CN111740370B - Composite material cable support for electric pipe well - Google Patents

Abstract

The invention provides a composite material cable support for an electric tube well, which comprises a vertical plate and a cable clamping and supporting mechanism, wherein the vertical plate is provided with a vertical plate; the riser is equipped with two sets ofly and passes through horizontal slider slidable mounting respectively on the bottom plate, and horizontal slider clamps on horizontal card rail, and is two sets of the top outside of riser still is equipped with the upper plate respectively, and rotates from inside to outside in proper order between upper plate and the lower plate and inlay threaded rod A, threaded rod B and threaded rod C, cable screens supporting mechanism is equipped with three sets of and installs respectively between two sets of risers. The square connecting frames with corresponding quantity can be connected between the first vertical sliding blocks and the second vertical sliding blocks according to the number of the cables in the pipe well, the cables which are inserted are clamped and fixed, the positions of the square strips on the adjusting rods only need to be adjusted, the square strips are clamped with the square punched holes in the rotating cylinders corresponding to the bottom sides of the threaded cylinders on the cable clamping supporting mechanisms respectively, and the height of the cable clamping supporting mechanism can be changed by the aid of the rotatable adjusting rods.

Description

Composite material cable support for electric pipe well

Technical Field

The invention belongs to the technical field of cable laying equipment, and particularly relates to a composite material cable support for an electric tube well.

Background

The cable trench is an underground pipeline used for laying and replacing electric power or telecommunication cable facilities, a cable support is generally used for erecting cables in the cable trench, the existing cable construction generally adopts a method of firstly laying the cable support on the cable trench and then erecting the cables, and the support needs to be fixed in advance by adopting the method, so that the cables are not easy to lay.

If the application number is: CN201921567346.4 discloses a detachable cable holder, which comprises a cable holder with a U-shaped opening, arc-shaped grooves are equidistantly arranged on two symmetrical sides of the cable holder, the cable holder is connected with a support plate through a connecting device, a plurality of connecting holes are arranged on the side surface of the cable holder, a connecting groove is arranged on the lower end of the cable holder, the upper end of the cable holder is connected with another cable holder through an extending device, the connecting device comprises a round rod and a connecting plate, two ends of the round rod are slidably connected with the arc-shaped grooves on the two sides, the middle section of the round rod is fixedly connected with the upper end of the connecting plate, the cable holder and the support plate of the detachable cable holder can be folded together, the detachable cable holder is convenient to carry, the support plate can be erected at a proper height according to actual conditions during use, and a proper number of support plates can be selected, lay more easily, the workman can not collide with the support moreover, and the security is better, can also reduce the cost of laying.

Based on the foregoing, the existing cable support is usually only single to carry out the screens to the cable fixed, and when the cable advances to support and fix in the pipe well, the quantity and the height of the cable need to be adjusted, so that a cable support capable of adjusting according to the number of the cables and the height of the cable support is needed.

Disclosure of Invention

In order to solve the technical problems, the invention provides a composite material cable support for an electric tube well, which aims to solve the problems that cables are only clamped and fixed singly, and the cables in the tube well need to be adjusted according to the number and the height of the cables when being supported and fixed.

The purpose and the effect of the composite material cable support for the electric tube well are achieved by the following specific technical means:

a composite material cable support for an electric tube well comprises a vertical plate and a cable clamping and supporting mechanism; the lower extreme of riser is connected with down the fishplate bar, and down the fishplate bar passes through hexagon bolt and connects at the top of horizontal slider, the riser is equipped with two sets ofly and respectively through horizontal slider slidable mounting on the bottom plate, and horizontal slider clamps on horizontal card rail, the both ends of bottom plate still are equipped with the ground bolt jack respectively, and are two sets of the top outside of riser still is equipped with the fishplate bar respectively, and rotates from inside to outside in proper order between fishplate bar and the lower fishplate bar and inlay threaded rod A, threaded rod B and threaded rod C, and threaded rod A, threaded rod B and threaded rod C's bottom passes down the fishplate bar and has clamped vertical bevel gear respectively, cable screens supporting mechanism is equipped with three groups and installs respectively between two sets of risers, and cable screens supporting mechanism still slides with vertical card rail respectively, and vertical card rail establishes respectively and clamps the end in the inboard of.

Furthermore, the bottom ends of the threaded rod A, the threaded rod B and the threaded rod C are clamped by vertical bevel gears which are respectively in meshing connection with a transverse bevel gear, the transverse bevel gears are fixedly installed on a rotary cylinder, the rotary cylinder is rotatably embedded in a clamping frame, and one end of the clamping frame is upwards connected to the bottom of the lower connecting plate.

Furthermore, the middle of the rotary cylinder is also provided with a square through hole, the adjusting rod is inserted in the square through hole, the adjusting rod comprises a driving rod, an external thread cylinder and a linkage rod, the external thread cylinder is fixedly connected to the front end of the driving rod, and the linkage rod is inserted in the external thread cylinder.

Further, be equipped with the bar form breach of symmetric distribution on the external screw thread section of thick bamboo, the front end of gangbar is equipped with two sets of symmetric distribution's fixture block respectively, when the gangbar inserted inside the external screw thread section of thick bamboo, the fixture block blocked respectively in the breach and fixed through two sets of lock position ring screens on the external screw thread section of thick bamboo.

Furthermore, be connected with a set of square A on the actuating lever, the external diameter of actuating lever and square A go up the side length the same, be connected with a set of square B on the gangbar, the external diameter of gangbar is the same with square B goes up the side length, square A and square B size unanimity and respectively with the square perforation block on the rotatory section of thick bamboo, when square A blocked with the square perforation on the rotatory section of thick bamboo under threaded rod A, square B just in time blocked with the square perforation on the rotatory section of thick bamboo under the opposite side threaded rod C.

Further, cable screens supporting mechanism is including vertical slider one, jack A, vertical slider two, jack B, spring, square connection frame, cable fixed cylinder, rubber pad, bolted connection between vertical slider one and the vertical slider two, and the shank of bolt is gone up still to overlap and is equipped with the spring and pass jack A and jack B respectively and twist and connect and have the nut, and in jack A and jack B were arranged respectively in at the both ends of spring, also through hexagon socket head cap screw connection and still through hexagon socket head cap screw connection respectively on vertical slider one and vertical slider two between the square connection frame.

Furthermore, the outer ends of the first vertical sliding blocks are respectively connected with an adjusting frame, the inner side ends of the adjusting frames are respectively attached to the vertical plates, and the middles of transverse plates at the outer ends of the adjusting frames are respectively and fixedly provided with an internal thread cylinder; the left side end of the upper end group cable clamping support mechanism is connected with the left corresponding threaded rod A in a threaded engagement mode, and the right side end of the upper end group cable clamping support mechanism is connected with the right corresponding threaded rod C in a threaded engagement mode; the threaded cylinders at the two ends of the middle cable clamping support mechanism are respectively connected with the corresponding threaded rods B through threaded engagement; the left end of the lower end group cable clamping support mechanism is provided with a threaded cylinder which is meshed with the threaded rod C corresponding to the left side, and the right end of the lower end group cable clamping support mechanism is provided with a threaded cylinder which is meshed with the threaded rod A corresponding to the right side.

Furthermore, a semicircular clamping groove is formed in the square connecting frame, the cable fixing cylinder is of a semicircular structure and is clamped in the semicircular clamping groove, and a rubber pad is further arranged on the inner side of the upper semicircular arc of the cable fixing cylinder.

The invention at least comprises the following beneficial effects:

according to the invention, through arranging the cable clamping and supporting mechanism, square connecting frames with corresponding quantity are connected between the first vertical sliding blocks and between the second vertical sliding blocks according to the number of cables in the pipe well, semi-circular clamping grooves of the connecting frames above the second vertical sliding blocks are downward, the square connecting frames on the second vertical sliding blocks are downward moved by fastening bolts between the first vertical sliding blocks and the second vertical sliding blocks, and inserted cables are clamped and fixed by utilizing cable fixing cylinders in the square connecting frames to be matched with cable fixing cylinders in the connecting frames above the first vertical sliding blocks.

Secondly, the invention connects the two ends of the cable position-clamping supporting mechanism with the screw rod through the internal screw thread cylinder respectively, and the bottom end of the screw rod is connected with the vertical bevel gear, the square bars on the driving rod and the linkage rod are respectively clamped with the square through holes on the corresponding rotary cylinder through adjusting the adjusting rod, so that the corresponding rotary cylinders are respectively driven to rotate through the rotating adjusting rod, and the corresponding transverse bevel gear is driven to rotate, thereby the corresponding screw rod is driven to rotate, one group of the cable position-clamping supporting mechanism slides upwards or downwards, the driving rod and the linkage rod pass through the square through holes on the other rotary cylinders and are not clamped with the square through holes, the other rotary cylinders can not be driven to rotate, when the height of the other group of the cable position-clamping supporting mechanism needs to be adjusted, only the position of the square bar on the adjusting rod is required to be adjusted, and the square bar is respectively clamped with the square through holes in the, therefore, the height of the cable clamping and supporting mechanism can be changed by rotating the adjusting rod again, the operation is more convenient, and the height of the cable clamping and supporting mechanism can be adjusted only according to needs.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic front view of fig. 1 according to the present invention.

Fig. 3 is an enlarged schematic view of the structure at a in fig. 2 according to the present invention.

Fig. 4 is a schematic view of the overall structure of the transverse bevel gear, the rotary drum and the clamp frame in the present invention.

Fig. 5 is a structural schematic diagram of an upper end group cable clamping and supporting mechanism of the invention.

Fig. 6 is a structural schematic diagram of the middle group cable clamping support mechanism of the invention.

Fig. 7 is a schematic view of the split structure of fig. 6 according to the present invention.

Fig. 8 is a schematic view of the structure of fig. 7 according to another embodiment of the present invention.

Fig. 9 is a structural schematic diagram of a lower end group cable clamping and supporting mechanism of the invention.

Fig. 10 is a schematic view showing the overall structure of the adjusting lever of the present invention.

Fig. 11 is an enlarged view of the structure of fig. 10 at B.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a base plate; 101. a ground bolt jack; 102. transversely clamping the rail; 2. a vertical plate; 201. a lower connecting plate; 202. a transverse slide block; 203. vertically clamping the rail; 204. an upper connecting plate; 205. a threaded rod A; 206. a threaded rod B; 207. a threaded rod C; 208. a vertical bevel gear; 209. a transverse bevel gear; 2091. a rotary drum; 2092. clamping a frame; 3. a cable clamping support mechanism; 301. a first vertical sliding block; 3011. a jack A; 3012. an adjusting frame; 302. a second vertical sliding block; 3021. a jack B; 303. a spring; 304. a square connecting frame; 305. a cable fixing cylinder; 306. a rubber pad; 307. an internal threaded barrel; 4. adjusting a rod; 401. a drive rod; 4011. a square bar A; 402. an externally threaded barrel; 4021. a notch; 4022. a position locking ring; 403. a linkage rod; 4031. a clamping block; 4032. and (5) square bars B.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "coaxial," "bottom," "one end," "top," "middle," "other end," "upper," "side," "top," "inner," "front," "center," "two ends," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing and simplifying the description, and are not intended to indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be understood broadly, and for example, they may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

Example (b):

as shown in figures 1 to 11:

the invention provides a composite material cable support for an electric tube well, which comprises a vertical plate 2 and a cable clamping support mechanism 3; the lower end of the vertical plate 2 is connected with a lower connecting plate 201, the lower connecting plate 201 is connected with the top of the transverse sliding block 202 through a hexagon bolt, two groups of vertical plates 2 are arranged and are respectively arranged on the bottom plate 1 through the transverse sliding block 202 in a sliding way, and the transverse slide block 202 is clamped on the transverse clamping rail 102, the two ends of the bottom plate 1 are respectively provided with a ground bolt jack 101, the outer sides of the top ends of the two groups of vertical plates 2 are respectively provided with an upper connecting plate 204, and a threaded rod A205, a threaded rod B206 and a threaded rod C207 are rotatably embedded between the upper connecting plate 204 and the lower connecting plate 201 from inside to outside in sequence, vertical bevel gears 208 are respectively clamped on the bottom ends of the threaded rod A205, the threaded rod B206 and the threaded rod C207 which penetrate through the lower connecting plate 201 downwards, three groups of cable clamping and supporting mechanisms 3 are respectively arranged between the two groups of vertical plates 2, and the cable clamping support mechanisms 3 are respectively clamped with the vertical clamping rails 203 in a sliding manner, and the vertical clamping rails 203 are respectively arranged at the vertical ends of the inner sides of the two groups of vertical plates 2.

As shown in fig. 2 and 3, vertical bevel gears 208 clamped at the bottom ends of the threaded rods a205, B206 and C207 are respectively engaged with horizontal bevel gears 209, the horizontal bevel gears 209 are fixedly mounted on the rotary barrel 2091, the rotary barrel 2091 is rotatably embedded in the snap frame 2092, and one end of the snap frame 2092 is connected to the bottom of the lower plate 201 upward, when the horizontal slider 202 moves inward or outward, the snap frame 2092 can drive the rotary barrel 2091 and the horizontal bevel gears 209 to move inward or outward synchronously, so that the horizontal bevel gears 209 are engaged with the corresponding vertical bevel gears 208 all the time, and when the rotary barrel 2091 drives the horizontal bevel gears 209 to rotate, the corresponding vertical bevel gears 208 can be driven to rotate, so that the corresponding threaded rods a205, B206 or C207 rotate.

As shown in fig. 3 and 4, a square through hole is further formed in the middle of the rotary barrel 2091, the adjusting rod 4 is inserted into the square through hole, the adjusting rod 4 includes three parts, i.e., a driving rod 401, an external thread barrel 402 and a linkage rod 403, the external thread barrel 402 is fixedly connected to the front end of the driving rod 401, and the linkage rod 403 is inserted into the external thread barrel 402, wherein as shown in fig. 10 and 11, the external thread barrel 402 is provided with symmetrically distributed strip-shaped notches 4021, the front end of the linkage rod 403 is respectively provided with two groups of symmetrically distributed fixture blocks 4031, when the linkage rod 403 is inserted into the external thread barrel 402, the fixture blocks 4031 are respectively clamped in the notches 4021 and are clamped and fixed by two groups of locking rings 4022 on the external thread barrel 402, wherein as shown in fig. 2, 3 and 10, the driving rod 401 is connected with a group of square bars a4011, the outer diameter of the driving rod 401 is the same as the side length of the square bars a4011, the linkage rod, the outer diameter of the linkage rod 403 is the same as the side length of a square on the square bar B4032, the square bar A4011 and the square bar B4032 are the same in size and are respectively clamped with square through holes on the rotary barrel 2091, when the square bar A4011 is clamped with the square through holes on the rotary barrel 2091 right below the threaded rod A205, the square bar B4032 is just clamped with the square through holes on the rotary barrel 2091 right below the threaded rod C207 on the other side, so that the connecting position of the linkage rod 403 and the external thread barrel 402 is convenient to adjust, when the positions of the two groups of transverse sliding blocks 202 on the bottom plate 1 are adjusted, the connecting position of the linkage rod 403 and the external thread barrel 402 is changed, when the square bar A4011 is clamped with the square through holes on the rotary barrel 2091 right below the threaded rod A205, the square bar B4032 is just clamped with the square.

The cable clamping support mechanism 3 comprises a first vertical slider 301, a jack A3011, a second vertical slider 302, a jack B3021, a spring 303, a square connecting frame 304, a cable fixing cylinder 305 and a rubber pad 306, the first vertical slider 301 is connected with the second vertical slider 302 through a bolt, a bolt rod is further sleeved with the spring 303 and is screwed with a nut through the jack A3011 and the jack B3021 respectively, two ends of the spring 303 are arranged in the jack A3011 and the jack B3021 respectively, the square connecting frame 304 is also connected with the first vertical slider 301 and the second vertical slider 302 through an inner hexagonal bolt and is further connected with the first vertical slider 301 and the second vertical slider 302 through an inner hexagonal bolt respectively, as shown in fig. 1 and 2, the outer end of the first vertical slider 301 is further connected with an adjusting frame 3012 respectively, the inner side end of the adjusting frame 3012 is further attached to the vertical plate 2 respectively, and a cylinder internal thread is fixedly mounted in the middle of a transverse plate 307 of the adjusting; the internal thread barrel 307 at the left side end of the upper-end group cable clamping support mechanism 3 is in threaded engagement with the corresponding threaded rod A205 at the left side, and the internal thread barrel 307 at the right side end is in threaded engagement with the corresponding threaded rod C207 at the right side; the internal thread cylinders 307 at the two ends of the middle cable clamping support mechanism 3 are respectively connected with the corresponding threaded rods B206 through thread engagement; the internal thread cylinder 307 at the left side end of the lower end group cable clamping support mechanism 3 is in threaded engagement with the threaded rod C207 corresponding to the left side, the internal thread cylinder 307 at the right side end is in threaded engagement with the threaded rod A205 corresponding to the right side, as shown in fig. 7 and 8, semicircular clamping grooves are formed in the square connecting frames 304, the cable fixing cylinders 305 are of semicircular structures and are clamped in the semicircular clamping grooves, rubber pads 306 are further arranged on the inner sides of the upper arcs of the cable fixing cylinders 305, square connecting frames 304 in corresponding numbers can be connected between the first vertical sliding blocks 301 and between the second vertical sliding blocks 302 according to the number of cables in a pipe well, the semicircular clamping grooves of the square connecting frames 304 above the second vertical sliding blocks 302 face downwards, bolts between the first vertical sliding blocks 301 and the second vertical sliding blocks 302 are fastened, the square connecting frames 304 on the second vertical sliding blocks 302 move downwards, and the cable fixing cylinders 305 in the square connecting frames 304 are matched with the cable fixing cylinders 305 in the square connecting frames 304 above the first vertical sliding blocks 301 Screens and fixes the cable that alternates, sets up rubber pad 306 in cable fixing cylinder 305 simultaneously, can play the guard action to the cable, prevents that the cable from rubbing in cable fixing cylinder 305 and damaging.

The specific use mode and function of the embodiment are as follows:

in the invention, the distance between two groups of transverse sliding blocks 202 on a bottom plate 1 is adjusted according to the number of cables in a pipe well, square connecting frames 304 with corresponding number are connected between first vertical sliding blocks 301, semi-circular clamping grooves of the connecting frames 304 above the first vertical sliding blocks 301 are upward, cable fixing cylinders 305 are respectively clamped in the semi-circular grooves, the cables are respectively arranged in the cable fixing cylinders 305, then the square connecting frames 304 with corresponding number are connected between second vertical sliding blocks 302, the semi-circular clamping grooves of the connecting frames 304 above the second vertical sliding blocks 302 are downward and are opposite to the semi-circular clamping grooves of the connecting frames 304 above the first vertical sliding blocks 301, the cable fixing cylinders 305 are respectively arranged in the semi-circular clamping grooves of the connecting frames 304 above the second vertical sliding blocks 302, and the square connecting frames 304 on the second vertical sliding blocks 302 are downward moved by fastening bolts between the first vertical sliding blocks 301 and the second vertical sliding blocks 302, the cable fixing barrel 305 in the square connecting frame 304 is matched with the cable fixing barrel 305 in the upper square connecting frame 304 of the vertical sliding block I301 to clamp and fix the inserted cable, and the rubber pad 306 in the cable fixing barrel 305 is used for protecting the cable;

secondly, when the connecting position of the linkage rod 403 and the external thread cylinder 402 is adjusted to enable the square strip A4011 to be engaged with the square perforation on the rotary cylinder 2091 right below the threaded rod A205, the square strip B4032 is just engaged with the square perforation on the rotary cylinder 2091 right below the threaded rod C207 on the other side, the linkage rod 403 is engaged and fixed through two sets of locking rings 4022 on the external thread cylinder 402, the drive rod 401 is rotated and the linkage rod 403 is driven to synchronously rotate through the external thread cylinder 402, so that the corresponding rotary cylinder 2091 is driven to rotate through the square strip A4011 and the square strip B4032 respectively, and the corresponding transverse bevel gear 209 is driven to rotate, so that the corresponding threaded rod rotates, and under the action of the thread cylinders 207 at the two ends of the cable clamping support mechanism 3, one set of the cable clamping support mechanism 3 slides upwards or downwards, and the drive rod 401 and the linkage rod 403 pass through the upper-shaped perforations of the other rotary cylinders 2091 and are not engaged with the, can not drive all the other rotatory section of thick bamboo 2091 and rotate, when another group of cable screens supporting mechanism 3 height is adjusted to needs, only need adjust the position of adjusting the strip above the pole 4, make square strip A4011 and square strip B4032 respectively with this cable screens supporting mechanism 3 go up the interior square perforation block of rotatory section of thick bamboo 2091 that screw thread section of thick bamboo 207 bottom side corresponds can, thereby can rotate actuating lever 401 once more and change this group of cable screens supporting mechanism 3 height, it is more convenient to operate, only need as required adjust cable screens supporting mechanism 3 the height can.

The invention is not described in detail, but is well known to those skilled in the art.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (4)

1. The utility model provides an electrical tube is combined material cable support for well which characterized in that: comprises a vertical plate (2) and a cable clamping support mechanism (3); the lower end of the vertical plate (2) is connected with a lower connecting plate (201), the lower connecting plate (201) is connected to the top of the transverse sliding block (202) through a hexagonal bolt, two groups of vertical plates (2) are arranged and are respectively slidably mounted on the bottom plate (1) through the transverse sliding block (202), the transverse sliding block (202) is clamped on the transverse clamping rail (102), two ends of the bottom plate (1) are respectively provided with a ground bolt jack (101), the outer sides of the top ends of the two groups of vertical plates (2) are respectively provided with an upper connecting plate (204), a threaded rod A (205), a threaded rod B (206) and a threaded rod C (207) are sequentially rotatably embedded between the upper connecting plate (204) and the lower connecting plate (201) from inside to outside, the bottom ends of the threaded rod A (205), the threaded rod B (206) and the threaded rod C (207) downwards penetrate through the lower connecting plate (201) and are respectively clamped with a vertical bevel gear (208), the cable clamping support mechanism (3) is provided, the cable clamping support mechanisms (3) are respectively clamped with the vertical clamping rails (203) in a sliding manner, and the vertical clamping rails (203) are respectively arranged at the vertical ends of the inner sides of the two groups of vertical plates (2);

the outer ends of the first vertical sliding blocks (301) are respectively connected with an adjusting frame (3012), the inner side ends of the adjusting frames (3012) are respectively attached to the vertical plates (2), and the middles of transverse plates at the outer ends of the adjusting frames (3012) are respectively fixedly provided with an internal thread cylinder (307); an internal thread cylinder (307) at the left side end of the upper-end group cable clamping support mechanism (3) is in threaded engagement connection with a threaded rod A (205) corresponding to the left side, and an internal thread cylinder (307) at the right side end is in threaded engagement connection with a threaded rod C (207) corresponding to the right side; the internal thread cylinders (307) at the two ends of the middle group cable clamping support mechanism (3) are respectively connected with the corresponding threaded rods B (206) in a threaded engagement manner; an internal thread cylinder (307) at the left side end of the lower-end group cable clamping support mechanism (3) is in threaded engagement connection with a threaded rod C (207) corresponding to the left side, and an internal thread cylinder (307) at the right side end is in threaded engagement connection with a threaded rod A (205) corresponding to the right side;

the bottom ends of the threaded rod A (205), the threaded rod B (206) and the threaded rod C (207) are clamped with vertical bevel gears (208) which are respectively engaged with transverse bevel gears (209), the transverse bevel gears (209) are fixedly mounted on a rotary barrel (2091), the rotary barrel (2091) is rotatably embedded in a clamping frame (2092), and one end of the clamping frame (2092) is upwards connected to the bottom of the lower connecting plate (201);

the middle of the rotating barrel (2091) is also provided with a square through hole, the adjusting rod (4) is inserted in the square through hole, the adjusting rod (4) comprises three parts, namely a driving rod (401), an external thread barrel (402) and a linkage rod (403), the external thread barrel (402) is fixedly connected to the front end of the driving rod (401), and the linkage rod (403) is inserted in the external thread barrel (402);

cable screens supporting mechanism (3) are including vertical slider (301), jack A (3011), two (302) of vertical slider, jack B (3021), spring (303), square connection frame (304), the fixed section of thick bamboo of cable (305), rubber pad (306), bolted connection between vertical slider (301) and the two (302) of vertical slider, and on the shank of bolt still the cover be equipped with spring (303) and pass jack A (3011) and jack B (3021) respectively and twist and connect the nut, jack A (3011) and jack B (3021) are arranged respectively in at the both ends of spring (303), also through hexagon socket head cap screw connection and still through hexagon socket head cap screw connection respectively on vertical slider (301) and two (302) between square connection frame (304).

2. The composite cable support for an electric gas well according to claim 1, wherein: the external thread cylinder (402) is provided with strip-shaped notches (4021) which are symmetrically distributed, the front end of the linkage rod (403) is provided with two groups of clamping blocks (4031) which are symmetrically distributed respectively, and when the linkage rod (403) is inserted into the external thread cylinder (402), the clamping blocks (4031) are clamped in the notches (4021) respectively and are clamped and fixed through two groups of locking rings (4022) on the external thread cylinder (402).

3. The composite cable support for an electric gas well according to claim 1, wherein: the square-shaped driving rod is characterized in that a group of square bars A (4011) are connected to the driving rod (401), the outer diameter of the driving rod (401) is as long as the square on the square bars A (4011), a group of square bars B (4032) are connected to the linkage rod (403), the outer diameter of the linkage rod (403) is as long as the square on the square bars B (4032), the square bars A (4011) and the square bars B (4032) are identical in size and are respectively clamped with the square through holes on the rotary barrel (2091) right below the square bars A (4011), and when the square through holes on the rotary barrel (2091) right below the square bars A (4011) and the threaded rod A (205) are clamped, the square bars B (4032) are just clamped with the square through holes on the rotary barrel (2091) right below.

4. The composite cable support for an electric gas well according to claim 1, wherein: the cable fixing device is characterized in that a semicircular clamping groove is formed in the square connecting frame (304), the cable fixing cylinder (305) is of a semicircular structure and is clamped in the semicircular clamping groove, and a rubber pad (306) is further arranged on the inner side of the upper semicircular arc of the cable fixing cylinder (305).

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