Multidirectional rotary head capable of detecting humidity
Technical Field
The invention relates to the field of multidirectional rotating heads, in particular to a multidirectional rotating head capable of detecting humidity.
Background
The pipeline refers to a device which is formed by connecting pipes, pipe connectors, valves and the like and used for conveying gas, liquid or fluid with solid particles, generally, the fluid flows from a high-pressure part to a low-pressure part of the pipeline after being pressurized by a blower, a compressor, a pump, a boiler and the like, and can also be conveyed by utilizing the pressure or gravity of the fluid, the pipeline has wide application range and is mainly used for water supply, drainage, heat supply, gas supply, long-distance petroleum and natural gas conveying, agricultural irrigation, hydraulic engineering and various industrial devices.
At present, because many liquid pipes are used in some factories, the pipes are much messy, the pipes are intertwined to cause the liquid transmission to be blocked, so that the workload of workers is increased, and the large number of pipes causes much unnecessary waste.
Disclosure of Invention
The invention mainly aims to overcome the defects of the prior art and provide a multidirectional rotating head capable of detecting humidity.
The invention is realized by adopting the following technical scheme: a multidirectional rotary joint capable of detecting humidity structurally comprises a main body, a diversion control pipeline and a pressure control cavity, wherein the main body is vertically welded on one side of the pressure control cavity, the diversion control pipeline is embedded in the main body, the pressure control cavity is vertically welded on the side face of the main body, the main body is provided with a water inlet connector and a water inlet main pipeline, the water inlet connector is vertically welded at one end of the water inlet main pipeline, and the water inlet main pipeline is vertically welded between the water inlet connector and the diversion control pipeline; the shunt control pipeline is provided with a first circuit control cavity, a second circuit control cavity, a first shunt device and a second shunt device, the first circuit control cavity is vertically welded on the inner wall of the shunt control pipeline, the second circuit control cavity is vertically welded on the inner wall of the other side of the shunt control pipeline, the first shunt device is embedded above the shunt control pipeline, and the second shunt device is embedded below the shunt control pipeline; the pressure control cavity is provided with a humidity detection device, a control transmission motor and a lead screw pushing device, the humidity detection device is embedded on the inner wall of the pressure control cavity, the control transmission motor is connected below the lead screw pushing device in a riveting mode through a bolt, the lead screw pushing device is connected between the humidity detection device and the control transmission motor in a riveting mode through a bolt, and the lead screw pushing device is connected to the inner wall of the pressure control cavity in a riveting mode through a bolt.
As optimization, first circuit control chamber is equipped with first circular telegram touch multitouch, first touch multitouch fixed plate, first little ball, first filter screen, first reset spring that triggers, first circular telegram touch multitouch is perpendicularly welded between first touch multitouch fixed plate, first touch multitouch fixed plate is perpendicularly welded in first circular telegram touch multitouch both sides.
As optimization, first feeler fixed plate welds perpendicularly between first circular telegram feeler and first circuit control chamber, first triggering pellet inlays to be located between first circular telegram feeler and the first filter screen, first filter screen inlays to be located on the main water inlet pipe inner wall, first reset spring connects between first triggering pellet and second circuit control chamber.
As optimization, the second circuit control cavity is provided with a second electrifying contact block, a second contact block fixing plate, a second trigger small ball, a second filter screen and a second reset spring, the second electrifying contact block is vertically welded between the second contact block fixing plates, and the second contact block fixing plates are vertically welded on two sides of the second electrifying contact block.
As optimization, the second feeler fixed plate welds perpendicularly between second circular telegram feeler and second circuit control chamber, the second triggers the bobble and inlays to locate between second circular telegram feeler and the second filter screen, the second filter screen inlays to locate on the trunk line inner wall of intaking, second reset spring connects and triggers between bobble and the first bobble that triggers in the second.
As optimizing, first diverging device is equipped with first diverging branch pipe, first branch union coupling head, first diverging baffle, first baffle pivot, first diverging branch pipe inlays to be located inside first diverging device, first branch union coupling head welds perpendicularly in first diverging branch pipe one end, first branch union coupling head welds perpendicularly on device main part surface, first diverging baffle inlays to be located inside first diverging branch pipe, first diverging baffle passes through threaded engagement and connects in first baffle pivot, first baffle pivot is inlayed and is located on first diverging device inner wall.
As optimizing, second diverging device is equipped with second diverging branch pipe, second branch pipe connector, second diverging baffle, second baffle pivot, second diverging branch pipe inlays to be located inside the second diverging device, second branch pipe connector welds perpendicularly in second diverging branch pipe one end, second branch pipe connector welds perpendicularly on device main part surface, the second diverging baffle inlays to be located inside the second diverging branch pipe, the second diverging baffle passes through threaded engagement and connects in the second baffle pivot, the second baffle pivot is inlayed and is located on the second diverging device inner wall.
Preferably, the humidity detection device is provided with a first detection head, a second detection head, a detection main body and a fixed connecting wire, the first detection head is embedded on the inner wall of the second shunt device, the first detection head is electrically connected to the side face of the detection main body, the second detection head is embedded below the first detection head, the second detection head is electrically connected to the side face of the detection main body, the detection main body is connected to the inner wall of the pressure control cavity through a bolt in a riveting mode, the detection main body is connected to the upper portion of the lead screw pushing device through a bolt in a riveting mode, and the fixed connecting wire is electrically connected between the detection main body and the lead screw pushing device.
Preferably, the screw pushing device is provided with a control transmission base, a screw shaft sleeve, a conveying screw and a pressure piston plate, the control transmission base is connected to the inner wall of the pressure control cavity in a riveting mode through bolts, the screw shaft sleeve is vertically welded to the side face of the control transmission base, the conveying screw is connected between the screw shaft sleeve and the pressure piston plate through threaded engagement, the pressure piston plate is connected to one end of the conveying screw through threaded engagement, and the pressure piston plate is connected to the inside of the water inlet main pipeline through excessive matching.
Advantageous effects
When the multidirectional turning head capable of detecting humidity works, the first shunting device is provided with the first shunting branch pipe, the first branch pipe connector, the first shunting baffle and the first baffle rotating shaft, the first shunting branch pipe is connected through the first branch pipe connector, then the first shunting branch pipe is rotated to drive the first shunting baffle to rotate, and the first shunting baffle opens the pipeline channel inside the first shunting branch pipe in the rotating process so that liquid can circulate; the second flow dividing device is provided with a second flow dividing branch pipe, a second branch pipe connector, a second flow dividing baffle and a second baffle rotating shaft, the second branch pipe connector is connected with the flow dividing branch pipe, then the second flow dividing branch pipe is rotated to drive the second flow dividing baffle to rotate, and the second flow dividing baffle opens a pipeline channel in the second flow dividing branch pipe in the rotating process, so that liquid can circulate; when liquid enters the shunt control pipeline, the first trigger small ball is pushed to move due to the pressure of the liquid, so that the first trigger small ball is connected with the first electrified contact block and is communicated with a circuit for controlling a transmission motor to control the transmission motor to work; when liquid enters the shunt control pipeline, the second trigger small ball is pushed to move by the pressure of the liquid, so that the second trigger small ball is connected with the second electrified contact block and is communicated with a circuit of the humidity detection device, and the humidity detection device works; the humidity detection device is provided with the first detection head, the second detection head, the detection main body and the fixed connecting lead, when liquid enters the shunt control pipeline, the first detection head and the second detection head are in contact with the liquid, so that the detection main body works, and the lead screw pushing device works under the control of the detection main body and the control transmission motor; through being equipped with a lead screw pusher, lead screw pusher is equipped with control transmission base, lead screw axle sleeve, conveying lead screw, pressure piston plate, when main part of detection and control transmission motor carry out during operation to drive control transmission base promotes conveying lead screw and drives the pressure piston plate and carry out horizontal reciprocating motion, thereby makes the pressure piston plate carry out piston motion at the main pipe of intaking, increases the inside pressure of main pipe of intaking for the speed of liquid reposition of redundant personnel.
Compared with the prior art, the invention has the beneficial effects that: can carry out the connection of tributary pipeline through simple reposition of redundant personnel structure and operation, self pressure drive inner circuit motor carries out work when simultaneously flowing through liquid for the flow of liquid, thereby accelerate production and processing, the use of pipe can be reduced through the structure of a plurality of reposition of redundant personnel pipelines, reduce the pipe because too much causes the problem of winding jam, also avoid increasing extra work load for the staff when saving the pipe.
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 multi-directional rotating head capable of detecting humidity according to the present invention.
Fig. 2 is a schematic structural diagram of a multi-directional rotary head capable of detecting humidity according to the present invention in a working state.
Fig. 3 is a schematic structural diagram of the first circuit control chamber and the second circuit control chamber in a static state according to the present invention.
Fig. 4 is a schematic diagram of the internal structure of the first circuit control chamber and the second circuit control chamber in the operating state according to the present invention.
Fig. 5 is a schematic structural view of the pressure control chamber of the present invention in a quiescent state.
Fig. 6 is a schematic view of the internal structure of the pressure control chamber according to the present invention in an operating state.
In the figure: the device comprises a device main body 1, a flow dividing control pipeline 2, a pressure intensity control cavity 3, a water inlet connector 10, a main water inlet pipeline 11, a first circuit control cavity 20, a first electrifying contact block 200, a first contact block fixing plate 201, a first triggering small ball 202, a first filter screen 203, a first reset spring 204, a second circuit control cavity 21, a second electrifying contact block 210, a second contact block fixing plate 211, a second triggering small ball 212, a second filter screen 213, a second reset spring 214, a first flow dividing device 22, a first flow dividing branch pipe 220, a first branch pipe connector 221, a first flow dividing baffle 222, a first baffle rotating shaft 223, a second flow dividing device 23, a second flow dividing branch pipe 230, a second branch pipe connector 231, a second flow dividing baffle 232, a second baffle rotating shaft 233, a humidity detection device 30, a first detection head 300, a second detection head 301, a detection main body 302, a fixed connection lead 303, a control transmission motor 31, a control transmission motor control transmission, The device comprises a lead screw pushing device 32, a control transmission base 320, a lead screw shaft sleeve 321, a transmission lead screw 322 and a pressure piston plate 323.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-6, the present invention provides a multi-directional rotating head capable of detecting humidity, comprising: the device structurally comprises a device main body 1, a shunt control pipeline 2 and a pressure control cavity 3, wherein the device main body 1 is vertically welded on one side of the pressure control cavity 3, the shunt control pipeline 2 is embedded in the device main body 1, the pressure control cavity 3 is vertically welded on the side surface of the device main body 1, the device main body 1 is provided with a water inlet connector 10 and a water inlet main pipeline 11, the water inlet connector 10 is vertically welded at one end of the water inlet main pipeline 11, and the water inlet main pipeline 11 is vertically welded between the water inlet connector 10 and the shunt control pipeline 2; the flow dividing control pipeline 2 is provided with a first circuit control cavity 20, a second circuit control cavity 21, a first flow dividing device 22 and a second flow dividing device 23, the first circuit control cavity 20 is vertically welded on the inner wall of the flow dividing control pipeline 2, the second circuit control cavity 21 is vertically welded on the inner wall of the other side of the flow dividing control pipeline 2, the first flow dividing device 22 is embedded above the flow dividing control pipeline 2, and the second flow dividing device 23 is embedded below the flow dividing control pipeline 2; the pressure control cavity 3 is provided with a humidity detection device 30, a control transmission motor 31 and a lead screw pushing device 32, the humidity detection device 30 is embedded on the inner wall of the pressure control cavity 3, the control transmission motor 31 is connected below the lead screw pushing device 32 in a riveting manner through a bolt, the lead screw pushing device 32 is connected between the humidity detection device 30 and the control transmission motor 31 in a riveting manner through a bolt, the lead screw pushing device 32 is connected on the inner wall of the pressure control cavity 3 in a riveting manner through a bolt, the first circuit control cavity 20 is provided with a first power-on contact block 200, a first contact block fixing plate 201, a first trigger small ball 202, a first filter screen 203 and a first reset spring 204, the first power-on contact block 200 is vertically welded between the first contact block fixing plate 201, the first contact block fixing plate 201 is vertically welded on two sides of the first power-on contact block 200, the first contact block fixing plate 201 is vertically welded between the first power-on contact block 200 and the first circuit control cavity 20, the first trigger small ball 202 is embedded between the first electrifying contact block 200 and the first filter screen 203, the first filter screen 203 is embedded on the inner wall of the water inlet main pipeline 11, the first reset spring 204 is connected between the first trigger small ball 202 and the second circuit control cavity 21, the second circuit control cavity 21 is provided with a second electrifying contact block 210, a second contact block fixing plate 211, a second trigger small ball 212, a second filter screen 213 and a second reset spring 214, the second electrifying contact block 210 is vertically welded between the second contact block fixing plate 211, the second contact block fixing plate 211 is vertically welded on two sides of the second electrifying contact block 210, the second contact block fixing plate 211 is vertically welded between the second electrifying contact block 210 and the second circuit control cavity 21, the second trigger small ball 212 is embedded between the second electrifying contact block 210 and the second filter screen 213, the second filter screen 213 is embedded on the inner wall of the water inlet main pipeline 11, the second reset spring 214 is connected between the second trigger small round ball 212 and the first trigger small round ball 202, the first shunt device 22 is provided with a first shunt branch 220, a first branch connector 221, a first shunt baffle 222 and a first baffle rotating shaft 223, the first shunt branch 220 is embedded inside the first shunt device 22, the first branch connector 221 is vertically welded at one end of the first shunt branch 220, the first branch connector 221 is vertically welded on the outer surface of the device main body 1, the first shunt baffle 222 is embedded inside the first shunt branch 220, the first shunt baffle 222 is connected on the first baffle rotating shaft 223 through threaded engagement, the first baffle rotating shaft 223 is embedded on the inner wall of the first shunt device 22, the second shunt device 23 is provided with a second shunt branch 230, a second branch connector 231, a second shunt baffle 232 and a second baffle rotating shaft 233, the second branch pipe 230 is embedded in the second flow divider 23, the second branch pipe connector 231 is vertically welded to one end of the second branch pipe 230, the second branch pipe connector 231 is vertically welded to the outer surface of the device body 1, the second flow divider 232 is embedded in the second branch pipe 230, the second flow divider 232 is connected to the second baffle rotating shaft 233 through threaded engagement, the second baffle rotating shaft 233 is embedded in the inner wall of the second flow divider 23, the humidity detection device 30 is provided with a first detection head 300, a second detection head 301, a detection body 302 and a fixed connecting lead 303, the first detection head 300 is embedded in the inner wall of the second flow divider 23, the first detection head 300 is electrically connected to the side surface of the detection body 302, the second detection head 301 is embedded below the first detection head 300, and the second detection head 301 is electrically connected to the side surface of the detection body 302, the detection main body 302 is connected to the inner wall of the pressure control chamber 3 through a bolt in a riveting manner, the detection main body 302 is connected to the upper portion of the screw pushing device 32 through a bolt in a riveting manner, the fixed connecting lead 303 is electrically connected between the detection main body 302 and the screw pushing device 32, the screw pushing device 32 is provided with a control transmission base 320, a screw shaft sleeve 321, a transmission screw 322 and a pressure piston plate 323, the control transmission base 320 is connected to the inner wall of the pressure control chamber 3 through a bolt in a riveting manner, the screw shaft sleeve 321 is vertically welded to the side face of the control transmission base 320, the transmission screw 322 is connected between the screw shaft sleeve 321 and the pressure piston plate 323 through thread engagement, the pressure piston plate 323 is connected to one end of the transmission screw 322 through thread engagement, and the pressure piston plate 323 is connected to the inside of the main water.
When the humidity detection device 30 and the control transmission motor 31 work, the lead screw pushing device 32 is controlled to work, the water pressure of the diversion control pipeline 2 is enhanced, and the flowing of the liquid is accelerated.
Compared with the prior art, the invention has the technical progress that: can carry out the connection of tributary pipeline through simple reposition of redundant personnel structure and operation, self pressure drive inner circuit motor carries out work when simultaneously flowing through liquid for the flow of liquid, thereby accelerate production and processing, the use of pipe can be reduced through the structure of a plurality of reposition of redundant personnel pipelines, reduce the pipe because too much causes the problem of winding jam, also avoid increasing extra work load for the staff when saving the pipe.
Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.