CN114345585A - Electrical buried fire fighting pipeline treatment equipment for building - Google Patents

Abstract

The invention relates to the technical field of pipeline processing, in particular to buried fire-fighting pipeline processing equipment for building electricity, which comprises a painting module and a supporting module, wherein the supporting module is provided with a pipe body, a plurality of driving modules for driving the painting module to move are arranged in the supporting module, the painting module comprises a sliding box, the bottom surface of the sliding box is in sliding clamping connection with a supporting plate in contact with an adjacent driving module, and the top of the side surface of the sliding box is fixedly connected with a fixing plate. According to the invention, the sponge sleeve is fixedly sleeved on the side surface of the coating rod, the driving module can drive the paint spraying wheel to move through the painting module, the paint is sprayed to the pipe body through the paint spraying wheel, then the coating rod can be moved to a spraying area, the pipe body can be rotated through the supporting module, and thus the sponge sleeve can roll on the pipe body, so that the paint is uniformly painted, the uniformity of the coating is facilitated, and the rust-proof treatment of the surface of the pipeline is facilitated.

Description

Electrical buried fire fighting pipeline treatment equipment for building

Technical Field

The invention relates to the technical field of pipeline processing, in particular to a buried fire pipeline processing device for building electrical.

Background

Fire-fighting pipeline is used for connecting fire-fighting equipment, the equipment, pipeline materials such as water or gas are put out a fire in the transport fire, and when establishing public fire extinguishing system, need bury the underground laying with fire-fighting pipeline sometimes, consequently when fire-fighting pipeline uses, need carry out spray anti rust coating's anti rust treatment to its surface usually, current bury ground fire-fighting pipeline treatment facility when using, directly spray to pipeline surface usually, and when spray coating, the easy spraying of pipeline surface coating is inhomogeneous, be unfavorable for pipeline surface's anti rust treatment, it is comparatively inconvenient to use.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide a buried fire pipeline processing device for building electricity.

The purpose of the invention can be realized by the following technical scheme:

a buried fire fighting pipeline processing device for building electricity comprises a painting module and a supporting module, wherein the supporting module is provided with a pipe body, a plurality of driving modules for driving the painting module to move are arranged in the supporting module, the painting module comprises a sliding box, the bottom surface of the sliding box is slidably clamped with a supporting plate contacted with adjacent driving modules, the top of the side surface of the sliding box is fixedly connected with a fixed plate, one end of the fixed plate is fixedly connected with a paint spraying wheel, the top surface and the inner bottom surface in the sliding box are respectively and slidably connected with a sliding rod, one end of each of the two sliding rods opposite to each other is respectively and fixedly connected with a side rod, the top of the opposite surface of the two side rods is respectively and fixedly connected with a limiting seat, the inner side surface of the limiting seat is rotatably connected with a painting rod, the side surface of the painting rod is fixedly sleeved with a sponge sleeve, and the driving module can drive the paint spraying wheel to move through the painting module, can start the wheel that sprays paint, make coating from the spraying paint wheel inside wall blowout to make coating scribble on the body, after the spraying, can remove the coating pole to the area that the wheel spraying of spraying paint was good, can make the body rotate through the support module at this moment, can make the sponge cover roll on the body like this, thereby scribble evenly with coating, be favorable to the even degree of coating, the rust-resistant treatment's of the pipeline surface of being convenient for goes on.

Further, the method comprises the following steps: the side rotates in the sliding box and is connected with the axis of rotation, the fixed gear that has cup jointed in axis of rotation side, two equal fixedly connected with of the relative medial surface of slide bar and the driven rack of gear engagement, two equal fixedly connected with in side lever opposite face bottom and sliding box fixed connection's spring, a rack can drive another rack through the gear and remove, and the moving direction of two racks is opposite, can make two sponge section of thick bamboo keep synchronous motion like this, and under the effect of spring, can make the sponge cover paste and lean on the body, be favorable to keeping the sponge cover to paste with the body and lean on the elasticity unchangeable to be favorable to improving the even degree of sponge section of thick bamboo coating, and can make and paint the less body of module adaptation pipe diameter.

Further, the method comprises the following steps: the bottom surface of the supporting plate is fixedly connected with a round rod, the driving module comprises a shell, a plurality of driving modules are in end-to-end contact with the shell, two inner side surfaces at the top of the shell are fixedly connected with limiting rods, the limiting rods of the driving modules positioned at the same side of the supporting plate are in end-to-end contact with the inner side surfaces of adjacent limiting rods, the moving direction of the supporting plate can be limited by the limiting rods, the bottom end of the round rod penetrates through the two limiting rods and extends into the shell, a driving rod is arranged in the shell, the driving rods of the driving modules are in end-to-end contact, the side surfaces of the driving rods positioned at two ends are rotatably connected with the inner side surfaces of the adjacent shell, one end of each driving rod is fixedly connected with a rectangular block, the other end of each driving rod is provided with a rectangular groove, and the inner side surface of each rectangular groove is in sliding insertion connection with the side surface of the rectangular block of the adjacent driving module, both sides of the side surface of the driving rod are provided with spiral grooves, the central position of the side surface of the driving rod is provided with an annular groove with one end penetrating through the two spiral grooves, the bottom end of the circular rod is contacted with the inner side surface of the annular groove, the side surface of the shell of the driving module positioned at one end is fixedly connected with a rectangular plate, the top surface of the rectangular plate is fixedly connected with a motor contacted with the shell, the output end of the motor is in transmission connection with a transmission shaft rotationally connected with the inner side surface of the shell, the side surface of the transmission shaft is contacted with the side surface of the driving rod, the side surface of the transmission shaft is fixedly connected with a rectangular rod which is in sliding insertion with the rectangular groove, the motor can drive the transmission shaft to rotate, the transmission shaft can drive the driving rod to rotate by driving the rectangular rod and the rectangular groove, the driving rod can drive the adjacent driving rod to rotate by the rectangular block and the rectangular groove, thereby the driving rods of a plurality of driving modules can keep rotating synchronously, under the effect of a helicla flute on the actuating lever, can make the round bar remove along the gag lever post, the round bar can drive the box that slides through the backup pad and remove, the box that slides can drive the wheel that sprays paint through the fixed plate and remove along the body, thereby make the wheel that sprays paint to the body lateral wall spraying in proper order, when the actuating lever removed the annular groove, the actuating lever continued to rotate, the round bar will stop in the annular groove, thereby the messenger paints the module stop motion, the actuating lever continues to rotate, can make the round bar remove in another helicla flute of actuating lever, at this moment under the effect of another helicla flute, can make the round bar continue to remove, thereby make the round bar carry out intermittent type linear motion.

Further, the method comprises the following steps: the side surface of the sliding rod is provided with a connecting block, the bottom surface of the connecting block is fixedly connected with round blocks which are contacted with the top surface of the shell, the two sides of the top surface of the shell are fixedly connected with arc-shaped plates, the back side surfaces of the two arc-shaped plates are contacted with the side surfaces of the adjacent round blocks, the arc-shaped plates of a plurality of driving modules positioned on the same side of the tube body are contacted end to end, when the round rod moves into the annular groove, the round blocks can move to the corners of the arc-shaped plates, at the moment, under the action of a spring, the side rods can drive the limiting seats to move towards the tube body, so that the sponge sleeves are attached to the outer side wall of the tube body, at the moment, the sponge sleeves can roll on the outer side wall of the tube body, so that the coating is uniformly coated, when the round rod moves, the round blocks can move out of the corners of the arc-shaped plates, at the moment, under the action of the arc-shaped plates, the two round blocks can move back to drive the side rods and the limiting seats to separate the sponge sleeves from the tube body, like this when paining the module and stopping moving, the sponge cover can with the body contact, and when paining the module and removing, the sponge cover will break away from with the body, avoids sponge cover lateral shifting on the body like this, changes the coating distribution on the body, makes the inhomogeneous condition of coating, and easy operation, convenient to use.

Further, the method comprises the following steps: the utility model discloses a coating pipe, including slide bar, connecting block, sponge cover, connecting block, connecting rod, connecting block, adjusting block, connecting block, and sponge, connecting block, and connecting block, connecting block.

Further, the method comprises the following steps: the utility model discloses a drive module, including casing medial surface, supporting seat, screw one and adjacent drive module, the equal fixedly connected with supporting seat in casing medial surface both sides, the supporting seat medial surface rotates and is connected with the bracing piece with the contact of actuating lever side, can support the actuating lever through the bracing piece, the equal fixedly connected with connecting seat in both sides of two sides of casing, two connecting seats that are located the same end of actuating lever all close soon and are connected with screw one, screw one closes soon with adjacent drive module's connecting seat and is connected, can connect adjacent two drive module's casing through screw one, after the use, can unscrew screw one to separate adjacent two drive module's casing, part drive module, the taking in of the treatment facility of being convenient for, and can add or reduce drive module as required when using, thereby adapt to the coating of the body of different length.

Further, the method comprises the following steps: two sides of the supporting plate are connected with a second screw which is connected with the sliding box in a screwing mode, the supporting plate and the sliding box can be clamped through the second screw, the sliding box can be taken down from the supporting plate after the second screw is screwed out, and therefore the sliding box and the like are taken down from the driving module, and the processing equipment is convenient to store.

Further, the method comprises the following steps: the support module comprises two ejector rods, telescopic rods are fixedly connected to two sides of the bottom surface of each ejector rod, a loop bar is fixedly connected to the bottom surface of each ejector rod, an adjusting rod is slidably connected to the bottom of the inner side surface of each loop bar, clamping rods in contact with the inner wall of the pipe body are rotatably connected to the side surfaces of the loop bars and the side surfaces of the adjusting rods, a second lead screw extending into the loop bar is rotatably connected to the top surface of each ejector rod, the bottoms of the two side surfaces of each lead screw are rotatably connected to the inner side surface of each adjusting rod, a power box is fixedly connected to the side surface of one adjusting rod, which is opposite to the clamping rod, a power mechanism is arranged on the inner side surface of the power box, the output end of the power mechanism is in transmission connection with one end of each clamping rod, the clamping rods are inserted into the pipe body, the second lead screws are rotated to move the adjusting rods, so that the distance between the two clamping rods positioned on the same side of the pipe body is increased, the positions at two ends of the pipe body are clamped through the clamping rods, and the clamping rods can adapt to the clamping of pipe bodies with different diameters, and after the pipe body is clamped, the height of the ejector rod can be adjusted through the telescopic rod, so that the pipe body can be positioned in the middle of the paint spraying wheel, the power mechanism can be started, and the power mechanism can drive one clamping rod to rotate, so that the pipe body rotates, and the spraying and coating of the pipe body are facilitated.

The invention has the beneficial effects that:

1. the sponge sleeve is fixedly sleeved on the side face of the coating rod, the driving module can drive the paint spraying wheel to move through the coating module, the paint spraying wheel can be started, and paint is sprayed out of the inner side wall of the paint spraying wheel, so that the paint is coated on the pipe body;

2. through arc template and round piece side contact, the motor can drive the actuating lever and rotate, when the actuating lever rotates, under the effect of helicla flute and annular groove, can make and paint module intermittent type linear motion, when painting the module stop moving, under the effect of arc template and spring, can make sponge cover and body contact, thereby paint evenly with the coating on the body, and when painting the module and removing, under the effect of arc template, can make two round pieces remove mutually away from each other, thereby make sponge cover and body break away from, avoid sponge cover lateral shifting on the body, change the coating distribution on the body, make the inhomogeneous condition of coating, and easy operation, and convenient to use.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of a buried fire fighting pipeline processing device for building electrical use according to the present invention;

FIG. 2 is a side view of the apparatus of the present invention;

FIG. 3 is a schematic structural diagram of a driving module and a coating module according to the present invention;

FIG. 4 is a schematic view of a driving module according to the present invention;

FIG. 5 is a schematic view of the drive rod of the present invention;

FIG. 6 is a rear view of the drive rod of the present invention;

FIG. 7 is a schematic view of the applicator module of the present invention;

FIG. 8 is an inside front view of the slide case of the present invention;

FIG. 9 is a schematic view of a slide bar construction of the present invention;

FIG. 10 is a schematic view of the support module of the present invention;

fig. 11 is a side view of the interior of a loop bar in accordance with the present invention.

In the figure: 100. a drive module; 110. a housing; 111. a connecting seat; 112. a supporting seat; 120. a drive rod; 121. a helical groove; 122. an annular groove; 123. a rectangular groove; 124. a rectangular block; 130. an arc-shaped plate; 140. a limiting rod; 150. a motor; 151. a rectangular rod; 152. a drive shaft; 200. a smearing module; 210. a slide cassette; 211. a fixing plate; 212. a rotating shaft; 213. a gear; 220. a support plate; 221. a round bar; 230. a slide bar; 231. a rack; 232. a fixed seat; 233. a first screw rod; 234. connecting blocks; 235. a round block; 240. a side lever; 250. a limiting seat; 260. a spring; 300. a support module; 310. a top rod; 311. a telescopic rod; 320. a loop bar; 330. adjusting a rod; 340. a second screw rod; 350. a position clamping rod; 360. a power cartridge; 400. a pipe body; 500. a paint spraying wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, an electrical buried fire pipeline processing device for buildings comprises a painting module 200 and a supporting module 300, wherein the supporting module 300 is provided with a pipe 400, the supporting module 300 is internally provided with a plurality of driving modules 100 for driving the painting module 200 to move, the painting module 200 comprises a sliding box 210, the bottom surface of the sliding box 210 is slidably clamped with a supporting plate 220 contacting with an adjacent driving module 100, the top of the side surface of the sliding box 210 is fixedly connected with a fixing plate 211, one end of the fixing plate 211 is fixedly connected with a paint spraying wheel 500, the inner top surface and the inner bottom surface of the sliding box 210 are both slidably connected with sliding rods 230, the opposite ends of the two sliding rods 230 are both fixedly connected with side rods 240, the tops of the opposite surfaces of the two side rods 240 are both fixedly connected with limiting seats 250, the inner side surfaces of the limiting seats 250 are rotatably connected with paint spraying rods, the side surfaces of the coating rods are fixedly sleeved with sponge sleeves, the driving modules 100 can drive the paint spraying wheels 500 to move through the painting module 200, can start the wheel 500 that sprays paint, make coating from the 500 inside wall blowout of wheel that sprays paint to make coating scribble on body 400, after the spraying, can remove the coating pole to the area that wheel 500 sprays paint, can make body 400 rotate through supporting module 300 at this moment, can make the sponge cover roll on body 400 like this, thereby scribble evenly with coating, be favorable to the even degree of coating, the rust-resistant treatment's of the pipeline surface of being convenient for goes on.

The inboard side of slip box 210 rotates and is connected with axis of rotation 212, the fixed gear 213 that has cup jointed in axis of rotation 212 side, the equal fixedly connected with of the relative inboard side of two slide bars 230 meshes driven rack 231 with gear 213, the equal fixedly connected with of the relative bottom of two side levers 240 and the spring 260 of slip box 210 fixed connection, a rack 231 can drive another rack 231 through gear 213 and remove, and the moving direction of two racks 231 is opposite, can make two sponge section of thick bamboo keep synchronous motion like this, and under the effect of spring 260, can make the sponge cover paste on body 400, be favorable to keeping the sponge cover unchangeable with the body 400 of pasting elasticity, thereby be favorable to improving the even degree of sponge section of thick bamboo coating, and can make and paint module 200 adaptation pipe body 400 that the pipe diameter is less.

The bottom surface of the supporting plate 220 is fixedly connected with a round rod 221, the driving modules 100 comprise a shell 110, the shells 110 of a plurality of driving modules 100 are in end-to-end contact, two inner side surfaces at the top of the shell 110 are fixedly connected with limiting rods 140, the limiting rods 140 of the driving modules 100 positioned at the same side of the supporting plate 220 are in end-to-end contact, the side surface of the bottom of the supporting plate 220 is in sliding connection with the inner side surface of the adjacent limiting rod 140, the moving direction of the supporting plate 220 can be limited by the limiting rods 140, the bottom end of the round rod 221 passes through the two limiting rods 140 and extends into the shell 110, a driving rod 120 is arranged in the shell 110, the driving rods 120 of the driving modules 100 are in end-to-end contact, the side surfaces of the driving rods 120 positioned at two ends are in rotating connection with the inner side surface of the adjacent shell 110, one end of the driving rod 120 is fixedly connected with a rectangular block 124, the other end of the driving rod 120 is provided with a rectangular groove 123, the inner side surface of the rectangular groove 123 is in sliding connection with the side surface of the rectangular block 124 of the adjacent driving module 100, both sides of the side surface of the driving rod 120 are provided with spiral grooves 121, the center position of the side surface of the driving rod 120 is provided with an annular groove 122 which is penetrated through by one end opposite to the two spiral grooves 121, the bottom end of the circular rod 221 is contacted with the inner side surface of the annular groove 122, the side surface of the shell 110 of the driving module 100 positioned at one end is fixedly connected with a rectangular plate, the top surface of the rectangular plate is fixedly connected with a motor 150 which is contacted with the shell 110, the output end of the motor 150 is in transmission connection with a transmission shaft 152 which is rotationally connected with the inner side surface of the shell 110, the side surface of the transmission shaft 152 is contacted with the side surface of the driving rod 120, the side surface of the transmission shaft 152 is fixedly connected with a rectangular rod 151 which is in sliding insertion connection with the rectangular groove 123, the motor 150 can drive the transmission shaft 152 to rotate, the transmission shaft 152 can drive the driving rod 120 to rotate by the rectangular rod 151 and the rectangular groove 123, the driving rod 120 can drive the adjacent driving rods 120 to rotate by the rectangular block 124 and the rectangular groove 123, thereby keeping the driving rods 120 of a plurality of the driving modules 100 to synchronously rotate, when the driving rod 120 rotates, under the action of one spiral groove 121 on the driving rod 120, the round rod 221 can move along the limiting rod 140, the round rod 221 can drive the sliding box 210 to move through the supporting plate 220, the sliding box 210 can drive the paint spraying wheel 500 to move along the pipe body 400 through the fixing plate 211, so that the paint spraying wheel 500 can sequentially spray the outer side wall of the pipe body 400, when the driving rod 120 moves into the annular groove 122, the driving rod 120 continues to rotate, the round rod 221 stops moving in the annular groove 122, so that the painting module 200 stops moving, the driving rod 120 continues to rotate, the round rod 221 can move into the other spiral groove 121 of the driving rod 120, at this time, under the action of the other spiral groove 121, the round rod 221 can continue to move, and therefore the round rod 221 can perform intermittent linear motion.

The side of the sliding rod 230 is provided with a connecting block 234, the bottom of the connecting block 234 is fixedly connected with a round block 235 contacting with the top surface of the shell 110, both sides of the top surface of the shell 110 are fixedly connected with arc-shaped plates 130, the opposite sides of the two arc-shaped plates 130 are contacted with the sides of the adjacent round blocks 235, the arc-shaped plates 130 of a plurality of driving modules 100 positioned at the same side of the tube body 400 are contacted end to end, when the round rod 221 moves into the annular groove 122, the round blocks 235 can move to the corners of the arc-shaped plates 130, at the moment, under the action of the spring 260, the side rod 240 can drive the limiting seat 250 to move towards the tube body 400, so that the sponge sleeve is attached to the outer side wall of the tube body 400, at the moment, the sponge sleeve can roll on the outer side wall of the tube body 400, so that the coating is uniformly coated, when the round rod 221 moves, the round blocks 235 can move out of the corners of the arc-shaped plates 130, at the moment, under the action of the arc-shaped plates 130, the two round blocks 235 can move oppositely, the side rod 240 and the limiting seat 250 are driven to move, so that the sponge sleeve is separated from the pipe body 400, when the smearing module 200 stops moving, the sponge sleeve can be in contact with the pipe body 400, when the smearing module 200 moves, the sponge sleeve can be separated from the pipe body 400, transverse movement of the sponge sleeve on the pipe body 400 is avoided, the distribution of paint on the pipe body 400 is changed, the condition of uneven paint is caused, and the operation is simple and the use is convenient.

Slide bar 230 side fixedly connected with fixing base 232, fixing base 232 medial surface is rotated and is connected with lead screw 233 of closing with connecting block 234 soon, lead screw 233 can restrict the position of connecting block 234, like this when the less body 400 of coating pipe diameter, lead screw 233 can rotate, make connecting block 234 drive the cake 235 remove, when guaranteeing that the cake 235 is located the corner of arc template 130, the sponge cover can contact with body 400, thereby guarantee to paint the body 400 that module 200 adapts to different pipe diameters, and can adjust the position of cake 235 through lead screw 233, thereby when adjustment cake 235 is located the corner of arc template 130, the elasticity degree that the sponge cover leaned on with body 400, thereby change the extrusion degree of sponge cover to body 400 as required.

Equal fixedly connected with supporting seat 112 in casing 110 medial surface both sides, supporting seat 112 medial surface rotates and is connected with the bracing piece with the contact of actuating lever 120 side, can support actuating lever 120 through the bracing piece, the equal fixedly connected with connecting seat 111 in both sides of two sides of casing 110, it is connected with screw one all to close soon to be located two connecting seats 111 of actuating lever 120 with the one end, screw one closes soon with connecting seat 111 of adjacent drive module 100 and is connected, can connect two adjacent drive module 100's casing 110 through screw one, after the use, can unscrew screw one, thereby separate two adjacent drive module 100's casing 110, drive module 100 parts, be convenient for accomodating of treatment facility, and can add or reduce drive module 100 as required when using, thereby adapt to the coating of the body 400 of different length. Two sides of the supporting plate 220 are connected with a second screw which is connected with the sliding box 210 in a screwing mode, the supporting plate 220 and the sliding box 210 can be clamped through the second screw, the second screw is screwed out, the sliding box 210 can be taken down from the supporting plate 220, the sliding box 210 and the like are taken down from the driving module 100, and the processing equipment can be conveniently stored.

The support module 300 comprises two top rods 310, both sides of the bottom surface of the top rod 310 are fixedly connected with telescopic rods 311, the bottom surface of the top rod 310 is fixedly connected with a loop bar 320, the bottom of the inner side surface of the loop bar 320 is slidably connected with an adjusting rod 330, the side surface of the loop bar 320 and the side surface of the adjusting rod 330 are rotatably connected with clamping rods 350 contacting with the inner wall of the tube body 400, the top surface of the top rod 310 is rotatably connected with a second lead screw 340 extending into the loop bar 320, the bottom of the side surface of the second lead screw 340 is rotatably connected with the inner side surface of the adjusting rod 330, one side surface of the adjusting rod 330 departing from the clamping rods 350 is fixedly connected with a power box 360, the inner side surface of the power box 360 is provided with a power mechanism, the output end of the power mechanism is in transmission connection with one end of the clamping rod 350, the clamping rod 350 is inserted into the tube body 400, the second lead screw 340 is rotated to move the adjusting rod 330, so that the distance between the two clamping rods 350 positioned on the same side of the tube body 400 is increased, so that the positions of the two ends of the tube body 400 are clamped by the clamping rod 350, the clamping rod 350 can be suitable for clamping of pipe bodies 400 with different diameters, and after the pipe bodies 400 are clamped, the height of the push rod 310 can be adjusted through the telescopic rod 311, so that the pipe bodies 400 can be located in the middle of the paint spraying wheel 500, the power mechanism can be started, the power mechanism can drive one clamping rod 350 to rotate, the pipe bodies 400 can rotate, and spraying and coating to the pipe bodies 400 are facilitated.

When the paint spraying wheel 500 is used, the interior of the paint spraying wheel 500 is hollow, and a plurality of spray holes are formed in the inner wall of the paint spraying wheel 500 at equal intervals in a ring shape, so that after the paint spraying wheel 500 is connected with a paint spraying device, paint can be sprayed to the pipe body 400 through the spray holes in the inner wall of the paint spraying wheel 500.

The working principle is as follows: when the paint spraying device is used, the pipe body 400 penetrates through the paint spraying wheel 500, the clamping rods 350 are inserted into the pipe body 400, the second screw rod 340 is rotated, the adjusting rod 330 is moved, the distance between the two clamping rods 350 on the same side of the pipe body 400 is increased, the positions of two ends of the pipe body 400 are clamped through the clamping rods 350, then the power mechanism can be started, the power mechanism can drive one clamping rod 350 to rotate, the pipe body 400 is rotated, the paint spraying wheel 500 and the motor 150 can be started, paint can be sprayed out from the inner side wall of the paint spraying wheel 500 when the paint spraying wheel 500 is started, and the paint is sprayed on one end of the outer side wall of the pipe body 400;

the motor 150 can drive the transmission shaft 152 to rotate, the transmission shaft 152 can drive the driving rod 120 to rotate through the rectangular rod 151 and the rectangular groove 123, the driving rod 120 can drive the adjacent driving rod 120 to rotate through the rectangular block 124 and the rectangular groove 123, so that the driving rods 120 of the plurality of driving modules 100 can synchronously rotate, when the driving rod 120 rotates, the circular rod 221 can move along the limiting rod 140 under the action of the spiral groove 121 on the driving rod 120, the circular rod 221 can drive the sliding box 210 to move through the supporting plate 220, the sliding box 210 can drive the paint spraying wheel 500 to move along the tube body 400 through the fixing plate 211, so that the paint spraying wheel 500 can sequentially spray the outer side wall of the tube body 400, meanwhile, the sliding box 210 can drive the sliding rod 230 to move, the sliding rod 230 can drive the limiting seat 250 to move through the side rod 240, so as to drive the paint spraying rod and the sponge sleeve to move, and the sliding rod 230 can drive the connecting block 234 and the circular block 235 to move through the fixing seat 232 and the first lead screw 233, thereby moving the round piece 235 along the adjacent arc-shaped plate 130;

when the round rod 221 moves into the annular groove 122 through the spiral groove 121, the paint spraying wheel 500 is stopped, and at this time, the driving rod 120 continues to rotate, the round rod 221 stays in the annular groove 122, so that the painting module 200 stops moving, and when the round rod 221 moves into the annular groove 122, the round block 235 can move to the corner of the arc-shaped plate 130, at this time, under the action of the spring 260, the side rod 240 can drive the limit seat 250 to move towards the pipe body 400, so that the sponge sleeve is attached to the outer side wall of the pipe body 400, and at this time, the sponge sleeve can roll on the outer side wall of the pipe body 400, so that the paint is evenly painted;

after the driving rod 120 rotates 270 degrees, the driving rod 120 continues to rotate, the round rod 221 moves into another spiral groove 121 of the driving rod 120, at this time, under the action of another spiral groove 121, the round rod 221 can continue to move, so that the painting module 200 continues to move, at this time, the painting wheel 500 can be started to continue to paint, and at this time, the round blocks 235 can move out of the corners of the arc-shaped plate 130, so that under the action of the arc-shaped plate 130, the two round blocks 235 can move away from each other, the side rod 240 and the limiting seat 250 are driven to move, and the sponge sleeve is separated from the pipe body 400;

when the round rod 221 moves to the annular groove 122 on the next driving rod 120, the smearing module 200 stops again, and meanwhile the sponge sleeve contacts with the outer side wall of the tube body 400, so that when the driving rod 120 continuously rotates, the smearing module 200 can linearly move in a gap, when the smearing module 200 stops, the sponge sleeve can contact with the outer side wall of the tube body 400, and when the smearing module 200 moves, the sponge sleeve can be separated from the tube body 400, after spraying is finished, the second lead screw 340 is rotated, the clamping rod 350 on the adjusting rod 330 moves upwards, the clamping rod 350 releases the inner wall of the tube body 400, at the moment, the tube body 400 can be taken down, then the driving rod 120 reversely rotates through the motor 150, the smearing module 200 moves to the original position, and then the next tube body 400 coating can be carried out.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims (8)

1. The utility model provides a building electrical buried fire fighting pipeline treatment equipment, which is characterized in that, including scribbling module (200) and support module (300), support module (300) is provided with body (400), and support module (300) inside be provided with be used for the drive to scribble a plurality of drive module (100) that module (200) removed, it includes sliding box (210) to scribble module (200), sliding box (210) bottom surface slip joint and adjacent drive module (100) contact's backup pad (220), sliding box (210) side top fixedly connected with fixed plate (211), fixed plate (211) one end fixedly connected with wheel (500) of spraying paint, sliding box (210) interior top surface and interior bottom surface all sliding connection have slide bar (230), two slide bar (230) are carried on the back of the body one end all fixedly connected with side lever (240), two side lever (240) opposite face top all fixedly connected with spacing seat (250), the inner side surface of the limiting seat (250) is rotatably connected with a coating rod, and the side surface of the coating rod is fixedly sleeved with a sponge sleeve.

2. The buried fire fighting pipeline processing device for building electric use according to claim 1, wherein a rotating shaft (212) is rotatably connected to the inner side surface of the sliding box (210), a gear (213) is fixedly connected to the side surface of the rotating shaft (212), racks (231) which are meshed with the gear (213) for transmission are fixedly connected to the inner side surfaces of the two sliding rods (230), and springs (260) which are fixedly connected with the sliding box (210) are fixedly connected to the bottoms of the opposite surfaces of the two side rods (240).

3. The buried fire fighting pipeline processing equipment for building electric use according to claim 1, wherein a round bar (221) is fixedly connected to the bottom surface of the supporting plate (220), the driving modules (100) comprise housings (110), the housings (110) of a plurality of the driving modules (100) are in end-to-end contact, limiting bars (140) are fixedly connected to two inner side surfaces of the top of each housing (110), the limiting bars (140) of a plurality of the driving modules (100) positioned on the same side of the supporting plate (220) are in end-to-end contact, the bottom side surface of the supporting plate (220) is in sliding connection with the inner side surfaces of the adjacent limiting bars (140), the bottom end of each round bar (221) penetrates through the two limiting bars (140) and extends into each housing (110), a driving rod (120) is arranged inside each housing (110), the driving rods (120) of a plurality of the driving modules (100) are in end-to-end contact, and the side surfaces of the driving rods (120) positioned at two ends are rotatably connected with the inner side surfaces of the adjacent housings (110), the driving mechanism is characterized in that one end of the driving rod (120) is fixedly connected with a rectangular block (124), the other end of the driving rod (120) is provided with a rectangular groove (123), the inner side surface of the rectangular groove (123) is in sliding insertion connection with the side surface of the rectangular block (124) of the adjacent driving module (100), the two sides of the side surface of the driving rod (120) are provided with spiral grooves (121), the central position of the side surface of the driving rod (120) is provided with an annular groove (122) which is penetrated by one end of the two spiral grooves (121), the bottom end of the round rod (221) is in contact with the inner side surface of the annular groove (122), the side surface of the shell (110) of the driving module (100) at one end is fixedly connected with a rectangular plate, the top surface of the rectangular plate is fixedly connected with a motor (150) which is in contact with the shell (110), the output end of the motor (150) is in transmission connection with a transmission shaft (152) which is in rotation with the inner side surface of the shell (110), the side surface of the transmission shaft (152) is in contact with the driving rod (120), and the side surface of the transmission shaft (152) is fixedly connected with a rectangular rod (151) which is inserted with the rectangular groove (123) in a sliding way.

4. The buried fire fighting pipeline processing device for building electric use according to claim 3, wherein a connecting block (234) is arranged on the side surface of the sliding rod (230), a round block (235) in contact with the top surface of the shell (110) is fixedly connected to the bottom surface of the connecting block (234), arc-shaped plates (130) are fixedly connected to both sides of the top surface of the shell (110), the opposite side surfaces of the two arc-shaped plates (130) are in contact with the side surfaces of the adjacent round block (235), and the arc-shaped plates (130) of a plurality of the driving modules (100) on the same side of the pipe body (500) are in contact end to end.

5. The buried fire fighting pipeline processing equipment for building electric use according to claim 4, wherein a fixed seat (232) is fixedly connected to the side surface of the sliding rod (230), and a first screw rod (233) which is screwed with the connecting block (234) is rotatably connected to the inner side surface of the fixed seat (232).

6. The buried fire fighting pipeline processing device for building electric appliance according to claim 3, wherein a support base (112) is fixedly connected to each of two sides of the inner side of the housing (110), a support rod in contact with the side of the driving rod (120) is rotatably connected to the inner side of the support base (112), a connection base (111) is fixedly connected to each of two sides of the housing (110), a first screw is rotatably connected to each of two connection bases (111) at the same end of the driving rod (120), and the first screw is rotatably connected to the connection base (111) of the adjacent driving module (100).

7. The buried fire fighting pipeline processing equipment for building electric use according to claim 1, wherein a second screw for screwing connection of the sliding box (210) is screwed and connected to both side surfaces of the supporting plate (220).

8. The buried fire fighting pipeline processing equipment for building electric use according to claim 1, wherein the supporting module (300) comprises two top rods (310), both sides of the bottom surface of the top rods (310) are fixedly connected with telescopic rods (311), the bottom surface of the top rods (310) is fixedly connected with a loop bar (320), the bottom of the inner side surface of the loop bar (320) is slidably connected with an adjusting rod (330), both the side surface of the loop bar (320) and the side surface of the adjusting rod (330) are rotatably connected with clamping rods (350) contacting with the inner wall of the pipe body (400), the top surface of the top rods (310) is rotatably connected with a second lead screw (340) extending into the loop bar (320), the bottom of the side surface of the second lead screw (340) is rotatably connected with the inner side surface of the adjusting rod (330), one adjusting rod (330) is fixedly connected with a power box (360) deviating from the side surface of the clamping rods (350), and the inner side surface of the power box (360) is provided with a power mechanism, the output end of the power mechanism is in transmission connection with one end of the clamping rod (350).

Images