CN117781124A - Depth detection device of municipal drainage well - Google Patents

Abstract

The invention relates to the technical field of municipal engineering, in particular to a depth detection device of a municipal drainage well, which comprises a mounting seat, wherein the bottom side of the mounting seat is connected with an extension structure, a converging structure is connected between the extension structure and the mounting seat, the top end of the mounting seat is provided with a driving structure, the inner side of the extension structure is provided with a measuring structure, the side surface of the mounting seat is provided with a supporting structure, and the supporting structure is provided with an adjusting structure; can guarantee the precision under the perpendicular measurement through extending structure, play the guard action simultaneously to measuring equipment to be convenient for accomodate, can conveniently accomodate the device is whole through the structure of closing together, can roll up the haulage rope fast through driving structure, can install and take off measuring equipment fast as required through measuring structure, can arrange the device in different drainage well heads fast through bearing structure, can further adjust bearing state through adjusting structure, hoisting device stability.

Description

Depth detection device of municipal drainage well

Technical Field

The invention relates to the technical field of municipal engineering, in particular to a depth detection device for a municipal drainage well.

Background

Municipal engineering refers to municipal infrastructure construction engineering. The urban underground water channel provides a plurality of functions of urban sewage circulation, drainage and the like, so that the normal operation of an urban system is ensured, and in order to master important information such as underground water level change and the like at any time, underground pipelines such as drainage wells and the like are required to be measured at regular time, so that facilities are evaluated to formulate different coping schemes.

However, the water level measuring work of the existing drainage well usually adopts a soft cable to connect a water level monitoring instrument to probe into the well for water level measurement, and because the cable is softer in self texture, when groundwater is relatively turbulent, the cable is deviated to influence the measured data precision, even the measuring instrument is collided and damaged, and meanwhile, the fixing mode of the measuring equipment at a wellhead is usually clamping and fixing, so that the measuring equipment is difficult to adapt to different detection terrains.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a depth detection device for a municipal drainage well.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a degree of depth detection device of municipal drainage well, includes the mount pad, the bottom side of mount pad is connected with extending structure, be connected with the structure of closing in between extending structure and the mount pad, the mount pad top is equipped with drive structure, extending structure inboard is equipped with measurement structure, the side of mount pad is equipped with bearing structure, last adjusting structure of installing of bearing structure.

Specifically, extending structure includes the carrier bar, the downside fixedly connected with carrier bar of mount pad, the bottom of carrier bar is equipped with the collet, the topside fixedly connected with connecting rod of collet, connecting rod and carrier bar side are equipped with a plurality of extension bars, just carrier bar, connecting rod and a plurality of extension bars encircle the range jointly and are cylindric structure, the top fixedly connected with connection slider of connecting rod and a plurality of extension bars, all seted up the spout on carrier bar and a plurality of extension bars, connection slider is in proper order in the spout sliding connection that sets up on adjacent connecting rod or extension bar, fixedly connected with haulage rope on the collet.

Specifically, the structure of closing in includes the control circle, the bottom side of mount pad rotates and is connected with the control circle, the inboard sliding connection of control circle has a plurality of blocks, just the quantity of blocking the piece is more than the quantity of connecting rod one, fixedly connected with first spring between block and the control circle, one side of blocking the piece is inconsistent with the connecting slider, the opposite side of blocking the piece is inclined plane structure.

Specifically, the drive structure includes the roll-up axle, the top rotation of mount pad is connected with the roll-up axle, the one end fixedly connected with rocker of roll-up axle, the middle part fixedly connected with separation piece of roll-up axle, the side of roll-up axle and the tip fixed connection of haulage rope.

Specifically, the one end fixedly connected with positioning gear of roll-up axle, positioning gear side meshing has the draw-in lever, sliding connection between draw-in lever and the mount pad, fixedly connected with second spring between draw-in lever and the mount pad.

Specifically, the bottom side of clamping lever is equipped with the cam, the side of cam offsets with the clamping lever and touches, the middle part sliding connection of cam has the locating shaft, one side of locating shaft is contradicted and is had the gasket, fixedly connected with third spring between gasket and the mount pad, the inboard fixedly connected with block strip of mount pad, the recess that is "in line" font structure has been seted up to the tip of locating shaft, the tip of locating shaft is identical with the block strip.

Specifically, the measurement structure includes the fixed plate, the haulage rope runs through the fixed plate, the buoyancy piece is installed to the top side of fixed plate, the top fixedly connected with link of buoyancy piece, the water level tester is installed to the bottom side of fixed plate, the top side of collet is equipped with the buffering and holds in the palm, the haulage rope runs through the buffering and holds in the palm, just fixedly connected with sixth spring between buffering holds in the palm and the collet.

Specifically, the inboard rotation of fixed plate is connected with the locking ring, the side fixedly connected with arc rack of locking ring, the side meshing of arc rack has the rack bar, sliding connection between rack bar and the fixed plate, fixedly connected with seventh spring between rack bar tip and the fixed plate.

Specifically, bearing structure includes the pivot, the both sides of mount pad are rotated respectively and are connected with a pivot, the both ends of pivot are fixedly connected with installation head respectively, the tip of installation head is rotated and is connected with the supporting legs, the both sides of pivot are fixedly connected with a first gear respectively, two are located on the coplanar be equipped with two second gears between the first gear, rotate between second gear and the mount pad and be connected, first gear and second gear mesh in turn.

Specifically, the middle part fixedly connected with ring gear cover of pivot, the side meshing of ring gear cover has the fixture block, sliding connection between fixture block and the mount pad, just fixedly connected with fourth spring between fixture block and the mount pad, the tip rotation of fixture block is connected with the dead lever, threaded connection between dead lever and the mount pad.

Specifically, the regulation structure includes the side shield, two side shields of side fixedly connected with of supporting leg, sliding connection has the installation slider between the side shield, be connected with the extension spring between installation slider and the installation head, the inboard sliding connection of installation slider has the control block, fixedly connected with fifth spring between control block and the installation slider, the both sides of control block are equipped with a ball respectively, a plurality of constant head tanks have been seted up to the inboard of side shield, the degree of depth of constant head tank equals the radius of ball.

The beneficial effects of the invention are as follows:

(1) According to the depth detection device for the municipal drainage well, the bottom side of the mounting seat is connected with the extension structure, the beam-converging structure is connected between the extension structure and the mounting seat, the precision under vertical measurement can be ensured through the extension structure, meanwhile, the measurement equipment is protected, the device is convenient to store, the whole device can be conveniently stored through the beam-converging structure, meanwhile, the operation of the device is convenient, namely: firstly, a connecting rod, a bearing rod and a plurality of extension rods which are arranged at the bottom side of a mounting seat and are surrounded into a cylindrical structure are arranged, the connecting rod and the bearing rod are adjacently arranged and are fixedly connected with a bottom bracket and the mounting seat respectively, wherein a connecting sliding block arranged at the end part of the connecting rod and the end part of the extension rod slides through a sliding groove arranged on the adjacent extension rod, so that a longer unfolding length can be obtained after all the extension rods are unfolded, when the water level measuring device is in actual use, a user places the mounting seat at the wellhead position of a drainage well, the bottom bracket extends to the bottom position through the sliding between the extension rods, meanwhile, the user can fix a detection device through a traction rope arranged on the bottom bracket to probe into the bottom of the well for measuring water level, because the extension rods always keep the vertical state of the traction rope, thereby obtaining accurate information such as height and the like, and meanwhile, the measurement device is prevented from swinging along with water flow, on the other hand, after the measurement is completed, the equipment can be directly recovered through the winding traction rope, the device can be stored, the measurement efficiency and precision are improved, in order to facilitate the user to adjust the release quantity of the extension rods according to the well depth when in use, a rotatable control ring is arranged at the bottom side of the mounting seat, the blocking block at the inner side of the control ring can be in conflict with the connecting sliding blocks on the unreleased extension rods, so that the corresponding extension rods are prevented from sliding out, the quantity of the blocking blocks is one more than that of the extension rods, when the extension rods are not used, all the extension rods and the connection rods can not be separated and released only by not aligning the part without the blocking block with the connection rods, when the extension rods are required to be aligned with the connection rods when in use, the connection sliding blocks arranged on the connection blocks can slide out with the adjacent extension rods, and then the user continues to rotate the control ring towards the direction of the adjacent extension rod, and then the next adjacent extension rod can be released until the bottom of the drainage well can be reached by the collet, and measurement can be started, on the other hand, after the measurement is completed, the bottom side of the blocking block is of an inclined plane structure, and the user can directly lift all the extending connecting rods and the extension rods by means of the traction rope, so that the storage and the fixation are directly completed, and the use is convenient.

(2) According to the depth detection device for the municipal drainage well, the driving structure is arranged at the top end of the mounting seat, the measuring structure is arranged on the inner side of the extending structure, the traction rope can be rapidly rolled up through the driving structure, and the measuring equipment can be rapidly installed and taken down as required through the measuring structure, namely: the top of the mounting seat is provided with a winding shaft, a user can wind the two traction ropes to two sides of the separation sheet respectively through a rocker on the side of the rocking arm, meanwhile, in order to fix the winding position of the current traction rope, the bottom side of the rocking arm is provided with a positioning shaft, when the user rotates the positioning shaft to enable the protruding end of a cam fixed on the positioning shaft to abut against the clamping rod, the end part of the clamping rod is meshed with a positioning gear on the winding shaft at the moment so as to fix the winding shaft at the moment, and when the cam rotates to the other side, the clamping rod is in a disengaged state with the positioning gear under the pushing of a second spring so as to freely wind the traction ropes, on the other hand, in order to fix the rotating state of the cam, the end part of the positioning shaft is provided with a 'one' -shaped groove which is matched with a clamping strip on the inner side of the mounting seat so as to prevent the positioning shaft from continuously rotating, when the rotation state of the cam needs to be changed, the positioning shaft is required to be pulled out slightly and then rotated, so that the positioning shaft is matched with the clamping strip again under the pushing of the third spring, the position at the moment is fixed, in the actual measurement process, a water level measuring device such as a water surface is required to be used for sending out buzzes for reminding after contacting the water surface, a water level tester can be arranged at the bottom side of the fixed plate, a buoyancy block can be arranged at the top side of the fixed plate to ensure that the tester is positioned at the water surface, the measurement and the recording of data are convenient, a hanging ring at the top end of the buoyancy block can be independently connected with a rope to pull up the instrument, when the positioning shaft needs to be taken down, a user can only need to take down the fixed plate from two traction ropes, a toothed bar at the side of the fixed plate can be pressed by the user, toothed structures at two sides of the toothed bar can drive a locking ring to rotate at the inner side of the fixed plate, and then the traction ropes at two sides are released, the water level information can be obtained by measuring the extension length of the extension rod and the height of the water level tester and performing related calculation when the water level tester is used.

(3) According to the depth detection device for the municipal drainage well, the side face of the mounting seat is provided with the supporting structure, the supporting structure is provided with the adjusting structure, the device can be rapidly deployed at different drainage well heads through the supporting structure, meanwhile, the testing equipment is conveniently released at the center of the well head, the supporting state can be further adjusted through the adjusting structure, and the stability of the device is improved, namely: in order to facilitate the arrangement of the device at the wellhead of the drainage well, four supporting feet are arranged on the side surface of the mounting seat, the supporting feet are connected with the mounting seat through mounting heads, two mounting heads positioned on the same side are fixed on the same rotating shaft, the two rotating shafts synchronously rotate through a first gear and two second gears, in addition, the mounting heads and the supporting feet can rotate, so that when in actual use, the four supporting feet can be unfolded to be arranged at the top of the inlet of the drainage well in an X shape, a stable supporting effect is provided for the whole device, meanwhile, in order to fix the rotating angle of the mounting heads in an open state, a user can drive a clamping block to mesh with a toothed ring sleeve on the rotating shaft through rotating a fixing rod on the side surface by the fixing rod, thereby fix a position current turned angle, hoisting device arranges's convenience, promote stability simultaneously, the settling of device under the different environment of convenience, for the turned angle of each supporting legs of convenient control, be connected with the extension spring between installation slider and the installation head on the supporting legs, the user can press the control block on the installation slider for the ball of both sides obtains sufficient rolling space, the installation slider can freely slide between the side shield of both sides this moment, change the angle between supporting legs and the installation head simultaneously through the traction effect of extension spring, after releasing the control block, the ball promotes to both sides, the ball can roll into corresponding constant head tank simultaneously, thereby fix the position of current control block, guarantee the holistic stability of device.

Drawings

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

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a connection structure of the mounting base and the control ring shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the portion A shown in FIG. 2;

FIG. 4 is an enlarged view of the portion B shown in FIG. 2;

FIG. 5 is a schematic view of the connection structure of the shoe and the connecting rod shown in FIG. 1;

FIG. 6 is a schematic structural view of the fixing plate shown in FIG. 5;

FIG. 7 is a schematic view of the connection structure of the connecting rod and the control ring shown in FIG. 1;

FIG. 8 is a schematic view of a connection structure between the mounting base and the rotating shaft shown in FIG. 2;

FIG. 9 is a schematic view of a connection structure between the rotating shaft and the first gear shown in FIG. 8;

fig. 10 is a schematic view of a connection structure of the support leg and the mounting slider shown in fig. 1.

In the figure: 1. mounting base, 2, extension structure, 201, collet, 202, connecting rod, 203, haulage rope, 204, extension rod, 205, connecting slide, 206, chute, 207, carrier rod, 3, retraction structure, 301, control loop, 302, blocking block, 303, first spring, 4, drive structure, 401, rocker, 402, retraction shaft, 403, positioning shaft, 404, spacer, 405, positioning gear, 406, clamping rod, 407, second spring, 408, cam, 409, third spring, 410, snap-in strip, 411, spacer, 5, support structure, 501, mounting head, 502, support leg, 503, spindle, 504, toothed ring sleeve, 505, fixing rod, 506, fourth spring, 507, clamping block, 508, first gear, 509, second gear, 6, adjustment structure, 601, side baffle, 602, tension spring, 603, mounting slide, 604, 605, fifth spring, 606, ball, 607, positioning groove, 7, measurement structure, 701, fixing plate, 702, buoyancy block, 703, suspension loop, 703, buffer loop, 704, buffer loop, 706, 709, spline, 706, 709, spline loop, 706, 707, and arc detector.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-10, the depth detection device for the municipal drainage well comprises a mounting seat 1, wherein an extension structure 2 is connected to the bottom side of the mounting seat 1, a converging structure 3 is connected between the extension structure 2 and the mounting seat 1, a driving structure 4 is arranged at the top end of the mounting seat 1, a measuring structure 7 is arranged on the inner side of the extension structure 2, a supporting structure 5 is arranged on the side surface of the mounting seat 1, and an adjusting structure 6 is arranged on the supporting structure 5.

Specifically, the extending structure 2 includes a carrier rod 207, a bottom side of the mounting base 1 is fixedly connected with the carrier rod 207, a bottom support 201 is provided at a bottom end of the carrier rod 207, a connecting rod 202 is fixedly connected to a top side of the bottom support 201, a plurality of extending rods 204 are provided at side surfaces of the connecting rod 202 and the carrier rod 207, the connecting rod 202 and the plurality of extending rods 204 are arranged in a cylindrical structure in a surrounding manner, connecting sliders 205 are fixedly connected to top ends of the connecting rod 202 and the plurality of extending rods 204, sliding grooves 206 are respectively provided on the carrier rod 207 and the plurality of extending rods 204, the connecting sliders 205 are sequentially connected in a sliding manner in the sliding grooves 206 provided on the adjacent connecting rod 202 or the extending rods 204, and a traction rope 203 is fixedly connected to the bottom support 201; the precision under the perpendicular measurement can be guaranteed through extending structure 2, the while plays the guard action to measuring equipment to be convenient for accomodate, be: firstly, be located the connecting rod 202, carrier bar 207 and a plurality of extension rod 204 that the mount pad 1 bottom side was equipped with and encloses into cylindric structure, connecting rod 202 and carrier bar 207 are adjacent to be set up, both respectively with the collet 201 and mount pad 1 between fixed connection, wherein connecting slider 205 that connecting rod 202 and extension rod 204 tip set up is through the spout 206 slip of seting up on the adjacent extension rod 204, thereby can obtain longer expansion length after expanding all extension rods 204, in actual use, the user is with the well head position of arranging the mount pad 1 in the drain shaft, slide between the extension rod, through the slip between the extension rod, and then make the collet 201 extend to the bottom position, simultaneously the user can be through the haulage rope 203 that sets up on the collet 201 to carry out the measuring work of detection device in order to visit the bottom, because the existence of extension rod 204, can remain the vertical state of haulage rope 203 throughout, thereby obtain accurate information such as water level height, avoid measuring device to cause the damage along with the current swing simultaneously, on the other hand, after accomplishing the measurement, then can directly realize the lifting device through the roll-up and the device of lifting and the precision of measuring and recovery.

Specifically, the beam-converging structure 3 includes a control ring 301, the bottom side of the mounting seat 1 is rotatably connected with the control ring 301, the inner side of the control ring 301 is slidably connected with a plurality of blocking blocks 302, the number of the blocking blocks 302 is one more than that of the connecting rods 202, a first spring 303 is fixedly connected between the blocking blocks 302 and the control ring 301, one side of the blocking blocks 302 is in contact with the connecting sliding blocks 205, and the other side of the blocking blocks 302 is in an inclined surface structure; can conveniently accomodate the device is whole through the structure 3 that receive, make things convenient for the operation of device simultaneously, namely: in order to facilitate the user to adjust the release quantity of the extension rods 204 according to the well depth when in use, a rotatable control ring 301 is arranged at the bottom side of the mounting seat 1, a blocking block 302 at the inner side of the control ring 301 is abutted against a connecting sliding block 205 on the unreleased extension rod 204, so that the corresponding extension rod 204 is prevented from sliding out, the quantity of the blocking block 302 is one more than that of the extension rods 204, when not in use, all the extension rods 204 and the connecting rods 202 cannot be separated and released only by aligning the part where the blocking block 302 is not arranged with the connecting rods 202, when in use, the vacant part is aligned with the connecting rods 202, at this moment, the connecting rods 202 can slide out, the connecting sliding block 205 arranged on the connecting rods slides with the adjacent extension rods 204, then the user continues to rotate the control ring 301 towards the direction of the adjacent extension rods 204, the next adjacent extension rod 204 can be released until the bottom position of the drainage well can be reached, on the other hand, after the measurement is completed, as the inclined surface of the blocking block 302 is not aligned with the connecting rods 202, and all the connecting rods 204 can be directly lifted by the user to directly take up and take up the connecting rods 204.

Specifically, the driving structure 4 includes a winding shaft 402, the top end of the mounting seat 1 is rotatably connected with the winding shaft 402, one end of the winding shaft 402 is fixedly connected with a rocker 401, the middle part of the winding shaft 402 is fixedly connected with a separation sheet 404, the side surface of the winding shaft 402 is fixedly connected with the end part of the traction rope 203, one end of the winding shaft 402 is fixedly connected with a positioning gear 405, the side surface of the positioning gear 405 is meshed with a clamping rod 406, the clamping rod 406 is slidably connected with the mounting seat 1, a second spring 407 is fixedly connected between the clamping rod 406 and the mounting seat 1, a cam 408 is arranged at the bottom side of the clamping rod 406, the side surface of the cam 408 is abutted against the clamping rod 406, the middle part of the cam 408 is slidably connected with a positioning shaft 403, one side of the positioning shaft 403 is abutted against a gasket 411, a third spring 409 is fixedly connected between the gasket 411 and the mounting seat 1, the inner side of the mounting seat 1 is fixedly connected with a clamping strip 410, the end part of the positioning shaft 403 is provided with a groove 403 which is shaped, and the end part of the positioning shaft 403 is matched with the clamping strip 410; the traction rope 203 can be rapidly reeled up through the driving structure 4, namely: the top of the mounting seat 1 is provided with a winding shaft 402, a user can wind up the two traction ropes 203 to two sides of the separation sheet 404 respectively through the rocking rod 401 on the rocking side, meanwhile, in order to fix the winding position of the current traction rope 203, the bottom side of the rocking rod 401 is provided with a positioning shaft 403, when the user rotates the positioning shaft 403 to enable the protruding end of the cam 408 fixed on the positioning shaft 403 to abut against the clamping rod 406, at the moment, the end part of the clamping rod 406 is meshed with the positioning gear 405 on the winding shaft 402, so as to fix the winding shaft 402 at the moment, and when the cam 408 rotates to the other side, the clamping rod 406 is disengaged from the positioning gear 405 under the pushing of the second spring 407, so as to freely wind up the traction rope 203, and on the other hand, in order to fix the rotating state of the cam 408, the end part of the positioning shaft 403 is provided with a 'one-shaped' groove, and when the rotating state of the cam 408 needs to be changed, the clamping bar 410 on the inner side of the mounting seat 1 can be prevented from continuing to rotate, the positioning shaft 403 needs to be pulled out slightly, then the positioning shaft 403 is required to be rotated, and then the clamping bar 409 is pushed to be pushed again, so as to be matched with the third spring 409, so as to fix the rotating position of the clamping bar 410.

Specifically, the measurement structure 7 includes a fixing plate 701, the haulage rope 203 penetrates through the fixing plate 701, a buoyancy block 702 is installed on the top side of the fixing plate 701, a hanging ring 703 is fixedly connected to the top end of the buoyancy block 702, a water level tester 706 is installed on the bottom side of the fixing plate 701, a buffer support 704 is arranged on the top side of the bottom support 201, the haulage rope 203 penetrates through the buffer support 704, a sixth spring 705 is fixedly connected between the buffer support 704 and the bottom support 201, a locking ring 708 is rotatably connected to the inner side of the fixing plate 701, an arc rack 709 is fixedly connected to the side surface of the locking ring 708, a toothed bar 707 is meshed to the side surface of the arc rack 709, a sliding connection is provided between the toothed bar 707 and the fixing plate 701, and a seventh spring 710 is fixedly connected between the end of the toothed bar 707 and the fixing plate 701; the measuring device can be quickly installed and removed as required by the measuring structure 7, namely: in the actual measurement process, water level measurement equipment such as a mode of sending out buzzes to remind after contacting the water surface is needed, a water level tester 706 can be installed on the bottom side of a fixed plate 701, a buoyancy block 702 can be installed on the top side of the fixed plate 701 to ensure that the tester is located at the water surface position, data measurement and recording are convenient to carry out, a hanging ring 703 at the top end of the buoyancy block 702 can be independently connected with ropes to pull up the instrument, when the instrument needs to be taken down, a user only needs to take down the fixed plate 701 from two traction ropes 203, a toothed rod 707 on the side surface of the fixed plate 701 can be pressed by the user, the toothed structures on two sides of the toothed rod 707 can drive a locking ring 708 to rotate on the inner side of the fixed plate 701, further the traction ropes 203 on two sides are released, the water level tester 706 is taken down, and water level information can be obtained by measuring the extending length of the extension rod 204 and the height of the water level tester 706 and performing relevant calculation during use.

Specifically, the supporting structure 5 includes a rotating shaft 503, two sides of the mounting seat 1 are respectively and rotatably connected with a rotating shaft 503, two ends of the rotating shaft 503 are respectively and fixedly connected with a mounting head 501, an end of the mounting head 501 is rotatably connected with a supporting foot 502, two sides of the rotating shaft 503 are respectively and fixedly connected with a first gear 508, two second gears 509 are arranged between the two first gears 508 on the same plane, the second gears 509 are rotatably connected with the mounting seat 1, the first gears 508 and the second gears 509 are sequentially meshed, a toothed ring sleeve 504 is fixedly connected with the middle part of the rotating shaft 503, a clamping block 507 is meshed with the side surface of the toothed ring sleeve 504, the clamping block 507 is in sliding connection with the mounting seat 1, a fourth spring 506 is fixedly connected between the clamping block 507 and the mounting seat 1, the end of the clamping block 507 is rotatably connected with a fixing rod 505, and the fixing rod 505 is in threaded connection with the mounting seat 1; can be fast with the device deployment in different drainage well heads through bearing structure 5, make things convenient for test equipment to release at well head central authorities simultaneously, namely: in order to facilitate the arrangement of the device at the wellhead of the drainage well, four supporting feet 502 are arranged on the side face of the installation seat 1, the supporting feet 502 are connected with the installation seat 1 through the installation heads 501, meanwhile, two installation heads 501 positioned on the same side are fixed on the same rotating shaft 503, the two rotating shafts 503 are synchronously rotated through a first gear 508 and two second gears 509 therebetween, in addition, the installation heads 501 and the supporting feet 502 can be rotated, the four supporting feet 502 can be unfolded to form an X-shaped structure to be arranged at the top of the inlet of the drainage well when in actual use, a stable supporting effect is provided for the whole device, meanwhile, in order to fix the rotation angle of the installation heads 501 in an open state, a user can push a clamping block 507 to mesh with a toothed ring sleeve 504 on the rotating shaft 503 through a fixing rod 505 on the rotation side face, so that the current rotation angle is positioned, the arrangement convenience of the device is improved, the stability is improved, and the device is convenient to install under different environments.

Specifically, the adjusting structure 6 includes side baffles 601, two side baffles 601 are fixedly connected to the side surfaces of the supporting legs 502, a mounting sliding block 603 is slidably connected between the side baffles 601, a tension spring 602 is connected between the mounting sliding block 603 and the mounting head 501, a control block 604 is slidably connected to the inner side of the mounting sliding block 603, a fifth spring 605 is fixedly connected between the control block 604 and the mounting sliding block 603, two balls 606 are respectively arranged on two sides of the control block 604, a plurality of positioning grooves 607 are formed in the inner side of the side baffles 601, and the depth of each positioning groove 607 is equal to the radius of each ball 606; the supporting state can be further adjusted through the adjusting structure 6, and the stability of the device is improved, namely: in order to conveniently control the rotation angle of each supporting leg 502, a tension spring 602 is connected between a mounting sliding block 603 and a mounting head 501 on each supporting leg 502, a user can press a control block 604 on the mounting sliding block 603, so that balls 606 on two sides can obtain enough rolling space, at the moment, the mounting sliding block 603 can freely slide between side baffles 601 on two sides, the angle between the supporting leg 502 and the mounting head 501 is changed simultaneously through the traction effect of the tension spring 602, after the control block 604 is released, the balls 606 are pushed to two sides, and meanwhile, the balls 606 roll into corresponding positioning grooves 607, so that the position of the current control block 604 is fixed, and the overall stability of the device is ensured.

When the invention is used, firstly, the connecting rod 202, the bearing rod 207 and the plurality of extension rods 204 which are arranged at the bottom side of the mounting seat 1 and are enclosed into a cylindrical structure are arranged, the connecting rod 202 and the bearing rod 207 are adjacently arranged and are respectively fixedly connected with the bottom bracket 201 and the mounting seat 1, wherein the connecting sliding blocks 205 arranged at the end parts of the connecting rod 202 and the extension rods 204 slide through the sliding grooves 206 arranged on the adjacent extension rods 204, so that a longer unfolding length can be obtained after all the extension rods 204 are unfolded, when in actual use, a user places the mounting seat 1 at the wellhead position of a drainage well, the bottom bracket 201 is extended to the bottom position through the sliding among the extension rods, meanwhile, the user can detect the fixing of equipment through the traction ropes 203 arranged on the bottom bracket 201 to detect the water level at the bottom of the well, and can always keep the vertical state of the traction ropes 203 due to the existence of the extension rods 204, therefore, accurate water level information and the like are obtained, meanwhile, the measuring equipment is prevented from swinging along with water flow to avoid damage, on the other hand, after the measurement is completed, the equipment can be directly recovered and the device can be stored through the winding traction rope 203, the efficiency and the precision of the measurement are improved, in order to facilitate the user to adjust the release quantity of the extension rod 204 according to the well depth when in use, a rotatable control ring 301 is arranged at the bottom side of the mounting seat 1, a blocking block 302 at the inner side of the control ring 301 can be in conflict with a connecting sliding block 205 on the unreleased extension rod 204, so that the corresponding extension rod 204 is prevented from sliding out, the quantity of the blocking block 302 is one more than that of the extension rod 204, when not in use, all the extension rod 204 and the connecting rod 202 can not be separated and released only by not aligning the part where the blocking block 302 is not arranged with the connecting rod 202, when the device is needed to be used, the vacant part is aligned with the connecting rod 202, the connecting rod 202 can slide out at the moment, the connecting slide block 205 arranged on the connecting rod slides between the connecting rod and the adjacent extending rod 204, then a user continuously rotates the control ring 301 towards the direction of the adjacent extending rod 204, the next adjacent extending rod 204 can be released until the bottom of the bottom support 201 can reach the bottom position of the drainage well, measurement can be started, on the other hand, after the measurement is finished, the bottom side of the blocking block 302 is in an inclined surface structure, the user can directly lift all the extending connecting rods 202 and the extending rods 204 by virtue of the traction ropes 203, the storage and the fixation are directly finished, the device is convenient to use, the top of the mounting seat 1 is provided with the winding shaft 402, the user can respectively wind the two traction ropes 203 to the two sides of the separation sheet 404 by rocking the rocking rod 401 on the side, and simultaneously, in order to fix the winding position of the current traction rope 203, the positioning shaft 403 is arranged at the bottom side of the rocker 401, when a user rotates the positioning shaft 403 to enable the protruding end of the cam 408 fixed on the positioning shaft 403 to abut against the clamping rod 406, the end part of the clamping rod 406 is meshed with the positioning gear 405 on the winding shaft 402 at the moment, so that the winding shaft 402 at the moment is fixed, and when the cam 408 rotates to the other side, the clamping rod 406 is disengaged from the positioning gear 405 under the pushing of the second spring 407, so that the traction rope 203 is freely wound, on the other hand, in order to fix the rotating state of the cam 408, a straight-line-shaped groove is formed at the end part of the positioning shaft 403, the clamping strip 410 matched with the inner side of the mounting seat 1 can prevent the positioning shaft 403 from continuously rotating, when the rotating state of the cam 408 needs to be changed, the positioning shaft 403 needs to be slightly pulled out and then rotated, the third spring 409 is pushed to be matched with the clamping strip 410 again, so that the position at the moment is fixed, in the actual measurement process, a water level measuring device such as a mode of sending out beeps to remind after contacting the water surface is needed, the water level tester 706 can be installed on the bottom side of the fixed plate 701, the top side of the fixed plate 701 can be provided with the buoyancy block 702 to ensure that the tester is positioned on the water surface, the measurement and recording of data are convenient, the hanging ring 703 at the top end of the buoyancy block 702 can be independently connected with a rope to pull up the instrument, when the instrument needs to be taken down, the fixed plate 701 is only required to be taken down from the two traction ropes 203, a user can press the toothed bars 707 on the side surfaces of the fixed plate 701, the toothed structures on the two sides of the toothed bars 707 can drive the locking rings 708 to rotate on the inner side of the fixed plate 701, the traction ropes 203 on the two sides are released, and the water level tester 706 is taken down, when in use, water level information can be obtained by measuring the extension length of the extension rod 204 and the height of the water level tester 706 and performing related calculation, in order to facilitate the arrangement of the device at the wellhead of the drainage well, four supporting feet 502 are arranged on the side surface of the installation seat 1, the supporting feet 502 are connected with the installation seat 1 through the installation heads 501, meanwhile, two installation heads 501 positioned on the same side are fixed on the same rotating shaft 503, the two rotating shafts 503 synchronously rotate through a first gear 508 and two second gears 509 therebetween, in addition, the installation heads 501 and the supporting feet 502 can rotate, so that when in actual use, the four supporting feet 502 can be unfolded to be arranged at the top of the inlet of the drainage well in an X shape, a stable supporting effect is provided for the whole device, and meanwhile, in order to fix the rotating angle of the installation heads 501 in an open state, the user can make the dead lever 505 through the rotation side make dead lever 505 promote the fixture block 507 and mesh the ring gear cover 504 on the pivot 503 to the current rotation angle of location, the convenience of hoisting device arrangement promotes stability simultaneously, the installation of device under the different environment is convenient, for the rotation angle of each supporting legs 502 of convenient control, be connected with extension spring 602 between installation slider 603 and the installation head 501 on the supporting legs 502, the user can press the control block 604 on the installation slider 603 for the ball 606 of both sides obtains sufficient roll space, installation slider 603 can freely slide between the side shield 601 of both sides this moment, change the angle between supporting legs 502 and the installation head 501 simultaneously through the traction effect of extension spring 602, after releasing control block 604, ball 606 promotes to both sides, simultaneously ball 606 can roll in corresponding constant head 607, thereby fix the position of current control block 604, the holistic stability of device is guaranteed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. The utility model provides a municipal drainage well's degree of depth detection device, its characterized in that, including mount pad (1), the bottom side of mount pad (1) is connected with extending structure (2), be connected with between extending structure (2) and mount pad (1) and receive beam structure (3), mount pad (1) top is equipped with driving structure (4), extending structure (2) inboard is equipped with measurement structure (7), the side of mount pad (1) is equipped with bearing structure (5), install adjusting structure (6) on bearing structure (5);

the extension structure (2) comprises a bearing rod (207), the bottom side fixedly connected with bearing rod (207) of mount pad (1), the bottom of bearing rod (207) is equipped with collet (201), the top side fixedly connected with connecting rod (202) of collet (201), connecting rod (202) and bearing rod (207) side are equipped with a plurality of extension rods (204), just bearing rod (207), connecting rod (202) and a plurality of extension rods (204) encircle jointly and arrange and be cylindric structure, the top fixedly connected with of connecting rod (202) and a plurality of extension rods (204) connects slider (205), spout (206) have all been seted up on bearing rod (207) and a plurality of extension rods (204), connect slider (205) in proper order spout (206) sliding connection that sets up on adjacent connecting rod (202) or extension rod (204), fixedly connected with haulage rope (203) on collet (201).

2. The municipal drainage well depth detection device according to claim 1, wherein: the beam-converging structure (3) comprises a control ring (301), the bottom side of the mounting seat (1) is rotationally connected with the control ring (301), a plurality of blocking blocks (302) are slidably connected to the inner side of the control ring (301), the number of the blocking blocks (302) is one more than that of the connecting rods (202), a first spring (303) is fixedly connected between the blocking blocks (302) and the control ring (301), one side of each blocking block (302) is in contact with the connecting sliding block (205), and the other side of each blocking block (302) is of an inclined surface structure.

3. The municipal drainage well depth detection device according to claim 1, wherein: the driving structure (4) comprises a winding shaft (402), the top end of the mounting seat (1) is rotationally connected with the winding shaft (402), one end of the winding shaft (402) is fixedly connected with a rocker (401), the middle part of the winding shaft (402) is fixedly connected with a separation sheet (404), and the side surface of the winding shaft (402) is fixedly connected with the end part of the traction rope (203).

4. A municipal drainage well depth detection device according to claim 3, wherein: one end fixedly connected with positioning gear (405) of roll-up axle (402), positioning gear (405) side meshing has clamping lever (406), sliding connection between clamping lever (406) and mount pad (1), fixedly connected with second spring (407) between clamping lever (406) and mount pad (1).

5. The municipal drainage well depth detection device according to claim 4, wherein: the bottom side of clamping rod (406) is equipped with cam (408), the side of cam (408) is inconsistent with clamping rod (406), the middle part sliding connection of cam (408) has location axle (403), one side of location axle (403) is contradicted and is had gasket (411), fixedly connected with third spring (409) between gasket (411) and mount pad (1), inboard fixedly connected with block strip (410) of mount pad (1), the recess that is "in line" structure is seted up to the tip of location axle (403), the tip of location axle (403) coincide with block strip (410).

6. The municipal drainage well depth detection device according to claim 1, wherein: measurement structure (7) are including fixed plate (701), haulage rope (203) run through fixed plate (701), buoyancy piece (702) are installed to the topside of fixed plate (701), top fixedly connected with link (703) of buoyancy piece (702), water level tester (706) are installed to the downside of fixed plate (701), the topside of collet (201) is equipped with buffering support (704), haulage rope (203) run through buffering support (704), just fixedly connected with sixth spring (705) between buffering support (704) and collet (201).

7. The municipal drainage well depth detection device according to claim 6, wherein: the inner side of the fixed plate (701) is rotationally connected with a locking ring (708), the side surface of the locking ring (708) is fixedly connected with an arc rack (709), the side surface of the arc rack (709) is meshed with a toothed bar (707), the toothed bar (707) is in sliding connection with the fixed plate (701), and a seventh spring (710) is fixedly connected between the end part of the toothed bar (707) and the fixed plate (701).

8. The municipal drainage well depth detection device according to claim 1, wherein: the supporting structure (5) comprises a rotating shaft (503), two sides of a mounting seat (1) are respectively connected with the rotating shaft (503) in a rotating mode, two ends of the rotating shaft (503) are respectively fixedly connected with a mounting head (501), the end portions of the mounting heads (501) are rotationally connected with supporting feet (502), two sides of the rotating shaft (503) are respectively fixedly connected with a first gear (508), two second gears (509) are arranged between the first gears (508) on the same plane, the second gears (509) are rotationally connected with the mounting seat (1), and the first gears (508) and the second gears (509) are meshed in sequence.

9. The municipal drainage well depth detection device according to claim 8, wherein: the middle part fixedly connected with ring gear cover (504) of pivot (503), the side meshing of ring gear cover (504) has fixture block (507), sliding connection between fixture block (507) and mount pad (1), just fixedly connected with fourth spring (506) between fixture block (507) and mount pad (1), the tip rotation of fixture block (507) is connected with dead lever (505), threaded connection between dead lever (505) and mount pad (1).

10. The municipal drainage well depth detection device according to claim 8, wherein: the utility model provides an adjusting structure (6) includes side shield (601), two side shields (601) of side fixedly connected with of supporting legs (502), sliding connection has installation slider (603) between side shield (601), be connected with extension spring (602) between installation slider (603) and installation head (501), the inboard sliding connection of installation slider (603) has control block (604), fixedly connected with fifth spring (605) between control block (604) and installation slider (603), the both sides of control block (604) are equipped with a ball (606) respectively, a plurality of constant head tanks (607) have been seted up to the inboard of side shield (601), the degree of depth of constant head tank (607) equals the radius of ball (606).