CN109618888B - Water spraying device for valve control sprinkler - Google Patents

Abstract

The invention relates to a water spraying device, in particular to a water spraying device for a valve control sprinkler, which comprises a movable matched bottom frame mechanism, a hydraulic flow variable valve mechanism and a safety pressurizing mechanism, wherein the device can spray water, can adjust the water spraying flow, can secondarily adjust the water spraying flow, can clamp a water inlet pipe, can safely operate, can be fixed on different sprinklers, can simply filter water, can ensure the service life of a long time, is positioned above the movable matched bottom frame mechanism, is welded with the movable matched bottom frame mechanism, is positioned above the hydraulic flow variable valve mechanism, and is partially welded, And parts are connected through bolts.

Description

Water spraying device for valve control sprinkler

Technical Field

The invention relates to a water spraying device, in particular to a water spraying device for a valve control sprinkler.

Background

The work of watering of road green belt needs regular going on, and some watering lorries that use now and the connection that sprinkler equipment all fastened are together, can not dismantle at any time, and the convenience is very poor, and the flow of spraying water is difficult for changing moreover, so designed this kind of braided wire dyestuff agitating unit.

Disclosure of Invention

The invention mainly solves the technical problem of providing a water spraying device for a valve control sprinkler, which can spray water, adjust the water spraying flow, secondarily adjust the water spraying flow, clamp a water inlet pipe, safely operate, fix the device on different sprinklers, simply filter the water and ensure the service life of the device for a long time.

In order to solve the technical problem, the invention relates to a water spraying device, in particular to a water spraying device for a valve control sprinkler, which comprises a movable matched bottom frame mechanism, a hydraulic flow variable valve mechanism and a safety pressurizing mechanism, wherein the device can spray water, can adjust the water spraying flow secondarily, can clamp a water inlet pipe, can operate safely, can be fixed on different sprinklers, can simply filter water, and can ensure the service life of the device for a long time.

The movable matched underframe mechanism comprises a movable locking mechanism, a lifting ring hole, an underframe body, a moving wheel mechanism and a water pipe interface, wherein the movable locking mechanism is positioned below the underframe body, the movable locking mechanism is connected with the underframe body through bolts, the lifting ring hole is formed in the underframe body, the moving wheel mechanism is positioned below the underframe body, the moving wheel mechanism is connected with the underframe body through bolts, the water pipe interface is positioned below the underframe body, and the water pipe interface is connected with the underframe body through bolts;

the movable locking mechanism comprises a locking screw, a locking seat, a screw matching seat, a sliding block locking screw, a sliding rail and a sliding block locking hole, wherein the locking screw is in spiral connection with the locking seat, the screw matching seat is positioned above the locking screw and in spiral connection with the locking screw, the screw matching seat is positioned below the sliding block and is welded with the sliding block, the sliding block locking screw is connected with the sliding block, the sliding block locking screw is in spiral connection with the sliding block, the sliding block is arranged inside the sliding rail, the sliding block is in clearance fit with the sliding rail, and the sliding block locking hole is formed in the sliding rail;

the movable wheel mechanism comprises a movable wheel, a movable wheel shaft and a movable wheel seat, the movable wheel and the movable wheel shaft are connected in a welding mode, and the movable wheel seat and the movable wheel shaft are connected in a bearing mode;

the hydraulic flow variable valve mechanism comprises a hydraulic adjusting valve mechanism, a two-stage spring valve mechanism, a valve shell, a supporting block, an inlet, an outlet, a steel wire rope opening and a bottom opening, wherein the hydraulic adjusting valve mechanism is connected with the valve shell, the hydraulic adjusting valve mechanism is in clearance fit with the valve shell, the two-stage spring valve mechanism is connected with the valve shell, the two-stage spring valve mechanism is in bolt connection with the valve shell, the supporting block is positioned above the valve shell, the supporting block is in welding connection with the valve shell, the inlet is arranged right above the valve shell, the outlet is arranged in the valve shell, the steel wire rope opening is arranged on two sides of the valve shell, and the bottom opening is arranged on the lower side of the valve shell;

the hydraulic regulating valve mechanism comprises a hydraulic cylinder, a hydraulic spring, a piston rod, a valve body, a medium flow port, a small flow port and a large flow port, the hydraulic spring is arranged inside the hydraulic cylinder, the hydraulic spring is connected with the hydraulic cylinder in a welding mode, the piston is connected with the hydraulic spring in a welding mode, the piston rod is connected with the piston in a welding mode, the piston rod is connected with the valve body in a welding mode, the medium flow port is formed in the left side of the valve body, the small flow port is formed in the middle of the valve body, and the large flow port is formed in the right side of the valve body;

the two-stage spring valve mechanism comprises a steering wheel, a steering wheel shaft, a steering wheel seat, a steel wire rope connecting wheel, a motor shaft, a motor, a spring door sliding rail, a spring valve body water passing port and a spring A, the steering wheel is connected with a steering wheel shaft, the connection mode of the steering wheel and the steering wheel shaft is welding, the connection mode of the steering wheel shaft and a steering wheel seat is bearing connection, the connection mode of the steel wire rope and the steering wheel is flexible connection, the connection mode of the steel wire rope and the steel wire rope connection wheel is welding, the connection mode of the steel wire rope connection wheel and a motor shaft is expansion sleeve connection, the connection mode of the motor shaft and the motor is bearing connection, the matching mode of a spring valve body and a spring door sliding rail is clearance fit, the connection mode of the steel wire rope and the spring valve body is welding, a water passing opening of the spring valve body is opened on the spring valve body, and the connection mode of the spring A and the spring;

the safety pressurizing mechanism comprises a pressurizing driving mechanism, a pressurizing executing mechanism, a safety seat mechanism, a water pipe clamping mechanism, an intermediate safety mechanism, a water inlet plug, a water tank and a filter screen, wherein the pressurizing driving mechanism is connected with the pressurizing executing mechanism in a hinged mode, the pressurizing executing mechanism is arranged in the water tank, the pressurizing executing mechanism is in clearance fit with the water tank, the safety seat mechanism is arranged in the water tank and is welded with the water tank, the water pipe clamping mechanism is positioned above the water tank, the water pipe clamping mechanism is welded with the water tank, the intermediate safety mechanism is arranged in the water tank and is welded with the water tank, and the filter screen is connected with the water tank through bolts;

the pressurizing driving mechanism comprises a pressurizing motor, a pressurizing motor shaft, a pressurizing wheel, a hinge buckle, a connecting rod and a sleeve, wherein the pressurizing motor shaft is connected with the pressurizing motor through a bearing;

the pressurizing executing mechanism comprises a pressurizing connecting rod and a pressurizing seat A, the pressurizing connecting rod is connected with the pressurizing seat A, and the pressurizing connecting rod is connected with the pressurizing seat A in a bolt connection mode;

the safety seat mechanism comprises a safety rod, a safety spring and a safety seat, the safety rod is connected with the safety seat, the safety spring is arranged between the safety rods, and the safety spring is connected with the safety seat in a welding mode;

the water pipe clamping mechanism comprises a pull seat, a vertical fixing seat, a return spring A and a water pipe clamping seat body, wherein the pull seat and the vertical fixing seat are in clearance fit, the return spring A and the vertical fixing seat are connected in a welding manner, the return spring A and the water pipe clamping seat body are connected in a welding manner, and the pull seat and the water pipe clamping seat body are connected in a welding manner;

the middle safety mechanism comprises a vertical seat A, a slide bar A groove, a slide bar A, a spring B and a connecting seat A, wherein the slide bar A groove is formed in the vertical seat A, the slide bar A and the slide bar A groove are connected in a sliding mode, the connecting seat A and the slide bar A are connected in a hinged mode, the spring B and the connecting seat A are connected in a welded mode, and the spring B and the vertical seat A are connected in a welded mode;

the hydraulic flow variable valve mechanism is positioned above the movable matched underframe mechanism, the connection mode of the hydraulic flow variable valve mechanism and the movable matched underframe mechanism is welding, the safety pressurizing mechanism is positioned above the hydraulic flow variable valve mechanism, and the connection mode of the safety pressurizing mechanism and the hydraulic flow variable valve mechanism is partial welding and partial bolt connection.

As a further optimization of the technical scheme, the number of the moving wheel mechanisms of the water spraying device for the valve control sprinkler is four.

As a further optimization of the technical scheme, the hydraulic spring, the spring A, the safety spring, the return spring A and the spring B of the water spraying device for the valve control sprinkler are made of stainless steel.

As a further optimization of the technical scheme, the water tank of the water spraying device for the valve control sprinkler is made of stainless steel.

The water spraying device for the valve-controlled sprinkler has the beneficial effects that:

according to the water spraying device for the valve-controlled sprinkler, the device can spray water, the device can adjust the water spraying flow secondarily, the device can clamp the water inlet pipe, the device can run safely, the device can be fixed on different sprinklers, the device can simply filter water, and the device can guarantee the service life of a long time.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of a water spraying device for a valve-controlled sprinkler according to the present invention.

Fig. 2 is a schematic structural diagram of a movable matching underframe mechanism 1 of a water spraying device for a valve-controlled sprinkler of the invention.

FIG. 3 is a schematic structural view of a movable locking mechanism 1-1 of a water spraying device for a valve-controlled sprinkler according to the present invention.

FIG. 4 is a schematic structural view of a moving wheel mechanism 1-4 of a water spraying device for a valve-controlled sprinkler according to the present invention.

Fig. 5 is a schematic structural view of a hydraulic flow variable valve mechanism 2 of a water jet apparatus for a valve-controlled sprinkler according to the present invention.

FIG. 6 is a schematic structural view of a hydraulic pressure regulating valve mechanism 2-1 of a water jet apparatus for a valve-controlled sprinkler according to the present invention.

Fig. 7 is a schematic structural view of a two-stage spring valve mechanism 2-2 of a water spraying device for a valve-controlled sprinkler of the invention.

Fig. 8 is a schematic structural view of a safety pressurizing mechanism 3 of a water spraying device for a valve-controlled sprinkler according to the present invention.

FIG. 9 is a schematic structural view of a pressurizing drive mechanism 3-1 of a water jet apparatus for a valve-controlled sprinkler according to the present invention.

FIG. 10 is a schematic view of a pressurized actuator 3-2 of a water jet apparatus for a valve-controlled sprinkler according to the present invention.

FIG. 11 is a schematic structural view of a safety seat mechanism 3-3 of a sprinkler for a valve-controlled sprinkler according to the present invention.

FIG. 12 is a schematic structural view of a water pipe clamping mechanism 3-4 of a water spraying device for a valve-controlled sprinkler according to the present invention.

FIG. 13 is a schematic structural view of an intermediate safety mechanism 3-5 of a sprinkler for a valve controlled sprinkler according to the present invention.

In the figure: a movably matched underframe mechanism 1; a movable locking mechanism 1-1; locking screws 1-1-1; 1-1-2 of a locking seat; 1-1-3 of a screw matching seat; 1-1-4 of a sliding block; 1-1-5 sliding block locking screws; 1-1-6 of a slide rail; 1-1-7 of a slide block locking hole; 1-2 of lifting ring holes; 1-3 of a chassis body; a moving wheel mechanism 1-4; 1-4-1 of a moving wheel; 1-4-2 of a movable wheel shaft; 1-4-3 of a movable wheel seat; 1-5 of a water pipe connector; a hydraulic flow variable valve mechanism 2; a hydraulic pressure adjusting valve mechanism 2-1; 2-1-1 of a hydraulic cylinder; a hydraulic spring 2-1-2; 2-1-3 of a piston; 2-1-4 of a piston rod; 2-1-5 of a valve body; middle flow port 2-1-6; 2-1-7 of a small-size flow port; 2-1-8 of large-size flow port; a secondary spring valve mechanism 2-2; a steering wheel 2-2-1; a steering wheel shaft 2-2-2; 2-2-3 of a steering wheel seat; 2-2-4 of a steel wire rope; a steel wire rope connecting wheel 2-2-5; a motor shaft 2-2-6; 2-2-7 of a motor; 2-2-8 parts of a spring door slide rail; 2-2-9 parts of a spring valve body; 2-2-10 parts of a spring valve body water gap; spring A2-2-11; 2-3 of a valve shell; 2-4 of a supporting block; an inlet 2-5; 2-6 of an outlet; opening holes 2-7 in the steel wire rope; 2-8 parts of bottom opening; a safety pressurizing mechanism 3; a pressurizing drive mechanism 3-1; a pressurizing motor 3-1-1; a pressurized motor shaft 3-1-2; 3-1-3 of a pressure wheel; 3-1-4 of hinge joint buckle; 3-1-5 of a connecting rod; 3-1-6 of a sleeve; a pressurizing actuator 3-2; a pressurizing connecting rod 3-2-1; a pressure seat A3-2-2; 3-3 of a safety seat mechanism; 3-3-1 of a safety rod; 3-3-2 parts of a safety spring; 3-3-3 of a safety seat; 3-4 parts of a water pipe clamping mechanism; 3-4-1 of a pull seat; 3-4-2 of a vertical fixed seat; a return spring A3-4-3; 3-4-4 parts of a water pipe clamping seat body; 3-5 of an intermediate safety mechanism; a vertical seat A3-5-1; a slide bar A groove 3-5-2; slide bar A3-5-3; spring B3-5-4; connecting seat A3-5-5; 3-6 parts of a water inlet plug; 3-7 parts of a water tank; and 3-8 parts of a filter screen.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the present invention relates to a water spraying apparatus, and more specifically to a water spraying apparatus for a valve-controlled sprinkler, which includes a movable supporting base frame mechanism 1, a hydraulic flow variable valve mechanism 2, and a safety pressurizing mechanism 3, and the apparatus is capable of spraying water, adjusting the flow of the sprayed water, secondarily adjusting the flow of the sprayed water, clamping a water inlet pipe, safely operating the apparatus, fixing the apparatus to different sprinklers, filtering the water simply, and ensuring a long service life.

The movably matched underframe mechanism 1 comprises a movable locking mechanism 1-1, a lifting annular hole 1-2, an underframe body 1-3, a moving wheel mechanism 1-4 and a water pipe interface 1-5, wherein the movable locking mechanism 1-1 is positioned below the underframe body 1-3, the movable locking mechanism 1-1 is connected with the underframe body 1-3 through bolts, the lifting annular hole 1-2 is formed in the underframe body 1-3, the moving wheel mechanism 1-4 is positioned below the underframe body 1-3, the moving wheel mechanism 1-4 is connected with the underframe body 1-3 through bolts, the water pipe interface 1-5 is positioned below the underframe body 1-3, and the water pipe interface 1-5 is connected with the underframe body 1-3 through bolts;

the movable locking mechanism 1-1 comprises a locking screw 1-1-1, a locking seat 1-1-2, a screw matching seat 1-1-3, a sliding block 1-1-4, a sliding block locking screw 1-1-5, a sliding rail 1-1-6 and a sliding block locking hole 1-1-7, wherein the locking screw 1-1-1 is connected with the locking seat 1-1-2 in a spiral manner, the screw matching seat 1-1-3 is positioned above the locking screw 1-1-1, the screw matching seat 1-1-3 is connected with the locking screw 1-1-1 in a spiral manner, the screw matching seat 1-1-3 is positioned below the sliding block 1-1-4, the screw matching seat 1-1-3 is connected with the sliding block 1-1-4 in a welding manner, the sliding block locking screw 1-1-5 is connected with the sliding block 1-1-4, the connecting mode of the sliding block locking screw 1-1-5 and the sliding block 1-1-4 is spiral connection, the sliding block 1-1-4 is arranged inside the sliding rail 1-1-6, the matching mode of the sliding block 1-1-4 and the sliding rail 1-1-6 is clearance fit, and the sliding block locking hole 1-1-7 is arranged on the sliding rail 1-1-6;

the moving wheel mechanism 1-4 comprises a moving wheel 1-4-1, a moving wheel shaft 1-4-2 and a moving wheel seat 1-4-3, the connecting mode of the moving wheel 1-4-1 and the moving wheel shaft 1-4-2 is welding, and the connecting mode of the moving wheel seat 1-4-3 and the moving wheel shaft 1-4-2 is bearing connection;

the hydraulic flow variable valve mechanism 2 comprises a hydraulic adjusting valve mechanism 2-1, a secondary spring valve mechanism 2-2, a valve shell 2-3, a supporting block 2-4, an inlet 2-5, an outlet 2-6, a steel wire rope opening 2-7 and a bottom opening 2-8, wherein the hydraulic adjusting valve mechanism 2-1 is connected with the valve shell 2-3, the hydraulic adjusting valve mechanism 2-1 is in clearance fit with the valve shell 2-3, the secondary spring valve mechanism 2-2 is connected with the valve shell 2-3 through a bolt, the supporting block 2-4 is positioned above the valve shell 2-3, the supporting block 2-4 is connected with the valve shell 2-3 through welding, an inlet 2-5 is arranged right above the valve shell 2-3, an outlet 2-6 is arranged in the valve shell 2-3, steel wire rope openings 2-7 are arranged on two sides of the valve shell 2-3, and a bottom opening 2-8 is arranged on the lower side of the valve shell 2-3;

the hydraulic regulating valve mechanism 2-1 comprises a hydraulic cylinder 2-1-1, a hydraulic spring 2-1-2, a piston 2-1-3, a piston rod 2-1-4, a valve body 2-1-5, a medium flow port 2-1-6, a small flow port 2-1-7 and a large flow port 2-1-8, wherein the hydraulic spring 2-1-2 is arranged inside the hydraulic cylinder 2-1-1, the hydraulic spring 2-1-2 is connected with the hydraulic cylinder 2-1-1 in a welding manner, the piston 2-1-3 is connected with the hydraulic spring 2-1-2 in a welding manner, and the piston rod 2-1-4 is connected with the piston 2-1-3 in a welding manner, the piston rod 2-1-4 is connected with the valve body 2-1-5, the connection mode of the piston rod 2-1-4 and the valve body 2-1-5 is welding, the medium-sized flow port 2-1-6 is arranged at the left side of the valve body 2-1-5, the small-sized flow port 2-1-7 is arranged at the middle position of the valve body 2-1-5, the large-sized flow port 2-1-8 is arranged at the right side of the valve body 2-1-5, hydraulic oil is injected into the hydraulic cylinder 2-1-1, the piston 2-1-3 moves under the driving of the hydraulic oil pressure, the piston 2-1-3 moves to drive the piston rod 2-1-4 to move, the piston rod 2-1-4 moves to drive the valve body 2-1-5 to move, thus, the matching position of the valve body 2-1-5 and the inlet port 2-5 is changed, when the valve body 2-1-5 moves leftwards, the large-size flow port 2-1-8 is matched with the inlet port 2-5, the water yield is maximum at the moment, when the valve body 2-1-5 moves rightwards, the medium-size flow port 2-1-6 is matched with the inlet port 2-5, and the medium water yield is at the moment;

the two-stage spring valve mechanism 2-2 comprises a steering wheel 2-2-1, a steering wheel shaft 2-2-2, a steering wheel seat 2-2-3, a steel wire rope 2-2-4, a steel wire rope connecting wheel 2-2-5, a motor shaft 2-2-6, a motor 2-2-7, a spring door sliding rail 2-2-8, a spring valve body 2-2-9, a spring valve body water passing port 2-2-10 and a spring A2-2-11, wherein the steering wheel 2-2-1 is connected with the steering wheel shaft 2-2-2, the steering wheel 2-2-1 is connected with the steering wheel shaft 2-2-2 by welding, the steering wheel shaft 2-2-2 is connected with the steering wheel seat 2-2-3 by a bearing, the connection mode of the steel wire rope 2-2-4 and the steering wheel 2-2-1 is flexible connection, the connection mode of the steel wire rope 2-2-4 and the steel wire rope connecting wheel 2-2-5 is welding, the connection mode of the steel wire rope connecting wheel 2-2-5 and the motor shaft 2-2-6 is expansion sleeve connection, the connection mode of the motor shaft 2-2-6 and the motor 2-2-7 is bearing connection, the matching mode of the spring valve body 2-2-9 and the spring door sliding rail 2-2-8 is clearance fit, the connection mode of the steel wire rope 2-2-4 and the spring valve body 2-2-9 is welding, the spring valve body water inlet 2-2-10 is opened on the spring valve body 2-2-9, the connection mode of the spring A2-2-11 and the spring valve body 2-2-9 is welding, the motor shaft 2-2-6 is driven to rotate by the operation of the motor 2-2-7, the motor shaft 2-2-6 drives the steel wire rope connecting wheel 2-2-5 to rotate, the steel wire rope connecting wheel 2-2-5 rotates to pull the steel wire rope 2-2-4, and the steel wire rope 2-2-4 pulls the spring valve body 2-2-9, so that the matching size between the water passing openings 2-2-10 of the spring valve body is changed, and the water yield is changed;

the safe pressurizing mechanism 3 comprises a pressurizing driving mechanism 3-1, a pressurizing executing mechanism 3-2, a safe seat mechanism 3-3, a water pipe clamping mechanism 3-4, a middle safe mechanism 3-5, a water inlet plug 3-6, a water tank 3-7 and a filter screen 3-8, the pressurizing driving mechanism 3-1 is connected with the pressurizing executing mechanism 3-2, the pressurizing driving mechanism 3-1 is hinged with the pressurizing executing mechanism 3-2, the pressurizing executing mechanism 3-2 is arranged in the water tank 3-7, the pressurizing executing mechanism 3-2 is in clearance fit with the water tank 3-7, the safe seat mechanism 3-3 is arranged in the water tank 3-7, the connecting mode of the safe seat mechanism 3-3 and the water tank 3-7 is welding, the water pipe clamping mechanism 3-4 is positioned above the water tank 3-7, the connection mode of the water pipe clamping mechanism 3-4 and the water tank 3-7 is welding, the middle safety mechanism 3-5 is arranged inside the water tank 3-7, the connection mode of the middle safety mechanism 3-5 and the water tank 3-7 is welding, the connection mode of the filter screen 3-8 and the water tank 3-7 is bolt connection, when the pressurizing execution mechanism 3-2 moves excessively, the left side of the pressurizing execution mechanism 3-2 is provided with the safety seat mechanism 3-3, the safety spring 3-3-2 can absorb the kinetic energy of the pressurizing execution mechanism 3-2 to play a role in buffering, the middle safety mechanism 3-5 is arranged in the middle of the pressurizing execution mechanism 3-2, the spring B3-5-4 on the middle safety mechanism 3-5 can absorb the kinetic energy of the pressurizing execution mechanism 3-2, the impact is prevented;

the pressurizing driving mechanism 3-1 comprises a pressurizing motor 3-1-1, a pressurizing motor shaft 3-1-2, a pressurizing wheel 3-1-3, a hinge joint 3-1-4, a connecting rod 3-1-5 and a sleeve 3-1-6, the pressurizing motor shaft 3-1-2 is connected with the pressurizing motor 3-1-1 through a bearing, the pressurizing wheel 3-1-3 is connected with the pressurizing motor shaft 3-1-2 through an expansion sleeve, the hinge joint 3-1-4 is connected with the pressurizing wheel 3-1-3 through welding, the connecting rod 3-1-5 is hinged with the hinge joint 3-1-4, the sleeve 3-1-6 is connected with the connecting rod 3-1-5 through welding, the pressurizing motor 3-1-1 is driven to rotate by the operation of the pressurizing motor 3-1-1, the pressurizing motor shaft 3-1-2 rotates to drive the pressurizing wheel 3-1-3 to rotate, the pressurizing wheel 3-1-3 rotates to drive the connecting rod 3-1-5 to move through the hinge buckle 3-1-4, the connecting rod 3-1-5 moves to drive the sleeve 3-1-6 to move, the sleeve 3-1-6 moves to drive the pressurizing executing mechanism 3-2 to reciprocate left and right, and the pressurizing executing mechanism 3-2 reciprocates left and right to extrude water in the water tank 3-7 out of the filter screen 3-8 and finally is ejected from the water pipe interface 1-5;

the pressurizing execution mechanism 3-2 comprises a pressurizing connecting rod 3-2-1 and a pressurizing seat A3-2-2, the pressurizing connecting rod 3-2-1 is connected with the pressurizing seat A3-2-2, and the pressurizing connecting rod 3-2-1 is connected with the pressurizing seat A3-2-2 in a bolt connection mode;

the safety seat mechanism 3-3 comprises a safety rod 3-3-1, a safety spring 3-3-2 and a safety seat 3-3-3, the safety rod 3-3-1 is connected with the safety seat 3-3-3, the safety spring 3-3-2 is arranged between the safety rods 3-3-1, and the safety spring 3-3-2 is connected with the safety seat 3-3-3 in a welding mode;

the water pipe clamping mechanism 3-4 comprises a pull seat 3-4-1, a vertical fixed seat 3-4-2, a return spring A3-4-3 and a water pipe clamping seat body 3-4-4, the matching mode of the pull seat 3-4-1 and the vertical fixed seat 3-4-2 is clearance fit, the connecting mode of the return spring A3-4-3 and the vertical fixed seat 3-4-2 is welding, the connecting mode of the return spring A3-4-3 and the water pipe clamping seat body 3-4-4 is welding, the connecting mode of the pull seat 3-4-1 and the water pipe clamping seat body 3-4-4 is welding, firstly, the pull seat 3-4-1 is pulled outwards, the pull seat 3-4-1 can drive the water pipe clamping seat body 3-4-4 to move outwards, then the water pipe is placed between 3-4-4 parts of the water pipe clamping seat body, then the pull seat 3-4-1 is loosened, and the water pipe clamping seat body 3-4-4 moves towards the middle under the resilience action of a return spring A3-4-3 to clamp the water pipe;

the middle safety mechanism 3-5 comprises a vertical seat A3-5-1, a slide bar A groove 3-5-2, a slide bar A3-5-3, a spring B3-5-4 and a connecting seat A3-5-5, wherein the slide bar A groove 3-5-2 is arranged on the vertical seat A3-5-1, the slide bar A3-5-3 and the slide bar A groove 3-5-2 are connected in a sliding mode, the connecting seat A3-5-5 and the slide bar A3-5-3 are connected in a hinged mode, the spring B3-5-4 and the connecting seat A3-5-5 are connected in a welding mode, and the spring B3-5-4 and the vertical seat A3-5-1 are connected in a welding mode;

the hydraulic flow variable valve mechanism 2 is positioned above the movable matched underframe mechanism 1, the connection mode of the hydraulic flow variable valve mechanism 2 and the movable matched underframe mechanism 1 is welding, the safety pressurizing mechanism 3 is positioned above the hydraulic flow variable valve mechanism 2, and the connection mode of the safety pressurizing mechanism 3 and the hydraulic flow variable valve mechanism 2 is partial welding and partial bolt connection.

The second embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, and the present embodiment further describes the first embodiment in which the number of the moving wheel mechanisms 1 to 4 is four.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the embodiment further describes the embodiment, in which the material of the hydraulic spring 2-1-2, the spring a2-2-11, the safety spring 3-3-2, the return spring A3-4-3, and the spring B3-5-4 is stainless steel.

The fourth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the first embodiment will be further described, in which the water tanks 3 to 7 are made of stainless steel.

The device can spray water, the pressurizing motor shaft 3-1-2 is driven to rotate by the operation of the pressurizing motor 3-1-1, the pressurizing motor shaft 3-1-2 rotates to drive the pressurizing wheel 3-1-3 to rotate, the pressurizing wheel 3-1-3 rotates to drive the connecting rod 3-1-5 to move through the hinged buckle 3-1-4, the connecting rod 3-1-5 moves to drive the sleeve 3-1-6 to move, the sleeve 3-1-6 moves to drive the pressurizing executing mechanism 3-2 to reciprocate left and right, and the pressurizing executing mechanism 3-2 reciprocates left and right to extrude water in the water tank 3-7 out of the filter screen 3-8 and finally is sprayed out of the water pipe connector 1-5; the device can adjust the water spraying flow, and by injecting hydraulic oil into the hydraulic cylinder 2-1-1, the piston 2-1-3 moves under the driving of oil pressure, the piston 2-1-3 moves to drive the piston rod 2-1-4 to move, the piston rod 2-1-4 moves to drive the valve body 2-1-5 to move, thus, the matching position of the valve body 2-1-5 and the inlet port 2-5 is changed, when the valve body 2-1-5 moves leftwards, the large-size flow port 2-1-8 is matched with the inlet port 2-5, the water yield is maximum at the moment, when the valve body 2-1-5 moves rightwards, the medium flow port 2-1-6 is matched with the inlet port 2-5, and the medium water yield is obtained; the device can perform secondary regulation on the water spraying flow, the motor shaft 2-2-6 is driven to rotate by the operation of the motor 2-2-7, the motor shaft 2-2-6 rotates to drive the steel wire rope connecting wheel 2-2-5 to rotate, the steel wire rope connecting wheel 2-2-5 rotates to pull the steel wire rope 2-2-4, and the steel wire rope 2-2-4 pulls the spring valve body 2-2-9, so that the matching size between the water passing openings 2-2-10 of the spring valve body is changed, and the water yield is changed; the device can clamp a water inlet pipe, firstly, the pull seat 3-4-1 is pulled outwards, the pull seat 3-4-1 can drive the water pipe clamping seat body 3-4-4 to move outwards, then, a water pipe is placed between the water pipe clamping seat bodies 3-4-4, then, the pull seat 3-4-1 is loosened, and under the resilience action of the return spring A3-4-3, the water pipe clamping seat body 3-4-4 moves towards the middle to clamp the water pipe; the device can run safely, when the pressurizing execution mechanism 3-2 moves excessively, the safety seat mechanism 3-3 is arranged on the left side of the pressurizing execution mechanism 3-2, the safety spring 3-3-2 can absorb the kinetic energy of the pressurizing execution mechanism 3-2 to play a role of buffering, the middle of the pressurizing execution mechanism 3-2 is provided with the middle safety mechanism 3-5, and the spring B3-5-4 on the middle safety mechanism 3-5 can absorb the kinetic energy of the pressurizing execution mechanism 3-2 to prevent the generation of impact; the device can be fixed on different watering lorries, the positions of the sliding blocks 1-1-4 in the sliding rails 1-1-6 are adjusted according to the sizes of the different watering lorries, then the sliding blocks are locked and fixed by the sliding block locking screws 1-1-5, and then the sliding blocks are screwed and fixed by the locking screws 1-1-1, so that the device can be fixed on the different watering lorries, and the universality is high; the device can simply filter water, and the lower part of the water tank 3-7 is provided with the filter screen 3-8 which can filter water; the device can guarantee the service life of a long time, and the water tanks 3-7 are made of stainless steel, so that the corrosion of water can be prevented, and the service life can be prolonged.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a water jet equipment for valve control watering lorry, is including the supporting chassis mechanism of activity (1), variable valve mechanism of hydraulic flow (2), safe loading system (3), its characterized in that: the movably matched underframe mechanism (1) comprises a movable locking mechanism (1-1), a lifting annular hole (1-2), an underframe body (1-3), a moving wheel mechanism (1-4) and a water pipe interface (1-5), wherein the movable locking mechanism (1-1) is positioned below the underframe body (1-3), the movable locking mechanism (1-1) is connected with the underframe body (1-3) in a bolt connection mode, the lifting annular hole (1-2) is formed in the underframe body (1-3), the moving wheel mechanism (1-4) is positioned below the underframe body (1-3), the moving wheel mechanism (1-4) is connected with the underframe body (1-3) in a bolt connection mode, the water pipe interface (1-5) is positioned below the underframe body (1-3), the water pipe interfaces (1-5) are connected with the underframe bodies (1-3) in a bolt connection mode;

the movable locking mechanism (1-1) comprises a locking screw (1-1-1), a locking seat (1-1-2), a screw matching seat (1-1-3), a sliding block (1-1-4), a sliding block locking screw (1-1-5), a sliding rail (1-1-6) and a sliding block locking hole (1-1-7), wherein the locking screw (1-1-1) is connected with the locking seat (1-1-2) in a spiral manner, the screw matching seat (1-1-3) is positioned above the locking screw (1-1-1), the screw matching seat (1-1-3) is connected with the locking screw (1-1-1) in a spiral manner, the screw matching seat (1-1-3) is positioned below the sliding block (1-1-4), the screw matching seat (1-1-3) and the sliding block (1-1-4) are connected in a welding mode, the sliding block locking screw (1-1-5) is connected with the sliding block (1-1-4) in a spiral mode, the sliding block (1-1-4) is arranged inside the sliding rail (1-1-6), the sliding block (1-1-4) and the sliding rail (1-1-6) are matched in a clearance mode, and the sliding block locking hole (1-1-7) is formed in the sliding rail (1-1-6);

the moving wheel mechanism (1-4) comprises a moving wheel (1-4-1), a moving wheel shaft (1-4-2) and a moving wheel seat (1-4-3), the moving wheel (1-4-1) is connected with the moving wheel shaft (1-4-2) in a welding mode, and the moving wheel seat (1-4-3) is connected with the moving wheel shaft (1-4-2) in a bearing mode;

the hydraulic flow variable valve mechanism (2) comprises a hydraulic adjusting valve mechanism (2-1), a secondary spring valve mechanism (2-2), a valve shell (2-3), a supporting block (2-4), an inlet (2-5), an outlet (2-6), a steel wire rope opening (2-7) and a bottom opening (2-8), wherein the hydraulic adjusting valve mechanism (2-1) is connected with the valve shell (2-3), the hydraulic adjusting valve mechanism (2-1) is in clearance fit with the valve shell (2-3), the secondary spring valve mechanism (2-2) is connected with the valve shell (2-3) through a bolt, the supporting block (2-4) is positioned above the valve shell (2-3), the supporting block (2-4) and the valve shell (2-3) are connected in a welding mode, an inlet (2-5) is arranged right above the valve shell (2-3), an outlet (2-6) is arranged in the valve shell (2-3), steel wire rope openings (2-7) are arranged on two sides of the valve shell (2-3), and a bottom opening (2-8) is arranged on the lower side of the valve shell (2-3);

the hydraulic regulating valve mechanism (2-1) comprises a hydraulic cylinder (2-1-1), a hydraulic spring (2-1-2), a piston (2-1-3), a piston rod (2-1-4), a valve body (2-1-5), a medium flow port (2-1-6), a small flow port (2-1-7) and a large flow port (2-1-8), wherein the hydraulic spring (2-1-2) is arranged inside the hydraulic cylinder (2-1-1), the hydraulic spring (2-1-2) and the hydraulic cylinder (2-1-1) are connected in a welding mode, the piston (2-1-3) and the hydraulic spring (2-1-2) are connected, and the piston (2-1-3) and the hydraulic spring (2-1-2) are connected in a welding mode, the piston rod (2-1-4) is connected with the piston (2-1-3) in a welding mode, the piston rod (2-1-4) is connected with the valve body (2-1-5) in a welding mode, the medium-sized flow port (2-1-6) is formed in the left side of the valve body (2-1-5), the small-sized flow port (2-1-7) is formed in the middle of the valve body (2-1-5), and the large-sized flow port (2-1-8) is formed in the right side of the valve body (2-1-5);

the two-stage spring valve mechanism (2-2) comprises a steering wheel (2-2-1), a steering wheel shaft (2-2-2), a steering wheel seat (2-2-3), a steel wire rope (2-2-4), a steel wire rope connecting wheel (2-2-5), a motor shaft (2-2-6), a motor (2-2-7), a spring door sliding rail (2-2-8), a spring valve body (2-2-9), a spring valve body water passing port (2-2-10) and a spring A (2-2-11), the steering wheel (2-2-1) is connected with the steering wheel shaft (2-2-2), the connection mode of the steering wheel (2-2-1) and the steering wheel shaft (2-2-2) is welding, the connection mode of the steering wheel shaft (2-2-2) and the steering wheel seat (2-2-3) is bearing connection, the connection mode of the steel wire rope (2-2-4) and the steering wheel (2-2-1) is flexible connection, the connection mode of the steel wire rope (2-2-4) and the steel wire rope connection wheel (2-2-5) is welding, the connection mode of the steel wire rope connection wheel (2-2-5) and the motor shaft (2-2-6) is expansion sleeve connection, the connection mode of the motor shaft (2-2-6) and the motor (2-2-7) is bearing connection, the matching mode of the spring valve body (2-2-9) and the spring door sliding rail (2-2-8) is clearance fit, the connection mode of the steel wire rope (2-2-4) and the spring valve body (2-2-9) is welding, the spring valve body water passing port (2-2-10) is arranged on the spring valve body (2-2-9), and the connection mode of the spring A (2-2-11) and the spring valve body (2-2-9) is welding;

the safe pressurizing mechanism (3) comprises a pressurizing driving mechanism (3-1), a pressurizing executing mechanism (3-2), a safe seat mechanism (3-3), a water pipe clamping mechanism (3-4), a middle safety mechanism (3-5), a water inlet plug (3-6), a water tank (3-7) and a filter screen (3-8), the pressurizing driving mechanism (3-1) is connected with the pressurizing executing mechanism (3-2), the pressurizing driving mechanism (3-1) is hinged with the pressurizing executing mechanism (3-2), the pressurizing executing mechanism (3-2) is arranged inside the water tank (3-7), the pressurizing executing mechanism (3-2) is in clearance fit with the water tank (3-7), the safe seat mechanism (3-3) is arranged inside the water tank (3-7), the connection mode of the safety seat mechanism (3-3) and the water tank (3-7) is welding, the water pipe clamping mechanism (3-4) is positioned above the water tank (3-7), the connection mode of the water pipe clamping mechanism (3-4) and the water tank (3-7) is welding, the middle safety mechanism (3-5) is arranged inside the water tank (3-7), the connection mode of the middle safety mechanism (3-5) and the water tank (3-7) is welding, and the connection mode of the filter screen (3-8) and the water tank (3-7) is bolt connection;

the pressurizing driving mechanism (3-1) comprises a pressurizing motor (3-1-1), a pressurizing motor shaft (3-1-2), a pressurizing wheel (3-1-3), a hinge joint (3-1-4), a connecting rod (3-1-5) and a sleeve (3-1-6), the pressurizing motor shaft (3-1-2) is connected with the pressurizing motor (3-1-1) through a bearing, the pressurizing wheel (3-1-3) is connected with the pressurizing motor shaft (3-1-2) through an expansion sleeve, the hinge joint (3-1-4) is connected with the pressurizing wheel (3-1-3) through welding, the connecting rod (3-1-5) is hinged with the hinge joint (3-1-4), the sleeve (3-1-6) and the connecting rod (3-1-5) are connected by welding;

the pressurizing execution mechanism (3-2) comprises a pressurizing connecting rod (3-2-1) and a pressurizing seat A (3-2-2), the pressurizing connecting rod (3-2-1) is connected with the pressurizing seat A (3-2-2), and the pressurizing connecting rod (3-2-1) is connected with the pressurizing seat A (3-2-2) in a bolt connection mode;

the safety seat mechanism (3-3) comprises safety rods (3-3-1), safety springs (3-3-2) and safety seats (3-3-3), the safety rods (3-3-1) are connected with the safety seats (3-3-3), the safety springs (3-3-2) are arranged between the safety rods (3-3-1), and the safety springs (3-3-2) and the safety seats (3-3-3) are connected in a welding mode;

the water pipe clamping mechanism (3-4) comprises a pull seat (3-4-1), a vertical fixed seat (3-4-2), a return spring A (3-4-3) and a water pipe clamping seat body (3-4-4), the pull seat (3-4-1) is in clearance fit with the vertical fixed seat (3-4-2), the return spring A (3-4-3) is in welding with the water pipe clamping seat body (3-4-4), and the pull seat (3-4-1) is in welding with the water pipe clamping seat body (3-4-4);

the middle safety mechanism (3-5) comprises a vertical seat A (3-5-1), a slide bar A groove (3-5-2), a slide bar A (3-5-3), a spring B (3-5-4) and a connecting seat A (3-5-5), a groove (3-5-2) of the sliding rod A is formed in the vertical seat A (3-5-1), the sliding rod A (3-5-3) is connected with the groove (3-5-2) of the sliding rod A in a sliding mode, the connecting seat A (3-5-5) is hinged with the sliding rod A (3-5-3), the spring B (3-5-4) is connected with the connecting seat A (3-5-5) in a welding mode, and the spring B (3-5-4) is connected with the vertical seat A (3-5-1) in a welding mode;

the hydraulic flow variable valve mechanism (2) is located above the movable matched underframe mechanism (1), the connection mode of the hydraulic flow variable valve mechanism (2) and the movable matched underframe mechanism (1) is welding, the safety pressurizing mechanism (3) is located above the hydraulic flow variable valve mechanism (2), and the connection mode of the safety pressurizing mechanism (3) and the hydraulic flow variable valve mechanism (2) is partial welding and partial bolt connection.

2. The sprinkler device for a valve controlled sprinkler according to claim 1, wherein: the number of the moving wheel mechanisms (1-4) is four.

3. The sprinkler device for a valve controlled sprinkler according to claim 1, wherein: the hydraulic spring (2-1-2), the spring A (2-2-11), the safety spring (3-3-2), the reset spring A (3-4-3) and the spring B (3-5-4) are made of stainless steel.

4. The sprinkler device for a valve controlled sprinkler according to claim 1, wherein: the water tank (3-7) is made of stainless steel.

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