CN217829167U - Novel mix quick-witted hot water and filter device - Google Patents

Abstract

The utility model aims at providing a novel mix quick-witted hot water filtration device, include: two main pipes, one main pipe is provided with a first port, and the other main pipe is provided with a second port; the two ends of the branch pipe are respectively communicated with the first port and the second port, and a ball valve and a filtering mechanism are further arranged on the branch pipe; the filtering mechanism includes: the filter cylinder is vertically arranged on the ground, a filter layer is arranged in the filter cylinder, and a first through hole and a second through hole are respectively formed in the cylinder wall of the filter cylinder; the water flowing cylinder is vertically arranged on the ground, a piston is arranged in the water flowing cylinder, and a third through hole and a fourth through hole are respectively formed in the wall of the water flowing cylinder; one end of the U-shaped pipe is communicated with the second through hole of the filter cylinder, and the other end of the U-shaped pipe is communicated with the third through hole of the water flowing cylinder, so that the problem that solid particles block a pipeline in the hot water circulation process of the mixer is solved.

Description

Novel mix quick-witted hot water and filter device

Technical Field

The utility model belongs to mix quick-witted water treatment field, especially relate to a novel mix quick-witted hot water filtration device.

Background

In the sintering process, water needs to be added at the mixer, the used hot water is treated reuse water, impurities such as solid particles are excessive, a certain part of a pipeline is frequently blocked in the circulation process, the machine needs to be stopped for treatment in serious conditions, and the good production is not facilitated.

The problem of impurities of hot water of the mixer is solved at the present stage, and most enterprises generally adopt a method of additionally installing a filter or pretreating to improve the quality of the hot water; however, after long-term investigation, the impurities in the hot water are found to be various, such as iron rust, oil sludge, fine sand and the like, and if the impurities are subjected to medium pretreatment, the production cost is greatly increased, and unnecessary burden is added to post workers; meanwhile, if a method of additionally installing a filter is adopted, the filter can be blocked due to excessive impurities in hot water.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel mix quick-witted hot water filtration device to solve the problem that mixes quick-witted hot water circulation in-process solid particle jam pipeline.

The utility model adopts the following technical scheme: a novel mixer hot water filtration device comprising: two main pipes, one main pipe is provided with a first port, and the other main pipe is provided with a second port;

the two ends of the branch pipe are respectively communicated with the first port and the second port, and a ball valve and a filtering mechanism are further arranged on the branch pipe; the filtering mechanism comprises: the filter cylinder is vertically arranged on the ground, a filter layer is arranged in the filter cylinder, and a first through hole and a second through hole are respectively formed in the cylinder wall of the filter cylinder; the first through hole is positioned below the filter layer and is communicated with the first port through the branch pipe; the second through hole is positioned above the filter layer; the filter layer is used for intercepting impurities in water flowing from the first through hole to the second through hole; the water flowing cylinder is vertically arranged on the ground, a piston is arranged in the water flowing cylinder, and a third through hole and a fourth through hole are respectively formed in the wall of the water flowing cylinder; the fourth through hole is positioned below the piston and is communicated with the second port through a branch pipe; the third through hole is positioned above the piston; the piston is used for sliding in the water flow cylinder to enable water to flow to the fourth through hole along the third through hole; and one end of the U-shaped pipe is communicated with the second through hole of the filter cylinder, the other end of the U-shaped pipe is communicated with the third through hole of the water flow cylinder, the height of the third through hole of the water flow cylinder is smaller than that of the second through hole of the filter cylinder, and the U-shaped pipe is used for enabling water to flow to the water flow cylinder along the filter cylinder.

Further, the method also comprises the following steps: one of the two three-way joints is communicated with the first port, and the other one of the two three-way joints is communicated with the second port; meanwhile, two ends of the branch pipe are respectively connected with two three-way joints;

the secondary pipe is provided with a ball valve and a filtering mechanism, and two ends of the secondary pipe are respectively communicated with two three-way joints; the auxiliary pipe is used for being opened when the branch pipe is overhauled, so that water flows to the second port along the first port.

Further, still include: one end of the spring is connected with the piston, and the other end of the spring is connected with the running water cylinder; which is used to move the piston under the action of water pressure and to reset the piston to the initial position when no water pressure is acting.

Further, the method also comprises the following steps: the discharge pipe is communicated with the filter cylinder, is positioned below the filter layer and is provided with a ball valve; which is used for cleaning the filtering residue in the filter cylinder.

Further, an arc cover is arranged between the second through hole of the filter cartridge and the filter layer, and the arc cover is used for establishing a communication passage between the filter layer and the second through hole so that water passing through the filter layer flows to the second through hole.

The beneficial effects of the utility model are that: the filter cartridge with the filter screen is arranged on the pipeline through which hot water of the mixer flows, so that most solid particles in the recycled water of the mixer can be screened, and the pipeline blockage phenomenon caused by more solid particles in the hot water of the mixer is avoided; through the arrangement of the flowing water cylinder and the piston in the flowing water cylinder, hot water of the mixer is prevented from being pressed and flowing back into the filter cylinder when the pipeline circulates, so that the pressure in the filter cylinder is high, impurities in the filter cylinder are pressed and agglomerated, and the filter cylinder is blocked; through setting up U type pipe, utilize the pressure difference effect of U type pipe, not only can create the negative pressure environment of cartridge filter second through-hole, increase the water velocity of crossing of filter screen, can also make the water in the cartridge filter flow to in the flowing water section of thick bamboo fast through the pressure difference effect.

Drawings

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

FIG. 2 is a schematic structural view of a filtering mechanism of the present invention;

fig. 3 is a schematic diagram of the internal structure of the middle filtering mechanism of the present invention.

Wherein: 100. a main pipe; 200. a branch pipe; 300. a secondary pipe; 400. a three-way joint; 500. a ball valve;

110. a first port; 120. a second port;

210. a filter cartridge; 211. a first through hole; 212. a second through hole; 213. a filter layer;

220. a running water cylinder; 221. a third through hole; 222. a fourth via hole; 223. a spring; 224. a piston;

230. a U-shaped pipe; 240. and a water discharge pipe.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

A novel mixer hot water filtration device comprising: two main tubes 100, one main tube 100 having a first port 110 and the other main tube 100 having a second port 120;

the branch pipe 200, its both ends communicate with first port 110 and second port 120 respectively, are close to its two ports department simultaneously and set up two ball valves 500 respectively, still are equipped with filtering mechanism simultaneously between two ball valves 500, and filtering mechanism includes: the filter cartridge 210 is vertically arranged on the ground, is internally provided with a filter layer 213, and is respectively provided with a first through hole 211 and a second through hole 212 on the wall; wherein the first through hole 211 is positioned below the filter layer 213, and the first through hole 211 communicates with the first port 110 through the branch pipe 200; the second through hole 212 is located above the filter layer 213; the filter layer 213 intercepts impurities in the water flowing from the first through hole 211 to the second through hole 212; the water flowing cylinder 220 is vertically arranged on the ground, a piston 224 is arranged in the water flowing cylinder, and a third through hole 221 and a fourth through hole 222 are respectively formed in the cylinder wall of the water flowing cylinder; wherein the fourth through hole 222 is located below the piston 224, and the fourth through hole 222 communicates with the second port 120 through the branch pipe 200; the third through hole 221 is located above the piston 224; the piston 224 is used for sliding in the water flow cylinder 220 to enable water to flow to the fourth through hole 222 along the third through hole 221; and one end of the U-shaped pipe 230 is communicated with the second through hole 212 of the filter cartridge 210, and the other end of the U-shaped pipe 230 is communicated with the third through hole 221 of the water flow cylinder 220, wherein the height of the third through hole 221 of the water flow cylinder 220 is smaller than that of the second through hole 212 of the filter cartridge 210, and the U-shaped pipe 230 is used for enabling water to flow to the water flow cylinder 220 along the filter cartridge 210.

The filter cartridge 210 with the filter screen is arranged on the pipeline through which the hot water of the mixer flows, so that most solid particles in the hot water of the mixer can be screened, and the pipeline blockage phenomenon caused by more solid particles in the hot water of the mixer is avoided; by arranging the water flowing cylinder 220 and the piston 224 in the water flowing cylinder 220, hot water of the mixer is prevented from being pressed and flowing back into the filter cylinder 210 when a pipeline circulates, so that the pressure in the filter cylinder 210 is high, impurities in the filter cylinder 210 are pressed and agglomerated, and the filter cylinder 210 is blocked; by arranging the U-shaped pipe 230, the negative pressure environment of the second through hole 212 of the filter cartridge 210 can be created by utilizing the pressure difference effect of the U-shaped pipe 230, the water passing rate of the filter screen is increased, and water in the filter cartridge 210 can quickly flow into the water flowing cylinder 220 through the pressure difference effect.

In one embodiment, since each equipment is frequently overhauled in industrial production, two three-way joints 400 are provided, one of which is communicated with the first port 110 and the other is communicated with the second port 120; and two ends of the branch pipe 200 are connected to two three-way joints 400, respectively.

And an auxiliary pipe 300 having the same structure as the branch pipe 200, wherein the auxiliary pipe 300 is provided with a ball valve 500 and a filtering mechanism, and two ends of the auxiliary pipe are respectively communicated with the two three-way joints 400, and the auxiliary pipe 300 is opened when the branch pipe 200 is overhauled, so that water flows to the second port 120 along the first port 110.

In one embodiment, in order to realize that the piston 224 moves along the axis of the water flow cylinder 220 under the action of water pressure, a spring 223 is arranged, one end of the spring is connected with the piston 224, and the other end of the spring is connected with the water flow cylinder 220; which is used to move the piston 224 under the hydraulic pressure while returning the piston 224 to the initial position when no hydraulic pressure is applied.

In one embodiment, in order to facilitate a worker to clean impurities in the filter cartridge 210 in stages, a discharge pipe is provided below the corresponding filter layer 213 to communicate with the filter cartridge 210, and a ball valve 500 is provided thereon.

Specifically, when the solid residue in the filter cartridge 210 needs to be discharged, the ball valve 500 on the discharge pipe is opened, and the solid residue in the filter cartridge 210 is discharged along the discharge pipe under the action of water pressure.

In one embodiment, to increase the flow rate of the filter cartridge 210 to the flow cartridge 220, an arc-shaped shroud is provided between the second through hole 212 of the filter cartridge 210 and the filter layer 213, and the arc-shaped shroud is used to establish a communication passage between the filter layer 213 and the second through hole 212, so that water passing through the filter layer 213 flows to the second through hole 212.

The utility model relates to a novel mix quick-witted hot water filtration device's application method does: cutting the mixer hot water pipeline, wherein a cutting port close to a mixer hot water source is taken as a first port 110, and the other cutting port is taken as a second port 120; the two three-way joints 400 are respectively communicated with the first port 110 and the second port 120, and then the branch pipe 200 and the auxiliary pipe 300 are respectively communicated with the two three-way joints 400 to form two branches of hot water of the mixer; ball valve 500 on secondary pipe 300 is closed to allow hot mixer water to flow through branch pipe 200.

The hot water of the mixer flows into the filter cartridge 210 along the first through hole 211 on the filter cartridge 210, and as the water in the filter cartridge 210 increases, the water flows through the filter layer 213, the solid residue in the hot water is retained between the first through hole 211 and the filter layer 213 of the filter cartridge 210, and the filtered water flows into the water flow drum 220 along the arc-shaped cover and the U-shaped pipe 230; as the water in the running water cylinder 220 increases, the piston 224 moves to the fourth through hole 222, and the spring 223 presses down until the piston 224 is parallel to the fourth through hole 222; the water in the flow drum 220 flows to the second port 120, and the mixer hot water filtration is completed.

Claims (5)

1. A novel mix quick-witted hot water filter equipment which characterized in that includes: two main tubes (100), one main tube (100) having a first port (110) and the other main tube (100) having a second port (120);

the two ends of the branch pipe (200) are respectively communicated with the first port (110) and the second port (120), and a ball valve (500) and a filtering mechanism are further arranged on the branch pipe;

the filter mechanism includes:

the filter cylinder (210) is vertically arranged on the ground, a filter layer (213) is arranged in the filter cylinder, and a first through hole (211) and a second through hole (212) are respectively arranged on the wall of the filter cylinder; wherein the first through hole (211) is located below the filter layer (213), while the first through hole (211) communicates with the first port (110) through the branch pipe (200); the second through hole (212) is located above the filter layer (213); the filter layer (213) is used for intercepting impurities in the water flowing from the first through hole (211) to the second through hole (212);

the water flowing barrel (220) is vertically arranged on the ground, a piston (224) is arranged in the water flowing barrel, and a third through hole (221) and a fourth through hole (222) are respectively arranged on the barrel wall of the water flowing barrel; wherein the fourth through hole (222) is located below the piston (224), while the fourth through hole (222) communicates with the second port (120) through the branch pipe (200); the third through hole (221) is located above the piston (224); the piston (224) is used for sliding in the running water cylinder (220) so that water flows to the fourth through hole (222) along the third through hole (221);

and one end of the U-shaped pipe (230) is communicated with the second through hole (212) of the filter cylinder (210), and the other end of the U-shaped pipe is communicated with the third through hole (221) of the water flow cylinder (220), wherein the height of the third through hole (221) of the water flow cylinder (220) is smaller than that of the second through hole (212) of the filter cylinder (210), and the U-shaped pipe (230) is used for enabling water to flow to the water flow cylinder (220) along the filter cylinder (210).

2. A novel mixer hot water filtration device as claimed in claim 1, further comprising:

two three-way joints (400), one of which communicates with the first port (110) and the other of which communicates with the second port (120); meanwhile, two ends of the branch pipe (200) are respectively connected with two three-way joints (400);

the auxiliary pipe (300) is provided with the ball valve (500) and the filtering mechanism, and two ends of the auxiliary pipe are respectively communicated with two three-way joints (400); wherein the secondary pipe (300) is used for opening when the branch pipe (200) is overhauled, so that water flows to the second port (120) along the first port (110).

3. The novel mixer hot water filtration device of claim 1, further comprising:

a spring (223) having one end connected to the piston (224) and the other end connected to the flow tube (220); for moving the piston (224) under hydraulic pressure, while returning the piston (224) to an initial position when no hydraulic pressure is applied.

4. The novel mixer hot water filtration device of claim 3, further comprising:

the discharge pipe is communicated with the filter cylinder (210), is positioned below the filter layer (213), and is provided with a ball valve (500); for cleaning the filter residue inside the filter cartridge (210).

5. A new mixer hot water filtering device according to claim 3, characterized in that an arc-shaped cover is arranged between the second through hole (212) of the filter cartridge (210) and the filter layer (213), and the arc-shaped cover is used for establishing a communication passage between the filter layer (213) and the second through hole (212) so that the water passing through the filter layer (213) flows to the second through hole (212).

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