CN108532659B - Hydraulic engineering desilting device - Google Patents

Abstract

The invention discloses a dredging device for hydraulic engineering, which structurally comprises an oil tank, a support frame, a blowing port, a damping box, a universal wheel, a base, a control console and a directional wheel, wherein the oil tank is arranged above the base, the bottom surface of the oil tank is welded with the top surface of one end of the base, the top surface of the oil tank is arranged below the blowing port and is welded with one end of the blowing port, the support frame is arranged below the other end of the blowing port and is integrated with one end of the support frame, the other end of the support frame is welded with the top surface of the damping box, the lower end of the damping box is welded with the top surface of the other end of the base, and the control console is arranged on the side surface of the damping box and is welded and buckled with the side surface of the damping box.

Description

Hydraulic engineering desilting device

Technical Field

The invention discloses a dredging device for hydraulic engineering, and belongs to the technical field of dredging for hydraulic engineering.

Background

The deposited sludge is blown and stirred into turbid water through mechanical equipment and flows away with water, so that the function of dredging is achieved.

When the prior art is used, the vibration of the machine equipment is too large when the machine equipment works, the supported ground is softened, the equipment inclines or collapses, the equipment is damaged, and the economic loss and the working efficiency are reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a dredging device for hydraulic engineering, which aims to solve the problems that when the prior art is used, the ground supported by machinery equipment is softened due to overlarge vibration when the machinery equipment works, the equipment inclines or collapses, the equipment is damaged, and the economic loss and the working efficiency are reduced.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a hydraulic engineering desilting device, its structure includes oil tank, support frame, mouth of blowing, damper box, universal wheel, base, control cabinet, directional wheel, the top of base is located to the oil tank, and the bottom surface welds with base one end top surface, and the below of mouth of blowing is located to the top surface, welds with mouth of blowing one end, the other end below of mouth of blowing is equipped with the support frame, with support frame one end structure as an organic whole, the support frame other end with locate the top of damper box, with damper box top surface welding, the other end top surface welding of base is located to the damper box below, the control cabinet is located the side of damper box, welds the lock joint with the damper box side, the universal wheel is equipped with two, all locates the other end below of base, welds with the base, directional wheel is equipped with two, all locates base one end below, welds with the base, the damper box includes heat dissipation transmission, The device comprises a clamping transmission device, a protective shell, a damping transmission device, an indicator light transmission device, a storage battery and a push-pull transmission device, wherein one end of the damping transmission device is buckled with the lower part of a support frame, the lower part of the other end of the damping transmission device is arranged above the protective shell and penetrates through the protective shell to be in transition fit with the top surface of the clamping transmission device, the other end of the clamping transmission device is arranged above a heat dissipation transmission device and is meshed with the upper part of the heat dissipation transmission device, the left side of the heat dissipation transmission device is arranged on the inner wall of the protective shell, the right side of the heat dissipation transmission device is buckled with the protective shell and is arranged below the push-pull transmission device and is meshed with the lower part of one end of the push-pull transmission device, the other end of the push-pull transmission device penetrates through the right side of the, the indicating lamp transmission device is arranged above the storage battery, and the top surface of the protective shell is arranged on the top surface and welded with the protective shell.

Further, the heat dissipation transmission device comprises a fan, a first transmission shaft, a helical gear disc, a second transmission shaft, a third transmission shaft, a first threaded column, a motor, a first electric wire, a pulley, a first pull rope and a first gear, wherein the fan is arranged below the left side of the protective shell and is buckled with the inner wall of the protective shell, the right side of the fan is welded with one end of the first transmission shaft, the other end of the first transmission shaft is meshed with the left end of the helical gear disc, the right end of the helical gear disc is meshed with one end of the second transmission shaft, the other end of the second transmission shaft is arranged on the left side of the third transmission shaft and is meshed with one end of the third transmission shaft, the other end of the third transmission shaft is meshed with the first threaded column, the lower part of the first threaded column and the motor are of an integrated structure, the upper part of the first threaded column is welded with the clamping transmission device, one end of the first electric wire is welded, the other end of the gear is wound around the pulley and is buckled with the right side of the motor, and the first gear is arranged below the push-pull transmission device and is meshed with the push-pull transmission device.

Further, the clamping transmission device comprises a transmission ejector rod, a second threaded column, a second gear, a third gear, a first transmission belt, a fourth gear, a second transmission belt, a fifth gear, a first spring, a first rack, a third threaded column, a second spring, a first sliding block, a first sliding rod, a first ejector rod, a second ejector rod, a third ejector rod, a fourth ejector rod, a first limiting block, a fifth ejector rod, a first helical tooth, a second helical tooth, a transmission rod, a sixth gear, a seventh gear and a chain transmission belt, wherein the bottom surface of the seventh gear is welded with the heat dissipation transmission device, the top surface of the seventh gear is meshed with the sixth gear, the left side of the sixth gear is welded with one end of the transmission rod, the other end of the transmission rod is welded with the right side of the second helical tooth, the upper side of the left side of the second helical tooth is meshed with the first helical tooth, the top surface of the first helical tooth and one end of the third threaded column are of an integrated structure, the other end of the third threaded column penetrates through the first sliding rod and is welded with the middle part below the fifth ejector rod, the first sliding block is provided with two sliding blocks which are arranged at the two ends of the first sliding rod and are fastened with the first sliding rod, one side of each sliding block is fastened with the second spring, the top surface of each sliding block is fastened with one end of the first ejector rod, the first ejector rod is provided with two ejector rods, the other end of each sliding block is fastened with one end of the fourth ejector rod, the third ejector rod is provided with two ejector rods which are arranged at the junction of the fourth ejector rod and the first ejector rod and are excessively matched with the first ejector rod and the fourth ejector rod, the fourth ejector rod is provided with two ejector rods, the other end of each ejector rod is welded with the bottom surface of the first limiting block, the first limiting block is provided with two limiting blocks, the top surface of each sliding block is integrated with the two ends below the fifth ejector rod, the right end of the second ejector rod is welded with one end, the utility model discloses a slide bar, including No. two threaded post, the chain drive belt, No. two drive belt, one end all with No. three ejector pin welding, other end below all with No. two gear engagement, a drive belt is equipped with two, one end all with No. two gear lock joints, the other end all with No. three gear lock joints, the chain drive belt is equipped with two, one end all with No. three gear lock joints, the other end all with No. four gear lock joints, No. two drive belts are equipped with two, one end all with No. four gear lock joints, the other end all with No. five gear lock joints, No. five gears are equipped with two, all with a rack toothing, a rack is equipped with two, and the both ends of a slide bar are all located to the top, all with a.

Further, the damping transmission device comprises a first supporting rod, a gravity detection plate, a sixth ejector rod, a seventh ejector rod, an eighth ejector rod, a damping spring, a second sliding block, a second sliding rod, a first decompression spring, a ninth ejector rod, a third sliding rod, a tenth ejector rod, an eleventh ejector rod and a second decompression spring, the top surface of the gravity detection plate is welded with the supporting frame, the bottom surface of the gravity detection plate is integrated with one end of the supporting rod, the other end of the supporting rod penetrates through the protective shell and is welded with the top surface of the sixth ejector rod, the bottom surface of the sixth ejector rod is buckled with the seventh ejector rod, the bottom surface of the seventh ejector rod is welded with one end of the tenth ejector rod, the other end of the tenth ejector rod is welded with the top surface of the eleventh ejector rod, two ends of the bottom surface of the eleventh ejector rod are buckled with one end of the eighth ejector rod, two eighth ejector rods are arranged, the other, the middle part of the bottom surface is welded with one end of a first pressure reducing spring, the right end of the bottom surface is fastened with a second sliding rod, two sliding blocks are arranged and fastened with the second sliding rod, nine ejector rods are arranged on one side of each sliding block and welded with one end of the nine ejector rods, the other end of the first pressure reducing spring is welded with two ends of a third sliding rod, a second pressure reducing spring is arranged in the middle of the third sliding rod and in clearance fit with the second pressure reducing spring, and the second pressure reducing spring is arranged; both ends are welded with one end of the No. nine ejector rod.

Furthermore, the indicating lamp transmission device comprises a second electric wire, an electromagnet, a magnetizer, a second pull rope, an eighth gear, a second rack, a third pull rope, a second support rod, a first electric conductor, a contact block, an indicating lamp and a second electric conductor, wherein one end of the second electric wire is welded with the storage battery, the other end of the second electric wire is welded with the electromagnet, the upper part of the electromagnet is in transition fit with the magnetizer, one end of the second pull rope is buckled with the upper part of the magnetizer, the other end of the second pull rope is welded with one end of the second rack, the left side of the second rack is meshed with the eighth gear, one end of the third pull rope is buckled with the eighth gear, the other end of the third pull rope is welded with the second support rod, the middle part of the upper part of the second support rod is welded with the contact block, the left end of the contact block is welded with one end of the second electric, the indicator light is arranged above the protective shell and welded with the protective shell, and the other end of the second conductor is electrically connected with the storage battery.

Further, the push-pull transmission device comprises a twelve-number ejector rod, a three-number spring, a three-number rack, a key, a two-number limiting block, a thirteen-number ejector rod, a fourteen-number ejector rod, a fifteen-number ejector rod and a power switch key, wherein one end of the key penetrates through the right end of the protective shell and is welded with one end of the two-number limiting block, the other end of the two-number limiting block is welded with the middle part of the right side of the twelve-number ejector rod, two ends of the right side of the twelve-number ejector rod are welded with one end of the three-number spring, the middle part of the left side of the twelve-number ejector rod is welded with one end of the three-number rack, the lower part of the three-number rack is meshed with the heat dissipation transmission device, the upper part of the three-number ejector rod is welded with one end of the thirteen-number ejector rod, the other, and the other end of the power switch key is electrically connected with the storage battery.

Advantageous effects

The invention relates to a hydraulic engineering dredging device, wherein a user transports equipment to a working place through a universal wheel and a directional wheel when the equipment is used for dredging the hydraulic engineering, the equipment is controlled by a console, when the equipment works and vibrates, a gravity detection plate is pressed down to press down an eighth ejector rod, so that a damping spring is pressed down to achieve a damping effect, a key is pressed down to drive a first gear to drive a motor to work, a fifth ejector rod is moved up to push against a second pressure reducing spring, so that the second pressure reducing spring is not moved, and a damper is protected.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a dredging device for hydraulic engineering.

FIG. 2 is a schematic structural diagram of a damping box of the dredging device for hydraulic engineering.

FIG. 3 is a schematic structural diagram of a damping box of the dredging device for hydraulic engineering.

Fig. 4 is an enlarged structural schematic diagram A of the dredging device for the hydraulic engineering.

Fig. 5 is an enlarged structural schematic diagram of a dredging device B of the hydraulic engineering.

Fig. 6 is an enlarged structural schematic diagram of a dredging device for hydraulic engineering.

In the figure: oil tank-1, support frame-2, air blowing port-3, shock-absorbing box-4, universal wheel-5, base-6, control console-7, orientation wheel-8, heat dissipation transmission device-401, clamping transmission device-402, protective shell-403, shock-absorbing transmission device-404, indicator light transmission device-405, storage battery-406, push-pull transmission device-407, fan-40101, first transmission shaft-40102, helical gear disc-40103, second transmission shaft-40104, third transmission shaft-40105, first threaded column-40106, motor-40107, first wire-40108, pulley-40109, first pull rope-40110, first gear-40111, transmission push rod-40201, second threaded column-40202, second gear-40203, Third gear-40204, first transmission belt-40205, fourth gear-40206, second transmission belt-40207, fifth gear-40208, first spring-40209, first rack-40210, third threaded column-40211, second spring-40212, first sliding block-40213, first sliding rod-40214, first ejector rod-40215, second ejector rod-40216, third ejector rod-40217, fourth ejector rod-40218, first limiting block-40219, fifth ejector rod-40220, first helical tooth-40221, second helical tooth-40222, transmission rod-40223, sixth gear-40224, seventh gear-40225, chain transmission belt-40226, first supporting plate-40401, gravity-40402, sixth ejector rod-40403, seventh ejector rod-40404, eighth ejector rod-40405, sixth ejector rod-40405, and, Damping spring-40406, No. two sliding block-40407, No. two sliding rod-40408, No. one decompression spring-40409, No. nine push rod-40410, No. three sliding rod-40411, No. ten push rod-40412, No. eleven push rod-40413, No. two decompression spring-40414, No. two electric wire-40501, electromagnet-40502, magnetizer-40503, No. two pull rope-40504, No. eight gear-40505, No. two rack-40506, No. three pull rope-40507, No. two support rod-40508, No. one electric conductor-40509, contact block-40510, indicator light-40511, No. two electric conductor-40512, No. twelve push rod-40701, No. three spring-40702, No. three rack-40703, key-40704, No. two limit block-40705, No. thirteen push rod-40706, No. fourteen push rod-40707, A No. fifteen push rod-40708 and a power switch key-40709.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-6, the present invention provides a technical solution of a dredging device for hydraulic engineering: a hydraulic engineering dredging device structurally comprises an oil tank 1, a support frame 2, a blowing port 3, a damping box 4, a universal wheel 5, a base 6, a control console 7 and a directional wheel 8, wherein the oil tank 1 is arranged above the base 6, the bottom surface of the oil tank is welded with the top surface of one end of the base 6, the top surface of the oil tank is arranged below the blowing port 3 and is welded with one end of the blowing port 3, the support frame 2 is arranged below the other end of the blowing port 3 and is integrated with one end of the support frame 2, the other end of the support frame 2 is welded with the top surface of the damping box 4 and is arranged above the damping box 4, the top surface of the other end of the damping box 4 and is welded with the top surface of the base 6, the control console 7 is arranged on the side surface of the damping box 4 and is welded and buckled with the side surface of the damping box 4, the universal wheel 5 is arranged below the, the shock absorption box 4 comprises a heat dissipation transmission device 401, a clamping transmission device 402, a protective casing 403, a shock absorption transmission device 404, an indicator light transmission device 405, a storage battery 406 and a push-pull transmission device 407, wherein one end of the shock absorption transmission device 404 is fastened with the lower part of the support frame 2, the lower part of the other end of the shock absorption transmission device 404 is arranged above the protective casing 403, the shock absorption transmission device penetrates through the protective casing 403 and is in transition fit with the top surface of the clamping transmission device 402, the other end of the clamping transmission device 402 is arranged above the heat dissipation transmission device 401 and is meshed with the upper part of the heat dissipation transmission device 401, the left side of the heat dissipation transmission device 401 is arranged on the inner wall of the protective casing 403, the right side of the heat dissipation transmission device 403 is fastened with the lower part of the push-pull transmission device 407 and is meshed with the lower part of one end of the push, the heat dissipation transmission device 401 comprises a fan 40101, a first transmission shaft 40102, an inclined tooth disc 40103, a second transmission shaft 40104, a third transmission shaft 40105, a first threaded column 40106, a motor 40107, a first electric wire 40108, a pulley 40109, a first pull rope 40110 and a first gear 40111, wherein the fan 40101 is arranged below the left side of the protective shell 403 and buckled with the inner wall of the protective shell 401403, the right side of the fan 40101 is welded with one end of the first transmission shaft 40102, the other end of the first transmission shaft 02 is meshed with the left end of the inclined tooth disc 40103, the right end of the inclined tooth disc 40103 is meshed with one end of the second transmission shaft 40104, the other end of the second transmission shaft 40104 is arranged on the left side of the third transmission shaft 40105 and is meshed with one end of the third transmission shaft 40105, the other end of the third transmission shaft 40105 is meshed with the first threaded column 40106, the lower part of the first threaded column 40106 is integrated with the motor 40107, the upper part of the first threaded column 40106 is welded with the clamping transmission device 402, one end of the first electric wire 40108 is welded with the motor 40107, one end of the first electric wire 40108 is electrically connected with the storage battery 406, one end of the first pull rope 40110 is buckled with the first gear 40111, the other end of the first pull rope is buckled with the pulley 40109 and is buckled with the right side of the motor 40107, the first gear 40111 is arranged below the push-pull transmission device 407 and is meshed with the push-pull transmission device 407, the clamping transmission device 402 comprises a transmission ejector rod 40201, a second threaded column 40202, a second gear 40203, a third gear 40204, a first transmission belt 40205, a fourth gear 40206, a second transmission belt 40207, a third threaded post 40211, a second spring 40212, a first sliding block 40213, a first sliding rod 40214, a first ejector rod 40215, a second ejector rod 40216, a third ejector rod 40217, a fourth ejector rod 40218, a first limiting block 40219, a fifth ejector rod 40220, a first helical tooth 40221, a second helical tooth 40222, a transmission rod 40223, a sixth gear 40224, a seventh gear 40225 and a chain transmission belt 40226, wherein the bottom surface of the seventh gear 40225 is welded to the heat dissipation transmission device 401, the top surface of the seventh gear 40225 is engaged with the sixth gear 40224, the left side of the sixth gear 40224 is welded to one end of the transmission rod 40223, the other end of the transmission rod 40223 is welded to the right side of the second helical tooth 40222, the upper left side of the second helical tooth 40222 is engaged with the first helical tooth 40221, the top surface of the first helical tooth 40221 is integrated with one end of the third threaded post 40211, the other end of the third threaded post 40211 penetrates through the first threaded post 40214, is welded to the middle part of the lower part of the fifth ejector rod 40220, and two sliding blocks 402, the two transmission ejector rods are arranged at the two ends of the first sliding rod 40214 and are buckled with the first sliding rod 40214, one side of the two transmission ejector rods is buckled with the second spring 40212, the top surface of the two transmission ejector rods is buckled with one end of the first ejector rod 40215, the two first ejector rods 40215 are arranged, the other end of the two transmission ejector rods is buckled with one end of the fourth ejector rod 40218, the two third ejector rods 40217 are arranged and are arranged at the joint of the fourth ejector rod 40218 and the first ejector rod 40215 and are in excessive fit with the first ejector rod 40215 and the fourth ejector rod 40218, the two fourth ejector rods 40218 are arranged, the other end of the four ejector rods 40218 are welded with the bottom surface of the first limiting block 40219, the two first limiting blocks 40219 are arranged, the top surfaces of the two transmission ejector rods 40216 and the two ends below the fifth ejector rod 40220 are integrated, the right end of the second ejector rod 40216 is welded with one end of the first spring 40209, the transmission ejector rod 01 penetrates through the second ejector rod 40216 and is, one end of each of the first transmission belts 40205 is welded with the third ejector rod 40217, the lower portion of the other end of each of the first transmission belts is meshed with the second gear 40203, one end of each of the first transmission belts is buckled with the second gear 40203, the other end of each of the first transmission belts is buckled with the third gear 40204, the chain transmission belts 40226 is provided with two transmission belts, one end of each of the first transmission belts is buckled with the third gear 40204, the other end of each of the first transmission belts is buckled with the fourth gear 40206, the other end of each of the second transmission belts is buckled with the fifth gear 40208, the fifth gear 40208 is provided with two transmission belts, one end of each of the fifth transmission belts is meshed with the first rack 40210, the first rack 40210 is provided with two transmission belts, the upper portion of each of the first transmission belts is arranged at two ends of the first sliding rod 40214 and is welded with the first sliding rod 40214, and the damping transmission device 404 comprises a first support rod 40401, a gravity 40402, a sixth ejector rod 40403, a seventh ejector, A second sliding rod 40408, a first decompression spring 40409, a ninth ejector 40410, a third sliding rod 40411, a tenth ejector 40412, an eleventh ejector 40413 and a second decompression spring 40414, wherein the top surface of the gravity sensing plate 40402 is welded to the support frame 2, the bottom surface of the gravity sensing plate 40402 is integrated with one end of the support rod 40401, the other end of the support rod 40401 penetrates through the protective housing 403 and is welded to the top surface of the sixth ejector 40403, the bottom surface of the sixth ejector 40403 is fastened to the seventh ejector 40404, the bottom surface of the seventh ejector 40404 is welded to one end of the tenth ejector 40412, the other end of the tenth ejector 40412 is welded to the top surface of the eleventh ejector 40413, two ends of the bottom surface of the eleventh ejector 40413 are fastened to one end of the eighth ejector 40405, two ends of the eighth ejector 40405 are welded to the top surface of the shock absorption spring 40406, two shock absorption springs 40406 are welded to one end of the bottom surface, the right end of the first decompression spring 409 is fastened to the second sliding, the two sliding blocks 40407 are buckled with the second sliding rod 40408, a ninth ejector pin 40410 is arranged on one side and welded with one end of the ninth ejector pin 40410, the other end of the first pressure-reducing spring 40409 is welded with two ends of the third sliding rod 40411, a second pressure-reducing spring 40414 is arranged in the middle of the third sliding rod 40411 and in clearance fit with the second pressure-reducing spring 40414, and the second pressure-reducing spring 40414 is arranged on the other side of the third sliding rod 40411; two ends of the indicator light transmission device 405 are welded with one end of a ninth ejector pin 40410, the indicator light transmission device comprises a second electric wire 40501, an electromagnet 40502, a magnetizer 40503, a second pulling rope 40504, an eighth gear 40505, a second rack 40506, a third pulling rope 40507, a second support rod 40508, a first electric conductor 40509, a contact block 40510, an indicator light 40511 and a second electric conductor 40512, one end of the second electric wire 40501 is welded with the storage battery 406, the other end of the second electric wire 40501 is welded with the electromagnet 40502, the upper part of the electromagnet 40502 is in transition fit with the magnetizer 40503, the upper part of the magnetizer 40503 is buckled with one end of the second pulling rope 40504, the other end of the second pulling rope 40504 is welded with one end of the second rack 40506, the left side of the second rack 40506 is meshed with the eighth gear 40505, one end of the third pulling rope 40507 is buckled with the eighth gear 40505, the other end of the second support rod 40508, the middle part of the upper part of the second support rod 40508 is welded with the contact, the right end of the first conductor 40509 is welded, the other end of the first conductor 40509 is welded with an indicator light 40511, the indicator light 40511 is arranged above the protective casing 403 and is welded with the protective casing 403, the other end of the second conductor 40512 is electrically connected with the storage battery 406, the push-pull transmission device 407 comprises a twelve-number push rod 40701, a three-number spring 40702, a three-number rack 40703, a key 40704, a two-number limit block 40705, a thirteen-number push rod 40706, a fourteen-number push rod 40707, a fifteen-number push rod 40708 and a power switch key 40709, one end of the key 40704 penetrates through the right end of the protective casing 403 and is welded with one end of the second limit block 40705, the other end of the second limit block 40705 is welded with the middle part of the right side of the twelve-number push rod 40701, both ends of the right side of the twelve-number push rod 40701 are welded with one end of the three-number spring 40702, the middle, the upper side of the protective shell is welded with one end of a thirteen-push rod 40706, two springs 40702 are arranged, the other ends of the springs 40702 are welded with the right end inside the protective shell 403, the other end of the thirteen-push rod 40706 is buckled with one end of a fourteen-push rod 40707, the other end of the fourteen-push rod 40707 is buckled with one end of a fifteen-push rod 40708, the other end of the fifteen-push rod 40708 is in transition fit with one end of a power switch key 40709, and the other end of the power switch key 40709 is electrically.

The user is when carrying out hydraulic engineering desilting through this equipment, transport equipment to the workplace through universal wheel 5 and directive wheel 8, through control cabinet 7 controlgear, when equipment work vibrations, push down through gravity detection board 40402, make No. eight ejector pins 40405 push down, make damping spring 40406 push down and reach the cushioning effect, press button 40704 and make No. three rack 40703 drive a gear 40111 and make motor work, make No. five ejector pins 40220 shift up, in withholding No. two pressure reduction spring 40414, make No. two pressure reduction spring 40414 not remove, play the effect of protection bumper shock absorber.

The invention solves the problems that when the prior art is used, the vibration of machine equipment is too large when the machine equipment works, the supported ground is softened, the equipment inclines or collapses, the equipment is damaged, the economic loss is caused, and the working efficiency is reduced.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of 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 description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides a hydraulic engineering desilting device, its structure includes oil tank (1), support frame (2), the mouth of blowing (3), damper box (4), universal wheel (5), base (6), control cabinet (7), directional wheel (8), the top of base (6) is located in oil tank (1), and bottom surface and base (6) one end top surface welding, the below of the mouth of blowing (3) is located to the top surface, and the mouth of blowing (3) one end welding, the other end below of the mouth of blowing (3) is equipped with support frame (2), with support frame (2) one end structure as an organic whole, its characterized in that:

the other end of the support frame (2) is welded with the top surface of the shock absorption box (4) above the shock absorption box (4), the other end of the base (6) is welded with the top surface of the shock absorption box (4) below the shock absorption box (4), the console (7) is arranged on the side surface of the shock absorption box (4) and is welded and fastened with the side surface of the shock absorption box (4), two universal wheels (5) are arranged and are arranged below the other end of the base (6) and are welded with the base (6), and two directional wheels (8) are arranged and are arranged below one end of the base (6) and are welded with the base (6);

the shock absorption box (4) comprises a heat dissipation transmission device (401), a clamping transmission device (402), a protective casing (403), a shock absorption transmission device (404), an indicator light transmission device (405), a storage battery (406) and a push-pull transmission device (407), one end of the shock absorption transmission device (404) is buckled with the lower part of the support frame (2), the lower part of the other end of the shock absorption transmission device (404) is arranged above the protective casing (403), the shock absorption transmission device penetrates through the protective casing (403) and is in transition fit with the top surface of the clamping transmission device (402), the other end of the clamping transmission device (402) is arranged above the heat dissipation transmission device (401) and is meshed with the upper part of the heat dissipation transmission device (401), the left side of the heat dissipation transmission device (401) is arranged on the inner wall of the protective casing (403), the right side of the clamping connection with the protective casing (403) is arranged below the push-pull, the other end of the push-pull transmission device (407) penetrates through the right side of the protective shell (403) and is in clearance fit with the protective shell (403), the upper part of the push-pull transmission device is in transition fit with a storage battery (406), the storage battery (406) is arranged above the push-pull transmission device (407) and is respectively electrically connected with the heat dissipation transmission device (401) and the indicator light transmission device (405), the indicator light transmission device (405) is arranged above the storage battery (406), and the top surface of the indicator light transmission device is arranged on the top surface of the protective shell (403) and is welded with the protective shell (403;

the heat dissipation transmission device (401) comprises a fan (40101), a transmission shaft (40102), a skewed tooth disc (40103), a second transmission shaft (40104), a third transmission shaft (40105), a threaded column (40106), a motor (40107), a wire (40108), a pulley (40109), a pull rope (40110) and a gear (40111), wherein the fan (40101) is arranged below the left side of a protective shell (403), is fastened with the inner wall of the protective shell (403), is welded with one end of the transmission shaft (40102) on the right side, is meshed with the left end of the skewed tooth disc (40103) at the other end of the transmission shaft (40102), is meshed with one end of the skewed tooth disc (40103) at the right end of the skewed tooth disc (40103) and one end of the second transmission shaft (40104), is arranged on the left side of the third transmission shaft (40105) at the other end of the third transmission shaft (40105), and is meshed with the first threaded column (40106), the lower part of the first threaded column (40106) and the motor (40107) are of an integrated structure, the upper part of the first threaded column is welded with the clamping transmission device (402), one end of the first electric wire (40108) is welded with the motor (40107), one end of the first electric wire is electrically connected with the storage battery (406), one end of the first pull rope (40110) is buckled with the first gear (40111), the other end of the first pull rope bypasses a pulley (40109) and is buckled with the right side of the motor (40107), and the first gear (40111) is arranged below the push-pull transmission device (407) and is meshed with the push-pull transmission device (407);

the clamping transmission device (402) comprises a transmission ejector rod (40201), a second threaded column (40202), a second gear (40203), a third gear (40204), a first transmission belt (40205), a fourth gear (40206), a second transmission belt (40207), a fifth gear (40208), a first spring (40209), a first rack (40210), a third threaded column (40211), a second spring (40212), a first sliding block (40213), a first sliding rod (40214), a first ejector rod (40215), a second ejector rod (40216), a third ejector rod (40217), a fourth ejector rod (40218), a first limiting block (40219), a fifth ejector rod (40220), a first helical tooth (40221), a second helical tooth (40222), a transmission rod (40223), a sixth gear (40224), a seventh gear (40225) and a chain (40226), the bottom surface of the seventh gear (40225) is welded with the heat dissipation transmission device (401), and the top surface of the sixth gear (40224) is meshed with the sixth gear (40226), the left side of the sixth gear (40224) is welded with one end of a transmission rod (40223), the other end of the transmission rod (40223) is welded with the right side of the second helical tooth (40222), the upper portion of the left side of the second helical tooth (40222) is meshed with the first helical tooth (40221), the top surface of the first helical tooth (40221) is integrated with one end of the third threaded column (40211), the other end of the third threaded column (40211) penetrates through the first sliding rod (40214) and is welded with the middle portion of the lower portion of the fifth ejector rod (40220), the first sliding blocks (40213) are provided with two sliding blocks, the two sliding blocks are respectively arranged at two ends of the first sliding rod (40214) and are respectively buckled with the first sliding rod (40214), one side of the sliding blocks is buckled with the second spring (40212), the top surface of the sliding blocks is respectively buckled with one end of the first ejector rod (40215), the first ejector rod (40215) is provided with two ejector rods, the other ends of the fourth ejector rod (40218) are respectively buckled with one end of, the transmission device is characterized by being arranged at the joint of a fourth ejector rod (40218) and a first ejector rod (40215) and in excessive fit with the first ejector rod (40215) and the fourth ejector rod (40218), two fourth ejector rods (40218) are arranged, the other end of each fourth ejector rod is welded with the bottom surface of a first limiting block (40219), two first limiting blocks (40219) are arranged, the top surfaces of the first limiting blocks and the two ends below a fifth ejector rod (40220) are integrated, the right end of the second ejector rod (40216) is welded with one end of a first spring (40209), the transmission ejector rod (40201) penetrates through the second ejector rod (40216), is arranged inside a second threaded column (40202) and is integrated with the second threaded column (40202), two second threaded columns (40202) are arranged, one end of each transmission rod is welded with the third ejector rod (40217), the lower end of the other end of each transmission rod is engaged with a second gear (40203), two transmission belts (40205) are arranged, one end of each transmission belt is fastened with a second gear (40203), the other ends of the chain transmission belts (40226) are respectively buckled with a third gear (40204), the chain transmission belts (40226) are provided with two chains, one ends of the chain transmission belts are respectively buckled with the third gear (40204), the other ends of the chain transmission belts are respectively buckled with a fourth gear (40206), the second transmission belts (40207) are provided with two chains, one ends of the chain transmission belts are respectively buckled with the fourth gear (40206), the other ends of the chain transmission belts are respectively buckled with a fifth gear (40208), the fifth gears (40208) are respectively meshed with a first rack (40210), the first racks (40210) are respectively provided with two chains, the upper parts of the chains are respectively arranged at two ends of a first sliding rod (40214), and the chains are respectively welded with the first sliding rod (402;

the damping transmission device (404) comprises a first supporting rod (40401), a gravity detection plate (40402), a sixth ejector rod (40403), a seventh ejector rod (40404), an eighth ejector rod (40405), a damping spring (40406), a second sliding block (40407), a second sliding rod (40408), a first decompression spring (40409), a ninth ejector rod (40410), a third sliding rod (40411), a tenth ejector rod (40412), an eleventh ejector rod (40413) and a second decompression spring (40414), wherein the top surface of the gravity detection plate (40402) is welded with the supporting frame (2), the bottom surface of the gravity detection plate is integrated with one end of the first supporting rod (40401), the other end of the first supporting rod (40401) penetrates through the protective shell (403) and is welded with the top surface of the sixth ejector rod (40403), the bottom surface of the sixth ejector rod (40403) is fastened with the seventh ejector rod (40404), and the bottom surface of the seventh ejector rod (40404) is welded with one end of the tenth ejector rod (40412), the other end of the ten-number ejector rod (40412) is welded with the top surface of an eleven-number ejector rod (40413), two ends of the bottom surface of the eleven-number ejector rod (40413) are buckled with one end of an eight-number ejector rod (40405), two eight-number ejector rods (40405) are arranged, the other ends of the eight-number ejector rods (40405) are welded with the top surface of a damping spring (40406), two damping springs (40406) are arranged, the middle of the bottom surface of the eleven-number ejector rod (40413) is welded with one end of a first pressure reducing spring (40409), the right end of the eleven-number ejector rod (40405) is buckled with a second sliding rod (40408), two sliding blocks (40407) are arranged and buckled with a second sliding rod (40408), one side of the eleven-number ejector rod (40410) is welded with one end of an eleven-number ejector rod (40410), the other end of the first pressure reducing spring (40409) is welded with two ends of a third sliding rod (40411), the second pressure reduction spring (40414); both ends are welded with one end of a No. nine ejector rod (40410);

the indicator light transmission device (405) comprises a second electric wire (40501), an electromagnet (40502), a magnetizer (40503), a second pulling rope (40504), an eighth gear (40505), a second rack (40506), a third pulling rope (40507), a second supporting rod (40508), a first electric conductor (40509), a contact block (40510), an indicator light (40511) and a second electric conductor (40512), wherein one end of the second electric wire (40501) is welded with the storage battery (406), the other end of the second electric wire is welded with the electromagnet (40502), the upper part of the electromagnet (40502) is in transition fit with the magnetizer (40503), the upper part of the magnetizer (40503) is buckled with one end of the second pulling rope (40504), the other end of the second pulling rope (40504) is welded with one end of the second rack (40506), the left side of the second rack (40506) is meshed with the eighth gear (40505), one end of the third pulling rope (40507) is buckled with the eighth gear (40505), the other end of the support rod is welded with a second support rod (40508), the middle part above the second support rod (40508) is welded with a contact block (40510), the left end of the contact block (40510) is welded with one end of a second conductor (40512), the right end of the contact block is welded with one end of a first conductor (40509), the other end of the first conductor (40509) is welded with an indicator lamp (40511), the indicator lamp (40511) is arranged above the protective shell (403) and welded with the protective shell (403), and the other end of the second conductor (40512) is electrically connected with the storage battery (406);

the push-pull transmission device (407) comprises a twelve-number ejector rod (40701), a three-number spring (40702), a three-number rack (40703), a key (40704), a two-number limiting block (40705), a thirteen-number ejector rod (40706), a fourteen-number ejector rod (40707), a fifteen-number ejector rod (40708) and a power switch key (40709), wherein one end of the key (40704) penetrates through the right end of the protective shell (403) and is welded with one end of the two-number limiting block (40705), the other end of the two-number limiting block (40705) is welded with the middle part of the right side of the twelve-number ejector rod (40701), the two ends of the right side of the twelve-number ejector rod (40701) are both welded with one end of the three-number spring (40702), the middle part of the left side of the twelve-number rack (40703) is welded with one end of the three-number rack (40703), the lower side of the three rack (40703) is meshed with the heat dissipation transmission device (401), the other end of the thirteen ejector rod (40706) is buckled with one end of a fourteen ejector rod (40707), the other end of the fourteen ejector rod (40707) is buckled with one end of a fifteen ejector rod (40708), the other end of the fifteen ejector rod (40708) is in transition fit with one end of a power switch key (40709), and the other end of the power switch key (40709) is electrically connected with the storage battery (406).

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