CN114421110A - Power divider for equally distributing power and voltage - Google Patents

Abstract

The invention belongs to the technical field of electronic equipment, and particularly relates to a power divider for equally dividing power and voltage, which comprises a power divider main body, wherein one end inside the power divider main body is movably provided with a tap changer at an equal distance, the outer wall of one side of the power divider main body is fixedly provided with a novel main connecting pipe, the tail end of the novel main connecting pipe is assembled and connected with a main route cable, the outer wall of the other side of the power divider main body, which deviates from the novel main connecting pipe, is fixedly connected with a novel tap pipe at an equal distance, the inner surface of a power divider shell II is fixedly provided with a branch passage I at an equal distance, the inner surface of the power divider shell I is fixedly provided with a branch passage II at an equal distance, and the transmission resistance value of the branch passage I is larger than that of the branch passage II. The invention can flexibly change the output power of the novel tap pipe, is suitable for more complicated circuit environments, and can avoid the damage of parts at the joint due to excessive pressure and oblique tension, reduce the risk of fracture and damage and avoid the condition of accidental disconnection.

Description

Power divider for equally distributing power and voltage

Technical Field

The invention belongs to the technical field of electronic equipment, and particularly relates to a power divider for equally dividing power and voltage.

Background

The power divider is a device which divides one path of input signal energy into two paths or multiple paths of input signal energy and outputs equal or unequal energy, and can also combine the multiple paths of signal energy into one path of output in turn, and at the moment, the power divider can also be called a combiner; certain isolation degree should be ensured between output ports of one power divider; the power divider is also called an overcurrent divider and is divided into an active type and a passive type, one path of signal can be evenly divided into a plurality of paths of output, generally, each path has attenuation of several dB, the signal frequency is different, the different attenuations of the dividers are also different, and in order to compensate the attenuation, a passive power divider is manufactured after an amplifier is added;

the problems existing in the prior art are as follows:

the output end of the existing power divider only has the output condition of one power, and by the mode, the power divider can only be suitable for specific circuit environments, the output power of the branch pipe can not be correspondingly changed according to the complex circuit condition, and the existing work function is too single.

Disclosure of Invention

The invention aims to provide a power divider for equally dividing power and voltage, which can flexibly change the output power of a novel dividing pipe, is suitable for more complicated circuit environments, and can avoid the damage of parts at a joint due to excessive pressure and oblique tension, reduce the risk of fracture and damage and avoid the accidental disconnection.

The technical scheme adopted by the invention is as follows:

a power divider for equally dividing power and voltage comprises a power divider main body, wherein a tap divider is movably arranged at one end in the power divider main body at equal intervals, a novel main connecting pipe is fixedly arranged on the outer wall of one side of the power divider main body, a main path cable is assembled and connected to the tail end of the novel main connecting pipe, and the power divider main body deviates from the novel main connecting pipe and is fixedly connected with the novel tap pipe at the outer wall of the other side of the power divider main body at equal intervals;

the power divider main body further comprises a power dividing shell I and a power dividing shell II, the power dividing shell I and the power dividing shell II are symmetrically combined and assembled through screws, branch channels I are fixedly arranged on the inner surface of the power dividing shell II at equal intervals, and a main channel I is fixedly arranged on one side, close to the novel main connecting pipe, of the inner surface of the power dividing shell II;

the fixed branch way two that is provided with of internal surface equidistance that divides casing one, just the transmission resistance that branch way one is greater than the transmission resistance that branch way two, the two internal surfaces of casing are divided to the merit is close to the fixed main entrance two that is provided with in one side of novel main takeover, branch way two is close to the one end of main entrance two all is provided with the screw hole, just the screw hole all run through in casing one is divided to the merit, casing outer wall is located is divided to the merit the one end in screw hole all is provided with the solenoid.

Furthermore, the tapping device further comprises a screw rod, the screw rod respectively and movably penetrates through the screw rod hole, the screw rod is in threaded connection with the screw pipe, and one end of the screw rod is located outside the power divider main body and is fixedly provided with a knob.

Furthermore, the other end of the screw rod is located inside the power divider main body and is rotatably connected with a transmission rod, and transmission contact blocks are fixedly arranged at two ends of the transmission rod.

Furthermore, the manufacturing materials of the main channel I, the branch channel I, the main channel II, the branch channel II, the transmission rod and the transmission contact block are all the same, and the number of the branch channel I, the branch channel II and the screw rods is the same.

Furthermore, the novel main connecting pipe also comprises a main pipe body, a wiring board is movably arranged in one end of the main pipe body, a transmission pin is fixedly arranged on the outer wall of the wiring board, a first data line is fixedly connected to the inner wall of the wiring board, the tail end of the first data line is connected with a first two data connecting ends, and the first two data connecting ends are respectively connected with the first main channel and the second main channel;

furthermore, the novel main connecting pipe is the same as the internal structure of the novel branch connecting pipe, a second data line is arranged inside the novel branch connecting pipe, the tail end of the second data line is connected with two second data connecting ends, and the two second data connecting ends are respectively connected with one first branch channel and one second branch channel.

Further, the inside of being responsible for the body is provided with interior loose leaf, the both sides inner wall of wiring board all fixedly is provided with the side empty pipe, interior loose leaf is close to the both sides wall of wiring board all fixedly is provided with the side guide arm, just the side guide arm sliding insertion is in the inside of side empty pipe, interior loose leaf with fixedly connected with main spring between the wiring board looks proximal surface, just a data line activity run through in main spring.

Furthermore, an inner end pipe is fixedly arranged at one end, far away from the wiring board, in the main pipe body, an inner movable pipe is fixedly arranged on the other surface of the inner movable pipe, the inner movable pipe is movably inserted into the inner end pipe, and inclined springs are fixedly connected in front of the outer wall of one end of the inner movable pipe and the inner wall of one end of the inner end pipe at equal intervals;

the surface of the inner movable plate close to the wiring board is fixedly provided with an annular auxiliary supporting belt, the edges of the annular auxiliary supporting belt are fixedly provided with elastic branch belts at equal intervals, and the tail ends of the elastic branch belts are fixedly connected with the inner wall of the main pipe body.

Furthermore, the inner wall of one end, close to the wiring board, of the main pipe body is fixedly connected with oblique locking elastic pieces at equal intervals, one end of each oblique locking elastic piece movably penetrates through the inner wall of the main pipe body, and the tail ends of the oblique locking elastic pieces are fixedly connected with extension pieces.

Furthermore, a connector is arranged at the tail end of the main path cable, the connecting end of the connector is spliced with the transmission pin, a protective pipe is fixedly arranged on the outer surface of the connecting end of the connector, locking holes are fixedly formed in the edge of the protective pipe at equal intervals, the protective pipe is movably inserted into one end of the main pipe body, and one end of the inclined locking elastic sheet is movably clamped in the locking holes;

connector surface slip cover is equipped with lamella form slide pipe, lamella form slide pipe one end equidistance is provided with the connection lamella, the equal fixedly connected with slant ejection piece in one end both sides of connecting the lamella, two slant ejection piece and activity joint are in one the internal surface of extension piece.

The invention has the technical effects that:

(1) according to the power divider, the branch channel I and the branch channel II are arranged, the use of the branch channel is changed by using the tapping device, two output powers of the novel tapping pipe are provided, the output power of the novel tapping pipe can be flexibly changed according to the field working environment, the output powers of a plurality of novel tapping pipes on the same gear are the same, the functions of the power divider main body are greatly improved, more output power selections are provided, the power divider is suitable for more complex circuit environments, the internal structure is simple, and the adjusting mode is simple.

(2) According to the invention, in the process of connecting the main path cable and the novel main connecting pipe, the wiring board can displace after being extruded, and the main spring can be extruded by the wiring board in the process, so that the wire plugging process is milder, the parts at the connecting part are prevented from being damaged by excessive pressure, and in addition, after the main path cable is stably connected, the main spring can also ensure that the transmission pin and the main path cable are stably plugged.

(3) According to the invention, when the main path cable is obliquely pulled, the wiring board and the inner movable plate can simultaneously deflect, the inner movable pipe at the tail end of the inner movable plate can also deflect inside the inner end pipe, the inclined spring in the corresponding direction can be in a compressed or stretched state, the accidental breakage condition of the internal part of the wiring terminal caused by oblique pressure is effectively solved, the influence of bending of the main path cable on the internal part is reduced, the risk of breakage and damage is reduced, the service life is prolonged, and the traditional fixed part is changed on the premise of ensuring normal signal transmission, so that the internal component is more flexible.

(4) According to the invention, when the main path cable is accidentally pulled, the right-angle side of the oblique locking elastic sheet can tightly push the locking hole, so that the main path cable is prevented from being accidentally separated from the novel main connecting pipe, normal data transmission is ensured, and the condition that one end is disconnected is avoided; in addition, when main road cable and novel main takeover need separating, remove lamella form slide tube, according to the inclined plane direction of slant ejection piece, slant locking shell fragment can be dragged to the extension piece that corresponds, makes slant locking shell fragment break away from the locking hole inside, and then realizes the separation work between them, and split work is simple.

Drawings

FIG. 1 is a front perspective view provided by an embodiment of the present invention;

fig. 2 is a top structural view of a second power dividing housing according to an embodiment of the present invention;

fig. 3 is a bottom view of the first power distribution housing according to the embodiment of the present invention;

fig. 4 is a block diagram of a tap provided by an embodiment of the present invention;

fig. 5 is an internal structure view of a novel main adapter according to an embodiment of the present invention;

FIG. 6 is an internal cross-sectional view of the novel main adapter provided by an embodiment of the present invention;

fig. 7 is a structural diagram of an oblique locking spring plate according to an embodiment of the present invention;

fig. 8 is a structural diagram of a main route cable provided by an embodiment of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a power divider body; 101. a first power division shell; 102. a second power division shell; 103. a first main channel; 104. a branch road I; 105. a second main channel; 106. a branch channel II; 107. a screw hole; 2. a tap; 201. a screw; 202. a knob; 203. a transmission rod; 204. a transfer contact block; 3. a novel main connecting pipe; 301. a primary tube; 302. a wiring board; 303. a transmission pin; 304. a first data line; 305. a side empty pipe; 306. an inner movable plate; 307. a side guide bar; 308. an annular auxiliary supporting belt; 309. an elastic branch band; 310. an inner living pipe; 311. an inner end tube; 312. a bias spring; 313. a main spring; 314. locking the elastic sheet obliquely; 315. an extension sheet; 4. a main road cable; 401. a connector; 402. protecting the pipe; 403. a locking hole; 404. a petal-shaped sliding tube; 405. obliquely ejecting the sheet; 5. a novel adapter tube.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one particular embodiment of the invention and is not intended to limit the scope of the invention as specifically claimed.

As shown in fig. 1-8, a ware is divided to impartial distribution power voltage's merit, divide ware main part 1 including the merit, the inside one end equidistance activity of ware main part 1 is divided to the merit is provided with shunting ware 2, and the outer wall is fixed in 1 one side of ware main part is provided with novel main takeover 3, and novel main takeover 3's end equipment is connected with main route cable 4, and ware main part 1 is divided to the merit deviates from novel main takeover 3's the novel takeover 5 of opposite side outer wall equidistance fixed connection.

The first embodiment is as follows:

referring to fig. 2 and 3, the main body 1 of the power divider further includes a first power dividing casing 101 and a second power dividing casing 102, the first power dividing casing 101 and the second power dividing casing 102 are symmetrically assembled by screws, a first branch passage 104 is fixedly disposed on the inner surface of the second power dividing casing 102 at equal intervals, a first main passage 103 is fixedly disposed on one side of the inner surface of the second power dividing casing 102 close to the novel main connection pipe 3, a second branch passage 106 is fixedly disposed on the inner surface of the first power dividing casing 101 at equal intervals, and the transmission resistance of the branch channel I104 is larger than that of the branch channel II 106, one side of the inner surface of the power dividing shell II 102 close to the novel main connecting pipe 3 is fixedly provided with a main channel II 105, after the main path cable 4 is connected with the novel main connecting pipe 3, then, signal energy is dispersed and finally output by each novel tap tube 5 through a first branch channel 104 or a second branch channel 106 inside the power divider main body 1, and then the work of power distribution is realized.

Referring to fig. 3 and 4, one end of the branch channel two 106 close to the main channel two 105 is provided with a screw hole 107, the screw holes 107 are all penetrated through the power distribution casing one 101, one end of the outer wall of the power distribution casing one 101, which is located at the screw hole 107, is provided with a screw pipe, the tap changer 2 further comprises a screw 201, the screw 201 is movably penetrated through the screw hole 107, and the screw 201 and the screw pipe form a threaded connection, one end of the screw 201, which is located at the outside of the power distribution main body 1, is fixedly provided with a knob 202, the other end of the screw 201, which is located at the inside of the power distribution main body 1, is rotatably connected with a transmission rod 203, two ends of the transmission rod 203 are fixedly provided with transmission contact blocks 204, when the output energy value of the novel tap pipe 5 needs to be changed, at this time, all the knobs 202 are sequentially rotated, and the screw 201 and the screw pipe form a threaded connection, so that each screw 201 drives the corresponding transmission rod 203 to move up and down, the transmission resistance value of the branch channel I104 is larger than that of the branch channel II 106, when the transmission contact block 204 touches the main channel I103 and the branch channel I104, the signal energy can be transported by each branch channel I104 at the moment, the output function of the novel branch pipe 5 can be reduced at the moment, the manufacturing materials of the main channel I103, the branch channel I104, the main channel II 105, the branch channel II 106, the transmission rod 203 and the transmission contact block 204 are the same, the transmission effect of the signal is ensured, the quantities of the branch channel I104, the branch channel II 106 and the screw 201 are the same, the quantities of the branch channel I104 and the branch channel II 106 are the same, the energy output by each novel branch pipe 5 is the same finally, and the uniform distribution effect is realized.

Referring to fig. 1 and 5, the novel main pipe 3 further includes a main pipe body 301, a wiring board 302 is movably disposed inside one end of the main pipe body 301, a transmission pin 303 is fixedly disposed on an outer wall of the wiring board 302, a first data line 304 is fixedly connected to an inner wall of the wiring board 302, a first data connection end of the first data line 304 is connected to the first data connection end, the first data connection end is respectively connected to a first main channel 103 and a second main channel 105, the novel main pipe 3 is identical to the novel branch pipe 5 in internal structure, a second data line is disposed inside the novel branch pipe 5, two ends of the second data line are connected to two second data connection ends, and the two data connection ends are respectively connected to a first branch channel 104 and a second branch channel 106.

The working principle of the invention is as follows: after the main path cable 4 is connected with the novel main connecting pipe 3, the transmission pin 303 receives signals and transmits the signals to the data connecting end I at the tail end, then signal energy is dispersed and finally output by each novel connecting pipe 5 through the branch channel I104 or the branch channel II 106 in the power divider main body 1, and further power distribution work is achieved, in the process, because the branch channels I104 are the same and the branch channels II 106 are the same, finally energy output by each novel connecting pipe 5 is the same, and further equal distribution effect is achieved;

in addition, when the output energy value of the novel tap pipe 5 needs to be changed, at this time, all the knobs 202 are sequentially rotated, and the screw rods 201 and the screw pipes form threaded connection, so that each screw rod 201 drives the corresponding transmission rod 203 to move up and down, the transmission resistance value of the first branch passage 104 is greater than that of the second branch passage 106, when the transmission contact block 204 touches the first main passage 103 and the first branch passage 104, the signal energy is transported by each first branch passage 104, and at this time, the output function of the novel tap pipe 5 is reduced; in addition, when the transmission contact block 204 touches the second main channel 105 and the second branch channel 106, the signal energy is transported by each second branch channel 106, and the output function of the novel tap tube 5 is improved;

above-mentioned process provides two kinds of output of novel takeover 5, can be according to site work environment, changes novel takeover 5's output in a flexible way, and a plurality of novel takeover 5 output on same gear is the same, has improved this merit greatly and has divided the function of ware main part 1, provides more output's selection, is applicable to more complicated circuit environment to, its inner structure is simple, and the regulative mode is simple.

Example two:

referring to fig. 5, an inner flap 306 is disposed inside the main pipe 301, side hollow pipes 305 are fixedly disposed on inner walls of two sides of the terminal block 302, side guide rods 307 are fixedly disposed on two side walls of the inner flap 306 close to the terminal block 302, the side guide rods 307 are slidably inserted into the side hollow pipes 305, a main spring 313 is fixedly connected between adjacent surfaces of the inner flap 306 and the terminal block 302, a first data wire 304 movably penetrates through the main spring 313, after the transmission pin 303 is plugged into the main route cable 4, the terminal block 302 is displaced after being squeezed, the terminal block 302 squeezes the main spring 313 in the process, the side hollow pipes 305 on the back of the terminal block 302 and the side guide rods 307 move relatively, and the side guide rods 307 are retracted into the side hollow pipes 305.

The working principle of the invention is as follows: in the main road cable 4 and the novel main in-process of taking over 3 and being connected, transmission pin 303 is pegged graft with main road cable 4 back, wiring board 302 can take place the displacement after accepting the extrusion, in-process wiring board 302 can extrude main spring 313, and the side hollow tube 305 at the wiring board 302 back will take place relative movement between the side guide bar 307, side guide bar 307 can retract the inside of side hollow tube 305, this process, the process that can make the plug wire is gentler, avoid the part of too big pressure damage junction, furthermore, after main road cable 4 is connected stably, main spring 313 can also guarantee the firm grafting of transmission pin 303 and main road cable 4, in addition, novel takeover 5 possesses above-mentioned effect equally.

Example three:

referring to fig. 6, an inner end tube 311 is fixedly disposed at an end of the main tube 301 far from the terminal block 302, an inner live tube 310 is fixedly disposed on the other surface of the inner live tube 306, the inner live tube 310 is movably inserted into the inner end tube 311, an inclined spring 312 is fixedly connected to an outer wall of one end of the inner live tube 310 and an inner wall of one end of the inner end tube 311 at equal intervals, an annular auxiliary supporting band 308 is fixedly disposed on a surface of the inner live tube 306 close to the terminal block 302, an elastic branch band 309 is fixedly disposed at an equal interval on an edge of the annular auxiliary supporting band 308, and a terminal of the elastic branch band 309 is fixedly connected to an inner wall of the main tube 301, when the main cable 4 is obliquely pulled, the terminal block 302 and the inner live tube 306 will be simultaneously deflected, at this time, the inner live tube 306 is deflected, the elastic branch band 309 in a corresponding direction will be pulled, and the inner live tube 310 at the terminal of the inner live tube 306 will also be deflected inside the inner end tube 311, the bias spring 312 in the corresponding direction will be in either a compressed or an extended state.

The working principle of the invention is as follows: when main road cable 4 receives the inclined to drag, wiring board 302 will take place the skew with interior loose plate 306 simultaneously, at this moment, interior loose plate 306 squints, it will receive to drag to correspond ascending elasticity branch area 309, and, interior loose plate 306 is terminal interior loose tube 310 also can be inside squint at interior pipe 311, it will be in compression or tensile state to correspond ascending oblique position spring 312 of direction, the unexpected fracture condition that the inside part of wiring terminal leads to because oblique pressure has effectively been solved, reduce main road cable 4 and buckle the influence to inside part, reduce the risk of fracture damage, increase of service life, under the prerequisite of guaranteeing signal normal transmission, traditional fixed part has been changed, make its inside component more nimble, in addition, novel takeover 5 possesses above-mentioned effect equally.

Example four:

referring to fig. 5 and 7, an inner wall of the main pipe body 301 near the terminal plate 302 is fixedly connected with an oblique locking spring plate 314 at equal intervals, one end of the oblique locking spring plate 314 movably penetrates through the inner wall of the main pipe body 301, the tail end of the oblique locking spring plate 314 is fixedly connected with an extension piece 315, the tail end of the main pipe cable 4 is provided with a connector 401, the connecting end of the connector 401 is inserted into the transmission pin 303, the outer surface of the connecting end of the connector 401 is fixedly provided with a protective pipe 402, the edge of the protective pipe 402 is fixedly provided with locking holes 403 at equal intervals, the protective pipe 402 is movably inserted into one end of the main pipe body 301, one end of the oblique locking spring plate 314 is movably clamped inside the locking holes 403, during the insertion process of the connector 401 and the main pipe body 301, the protective pipe 402 contacts the inclined surface of the oblique locking spring plate 314 to press the oblique locking spring plate 314, after the insertion, the oblique locking spring plate 314 is clamped into the corresponding locking holes 403, when main road cable 4 receives unexpected the dragging, the right-angle side of slant locking shell fragment 314 can push up locking hole 403 to avoid main road cable 4 to take over 3 unexpected the breaking away from with novel owner.

Referring to fig. 8, a petal-shaped sliding tube 404 is slidably sleeved on the outer surface of the connector 401, connecting petals are equidistantly arranged at one end of the petal-shaped sliding tube 404, oblique ejecting pieces 405 are fixedly connected to both sides of one end of each connecting petal, the two oblique ejecting pieces 405 are movably clamped on the inner surface of one extension piece 315, the petal-shaped sliding tube 404 is moved, the oblique ejecting pieces 405 connected to one end of each connecting petal are clamped on both sides of the inner surface of one extension piece 315, and then the corresponding extension pieces 315 pull the oblique locking elastic pieces 314 according to the inclined plane direction of the oblique ejecting pieces 405, so that the oblique locking elastic pieces 314 are separated from the locking holes 403.

The working principle of the invention is as follows: in the process of splicing the connector 401 with the main pipe body 301, the protective pipe 402 can contact the inclined surface of the inclined locking elastic sheet 314 to extrude the inclined locking elastic sheet 314, after splicing is completed, the inclined locking elastic sheet 314 can be clamped into the corresponding locking hole 403, when the main route cable 4 is accidentally pulled, the right-angle side of the inclined locking elastic sheet 314 can tightly support the locking hole 403, so that the main route cable 4 is prevented from being accidentally separated from the novel main connecting pipe 3, normal data transmission is ensured, and the condition that one end is disconnected is avoided;

in addition, when main road cable 4 and novel main takeover 3 need to be separated, remove petal slide 404, connect the oblique ejecting piece 405 card of lamella one end with it in the internal surface both sides of an extension piece 315, then according to the inclined plane direction of oblique ejecting piece 405, the extension piece 315 that corresponds can drag oblique locking shell fragment 314, makes oblique locking shell fragment 314 break away from inside locking hole 403, and then realizes the work of separating between them.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (10)

1. The utility model provides a power divider of equal distribution power voltage, includes power divider main part (1), its characterized in that: the novel power divider is characterized in that the power divider main body (1) is internally and movably provided with the splitters (2) at one end at equal intervals, the outer wall of one side of the power divider main body (1) is fixedly provided with a novel main connecting pipe (3), the tail end of the novel main connecting pipe (3) is connected with a main path cable (4) in an assembling manner, and the outer wall of the other side of the power divider main body (1), which deviates from the novel main connecting pipe (3), is fixedly connected with novel connecting pipes (5) at equal intervals;

the power divider main body (1) further comprises a first power dividing shell (101) and a second power dividing shell (102), the first power dividing shell (101) and the second power dividing shell (102) are symmetrically combined and assembled through screws, branch channels I (104) are fixedly arranged on the inner surface of the second power dividing shell (102) at equal intervals, and a main channel I (103) is fixedly arranged on one side, close to the novel main connecting pipe (3), of the inner surface of the second power dividing shell (102);

the fixed branch way two (106) that is provided with of internal surface equidistance of casing (101) is divided to the merit, just the transmission resistance of branch way one (104) is greater than the transmission resistance of branch way two (106), casing (102) internal surface is divided to the merit is close to novel main one side of taking over (3) is fixed and is provided with main passageway two (105), branch way two (106) are close to the one end of main passageway two (105) all is provided with screw hole (107), just screw hole (107) all run through in casing (101) is divided to the merit, casing (101) outer wall is divided to the merit is located the one end of screw hole (107) all is provided with the screwed pipe.

2. The power divider for equally dividing power voltage according to claim 1, wherein: the tap (2) further comprises a screw rod (201), the screw rod (201) respectively and movably penetrates through the screw rod hole (107), the screw rod (201) is in threaded connection with the screw pipe, and one end of the screw rod (201) is located outside the power divider main body (1) and is fixedly provided with a knob (202).

3. The power divider for equally dividing power voltage according to claim 2, wherein: the other end of the screw rod (201) is located inside the power divider main body (1) and is rotatably connected with a transmission rod (203), and two ends of the transmission rod (203) are fixedly provided with transmission contact blocks (204).

4. The power divider for equally dividing power voltage according to claim 3, wherein: the main channel I (103), the branch channel I (104), the main channel II (105), the branch channel II (106), the transmission rod (203) and the transmission contact block (204) are made of the same material, and the branch channel I (104), the branch channel II (106) and the screw rods (201) are in the same number.

5. The power divider for equally dividing power voltage according to claim 1, wherein: novel main takeover (3) still include and be responsible for the body (301), the inside activity of one end of being responsible for body (301) is provided with wiring board (302), the fixed transmission round pin (303) that is provided with of outer wall of wiring board (302), the inner wall fixedly connected with data line (304) of wiring board (302), the end-to-end connection of data line (304) has two data connection end one, and two data connection end one respectively with main entrance one (103) and main entrance two (105) are connected.

6. The power divider for equally dividing power voltage according to claim 5, wherein: the novel main adapter tube (3) and the novel adapter tube (5) are identical in internal structure, a second data line is arranged inside the novel adapter tube (5), the tail end of the second data line is connected with a second data connecting end, and the second data connecting end is connected with the first branch channel (104) and the second branch channel (106) respectively.

7. The power divider for equally dividing power voltage according to claim 5, wherein: the inside of being responsible for body (301) is provided with interior flap (306), the both sides inner wall of wiring board (302) all is fixed and is provided with side empty pipe (305), interior flap (306) are close to the both sides wall of wiring board (302) all is fixed and is provided with side guide arm (307), and side guide arm (307) slip insert in the inside of side empty pipe (305), interior flap (306) with fixedly connected with main spring (313) between the wiring board (302) adjacent surface, just data line (304) activity run through in main spring (313).

8. The power divider of claim 7, wherein the power divider for equally dividing power voltage comprises: an inner end pipe (311) is fixedly arranged at one end, far away from the wiring board (302), in the main pipe body (301), an inner movable pipe (310) is fixedly arranged on the other surface of the inner movable pipe (306), the inner movable pipe (310) is movably inserted into the inner end pipe (311), and inclined springs (312) are fixedly connected in front of the outer wall of one end of the inner movable pipe (310) and the inner wall of one end of the inner end pipe (311) at equal intervals;

the surface of the inner flap (306) close to the wiring board (302) is fixedly provided with an annular auxiliary supporting belt (308), the edge of the annular auxiliary supporting belt (308) is equidistantly and fixedly provided with elastic branch belts (309), and the tail ends of the elastic branch belts (309) are fixedly connected with the inner wall of the main pipe body (301).

9. The power divider for equally dividing power voltage according to claim 8, wherein: the inner wall of one end, close to the wiring board (302), of the main pipe body (301) is fixedly connected with an inclined locking elastic sheet (314) in an equidistant mode, one end of the inclined locking elastic sheet (314) movably penetrates through the inner wall of the main pipe body (301), and the tail end of the inclined locking elastic sheet (314) is fixedly connected with an extension sheet (315).

10. The power divider for equally dividing power voltage according to claim 9, wherein: a connector (401) is arranged at the tail end of the main path cable (4), the connecting end of the connector (401) is spliced with the transmission pin (303), a protective pipe (402) is fixedly arranged on the outer surface of the connecting end of the connector (401), locking holes (403) are fixedly formed in the edge of the protective pipe (402) at equal intervals, the protective pipe (402) is movably inserted into one end of the main pipe body (301), and one end of the inclined locking elastic sheet (314) is movably clamped in the locking holes (403);

connector (401) surface slip cover is equipped with lamella form slide pipe (404), lamella form slide pipe (404) one end equidistance is provided with the connection lamella, the equal fixedly connected with slant ejection piece (405) in one end both sides of connecting the lamella, two slant ejection piece (405) and activity joint are in one the internal surface of extension piece (315).

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