CN215208592U - From centrifugal water quality processor and water quality testing system - Google Patents

Abstract

The utility model discloses a from centrifugal water quality processor, from separator, circulating pump and circulating line including treater body, sample, the sample is from separator including one-level sample buffer way, reducing helical pipeline and silt collection jar, one-level sample buffer way, reducing helical pipeline and silt collection jar are from last to intercommunication down in proper order, the inner wall of circulating line's one end intercommunication treater body and the first cavity that the outer wall of sample self-separation device formed, first cavity and silt collection jar intercommunication, the entrance of circulating line's other end intercommunication one-level sample buffer way, silt water sample circulates under the effect of circulating pump between first cavity and sample self-separation device's inner chamber. The utility model also provides a water quality testing system. The utility model provides a not good problem of energy-concerving and environment-protective effect, can the low energy consumption accomplish the separation, the processing cost is low, and energy-concerving and environment-protective effect is good.

Description

From centrifugal water quality processor and water quality testing system

Technical Field

The utility model relates to a water quality treatment field, concretely relates to from centrifugal water quality processor and water quality testing system.

Background

With the acceleration of industrialization and urbanization, people can generate a large amount of sewage sludge in production and life, and the sewage sludge directly discharged into rivers, lakes and seas can cause great pollution. The development of sewage sludge treatment technology is still difficult, how to carry out environment-friendly treatment on sewage sludge is still a technical difficulty, and especially, the method is very important for ensuring the quality of treated effluent water, recycling energy in the sewage sludge and forming valuable end products.

Most of the traditional sewage and sludge treatment adopts a single biological fermentation, drying or membrane separation technology, the treatment efficiency of the sewage and sludge is very low, the treatment period is longer, the economic benefit is not high, and the large-scale popularization and application are difficult. Biogas slurry and biogas residues are difficult to effectively separate and reuse after the traditional biological fermentation process adopted by the existing sewage sludge treatment, the cost-reduction effective separation of sewage and sludge is still a technical difficulty, and the existing sewage sludge treatment is often difficult to reach the discharge standard and still causes pollution to a certain degree.

Therefore, the technical problems in the prior art need to be solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem in the background art and providing a self-centrifugal water quality processor and a water quality detection system. The treatment facility treatment effeciency to current sewage mud is lower, treatment cost is higher, sewage and mud are difficult to the completion separation of low energy consumption, not high to the energy recovery utilization ratio in the sewage mud, the not good problem of energy-concerving and environment-protective effect, the utility model provides a from centrifugal water quality processor and water quality testing system, can the low energy consumption accomplish the separation, treatment cost is low, and energy-concerving and environment-protective effect is showing.

The above technical purpose of the present invention is achieved by the following technical solutions:

the utility model provides a from centrifugal water quality processor, includes that treater body, sample are from separator, circulating pump and circulating line, the sample is from separator including one-level sample buffering way, reducing helical pipeline and silt collection jar, one-level sample buffering way, reducing helical pipeline and silt collection jar set up in the inner chamber of treater body, one-level sample buffering way, reducing helical pipeline and silt collection jar communicate from last to lower in proper order, the inner wall of circulating line's one end intercommunication treater body and the first cavity that the outer wall of sample is from separator formed, first cavity and silt collection jar intercommunication, the entrance of circulating line's other end intercommunication one-level sample buffering way, silt water sample circulates under the effect of circulating pump between first cavity and sample are from separator's inner chamber.

As above, the inner wall of the treater body is provided with the particulate matter baffle for preventing particulate matters in the silt water sample from moving upwards, and the particulate matter baffle is downwards inclined and fixedly arranged on the inner wall of the treater body.

As above, a from centrifugal water quality processor, the magnetic stirring motor is installed to the below of jar is collected to silt, the bottom of jar is collected to silt is equipped with the magnetism son with magnetic stirring motor cooperation pivoted.

According to the self-centrifugal water quality processor, the first sensor is arranged in the primary sample buffer channel and is a turbidity sensor or a liquid level sensor.

According to the self-centrifugal water quality processor, the second sensor is arranged in the sediment collecting cylinder and is a turbidity sensor.

According to the self-centrifugal water quality processor, the bottom of the sediment collecting cylinder is provided with the particulate matter discharge port.

The self-centrifugal water quality processor is characterized in that the primary sample buffer channel is provided with a channel with a gourd-shaped cross section, and the outer surface of the primary sample buffer channel is wavy.

As above, a from centrifugal water quality processor, the inside particulate matter guard plate that is provided with of jar is collected to silt, the particulate matter guard plate downward sloping sets up and is used for blockking the particulate matter of upward movement in the inner wall of jar is collected to silt.

According to the self-centrifugal water quality processor, the communicating hole is formed in the lower portion of the silt collecting cylinder, and the first cavity is communicated with the silt collecting cylinder through the communicating hole.

The invention also provides a water quality detection system, which comprises a water quality monitoring device and the self-centrifugal water quality processor, wherein the silt water sample treated by the self-centrifugal water quality processor enters the water quality monitoring device to be detected.

Compared with the prior art, the utility model has the advantages of it is following and beneficial effect:

1. the utility model provides a pair of from centrifugal water quality processor is that an wholeness is good, the lower device of treatment cost, can accomplish the separation with the low energy consumption to sewage and mud for energy recovery utilization ratio to among the sewage sludge has obtained the improvement, and the play water quality of water after handling moreover has reached emission standard, is an energy-concerving and environment-protective effect and is showing sewage sludge treatment system.

2. The utility model provides a self-centrifugal water quality processor, the inner wall of the processor body is provided with a multi-stage particulate matter baffle plate which is used for filtering the particulate matter moving upwards when a silt water sample circulates; the inside particulate matter guard plate that is equipped with of jar is collected to silt for block the particulate matter of upward movement, it is fast to make silt water sample centrifugal speed above setting up.

3. The utility model provides a pair of from centrifugal water quality processor, magnetic stirring motor drive magnon stirring prevents that bottom silt from blockking up the particulate matter discharge port on the silt collection jar.

4. The utility model provides a pair of water quality testing system can guarantee short-term test, real-time detection.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the following will briefly introduce the drawings required for the description of the embodiments or the prior art, and it is obvious that the following description is only one embodiment of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of a self-centrifugal water treatment apparatus according to the present invention;

fig. 2 is the utility model discloses the particulate matter discharge port schematic diagram of silt collection jar.

1-a processor body, 2-a primary sample buffer channel, 3-a reducing spiral pipeline, 4-a silt collecting cylinder, 5-a circulating pump, 6-a circulating pipeline, 7-a first sensor, 8-a second sensor, 9-a magnetic stirring motor, 10-a particulate matter baffle, 11-a particulate matter discharge port, 12-a water quality monitoring device, 13-a particulate matter protection plate and 14-a communication hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiment of the present invention, all other embodiments obtained without creative work by the ordinary skilled person in the art all belong to the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

Example 1:

referring to fig. 1, a self-centrifugal water quality processor comprises a processor body 1, a sample self-separating device, a circulating pump 5 and a circulating pipeline 6, the sample self-separation device comprises a primary sample buffer channel 2, a reducing spiral pipeline 3 and a silt collecting cylinder 4, the primary sample buffer channel 2, the reducing spiral pipeline 3 and the silt collecting cylinder 4 are arranged in the inner cavity of the processor body 1, the primary sample buffer channel 2, the reducing spiral pipeline 3 and the silt collecting cylinder 4 are sequentially communicated from top to bottom, one end of the circulating pipeline 6 is communicated with a first cavity formed by the inner wall of the processor body 1 and the outer wall of the sample self-separation device, jar 4 intercommunications are collected to first cavity and silt, the entrance of circulation pipeline 6's the other end intercommunication one-level sample buffering way 2, and the silt water sample circulates between first cavity and sample self-separating device's inner chamber under circulating pump 5's effect. The 'inner cavity of the sample self-separation device' refers to an inner cavity formed by the primary sample buffer channel 2, the reducing spiral pipeline 3 and the sediment collection cylinder 4.

Preferably, the inner wall of the processor body 1 is provided with a particulate matter baffle 10 for preventing particulate matter in the silt water sample from moving upwards, and the particulate matter baffle 10 is obliquely downwards and fixedly arranged on the inner wall of the processor body 1.

Preferably, magnetic stirring motor 9 is installed to the below of jar 4 is collected to silt, the bottom of jar 4 is collected to silt is equipped with and cooperates pivoted magnon with magnetic stirring motor 9.

Preferably, a first sensor 7 is arranged in the primary sample buffer channel 2, and the first sensor 7 is a turbidity sensor or a liquid level sensor.

Preferably, a second sensor 8 is arranged in the silt collecting cylinder 4, and the second sensor 8 is a turbidity sensor. Preferably, silt is collected jar 4 inside and is provided with particulate matter guard plate 13, particulate matter guard plate 13 downward sloping sets up and is used for blockking the upward movement's particulate matter in the inner wall of silt is collected jar 4, guarantees that the particulate matter subsides in the bottom of silt is collected jar 4.

Referring to fig. 2, the bottom of the silt collecting tank 4 is preferably provided with a particulate matter discharge port 11. Settled particles can be discharged through the particle discharge port 11 in real time. And (4) carrying out next distillation and weighing on the discharged settled particles, and calculating the sand content of the silt water sample.

Preferably, the primary sample buffer channel 2 is provided with a channel with a gourd-shaped cross section, and the outer surface of the primary sample buffer channel 2 is in a wave shape. The reducing spiral pipeline 3 is a spiral pipeline with different inner diameter thicknesses. The shape and structure of the primary sample buffer channel 2 and the reducing spiral pipeline 3 are convenient for the centrifugal sinking of the particles.

Preferably, a communication hole 14 is formed below the silt collecting cylinder 4, and the first cavity is communicated with the silt collecting cylinder 4 through the communication hole 14.

When the device is used, a silt water sample is injected from the upper end of a primary sample buffer 2 of a centrifugal device through the sample, as a black arrow in fig. 1 represents the inflow direction of the added silt water sample, the silt water sample flows downwards through layer-by-layer buffering, a large amount of silt of the silt water sample in the water sample is slowly enriched to a silt collecting cylinder 4 at the bottom through a reducing spiral pipeline 3, magnetons are placed in the silt collecting cylinder 4, a magnetic stirring motor 9 is installed at the lower part of the silt collecting cylinder 4, magnetic stirring of the magnetons prevents the bottom silt from blocking a settled particulate matter discharge port 11 on the silt collecting cylinder 4, and a multi-stage particulate matter baffle 10 is arranged on the inner wall of a processor body 1 and is used for filtering out upward moving particulate matters during circulation of the silt water sample; circulating pump 5 sets up in treater body 1's outside, and the silt water sample circulates in the first cavity that treater body 1's inner wall and sample formed from separator's outer wall and sample between separator's the inner chamber under circulating pump 5's effect. The white arrows in figure 1 represent the direction of flow of the circulating sample of silt water. Specifically, because first cavity and silt are collected jar 4 intercommunications, circulating pump 5 opens, and silt water sample passes through one-level sample buffer way 2, reducing helical pipeline 3 and silt in proper order and collects jar 4, then enters into in the first cavity through intercommunicating pore 14, then enters into one-level sample buffer way 2 through circulating pipe 6 again, so constantly circulate from the centrifugation. Be provided with first sensor 7 in the one-level sample buffer channel 2, in this embodiment, first sensor 7 is turbidity sensor, be provided with second sensor 8 in silt collection jar 4, second sensor 8 is turbidity sensor for silt water sample reaches the turbidity requirement after many times from centrifugal treatment, accomplishes whole centrifugal operation promptly.

Example 2:

a water quality detection system comprises a water quality monitoring device 12 and a self-centrifugal water quality processor as described in embodiment 1, wherein a silt water sample treated by the self-centrifugal water quality processor enters the water quality monitoring device 12 to be detected. The water quality monitoring device 12 in this embodiment is a commercially available conventional device. The water quality monitoring device 12 includes, but is not limited to, a conductivity meter, a pH meter, a COD meter, a colorimeter, an ammonia nitrogen meter, a total phosphorus meter, a volatile phenol meter, an ion chromatograph, an atomic absorption spectrometer, an ultraviolet spectrophotometer, a radioactivity index meter, and the like. The water quality detection system that this embodiment provided can guarantee the rapid survey, and the real-time performance is good moreover.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a from centrifugal water quality processor, its characterized in that, includes that treater body (1), sample are from separator, circulating pump (5) and circulating line (6), the sample is from separator including one-level sample buffer way (2), reducing spiral pipeline (3) and silt collection jar (4), one-level sample buffer way (2), reducing spiral pipeline (3) and silt collection jar (4) set up in the inner chamber of treater body (1), one-level sample buffer way (2), reducing spiral pipeline (3) and silt collection jar (4) communicate from last to bottom in proper order, the inner wall of one end intercommunication treater body (1) of circulating line (6) and the first cavity that the outer wall of sample self-separation device formed, first cavity and silt collection jar (4) intercommunication, the other end of circulating line (6) communicates the entrance of one-level sample buffer way (2), the silt water sample circulates between the first cavity and the inner cavity of the sample self-separation device under the action of the circulating pump (5).

2. A self-centrifugal water quality processor according to claim 1, wherein the inner wall of the processor body (1) is provided with a particulate matter baffle (10) for preventing the upward movement of the particulate matter in the silt water sample, and the particulate matter baffle (10) is obliquely and fixedly arranged on the inner wall of the processor body (1) downwards.

3. The self-centrifugal water quality processor according to claim 1, wherein a magnetic stirring motor (9) is installed below the silt collection tank (4), and a magnet rotating in cooperation with the magnetic stirring motor (9) is arranged at the bottom of the silt collection tank (4).

4. A self-centrifugal water quality processor according to claim 1, wherein a first sensor (7) is arranged in the primary sample buffer channel (2), and the first sensor (7) is a turbidity sensor or a liquid level sensor.

5. A self-centrifugal water treatment apparatus as claimed in claim 1, characterised in that a second sensor (8) is provided in said silt collection tank (4), said second sensor (8) being a turbidity sensor.

6. A self-centrifugal water treatment apparatus as claimed in claim 1, characterised in that the bottom of the silt collection tank (4) is provided with a particulate matter discharge outlet (11).

7. A self-centrifugal water treatment apparatus as claimed in claim 1, wherein said primary sample buffer channel (2) has a channel with a gourd-shaped cross-sectional shape, and the outer surface of said primary sample buffer channel (2) is wave-shaped.

8. The self-centrifugal water quality processor according to claim 1, wherein a particle protection plate (13) is arranged inside the silt collection cylinder (4), and the particle protection plate (13) is arranged on the inner wall of the silt collection cylinder (4) in a downward inclination manner and used for blocking particles moving upwards.

9. A self-centrifugal water quality processor as claimed in claim 1, wherein a communication hole (14) is provided below the silt collection cylinder (4), and the first chamber is communicated with the silt collection cylinder (4) through the communication hole (14).

10. A water quality detecting system, which is characterized by comprising a water quality monitoring device (12) and the self-centrifugal water quality processor as claimed in any one of claims 1 to 9, wherein a silt water sample treated by the self-centrifugal water quality processor enters the water quality monitoring device (12) to be detected.

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