CN113976035A - Water distribution system with automatic identification function - Google Patents

Abstract

The application discloses water distribution system with automatic identification function includes: tank and mixing tank, the water pump is installed to tank inner chamber bottom, and water pump export and pipe connection, water distribution mechanism is installed to mixing tank top wall, the pipe is kept away from the one end and the water distribution mechanism of water pump and is connected, add the mixing tank with the raw materials in the device, make the top of raw materials drop to the layer board, can make the layer board forced down move, can press touch switch, make water pump work, pour into the inner chamber of water injection pipe with the water in the tank, water can fill up the space between baffle and the apron, can extrude the gasbag, press switch, make electric telescopic handle circular telegram work, take the apron to move on the right side, make the water injection pipe right side open, add water in the mixing tank, carry out the water injection to the raw materials, be used for mixing raw materials, thereby realize automatic water distribution is accomplished in automatic identification, staff's work load is reduced, work efficiency is improved.

Description

Water distribution system with automatic identification function

Technical Field

The invention relates to the technical field of water distribution equipment, in particular to a water distribution system with an automatic identification function.

Background

Part raw materials need to add water at the in-process that mixes, but traditional mode of adding water is generally through artifical direct water addition, perhaps adds water by manual control, can make the process of adding water comparatively troublesome, and influence work efficiency, for this reason, we propose a water distribution system who has automatic identification function.

Disclosure of Invention

The invention aims to provide a water distribution system with an automatic identification function, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a water distribution system with automatic identification, comprising: a water storage tank and a mixing tank;

the water tank is characterized in that a water pump is installed at the bottom of the inner cavity of the water storage tank, an outlet of the water pump is connected with a guide pipe, a water distribution mechanism is installed on the top wall of the mixing tank, and one end, far away from the water pump, of the guide pipe is connected with the water distribution mechanism.

Further, water distribution mechanism includes the layer board of slidable mounting in mixing the pond inner chamber, it has the air to fill between layer board bottom wall and the mixing pond inner chamber bottom, there is the supporting shoe mixing the pond right side inner wall through elastic component slidable mounting, and supporting shoe top wall installs touch switch, touch switch is located the below of layer board, and touch switch and water pump electric connection, the water injection pipe is installed to mixing pond top left side wall, the apron is installed to water injection pipe right side wall, the pipe is kept away from the one end and the water injection pipe intercommunication of water pump.

Furthermore, a placing groove is formed in the right side wall of the water injection pipe, a telescopic rod is installed in the inner cavity of the placing groove, the right moving end of the telescopic rod is connected with the left side wall of the cover plate, an air bag is installed on the left side wall of the cover plate and located in the inner cavity of the water injection pipe, the inner cavity of the air bag is filled with air, a switch is installed in the inner cavity of the air bag, and the switch is electrically connected with the telescopic rod;

the water injection pipe inner chamber left side has the baffle through elastic component slidable mounting, the rope is even installed to baffle left side wall, even the one end that the baffle was kept away from to the rope extends to the outside of water injection pipe and is connected with the top wall of layer board.

Further, the water injection pipe includes activity pipe and installation pipe, the installation pipe is installed on the left side wall at mixed pond top, the collar is installed to installation pipe left side wall, the ring channel has been seted up to activity pipe right side wall, and the collar inserts in the inner chamber of ring channel, and collar outer wall and ring channel inner wall all are equipped with the screw thread.

Further, the gas storage box is installed to mixed pond right side wall, the gas storage box inner chamber passes through opening and mixed pond inner chamber bottom intercommunication, gas storage box inner chamber slidable mounting has the movable plate, the carriage release lever is installed to movable plate right side wall, the carriage release lever right-hand member extends to the outside of gas storage box, and the carriage release lever passes through bolt fixed mounting on the gas storage box.

Further, mix the pond and include cell body and lower cell body, the mounting groove has been seted up to cell body top wall down, go up cell body bottom wall and install the movable block, and the movable block slides and inserts in the inner chamber of mounting groove, and mounting groove inner chamber bottom installs the installation sleeve pipe, installation sleeve pipe inner chamber top slides and has inserted the push rod, push rod top and movable block bottom wall connection, the magnetic path is installed to the push rod bottom, the electro-magnet is installed to installation sleeve pipe inner chamber bottom, press the switch is installed to cell body inner chamber bottom down, and press the switch and electro-magnet electric connection.

Preferably, the device also comprises an auxiliary mixing component;

the auxiliary mixing assembly comprises an air storage air bag assembly and an air injection limiting assembly;

the gas storage air bag assembly is positioned below the supporting plate, and the main body is of an air bag structure and is used for storing gas;

the air injection limiting assembly is used for limiting the output of the gas in the gas storage airbag assembly and plays a role of a valve body; when the air storage bag assembly is actually used, air is injected into the mixture of the raw materials and the water by the air storage bag assembly so as to assist the mixing of the raw materials and the water.

Preferably, the gas storage airbag assembly comprises an airbag main body, an airbag gas inlet, an airbag gas outlet, a gas inlet one-way valve and a return spring; the airbag main body is positioned below the supporting plate;

the air bag air inlet and the air bag air outlet are positioned on the air bag main body and are respectively used for air inlet and air outlet;

the air inlet one-way valve is positioned on the air inlet of the air bag to ensure that air can only enter from the position of the air inlet of the air bag and can not exit; the reset spring is a pressure spring, is positioned in the air bag main body, has the same axial direction as the height direction of the equipment, and is used for assisting air intake of the air bag main body;

the air injection limiting assembly comprises an air filling bin, an air inlet plate assembly, a bin air outlet, an in-tube air bag assembly and an air conveying hose;

the gas filling bin is of a bin body structure and is positioned below the supporting plate;

the gas perfusion bin comprises a first gas inlet and a second gas inlet;

the first air inlet is communicated with the air outlet of the air bag, and the second air inlet is communicated with the air conveying hose;

the air inlet plate assembly is positioned on the first air inlet and used for controlling the on-off of the first air inlet, and the air inlet plate main body blocks the first air inlet in a normal state;

the gas outlet of the bin body is positioned on the supporting plate and used for outputting the gas in the gas filling bin; an air outlet one-way valve is positioned on an air outlet of the bin body;

the gas bag component in the pipe is positioned in the water injection pipe, is fixed on the baffle, is a cylindrical gas bag, has the same axial direction as the water injection pipe, and is used for changing the pressure in the gas filling bin so as to control the on-off of the first gas inlet;

the gas transmission hose is a hose and plays a role in transmitting gas.

Preferably, the tube inner air bag assembly comprises a tube inner air bag main body, a first pressure spring, a second pressure spring, a sliding extrusion plate, a guide column, a bag body air inlet and a bag body air outlet;

the main body of the air bag in the tube is a cylindrical air bag, and the first pressure spring is positioned in the main body of the air bag in the tube and is used for assisting the air inlet of the main body of the air bag in the tube;

the second pressure spring is positioned in the air bag, the elasticity of the second pressure spring is greater than that of the first pressure spring, and the second pressure spring plays a role in preventing water in the water injection pipe from flowing out before the first pressure spring is compressed to the limit;

the sliding extrusion plate is positioned at one end of the air bag main body in the pipe, which is far away from the baffle, and is positioned in the water injection pipe in a sliding way, so that the air bag main body in the pipe is extruded to assist the air outlet of the air bag main body in the pipe;

the guide post is positioned on the baffle and used for guiding the sliding of the sliding extrusion plate;

the bag body air inlet and the bag body air outlet are positioned on the baffle and used for the air in and out of the inner part of the air bag main body in the tube, and the bag body air inlet is positioned with a one-way valve which is used for ensuring that the air only enters from the bag body air inlet and cannot exit.

Preferably, the auxiliary mixing assembly further comprises a gas material guiding assembly;

the gas material guiding assembly comprises a gas guide pipe and a material guiding cabin body;

the air guide tube is a bent tube, one end of the air guide tube is positioned on the upper surface of the supporting plate and is communicated with the air outlet of the bin body, and the air guide tube is used for guiding the air output from the air storage airbag assembly to the position where water flows out;

the material guide bin body is positioned above the supporting plate, the main body is in a horn shape, the bottom of the material guide bin body is communicated with the gas guide tube, and the material guide bin body is used for storing raw materials and conveying the raw materials to the gas guide tube;

when the device is actually used, a person who adds the raw materials can put the raw materials into the material guide bin body.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

add the raw materials in the device and mix the pond, make the raw materials fall to the top of layer board, can make the layer board pressurized move down, can press touch switch, make water pump work, pour into the inner chamber of water injection pipe with the water in the tank, water can fill up the space between baffle and the apron, can extrude the gasbag, press the switch, make electric telescopic handle circular telegram work, the area apron moves to the right, make the water injection pipe right side open, add water in mixing the pond, carry out the water injection to the raw materials, be used for mixing the raw materials, thereby realize automatic identification and accomplish automatic water distribution, reduce staff's work load, and the work efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the connection structure of the mixing tank and the water distribution mechanism of the present invention;

FIG. 3 is an enlarged view of the structure at A of the present invention;

FIG. 4 is an enlarged view of the structure at B of the present invention;

FIG. 5 is an enlarged view of the structure at C of the present invention;

FIG. 6 is a cross-sectional view of the auxiliary mixing assembly of the present invention;

FIG. 7 is a cross-sectional view of an intratubular bladder assembly of the present invention;

FIG. 8 is a schematic view of the auxiliary mixing assembly of the present invention;

FIG. 9 is a schematic diagram of the external structure of the auxiliary mixing assembly of the present invention;

FIG. 10 is a schematic view showing the positional relationship between the air storage bag module and the pallet according to the present invention;

FIG. 11 is a schematic structural diagram of a buffering ball according to the present invention;

FIG. 12 is a schematic structural view of an intake plate assembly of the present invention;

FIG. 13 is a schematic structural view of the interior of the main body of the intravascular balloon of the present invention;

FIG. 14 is a cross-sectional view of the body of the intratubular balloon of the present invention;

FIG. 15 is a schematic view of the position of the air inlet of the bladder of the present invention;

fig. 16 is a schematic view of the structure of the material separation plate of the present invention.

In the figure: 1. a water storage tank; 2. a mixing tank; 21. discharging the pond body; 22. a movable block; 23. feeding into a pool body; 3. a conduit; 4. a water distribution mechanism; 41. a support plate; 42. a touch switch; 43. a water injection pipe; 431. a movable tube; 432. installing a pipe; 44. a baffle plate; 45. connecting a rope; 451. pulling a rope; 452. installing a sleeve; 453. a guide bar; 454. a conductive sheet; 46. an electric telescopic rod; 47. a push switch; 48. a gas storage tank; 49. moving the plate; 410. a travel bar; 411. a cover plate; 412. a telescopic rod; 413. an air bag; 5. installing a sleeve; 6. a push rod; 7. an electromagnet; 8. an auxiliary mixing assembly; 81. a gas storage bladder assembly; 811. an airbag main body; 812. an air inlet of the air bag; 813. an air outlet of the air bag; 814. an air inlet check valve; 815. a return spring; 82. a jet restriction assembly; 821. a gas filling bin; 822. an intake plate assembly; 8221. an intake plate main body; 8222. an intake plate positioning shaft; 8223. a torsion spring; 823. a bin body air outlet; 8231. an air outlet one-way valve; 824. an intra-tubular bladder assembly; 8241. an in-tube balloon body; 8242. a first pressure spring; 8243. a second pressure spring; 8244. A guide post; 8245. a bladder inlet; 8246. a bag body air outlet; 8247. sliding the extrusion plate; 825. a gas hose; 826. a buffering soft ball; 83. a gas material guide assembly; 831. an air duct; 832. a material guiding cabin body; 833. raw materials division board group.

Detailed Description

In order to facilitate an understanding of the present invention, the present application will now be described more fully with reference to the accompanying drawings; the preferred embodiments of the present invention are shown in the drawings, but the present invention may be embodied in many different forms and is not limited to the embodiments described herein.

It is noted that the terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention; as used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Example one

The invention provides a technical scheme that: a water distribution system with automatic identification function, please refer to fig. 1, comprising: a water storage tank 1 and a mixing tank 2;

a water pump is arranged at the bottom of an inner cavity of the water storage tank 1, an outlet of the water pump is connected with a guide pipe 3, a water distribution mechanism 4 is arranged on the top wall of the mixing tank 2, one end of the guide pipe 3, which is far away from the water pump, is connected with the water distribution mechanism 4, and electric equipment related to the device is electrically connected with an external power switch through a lead;

referring to fig. 2, the water distribution mechanism 4 includes a supporting plate 41 slidably mounted in the inner cavity of the mixing tank 2, air is filled between the bottom wall of the supporting plate 41 and the bottom of the inner cavity of the mixing tank 2, a supporting block is slidably mounted on the inner wall of the right side of the mixing tank 2 through an elastic member, a touch switch 42 is mounted on the top wall of the supporting block, the touch switch 42 is located below the supporting plate 41, the touch switch 42 is electrically connected with the water pump, a water injection pipe 43 is mounted on the left side wall of the top of the mixing tank 2, a cover plate 411 is mounted on the right side wall of the water injection pipe 43, and one end of the conduit 3, which is far away from the water pump, is communicated with the water injection pipe 43;

referring to fig. 2 and 3, a mounting groove is formed on the right side wall of the water injection pipe 43, an inner cavity of the mounting groove is provided with an (electric) telescopic rod 412, a moving end of the right side of the telescopic rod 412 is connected with the left side wall of the cover plate 411, the left side wall of the cover plate 411 is provided with an air bag 413, the air bag 413 is located in the inner cavity of the water injection pipe 43, the inner cavity of the air bag 413 is filled with air, the inner cavity of the air bag 413 is provided with a switch, and the switch is electrically connected with the telescopic rod 412;

referring to fig. 2, a baffle 44 is slidably installed on the left side of the inner cavity of a water injection pipe 43 through an elastic member, a connecting rope 45 is installed on the left side wall of the baffle 44, one end of the connecting rope 45, which is far away from the baffle 44, extends to the outer side of the water injection pipe 43 and is connected with the top wall of a supporting plate 41, raw materials are added into a mixing tank 2, the raw materials fall onto the supporting plate 41, the supporting plate 41 is pressed to move down, a touch switch 42 is pressed to operate a water pump, water in a water storage tank 1 is injected into the inner cavity of the water injection pipe 43 (water is injected between the baffle 44 and a cover plate 411), as the raw materials are gradually added, the pressure applied to the supporting plate 41 is gradually increased, the supporting plate 41 is gradually moved down, a pull rope 451 moves the baffle 44 to the left, the distance between the baffle 44 and the cover plate 411 is increased, as the raw materials to be stirred are increased, water entering the water injection pipe 43 is gradually increased, as the raw materials are stopped, the supporting plate 41 stops moving, the baffle 44 also stops moving, water can fill the space between the baffle 44 and the cover plate 411, the air bag 413 can be extruded (when the water enters the water injection pipe 43, the air bag 413 can be extruded, when the water fills the space between the baffle 44 and the cover plate 411, the extruded amplitude of the air bag 413 can be maximized, the switch can be pressed), the switch is pressed (the switch is also electrically connected with the water pump, when the switch is pressed, the water pump stops working), the telescopic rod 412 is electrified to work, the cover plate 411 is driven to move right, the right side of the water injection pipe 43 is opened, the water is added into the mixing pool 2, the raw materials are injected with the water, and the raw materials are mixed;

referring to fig. 2 and 4, the connecting rope 45 includes two groups of pulling ropes 451, ends of the two groups of pulling ropes 451, which are far away from each other, are respectively connected to a left side wall of the baffle 44 and a top wall of the supporting plate 41, ends of the two groups of pulling ropes 451, which are close to each other, are respectively provided with a guide rod 453, an installation sleeve 452 is sleeved between outer walls of the two groups of guide rods 453, the guide rods 453 are slidably inserted into an inner cavity of the installation sleeve 452 through an elastic member, ends of the two groups of guide rods 453, which are close to each other, are respectively provided with a conductive sheet 454, a water injection pipe 43, which is provided with an electric telescopic rod 46, a right moving end of the electric telescopic rod 46 extends into an inner cavity of the water injection pipe 43, the electric telescopic rod 46 is electrically connected to the conductive sheets 454, the supporting plate 41 is not moved, water in the water injection pipe 43 pushes the baffle 44 to move, the connecting rope 45 is loosened, the two groups of guide rods 453 are close to each other under the action of the elastic member, the two groups of conductive sheets 454 are attached to extend the electric telescopic rod 46, the baffle 44 is abutted to prevent the baffle 44 from moving continuously, so that the accuracy of water distribution is ensured;

referring to fig. 2, the water injection pipe 43 includes a movable pipe 431 and a mounting pipe 432, the mounting pipe 432 is mounted on the left side wall of the top of the mixing tank 2, a mounting ring is mounted on the left side wall of the mounting pipe 432, an annular groove is formed on the right side wall of the movable pipe 431, the mounting ring is inserted into the inner cavity of the annular groove, threads are formed on the outer wall of the mounting ring and the inner wall of the annular groove, and the movable pipe 431 is rotated to move the mounting ring in the inner cavity of the annular groove, so that the length of the water injection pipe 43 can be adjusted, and the capacity of the water injection pipe 43 can be changed;

referring to fig. 2, a gas storage tank 48 is installed on the right side wall of the mixing tank 2, the inner cavity of the gas storage tank 48 is communicated with the bottom of the inner cavity of the mixing tank 2 through an opening, a moving plate 49 is installed in the inner cavity of the gas storage tank 48 in a sliding manner, a moving rod 410 is installed on the right side wall of the moving plate 49, the right end of the moving rod 410 extends to the outer side of the gas storage tank 48, the moving rod 410 is fixedly installed on the gas storage tank 48 through bolts, the bolts are unscrewed, the moving rod 410 is pulled, the moving plate 49 slides in the inner cavity of the gas storage tank 48, the air pressure below the supporting plate 41 is changed, and the difficulty in moving the supporting plate 41 is changed.

Example two

Referring to fig. 2 and 5, based on embodiment 1, a mixing tank 2 includes an upper tank 23 and a lower tank 21, a mounting groove is formed on a top wall of the lower tank 21, a movable block 22 is mounted on a bottom wall of the upper tank 23, the movable block 22 is slidably inserted into an inner cavity of the mounting groove, a mounting sleeve 5 is mounted at a bottom of the inner cavity of the mounting groove, a push rod 6 is slidably inserted into a top end of the inner cavity of the mounting sleeve 5, a top end of the push rod 6 is connected to a bottom wall of the movable block 22, a magnetic block is mounted at a bottom end of the push rod 6, an electromagnet 7 is mounted at a bottom of the inner cavity of the mounting sleeve 5, a push switch 47 is mounted at a bottom of the inner cavity of the lower tank 21, the push switch 47 is electrically connected to the electromagnet 7, when a downward movement amplitude of a supporting plate 41 is large, the push switch 47 is pressed to energize the electromagnet 7 to work, so that the electromagnet 7 generates magnetism to repel the magnetic block, and the push rod 6 moves upward with the movable block 22, the upper tank body 23 is moved upwards, and the capacity of the mixing tank 2 is increased;

compared with the embodiment 1, the device has the advantages that the parts such as the upper tank body 23 and the lower tank body 21 are added, when more raw materials enter the mixing tank 2, the upper tank body 23 moves upwards to increase the capacity of the mixing tank 2, and the mixing tank 2 can treat more raw materials.

The working principle is as follows: the raw materials are added into the mixing pool 2, the raw materials fall above the supporting plate 41, the supporting plate 41 is pressed to move downwards, the touch switch 42 is pressed, the water pump works, the water in the water storage tank 1 is injected into the inner cavity of the water injection pipe 43, the pressure on the supporting plate 41 is gradually increased along with the gradual addition of the raw materials, the supporting plate 41 is gradually moved downwards, the pulling rope 451 drives the baffle 44 to move leftwards, the distance between the baffle 44 and the cover plate 411 is increased, the water entering the water injection pipe 43 is gradually increased when the raw materials needing to be stirred are increased, the supporting plate 41 stops moving along with the stop of the addition of the raw materials, the baffle 44 stops moving, the water fills the space between the baffle 44 and the cover plate 411, the air bag 413 is squeezed, the switch is pressed, the telescopic rod 412 is electrified to work, the cover plate 411 is driven to move rightwards, the right side of the water injection pipe 43 is opened, the water is added into the mixing pool 2, the raw materials are injected, is used for mixing raw materials.

EXAMPLE III

In order to enhance the practicability of the device, expand the function of the device and enhance the mixing efficiency of water and raw materials, the embodiment of the application is additionally provided with the auxiliary mixing component 8 on the basis of the embodiment, and the mixing of the raw materials and the water on the supporting plate 41 is accelerated by utilizing gas in a mode of accumulating and releasing elastic potential energy; the method specifically comprises the following steps:

as shown in fig. 6 to 16, the auxiliary mixing module 8 includes a gas storage bag module 81 and a gas injection limiting module 82; the gas storage airbag assembly 81 is located below the supporting plate 41, and the main body of the gas storage airbag assembly is of an airbag structure and is used for storing gas; the gas injection limiting component 82 is used for limiting the output of the gas in the gas storage airbag component 81 and plays a role of a valve body; in actual use, the air storage bag module 81 injects air into the mixture of the raw material and water to assist the mixing of the raw material and water.

Further, as shown in fig. 6, the gas storage airbag module 81 includes an airbag main body 811, an airbag inlet 812, an airbag outlet 813, an inlet check valve 814 and a return spring 815; the air bag body 811 is positioned below the supporting plate 41 and abuts against the bottom of the inner space of the lower tank body 21; the air bag air inlet 812 and the air bag air outlet 813 are positioned on the air bag main body 811 and are used for air inlet and air outlet respectively; the inlet check valve 814 is positioned at the airbag inlet 812 to ensure that gas cannot enter from the airbag inlet 812; the return spring 815 is a compression spring, is positioned in the air bag main body 811, has the same axial direction as the height direction of the device, and is used for assisting air intake of the air bag main body 811;

the air injection limiting assembly 82 comprises an air filling bin 821, an air inlet plate assembly 822, a bin air outlet 823, an air bag assembly 824 in the tube and an air conveying hose 825;

the gas filling cabin 821 is a cabin structure and is located below the supporting plate 41, the main body is preferably a box body with an open top, and the top surface of the box body is fixed on the bottom surface of the supporting plate 41; the gas filling cabin 821 comprises a first gas inlet and a second gas inlet; the first air inlet is communicated with the air bag air outlet 813, and the second air inlet is communicated with the air delivery hose 825;

as shown in fig. 12, the intake plate assembly 822 is positioned on the first intake port for controlling the on/off of the first intake port; further, the intake plate assembly 822 includes an intake plate main body 8221, an intake plate positioning shaft 8222 and a torsion spring 8223; the air inlet plate main body 8221 is plate-shaped, preferably a circular plate and a rectangular plate; a rubber sealing piece is positioned on the periphery of the air inlet plate main body 8221; the air inlet plate main body 8221 is rotatably and fixedly connected to the air filling bin 821 through the air inlet plate positioning shaft 8222, and the torsion spring 8223 is positioned on the air inlet plate positioning shaft 8222; under a normal state, the air inlet plate main body 8221 blocks the first air inlet;

the bin body air outlet 823 is located on the supporting plate 41, is a through hole penetrating through the supporting plate 41, and is used for outputting the gas in the gas filling bin 821; an air outlet one-way valve 8231 is positioned on the air outlet 823 of the bin body and is used for ensuring that the air in the air filling bin 821 only flows out from the air outlet 823 of the bin body but cannot flow in;

as shown in fig. 7 and 8, the inner airbag module 824 is positioned inside the water injection pipe 43 and fixed to the stopper 44, and is a cylindrical airbag having the same axial direction as the water injection pipe 43; the air bag inside tube assembly 824 comprises an air bag inside tube main body 8241, a first pressure spring 8242, a second pressure spring 8243, a sliding extrusion plate 8243, a guide column 8244, a capsule air inlet 8245 and a capsule air outlet 8246; as shown in fig. 7 and 13 to 15, the inner air bag body 8241 is a cylindrical air bag, and the first pressure spring 8242 is positioned inside the inner air bag body 8241 and is used for assisting air intake of the inner air bag body 8241; the second pressure spring 8243 is positioned in the air bag 413, the elasticity of the second pressure spring 8243 is greater than that of the first pressure spring 8242, and the second pressure spring 8243 plays a role in preventing water in the water injection pipe 43 from flowing out before the first pressure spring 8242 is compressed to the limit; the sliding extrusion plate 8243 is positioned at one end of the air bag main body 8241 in the pipe, which is far away from the baffle 44, and is positioned in the water injection pipe 43 in a sliding way, so that the air bag main body 8241 in the pipe is extruded to assist the air outlet of the air bag main body in the pipe; the guide column 8244 is positioned on the baffle 44 and is used for guiding the sliding of the sliding compression plate 8243; the bag body air inlet 8245 and the bag body air outlet 8246 are positioned on the baffle 44 and are used for inlet and outlet of air inside the air bag main body 8241 in the tube, and the bag body air inlet 8245 is positioned with a one-way valve which is used for ensuring that the air can only enter and can not exit from the bag body air inlet 8245;

the air hose 825 is a hose, and communicates the air outlet 8246 of the capsule body with the second air inlet 8212, so as to transport air.

For further sufficient mixing of the auxiliary raw material and water, preferably, as shown in fig. 6 to 10, the auxiliary mixing assembly 8 further includes a gas material guiding assembly 83, and the gas material guiding assembly 83 is used for guiding the direction of the gas ejected from the gas storage airbag assembly 81;

preferably, as shown in fig. 6 and 9, the gas and material guiding assembly 83 includes a gas guiding tube 831 and a material guiding cabin 832; the air duct 831 is a bent tube, one end of which is positioned on the upper surface of the supporting plate 41 and is communicated with the air outlet 823 of the bin body, and is used for guiding the air output from the air storage airbag module 81 to the position where the water flows out; the material guiding cabin 832 is positioned above the supporting plate 41, has a horn-shaped main body, and is communicated with the gas guide pipe 831 at the bottom, and is used for storing raw materials and conveying the raw materials to the gas guide pipe 831; when the material guiding device is actually used, a person who adds raw materials can put the raw materials into the material guiding cabin 832.

In practical operation of the embodiment of the present application, a user adds raw materials into the material guiding cabin 832, so that the supporting plate 41 is pressed to move downwards and further touch the switch 42, so that the water pump works, and water in the water storage tank 1 is injected into the inner cavity of the water injection pipe 43, meanwhile, the adding of the raw materials causes the supporting plate 41 to gradually move downwards and further increases the distance between the baffle 44 and the cover plate 411, so that when the amount of raw materials to be stirred increases, the water entering the water injection pipe 43 gradually increases, the baffle 44 stops moving along with the stopping of the adding of the raw materials, the baffle 44 also stops moving, the water fills the space between the baffle 44 and the cover plate 411 (the air bag main body 8241 in the pipe is squeezed during the filling process, the gas in the air bag main body 8241 in the pipe is squeezed and is conveyed to the gas filling cabin 821 to further press the air inlet plate main body 8221, so that the air inlet plate main body 8221 continuously seals the air outlet 823 of the cabin), when the air bag main body 8241 in the pipe is extruded to the limit or close to the limit (the limit can be changed by changing the elastic force of the first pressure spring 8242), water in the water injection pipe 43 extrudes the air bag 413, the switch is pressed, the telescopic rod 412 is electrified to work, the cover plate 411 is driven to move rightwards, the right side of the water injection pipe 43 is opened, and water is added into the mixing pool 2; at the moment, the air bag main body 8241 in the tube is expanded, the pressure in the air filling bin 821 is reduced, the air outlet 823 of the bin body is communicated, the air in the air bag main body 811 is output from the air outlet 823 of the bin body, and the raw materials in the air guide tube 831 are blown to the water flowing out so as to promote the mixing of the water and the raw materials; as the water on the pallet 41 increases, the pallet 41 continues to move downward, and the gas in the airbag main body 811 continues to be output.

Preferably, as shown in fig. 16, the gas material guiding assembly 83 includes a raw material partition plate set 833, wherein the raw material partition plate set 833 is in a plate shape, is positioned on the surface of the supporting plate 41, is vertically arranged, and forms a plurality of spaces for accommodating raw materials on the supporting plate 41; the number of the bin body air outlets 823 is multiple, and the outlets correspond to the spaces for accommodating raw materials one by one, so that in actual use, a person who adds raw materials needs to uniformly place the raw materials into the spaces for accommodating the raw materials; along with the conduction of the bin body air outlet 823, the air in the air bag main body 811 is output from the bin body air outlet 823, and bubbles are generated at the bottom of the mixture of the raw material and the water, so that the mixing of the water and the raw material is promoted.

Preferably, in order to facilitate the contraction of the in-tube airbag main body 8241, the air injection limiting assembly 82 further includes a soft cushion ball 826, as shown in fig. 11, wherein the soft cushion ball 826 is a rubber bag body capable of being blown and positioned on the air delivery hose 825.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a water distribution system with automatic identification function which characterized in that: the method comprises the following steps: a water storage tank and a mixing tank;

a water pump is mounted at the bottom of the inner cavity of the water storage tank, an outlet of the water pump is connected with a guide pipe, a water distribution mechanism is mounted on the top wall of the mixing tank, and one end, far away from the water pump, of the guide pipe is connected with the water distribution mechanism;

the water distribution mechanism comprises a supporting plate which is slidably mounted in an inner cavity of the mixing tank, air is filled between the bottom wall of the supporting plate and the bottom of the inner cavity of the mixing tank, a supporting block is slidably mounted on the inner wall of the right side of the mixing tank through an elastic part, a touch switch is mounted on the top wall of the supporting block and located below the supporting plate, the touch switch is electrically connected with the water pump, a water injection pipe is mounted on the left side wall of the top of the mixing tank, a cover plate is mounted on the right side wall of the water injection pipe, and one end, away from the water pump, of the guide pipe is communicated with the water injection pipe.

2. The water distribution system with automatic identification function according to claim 1, characterized in that: a placing groove is formed in the right side wall of the water injection pipe, a telescopic rod is installed in the inner cavity of the placing groove, the right moving end of the telescopic rod is connected with the left side wall of the cover plate, an air bag is installed on the left side wall of the cover plate and located in the inner cavity of the water injection pipe, air is filled in the inner cavity of the air bag, a switch is installed in the inner cavity of the air bag, and the switch is electrically connected with the telescopic rod;

the water injection pipe inner chamber left side has the baffle through elastic component slidable mounting, the rope is even installed to baffle left side wall, even the one end that the baffle was kept away from to the rope extends to the outside of water injection pipe and is connected with the top wall of layer board.

3. The water distribution system with automatic identification function according to claim 1, characterized in that: the water injection pipe includes activity pipe and installation pipe, the installation pipe is installed on the left side wall at mixed pond top, the collar is installed to installation pipe left side wall, the ring channel has been seted up to activity pipe right side wall, and the collar inserts in the inner chamber of ring channel, and collar outer wall and ring channel inner wall all are equipped with the screw thread.

4. The water distribution system with automatic identification function according to claim 1, characterized in that: the gas storage box is installed to mixed pond right side wall, the gas storage box inner chamber passes through opening and mixed pond inner chamber bottom intercommunication, gas storage box inner chamber slidable mounting has the movable plate, the carriage release lever is installed to movable plate right side wall, the carriage release lever right-hand member extends to the outside of gas storage box, and the carriage release lever passes through bolt fixed mounting on the gas storage box.

5. The water distribution system with automatic identification function according to claim 4, characterized in that: mixing tank includes cell body and lower cell body, the mounting groove has been seted up to cell body top wall down, go up cell body bottom wall and install the movable block, and the movable block slides and insert in the inner chamber of mounting groove, and mounting groove inner chamber bottom installs the installation sleeve pipe, installation sleeve pipe inner chamber top slides and has inserted the push rod, push rod top and movable block bottom wall connection, the magnetic path is installed to the push rod bottom, the electro-magnet is installed to installation sleeve pipe inner chamber bottom, push switch is installed to cell body inner chamber bottom down, and push switch and electro-magnet electric connection.

6. The water distribution system with automatic identification function according to claim 2, characterized in that: also includes an auxiliary mixing component;

the auxiliary mixing assembly comprises an air storage air bag assembly and an air injection limiting assembly;

the gas storage air bag assembly is positioned below the supporting plate, and the main body is of an air bag structure and is used for storing gas;

the air injection limiting assembly is used for limiting the output of the gas in the gas storage airbag assembly and plays a role of a valve body; when the air storage bag assembly is actually used, air is injected into the mixture of the raw materials and the water by the air storage bag assembly so as to assist the mixing of the raw materials and the water.

7. The water distribution system with automatic identification function according to claim 6, characterized in that: the gas storage air bag assembly comprises an air bag main body, an air bag gas inlet, an air bag gas outlet, a gas inlet one-way valve and a return spring; the airbag main body is positioned below the supporting plate;

the air bag air inlet and the air bag air outlet are positioned on the air bag main body and are respectively used for air inlet and air outlet;

the air inlet one-way valve is positioned on the air inlet of the air bag to ensure that air can only enter from the position of the air inlet of the air bag and can not exit; the reset spring is a pressure spring, is positioned in the air bag main body, has the same axial direction as the height direction of the equipment, and is used for assisting air intake of the air bag main body;

the air injection limiting assembly comprises an air filling bin, an air inlet plate assembly, a bin air outlet, an in-tube air bag assembly and an air conveying hose;

the gas filling bin is of a bin body structure and is positioned below the supporting plate;

the gas perfusion bin comprises a first gas inlet and a second gas inlet;

the first air inlet is communicated with the air outlet of the air bag, and the second air inlet is communicated with the air conveying hose;

the air inlet plate assembly is positioned on the first air inlet and used for controlling the on-off of the first air inlet, and the air inlet plate main body blocks the first air inlet in a normal state;

the gas outlet of the bin body is positioned on the supporting plate and used for outputting the gas in the gas filling bin; an air outlet one-way valve is positioned on an air outlet of the bin body;

the gas bag component in the pipe is positioned in the water injection pipe, is fixed on the baffle, is a cylindrical gas bag, has the same axial direction as the water injection pipe, and is used for changing the pressure in the gas filling bin so as to control the on-off of the first gas inlet;

the gas transmission hose is a hose and plays a role in transmitting gas.

8. The water distribution system with automatic identification function according to claim 7, characterized in that: the in-tube air bag assembly comprises an in-tube air bag main body, a first pressure spring, a second pressure spring, a sliding extrusion plate, a guide column, a bag body air inlet and a bag body air outlet;

the main body of the air bag in the tube is a cylindrical air bag, and the first pressure spring is positioned in the main body of the air bag in the tube and is used for assisting the air inlet of the main body of the air bag in the tube;

the second pressure spring is positioned in the air bag, the elasticity of the second pressure spring is greater than that of the first pressure spring, and the second pressure spring plays a role in preventing water in the water injection pipe from flowing out before the first pressure spring is compressed to the limit;

the sliding extrusion plate is positioned at one end of the air bag main body in the pipe, which is far away from the baffle, and is positioned in the water injection pipe in a sliding way, so that the air bag main body in the pipe is extruded to assist the air outlet of the air bag main body in the pipe;

the guide post is positioned on the baffle and used for guiding the sliding of the sliding extrusion plate;

the bag body air inlet and the bag body air outlet are positioned on the baffle and used for the air in and out of the inner part of the air bag main body in the tube, and the bag body air inlet is positioned with a one-way valve which is used for ensuring that the air only enters from the bag body air inlet and cannot exit.

9. The water distribution system with automatic identification function according to claim 7, characterized in that: the auxiliary mixing assembly also comprises a gas material guiding assembly;

the gas material guiding assembly comprises a gas guide pipe and a material guiding cabin body;

the air guide tube is a bent tube, one end of the air guide tube is positioned on the upper surface of the supporting plate and is communicated with the air outlet of the bin body, and the air guide tube is used for guiding the air output from the air storage airbag assembly to the position where water flows out;

the material guide bin body is positioned above the supporting plate, the main body is horn-shaped, and the bottom of the material guide bin body is communicated with the air guide tube and used for storing raw materials and conveying the raw materials to the air guide tube.

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