighting lamp, the communication antenna pole is provided with a communication antenna, and the top of the tower body A lightning rod and a solar absorbing plate are provided, a solar cell is arranged in the tower body, an engine and a fuel tank are arranged on the base, a hydraulic pump is arranged on one side of the fuel tank, a hydraulic cylinder is arranged on one side of the hydraulic pump, and the hydraulic pump and the A hydraulic transmission device is arranged between the hydraulic oil cylinders, a lower base plate is set on the piston rod of the hydraulic oil cylinder, an upper base plate is set on the lower base plate, a scissor telescopic frame is set on the upper bottom plate, and a bracket is set on the scissor telescopic frame The supporting plate is fixedly connected with the bottom of the tower body. The beneficial effect of the utility model lies in that the utility model can quickly build a communication information tower and quickly recover communication information in disaster-stricken areas.

Description

An emergency power communication information tower

technical field

The utility model mainly relates to the technical field of communication equipment, in particular to an emergency power communication information tower.

Background technique

Traditional communication information towers mainly include angle steel towers and pipe towers, which raise the communication antenna to a certain height to meet the coverage area of the communication antenna. The construction of the communication information tower requires strict calculation and construction, so the construction process is very slow. When natural disasters occur, existing mobile communication base stations are usually easily destroyed, and the network is interrupted instantaneously.

In this case, the slow construction of communication information towers will inevitably lead to slow recovery of communication information, which will affect the rescue progress of disaster-stricken areas and bring great inconvenience to disaster relief and people's lives.

Utility model content

In order to solve the deficiencies of the prior art, the utility model provides an emergency power communication information tower, which can quickly build a communication information tower and is easy to install, thereby quickly restoring communication information in disaster-stricken areas.

The utility model realizes above-mentioned purpose by following technical scheme:

An emergency power communication information tower, including a base and a tower body, the upper end of the tower body is fixedly connected with a communication antenna pole and a lighting lamp, the communication antenna pole is provided with a communication antenna, and the top of the tower body A lightning rod and a solar absorbing plate are provided, a solar cell is arranged in the tower body, the lighting lamp and the solar absorbing plate are electrically connected to the solar cell, an engine and an oil tank are arranged on the base, and a hydraulic pump is arranged on one side of the oil tank. The hydraulic pump is fixedly connected to the base plate, a transmission is provided between the engine and the hydraulic pump, a hydraulic cylinder is arranged on one side of the hydraulic pump, the bottom of the hydraulic cylinder is fixedly connected to the base plate, and a hydraulic cylinder is set between the hydraulic pump and the hydraulic cylinder. A hydraulic transmission device, the piston rod of the hydraulic cylinder is provided with a lower base plate, the upper base plate is provided with an upper base plate, a scissor telescopic frame is provided on the upper base plate, a supporting plate is provided on the scissor telescopic frame, and the support plate The plate is fixedly connected with the bottom of the tower body.

A fixed plate is arranged on the upper bottom plate, and a sliding plate is arranged on one side of the fixed plate. Lead screw, the end of the lead screw away from the fixed plate passes through the slide plate, the lead screw is screwed to the slide plate, the first gear is installed on the side of the lead screw away from the fix plate and the slide plate, and the side of the upper bottom plate is arranged A support plate, the bottom of the support plate is fixedly connected to the base, the support plate is provided with a first rotating shaft, the end of the first rotating shaft is provided with a rocker, and a second rotating shaft is provided above the first rotating shaft, The second rotating shaft is movably connected with the support plate, rotating wheels are arranged on the first rotating shaft and the second rotating shaft, and there is a transmission between the two rotating wheels, and the second rotating shaft is installed on the second rotating shaft. gear, when the piston rod of the hydraulic cylinder rises to the maximum height, the second gear meshes with the first gear.

The hydraulic transmission device includes a first pressure oil pipe, a relief valve is installed on one end of the first pressure oil pipe, a first oil return pipe is installed on the relief valve, and a second pressure oil pipe is installed on the end of the first pressure oil pipe away from the overflow valve. The first manual reversing valve and the second manual reversing valve are installed on the second pressure pipe, the first manual reversing valve is a two-position three-way reversing valve, and the first manual reversing valve is Install the first reversing handle and the second oil return pipe, the second manual reversing valve is located on the left side of the first manual reversing valve, the second manual reversing valve is a two-position five-way valve, the second manual reversing valve The second reversing handle is installed on the manual reversing valve, the third pressure oil pipe and the fourth pressure oil pipe are installed on the second manual reversing valve, the third pressure oil pipe communicates with the oil hole at the bottom of the hydraulic cylinder, and the fourth pressure oil pipe The pressure oil pipe communicates with the oil hole on the top of the hydraulic cylinder, and the third oil return pipe and the fourth oil return pipe are arranged on the opposite side of the second manual reversing valve to the third pressure oil pipe and the fourth pressure oil pipe, and the third oil return pipe is connected to the The fourth oil return pipe is connected, and the ports of the first oil return pipe, the second oil return pipe and the fourth oil return pipe are all located in the fuel tank.

The engine is a diesel engine.

The upper base plate is bolted to the lower base plate.

Compared with the prior art, the beneficial effects of the utility model are:

1. The utility model uses the engine as the power, and through the dual functions of the hydraulic oil cylinder and the scissor telescopic frame, it can quickly build and install the communication information tower, restore communication, and use solar power to generate lighting, which is beneficial to the daily maintenance of the communication information tower. Continuously and stably provide communication guarantee in the disaster-stricken areas.

2. The utility model adopts the lead screw nut to adjust the height of the scissor telescopic frame, controls the first rotating shaft to drive the rotation of the second rotating shaft through the rocker, and then drives the lead screw to rotate through the rotation of the second gear on the second rotating shaft. The control is flexible and convenient, and it adapts to the situation of insufficient power supply in disaster-stricken areas, which improves the practicability of the utility model.

3. In the utility model, two manual reversing valves are used to control the hydraulic oil cylinder, which has strong adaptability, flexible control, convenient adjustment, and improves the control of the hydraulic oil cylinder.

4. The diesel engine starts quickly and has high efficiency, and the connection technology with the hydraulic pump is mature, which is suitable for the control of the hydraulic pump in this device.

5. The upper base plate is connected with the lower base plate by bolts, the installation is quick and convenient, and the stability and firmness of the support for the scissor telescopic frame are improved.

Description of drawings

Accompanying drawing 1 is the utility model front view structural representation;

Accompanying drawing 2 is the utility model scissors telescopic frame and the schematic structural diagram of the right side view of the support plate part;

Accompanying drawing 3 is the schematic diagram of the structure of the hydraulic transmission device when the piston rod of the hydraulic oil cylinder of the utility model rises;

Accompanying drawing 4 is a schematic diagram of the position structure of the second manual reversing valve when the piston rod of the hydraulic cylinder of the utility model is lowered;

Accompanying drawing 5 is a schematic diagram of the position structure of the first manual reversing valve when the piston rod of the hydraulic cylinder of the utility model is stationary;

Accompanying drawing 6 is the utility model I part enlarged view.

Numbers shown in the drawings: 1. Base; 2. Tower body; 3. Communication wire holding pole; 4. Lighting lamp; 5. Communication antenna; 6. Lightning rod; 7. Solar absorbing board; 8. Solar battery; 9 , engine; 10, fuel tank; 11, hydraulic pump; 12, hydraulic cylinder; 13, hydraulic transmission device; 14, lower base plate; 15, upper base plate; 16, scissors telescopic frame; 19. Slide plate; 20. Lead screw; 21. First gear; 22. Support plate; 23. First rotating shaft; 24. Rocking handle; 25. Second rotating shaft; 26. Rotating wheel; 27. Second gear ;28, the first pressure oil pipe; 29, the overflow valve; 30, the first oil return pipe; 31, the second pressure oil pipe; 32, the first manual reversing valve; 33, the second manual reversing valve; 34, the first Reversing handle; 35, the second oil return pipe; 36, the second reversing handle; 37, the third pressure oil pipe; 38, the fourth pressure oil pipe; 39, the third oil return pipe; 40, the fourth oil return pipe.

detailed description

The utility model will be further described in conjunction with the accompanying drawings and specific embodiments. It should be understood that these embodiments are only used to illustrate the present utility model and are not intended to limit the scope of the present utility model. In addition, it should be understood that those skilled in the art may make various changes or modifications to the utility model after reading the content taught by the utility model, and these equivalent forms also fall within the scope defined in the application.

An emergency power communication information tower, comprising a base 1 and a tower body 2, the upper end of the tower body 2 is fixedly connected with a communication antenna pole 3 and a lighting lamp 4, and the communication antenna pole 3 is provided with a communication antenna 5 , the top of the tower body 2 is provided with a lightning rod 6 and a solar absorbing plate 7, a solar cell 8 is arranged in the tower body 2, and the lighting lamp 4 and the solar absorbing plate 7 are electrically connected with the solar cell 8, as shown in the accompanying drawing As shown in 1, the use of solar energy for lighting on the communication information tower is an existing technology, mainly to adapt to the characteristics of inconvenient lighting in the disaster-stricken area, and to facilitate effective supervision and maintenance of the communication information tower during the day and night. An engine 9 and a fuel tank 10 are set on the base 1, and a hydraulic pump 11 is set on one side of the fuel tank 10. As shown in Figure 3, a filter is set between the fuel tank and the hydraulic pump, and the overflow valve can also act on the oil. When the oil pressure is too high, the oil will flow back to the oil tank through the first pressure oil pipe, the overflow valve and the first oil return pipe. The hydraulic pump 11 is fixedly connected to the base plate, the engine 9 and the hydraulic pump 11 are driven, a hydraulic cylinder 12 is arranged on one side of the hydraulic pump 11, the bottom of the hydraulic cylinder 12 is fixedly connected to the base plate, and the hydraulic pump A hydraulic transmission device 13 is arranged between 11 and the hydraulic cylinder 12, and the hydraulic pump controls the rise and fall of the piston rod of the hydraulic cylinder through the hydraulic transmission device. The piston rod of the hydraulic cylinder 12 is provided with a lower base plate 14, the lower base plate 14 is provided with an upper base plate 15, and the upper base plate 15 is provided with a scissor telescopic frame 16, as shown in Figure 1, the scissor telescopic frame also It is called a lifting frame, which mainly uses hydraulic cylinders as power to lift and lift, and is used for lifting and lifting of large equipment and personnel maintenance equipment. Supporting plate 17 is set on described scissors telescopic frame 16, and described supporting plate 17 is fixedly connected with tower body 2 bottoms. The utility model is closely related to the movement of the height of the tower body itself. The operation of the signal system of the communication information tower is not within the scope of the design of the utility model. The work of the signal system can be installed and arranged according to the characteristics and principles of the prior art. The utility model uses the engine as the power, and through the dual functions of the hydraulic oil cylinder and the scissors telescopic frame, the communication information tower can be quickly built and installed, and the communication can be restored, and the solar power can be used for lighting, which is beneficial to the daily maintenance of the communication information tower, and can be used for disaster-stricken areas. Provide continuous and stable communication protection.

In order to facilitate the control of the scissors telescopic frame, a fixed plate 18 is set on the upper base plate 15, and a sliding plate 19 is arranged on one side of the fixed plate 18, and the fixed plate 18 and the sliding plate 19 are hinged with the scissors telescopic frame 16 , In the utility model, the fixed plate and the sliding plate are provided with protrusions, and the two ends of the bottom of the scissors telescopic frame are inserted into the protrusions, and the fixed plate and the sliding plate are hinged with the scissors telescopic frame by rotating around the protrusions. The sliding plate 19 is slidably connected with the upper bottom plate 15, and a lead screw 20 is arranged in the fixed plate 18, and the end of the lead screw 20 away from the fixed plate 18 passes through the sliding plate 19, and the lead screw 20 is screwed to the sliding plate 19 The first gear 21 is installed on the side of the screw 20 away from the fixed plate 18 and the sliding plate 19, a support plate 22 is provided on the side of the upper bottom plate 15, the bottom of the support plate 22 is fixedly connected with the base 1, and the support plate 22 is fixedly connected to the base 1. A first rotating shaft 23 is arranged on the plate 22, a rocker 24 is arranged at the end of the first rotating shaft, a second rotating shaft 25 is arranged above the first rotating shaft 23, and the second rotating shaft 25 is movable with the support plate 22 Connection, the flexible connection means that the second rotation axis can rotate around the support plate. Both the first rotating shaft 23 and the second rotating shaft 25 are provided with a rotating wheel 26, and there is a transmission between the two rotating wheels 26, and a second gear 27 is installed on the second rotating shaft 25, when the hydraulic pressure When the piston rod of the oil cylinder 12 rises to the maximum height, the second gear 27 meshes with the first gear 21 . The utility model adopts the lead screw nut to adjust the height of the scissor telescopic frame, controls the first rotating shaft to drive the rotation of the second rotating shaft through the rocker, and then drives the lead screw to rotate through the rotation of the second gear on the second rotating shaft, so the control is flexible It is simple and convenient, and adapts to the situation of insufficient power supply in disaster-stricken areas, which improves the practicability of the utility model.

In order to effectively and flexibly control the hydraulic oil cylinder, the hydraulic transmission device 13 includes a first pressure oil pipe 28, an overflow valve 29 is installed at one end of the first pressure oil pipe 28, and a first oil return pipe 30 is installed on the overflow valve 29 A second pressure pipe 31 is installed on the end of the first pressure oil pipe 28 away from the overflow valve 29, and a first manual reversing valve 32 and a second manual reversing valve 33 are installed on the second pressure pipe 31. The manual reversing valve 32 is a two-position three-way reversing valve. A first reversing handle 34 and a second oil return pipe 35 are installed on the first manual reversing valve 32. The second manual reversing valve 33 is located at the first On the left side of the manual reversing valve 32, the second manual reversing valve 33 is a two-position five-way valve, and a second reversing handle 36 is installed on the second manual reversing valve 33, and the second manual reversing valve 33 is installed with a third pressure oil pipe 37 and a fourth pressure oil pipe 38, the third pressure oil pipe 37 communicates with the oil hole at the bottom of the hydraulic cylinder 12, and the fourth pressure oil pipe 38 communicates with the oil hole at the top of the hydraulic cylinder 12, so The third oil return pipe 39 and the fourth oil return pipe 40 are arranged on the opposite side of the second manual reversing valve 33 to the third pressure oil pipe 37 and the fourth pressure oil pipe 38, and the third oil return pipe 39 communicates with the fourth oil return pipe 40 , the ports of the first oil return pipe 30 , the second oil return pipe 35 and the fourth oil return pipe 40 are all located in the oil tank 10 . When the first manual reversing valve and the second manual reversing valve are in the positions shown in Figure 3, the oil enters the second pressure oil pipe through the hydraulic pump, and then enters the third pressure oil pipe, pushing the piston rod up, and the oil passes through the first pressure oil pipe. The third pressure oil pipe enters the fourth oil return pipe and returns to the oil tank; when the first manual reversing valve is in the position shown in Figure 3 and the second manual reversing valve is in the position shown in Figure 4, the oil enters the second hydraulic pump through the hydraulic pump. The pressure oil pipe enters the fourth pressure oil pipe, the piston rod descends, and the oil returns to the oil tank through the third pressure oil pipe, the third oil return pipe and the fourth oil return pipe; when the first manual reversing valve is in the position shown in Figure 5 , the oil enters the second pressure oil pipe through the hydraulic pump, and then flows back to the oil tank through the second oil return pipe, and the piston rod is in a static state. The utility model adopts two manual reversing valves to control the hydraulic oil cylinder, which has strong adaptability, flexible control, convenient adjustment, and improves the control of the hydraulic oil cylinder.

In order to make the operation of the hydraulic pump stable and reliable, the engine 9 is a diesel engine. The diesel engine starts quickly, has high efficiency, and has mature connection technology with the hydraulic pump, which is suitable for the control of the hydraulic pump in this device.

In order to improve the stability and firmness of the upper base plate supporting the scissors telescopic frame, the upper base plate 15 is connected with the lower base plate 14 by bolts. The upper base plate is connected with the lower base plate by bolts, and the installation is quick and convenient, which improves the stability and firmness of the support for the scissor telescopic frame.

When the utility model is in use, the device is pulled to the designated position by a truck, the base plate is fixed, the engine is started, the hydraulic oil cylinder is controlled to rise through the hydraulic transmission device, and the scissor telescopic frame is used to continue to raise the communication information tower to Suitable location, fast construction and installation, can quickly restore communication in the disaster-stricken area, and use solar lighting to facilitate continuous and stable supervision and maintenance of the communication tower, providing protection for communication in the disaster-stricken area. After the construction of the regular communication information tower is completed, it will be The hydraulic cylinder and the inspection telescopic frame are retracted, and the device is removed for subsequent use. The use efficiency is high and the communication is restored quickly.

Example 1:

An emergency power communication information tower, comprising a base 1 and a tower body 2, the upper end of the tower body 2 is fixedly connected with a communication antenna pole 3 and a lighting lamp 4, and the communication antenna pole 3 is provided with a communication antenna 5 , the top of the tower body 2 is provided with a lightning rod 6 and a solar absorbing plate 7, a solar cell 8 is arranged in the tower body 2, and the lighting lamp 4 and the solar absorbing plate 7 are electrically connected to the solar cell 8, and the base An engine 9 and a fuel tank 10 are arranged on the seat 1. In the present embodiment, a frame is arranged on the base, and the fuel tank is located in the frame. A hydraulic pump 11 is arranged on one side of the oil tank 10, and the hydraulic pump 11 is fixedly connected to the base plate. In this embodiment, the hydraulic pump is connected to the base plate with bolts. There is a transmission between the engine 9 and the hydraulic pump 11. A hydraulic cylinder 12 is arranged on one side of the hydraulic pump 11. The bottom of the hydraulic cylinder 12 is fixedly connected to the substrate. In this embodiment, the bottom of the hydraulic cylinder is connected to the substrate with bolts. A hydraulic transmission device 13 is arranged between the hydraulic pump 11 and the hydraulic cylinder 12, and a lower bottom plate 14 is arranged on the piston rod of the hydraulic oil cylinder 12. In this embodiment, the lower bottom plate is connected with the top end of the piston rod by bolts. An upper base plate 15 is set on the lower base plate 14, a scissors telescopic frame 16 is arranged on the upper base plate 15, a supporting plate 17 is arranged on the scissors telescopic frame 16, and the supporting plate 17 is fixedly connected with the bottom of the tower body 2. In this embodiment, the supporting plate is bolted to the bottom of the tower body. The utility model uses the engine as the power, and through the dual functions of the hydraulic oil cylinder and the scissors telescopic frame, the communication information tower can be quickly built and installed, and the communication can be restored, and the solar power can be used for lighting, which is beneficial to the daily maintenance of the communication information tower, and can be used for disaster-stricken areas. Provide continuous and stable communication protection. The scissor telescopic frame can be a commercially available hydraulic cylinder driven scissor telescopic frame. In this embodiment, a fixed plate 18 is arranged on the upper bottom plate 15, and the upper bottom plate and the fixed plate are welded. One side of the fixed plate 18 is provided with a sliding plate 19, the fixed plate 18 and the sliding plate 19 are hinged with the scissors telescopic frame 16, the sliding plate 19 is slidably connected with the upper base plate 15, and wires are arranged in the fixed plate 18. Rod 20, the end of the lead screw 20 away from the fixed plate 18 passes through the slide plate 19, the lead screw 20 is screwed with the slide plate 19, and the first gear is installed on the side of the lead screw 20 away from the fixed plate 18 and the slide plate 19 21. In this embodiment, the lead screw is keyed to the first gear. One side of the upper bottom plate 15 is provided with a support plate 22, the bottom of the support plate 22 is fixedly connected with the base 1, a first rotating shaft 23 is arranged on the supporting plate 22, and a rocker 24 is provided at the end of the first rotating shaft , the second rotating shaft 25 is arranged above the first rotating shaft 23, and the second rotating shaft 25 is movably connected with the support plate 22. A circular groove can be arranged on the supporting plate, and the first rotating shaft and the second rotating shaft are in the circular groove. Internal rotation, in this embodiment, a bearing with seat is provided on the support plate, and the bearing with seat is connected with the support plate by bolts, and one end of the first rotating shaft and the second rotating shaft is located in the bearing with seat. Both the first rotating shaft 23 and the second rotating shaft 25 are provided with a rotating wheel 26 , and in this embodiment, the rotating wheel is keyed to the first rotating shaft and the second rotating shaft. There is a transmission between the two rotating wheels 26, and a second gear 27 is installed on the second rotating shaft 25. In this embodiment, the second rotating shaft is keyed to the second gear. When the piston of the hydraulic cylinder 12 When the rod rises to the maximum height, the second gear 27 meshes with the first gear 21 . The utility model adopts the screw nut to adjust the height of the scissor telescopic frame, controls the first rotating shaft to drive the rotation of the second rotating shaft through the rocker, and then drives the first gear to rotate through the rotation of the second gear on the second rotating shaft. A gear drives the lead screw to rotate to control the lifting of the scissor telescopic frame. Considering that the tower body is relatively light, the tower body can be carried through the control of the lead screw, the control is flexible and simple, and it also adapts to the situation of insufficient power supply in the disaster-stricken area, which improves the practicability of the utility model. The hydraulic transmission device can directly control the lifting of the hydraulic cylinder piston cylinder when the engine is started by setting a two-position five-way reversing valve. In this embodiment, the hydraulic transmission device 13 includes a first pressure oil pipe 28, and the first pressure A relief valve 29 is installed at one end of the oil pipe 28, a first oil return pipe 30 is installed on the relief valve 29, a second pressure pipe 31 is installed at the end of the first pressure oil pipe 28 away from the relief valve 29, and the second pressure pipe 31 The first manual reversing valve 32 and the second manual reversing valve 33 are installed on the top, the first manual reversing valve 32 is a two-position three-way reversing valve, and the first manual reversing valve 32 is equipped with a first reversing valve. to the handle 34 and the second oil return pipe 35, the second manual reversing valve 33 is located on the left side of the first manual reversing valve 32, the second manual reversing valve 33 is a two-position five-way valve, the second A second reversing handle 36 is installed on the manual reversing valve 33, and a third pressure oil pipe 37 and a fourth pressure oil pipe 38 are installed on the second manual reversing valve 33, and the third pressure oil pipe 37 is connected to the oil at the bottom of the hydraulic cylinder 12 The fluid hole communicates, the fourth pressure oil pipe 38 communicates with the oil fluid hole at the top of the hydraulic cylinder 12, and the second manual reversing valve 33 is provided with a third oil return pipe on the side opposite to the third pressure oil pipe 37 and the fourth pressure oil pipe 38 39 and the fourth oil return pipe 40, the third oil return pipe 39 communicates with the fourth oil return pipe 40, and the ports of the first oil return pipe 30, the second oil return pipe 35 and the fourth oil return pipe 40 are all located in the fuel tank 10. The utility model adopts two manual reversing valves to control the hydraulic oil cylinder, which has strong adaptability, flexible control, convenient adjustment, and improves the control of the hydraulic oil cylinder. The engine can be a gasoline engine, and in this embodiment, the engine 9 is a diesel engine. The diesel engine starts quickly and has high efficiency, and the connection technology with the hydraulic pump is mature, which is suitable for the control of the hydraulic pump in this device. Can be welded between the upper base plate and the lower base plate, and can be plugged in. In the present embodiment, the upper base plate 15 is connected with the lower base plate 14 by bolts. The upper base plate is connected with the lower base plate by bolts, and the installation is quick and convenient, which improves the stability and firmness of the support for the scissor telescopic frame. The beneficial effects of this embodiment are: the utility model uses a diesel engine as the power, and through the dual functions of the hydraulic cylinder and the scissor telescopic frame, the communication information tower can be quickly built and installed, and the control is flexible and stable. Provided a strong guarantee.

Claims (5)

1. a kind of emergency electric power communication information tower, including pedestal (1) and tower body (2), the upper end of the tower body (2) are fixedly connected with Communication antenna pole (3) and illuminating lamp (4), the communication antenna pole (3) are provided with communication antenna (5), the tower body (2) Top is provided with lightning rod (6) and solar absorption panels (7), and solar cell (8), the illuminating lamp are set in the tower body (2) (4) electrically connected with solar absorption panels (7) with solar cell (8), it is characterised in that：Set and start on the pedestal (1) Machine (9) and fuel tank (10), fuel tank (10) side set hydraulic pump (11), and the hydraulic pump (11) is fixedly connected with substrate, V belt translation between the engine (9) and hydraulic pump (11), hydraulic pump (11) side set hydraulic jack (12), the liquid Compressing cylinder (12) bottom is fixedly connected with substrate, and hydraulic transmission is set between the hydraulic pump (11) and hydraulic jack (12) (13) lower shoe (14), is set on the piston rod of the hydraulic jack (12), upper plate (15) is set on the lower shoe (14), Shearing fork telescopic frame (16) is set on the upper plate (15), supporting plate (17), the supporting plate are set on the shearing fork telescopic frame (16) (17) it is fixedly connected with tower body (2) bottom.

A kind of 2. emergency electric power communication information tower according to claim 1, it is characterised in that：Set on the upper plate (15) Put fixed plate (18), fixed plate (18) side sets sliding panel (19), the fixed plate (18) and sliding panel (19) with Shearing fork telescopic frame (16) is be hinged, and the sliding panel (19) is slidably connected with upper plate (15), and silk is set in the fixed plate (18) Thick stick (20), the leading screw (20) pass through sliding panel (19), the leading screw (20) and sliding panel (19) away from fixed plate (18) one end It is spirally connected, the leading screw (20) is away from fixed plate (18) and sliding panel (19) side installation first gear (21), the upper plate (15) side sets supporting plate (22), and supporting plate (22) bottom is fixedly connected with pedestal (1), set on the supporting plate (22) The first rotary shaft (23), the first rotary shaft (23) end set rocking handle (24) are put, the first rotary shaft (23) top is set Put the second rotary shaft (25), second rotary shaft (25) is flexibly connected with supporting plate (22), first rotary shaft (23) and It is respectively provided with rotating wheel (26) in second rotary shaft (25), V belt translation between two rotating wheels (26), second rotary shaft (25) second gear (27), when the piston rod hit the ceiling of the hydraulic jack (12), second tooth are installed on Wheel (27) engages with first gear (21).

A kind of 3. emergency electric power communication information tower according to claim 1, it is characterised in that：The hydraulic transmission (13) first pressure oil pipe (28), first pressure oil pipe (28) one end installation overflow valve (29), the overflow valve are included (29) the first oil return pipe (30) is installed, the first pressure oil pipe (28) is away from overflow valve (29) one end installation second pressure pipe on (31), installation first manual reversal valve (32) and the second hand-operated direction valve (33) on the second pressure pipe (31), described first Hand-operated direction valve (32) is two position three way directional control valve, installed on the first manual reversal valve (32) the first reversing handle (34) and Second oil return pipe (35), second hand-operated direction valve (33) are located on the left of first manual reversal valve (32), and described second is manual Reversal valve (33) is two-position five-way valve, installs the second reversing handle (36) on second hand-operated direction valve (33), described second 3rd pressure oil pipe (37) and the 4th pressure oil pipe (38) be installed on hand-operated direction valve (33), the 3rd pressure oil pipe (37) and Hydraulic jack (12) bottom fluid hole communicates, and the 4th pressure oil pipe (38) communicates with fluid hole at the top of hydraulic jack (12), Second hand-operated direction valve (33) sets the 3rd oil return with the 3rd pressure oil pipe (37), the 4th pressure oil pipe (38) opposite side Pipe (39) and the 4th oil return pipe (40), the 3rd oil return pipe (39) communicate with the 4th oil return pipe (40), first oil return pipe (30), the port of the second oil return pipe (35) and the 4th oil return pipe (40) is respectively positioned in fuel tank (10).

A kind of 4. emergency electric power communication information tower according to claim 1, it is characterised in that：The engine (9) is bavin Oil turbine.

A kind of 5. emergency electric power communication information tower according to claim 1, it is characterised in that：The upper plate (15) is with Bottom plate (14) bolt connection.