CN219571977U - Cooling filter structure for uridylic acid desalting - Google Patents

Abstract

The utility model relates to the technical field of cooling and filtering, and discloses a cooling and filtering structure for uridylic acid desalting, which comprises a cooling water tank and a U-shaped flow guide pipe penetrating through the cooling water tank, wherein a filtering device is arranged in the cooling water tank and used for filtering impurities, the filtering device comprises a guide pipe arranged on the U-shaped flow guide pipe, a filtering bin is further arranged in the cooling water tank, the guide pipe is communicated with the filtering bin, a drain pipe is further arranged on the cooling water tank, and the drain pipe penetrates into the filtering bin. This uridylic acid desalination is with cooling filtration, U-shaped honeycomb duct runs through to in the coolant tank to when making the flue gas pass through U-shaped honeycomb duct, can receive the cooling effect of coolant in the coolant tank, and then carries out the operation of cooling to the flue gas in the U-shaped honeycomb duct.

Description

Cooling filter structure for uridylic acid desalting

Technical Field

The utility model relates to the technical field of cooling and filtering, in particular to a cooling and filtering structure for desalting uridylic acid.

Background

In the food additive and pharmaceutical industry, desalting, concentrating and purifying operations are often required to be carried out on some liquid materials, larger smoke can be generated in the operation process, the direct emission is carried out, the pollution is increased, and potential safety hazards exist, so that smoke filtering and cooling treatment is carried out before the emission.

At present, the cooling filter structure for desalting the crude uridylic acid product in the market is too simple, is inconvenient to use, has single filtering function and poor filtering effect, and is inconvenient to clean because the filtered particulate dust needs manual treatment.

According to the cooling filter structure for the uridylic acid crude product desalting, which is provided by the patent application number CN.201921946363.9, the cooling filter structure comprises a fixed cylinder, one end in the fixed cylinder is provided with a filter mechanism, one side of the filter mechanism is provided with a dust removing mechanism, the upper end of the fixed cylinder is provided with a motor, and the output end of the motor is fixedly connected with a gear, and the cooling filter structure has the beneficial effects that: 1. by arranging the filtering mechanism and the ash removing mechanism, the manual ash removal is avoided while the dust filtration of the earlier stage of the flue gas is improved, the cooling effect of the subsequent flue gas is improved, and the normal operation of the machine is ensured; 2. simultaneously set up water tank and movable detachable purification tank, the purification tank is inside to set up different filter screens according to the dust diameter, also is convenient for the maintenance and the change of purification tank when effectively improving the filtration rate, and the gaseous form of bubble escape in the form of follow water after the water filtration, then in entering into the purification tank through the sponge, reaches can carry out air filtration, can cool down the purpose to gaseous again.

However, this scheme is through in discharging the flue gas into the water tank to break through the bubble and carry out secondary collection, after the flue gas was discharged into the water tank, the unavoidable material in the flue gas can take place new chemical reaction with water, consequently the flue gas that the secondary produced plays the composition and can have certain change in the composition of basic gaseous, in addition when the flue gas enters into the water tank after, if the gas volume is big, because the gas temperature is greater than liquid temperature, consequently the flue gas can gush up promptly and produce the bubble and derive vapor, and then lead to the cooling ability decline, moreover the mode play efficiency of the secondary gas through the bubble recovery is also lower.

Disclosure of Invention

The utility model provides a cooling filter structure for desalting uridylic acid, which has the beneficial effects of cooling and filtering, simultaneously taking into account filtering, simultaneously having a certain self-cleaning function, improving the working efficiency of cooling and filtering, and solving the problems of single filtering function and poor filtering effect in the prior art.

The utility model provides the following technical scheme: the cooling filtering structure for the uridylic acid desalination comprises a cooling water tank and a U-shaped flow guide pipe penetrating through the cooling water tank, wherein a filtering device is arranged in the cooling water tank and is used for filtering impurities;

the filter device comprises a guide pipe arranged on the U-shaped guide pipe, a filter bin is further arranged in the cooling water tank, the guide pipe is communicated with the filter bin, a drain pipe is further arranged on the cooling water tank, and the drain pipe penetrates into the filter bin.

As an alternative scheme of the cooling filter structure for the uridylic acid desalting, the utility model comprises the following steps: an opening and closing mechanism is further arranged in the guide pipe and used for opening and closing the guide pipe;

the opening and closing mechanism comprises a fixed plate arranged in the guide pipe, a sealing ring plate is also arranged in the guide pipe in a sliding manner, a sleeve is also arranged on the fixed plate, and the sealing ring plate is mutually matched with the sleeve;

the sleeve is also provided with a through hole.

As an alternative scheme of the cooling filter structure for the uridylic acid desalting, the utility model comprises the following steps: the sealing ring plate is also arranged on the sleeve in a sliding way.

As an alternative scheme of the cooling filter structure for the uridylic acid desalting, the utility model comprises the following steps: the sealing ring plate is provided with an elastic sheet, and the sealing ring plate is directly and elastically connected with the fixing plate through the elastic sheet.

As an alternative scheme of the cooling filter structure for the uridylic acid desalting, the utility model comprises the following steps: and the sleeve is also provided with a sealing plate.

As an alternative scheme of the cooling filter structure for the uridylic acid desalting, the utility model comprises the following steps: and an inclined plane is arranged on the sealing ring plate.

As an alternative scheme of the cooling filter structure for the uridylic acid desalting, the utility model comprises the following steps: a sliding mechanism is further arranged in the guide pipe and used for enabling the sealing ring plate to slide stably;

the sliding mechanism comprises a sliding groove formed in the guide pipe, a sliding block matched with the sliding groove is arranged on the sealing ring plate, and the sliding block is arranged in the sliding groove in a sliding mode.

As an alternative scheme of the cooling filter structure for the uridylic acid desalting, the utility model comprises the following steps: still be provided with the filter screen in the U-shaped honeycomb duct, the filter screen is used for supplementary filtration, still be provided with the air pump on the U-shaped honeycomb duct, the air pump is used for supplementary exhaust.

The utility model has the following beneficial effects:

1. this uridylic acid desalination is with cooling filtration, U-shaped honeycomb duct runs through to in the coolant tank to when making the flue gas pass through U-shaped honeycomb duct, can receive the cooling effect of coolant in the coolant tank, and then carries out the operation of cooling to the flue gas in the U-shaped honeycomb duct.

2. This uridylic acid desalination is with cooling filtration, when the flue gas in the U-shaped honeycomb duct is cooling, its condensation phenomenon that takes place, and then make the interior pollutant of flue gas can be by comdenstion water cladding and then sink, in order to prevent that the filth from condensing into the spot in the U-shaped honeycomb duct, be provided with filter equipment in cooling water tank, filter equipment is used for collecting the pollutant of condensation.

3. This uridylic acid desalination is with cooling filtration, in order to make the guide pipe have the comdenstion water that forms in U-shaped honeycomb duct just can make U-shaped honeycomb duct directly communicate through guide pipe and filtration storehouse when a certain amount to prevent flue gas from excessively overflowing in the guide pipe, consequently be provided with opening and close mechanism in the guide pipe.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic diagram of the internal structure of the present utility model.

FIG. 3 is a schematic cross-sectional view of the internal structure of the present utility model.

Fig. 4 is a partial enlarged view at a in fig. 3.

In the figure: 1. a cooling water tank; 2. u-shaped honeycomb duct; 31. a guide tube; 32. a filtering bin; 33. a blow-down pipe; 41. a fixing plate; 42. a sleeve; 43. sealing ring plates; 44. a through hole; 5. a spring plate; 6. a sealing plate; 71. a chute; 72. a slide block; 8. a filter screen; 9. an air pump.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1-4, a cooling filter structure for removing uridylic acid includes a cooling water tank 1 and a U-shaped flow guide pipe 2 penetrating through the cooling water tank 1, wherein a filter device is arranged in the cooling water tank 1 and is used for filtering impurities;

the filtering device comprises a guide pipe 31 arranged on the U-shaped flow guide pipe 2, a filtering bin 32 is further arranged in the cooling water tank 1, the guide pipe 31 is communicated with the filtering bin 32, a drain pipe 33 is further arranged on the cooling water tank 1, and the drain pipe 33 penetrates into the filtering bin 32.

In this embodiment: in order to filter the flue gas in the U-shaped honeycomb duct 2 and cool down, be provided with consequently and be used for refrigerated coolant tank 1, U-shaped honeycomb duct 2 runs through to in the coolant tank 1 to when making the flue gas pass through U-shaped honeycomb duct 2, can receive the cooling effect of coolant in the coolant tank 1, and then cool down the operation to the flue gas in the U-shaped honeycomb duct 2.

When the flue gas in the U-shaped flow guide pipe 2 is cooled, the flue gas is condensed, so that partial pollutants in the flue gas can be covered by condensed water and then sink, and a filtering device is arranged in the cooling water tank 1 and used for collecting the condensed pollutants in order to prevent the pollutants from condensing into stains in the U-shaped flow guide pipe 2.

The filter device comprises a guide pipe 31 with one end communicated with the cooling water tank 1, a filter bin 32 is arranged in the cooling water tank 1, the other end of the guide pipe 31 is communicated with the filter bin 32, a drain pipe 33 is further arranged at the bottom of the filter bin 32, one end of the drain pipe 33 penetrates into the filter bin 32, and the other end of the drain pipe extends out of the cooling water tank 1.

After the condensate water mixed with pollutants in the U-shaped flow guide pipe 2 is molded, the condensate water can flow into the filtering bin 32 through the guide pipe 31, is filtered by the filtering bin 32, and is finally discharged through the blow-off pipe 33 for subsequent secondary treatment.

What needs to be stated is: the guide pipe 31 can be provided with a plurality of on the U-shaped honeycomb duct 2, and a plurality of guide pipes 31 all communicate with the filtration storehouse 32 to can carry out the collection of comdenstion water in a plurality of node departments on the U-shaped honeycomb duct 2, prevent when the U-shaped honeycomb duct 2 overlength, can't effectually collect the pollutant, thereby still can exist in the messenger U-shaped honeycomb duct 2 and form the region of spot.

Example 2

Referring to fig. 1-4, an opening and closing mechanism is further disposed in the guide tube 31, and the opening and closing mechanism is used for opening and closing the guide tube 31;

the opening and closing mechanism comprises a fixed plate 41 arranged in the guide pipe 31, a sealing ring plate 43 is arranged in the guide pipe 31 in a sliding manner, a sleeve 42 is arranged on the fixed plate 41, and the sealing ring plate 43 and the sleeve 42 are mutually matched;

the sleeve 42 is also provided with a through hole 44.

The sealing ring plate 43 is also slidably arranged on the sleeve 42.

The sealing ring plate 43 is provided with an elastic sheet 5, and the sealing ring plate 43 is directly and elastically connected with the fixing plate 41 through the elastic sheet 5.

The sleeve 42 is also provided with a sealing plate 6.

The seal ring plate 43 is provided with a slope.

In this embodiment: in order to enable the guide pipe 31 to directly communicate the U-shaped guide pipe 2 with the filter bin 32 through the guide pipe 31 when the condensate water formed in the U-shaped guide pipe 2 has a certain amount, the flue gas is prevented from overflowing excessively from the guide pipe 31, and therefore an opening and closing mechanism is arranged in the guide pipe 31 and can open and close the guide pipe 31.

The opening and closing mechanism comprises a fixed plate 41 arranged in the guide pipe 31, a sealing ring plate 43 is arranged in the guide pipe 31 in a sliding manner, a sleeve 42 is further arranged on the fixed plate 41, the sealing ring plate 43 and the sleeve 42 are mutually matched, a through hole 44 is further formed in the sleeve 42, and the sleeve 42 is directly communicated with the guide pipe 31 through the through hole 44.

When the condensed water in the U-shaped flow guide pipe 2 is smaller, the condensed water cannot provide the pressure for enabling the sealing ring plate 43 to slide, at the moment, the sealing ring plate 43 can block the through hole 44 from being directly connected with the guide pipe 31, so that the U-shaped flow guide pipe 2 is directly not communicated with the guide pipe 31, when the condensed water formed in the U-shaped flow guide pipe 2 is accumulated to a certain amount, downward pressure is applied to the sealing ring plate 43, and then the sealing ring plate 43 slides on the sleeve 42 towards the direction close to the fixed plate 41, at the moment, the through hole 44 is directly communicated with the guide pipe 31 again, so that the U-shaped flow guide pipe 2 is directly communicated with the guide pipe 31 again, the condensed water can flow into the filter bin 32 through the guide pipe 31, and the filtration of dirt and the recovery of the condensed water are completed.

In addition, in order to enable the sealing ring plate 43 to receive a certain supporting force, a spring piece 5 is provided on the sealing ring plate 43, and the sealing ring plate 43 is directly elastically connected with the fixing plate 41 through the spring piece 5.

The elastic sheet 5 enables the sealing ring plate 43 to receive the supporting force provided by the elastic sheet 5, so that the through hole 44 can be closed, and when a certain amount of condensed water on the sealing ring plate 43 is accumulated, and the supporting force provided by the elastic sheet 5 is overcome, the sealing ring plate 43 can slide towards the direction close to the fixed plate 41 to discharge the condensed water.

Moreover, since the elastic sheet 5 has elastic deformation capability, when the sealing ring plate 43 slides in the direction approaching to the fixed plate 41, the elastic sheet 5 is extruded to generate and accumulate a certain elastic potential energy, and when the condensed water in the U-shaped flow guide pipe 2 is insufficient to overcome the elastic potential energy of the elastic sheet 5, the elastic sheet 5 can release the accumulated elastic potential energy, and further generate reverse thrust to the sealing ring plate 43 to enable the sealing ring plate 43 to slide in a resetting manner, and the guide pipe 31 is closed again.

In order to guide the flow of the condensed water conveniently, the top of the sealing ring plate 43 is provided with an inclined surface, and the inclined angle gradually increases from the periphery of the sealing ring plate 43 to the center, so that the condensed water is guided to flow towards the through hole 44.

Example 3

Referring to fig. 1 to 4, a sliding mechanism is further disposed in the guide tube 31, and is used for stabilizing the sliding of the sealing ring plate 43;

the sliding mechanism comprises a sliding groove 71 formed in the guide tube 31, a sliding block 72 matched with the sliding groove 71 is arranged on the sealing ring plate 43, and the sliding block 72 is arranged in the sliding groove 71 in a sliding manner.

In this embodiment: in order to make the sliding of the sealing ring plate 43 in the guide tube 31 more stable, a sliding mechanism is further provided in the guide tube 31, by which the sealing ring plate 43 is directly slidably connected to the guide tube 31.

The sliding mechanism comprises a sliding groove 71 formed in the guide pipe 31, a sliding block 72 matched with the sliding groove 71 is arranged on the sealing ring plate 43, and the sliding block 72 is arranged in the sliding groove 71 in a sliding manner.

By the cooperation of the slide groove 71 and the slider 72, the seal ring plate 43 can be more stable when sliding in the guide tube 31.

Example 4

Referring to fig. 1-4,U, a filter screen 8 is further disposed in the flow guiding tube 2, the filter screen 8 is used for assisting in filtering, an air pump 9 is further disposed on the U-shaped flow guiding tube 2, and the air pump 9 is used for assisting in exhausting.

In this embodiment: still be provided with filter screen 8 in U-shaped honeycomb duct 2, filter screen 8 is used for filtering the flue gas in the U-shaped honeycomb duct 2 to prevent that part pollutant from being carried by the flue gas when failing by the comdenstion water cladding, thereby make the flue gas unable emission standard that satisfies.

The air pump 9 is further arranged at the outlet of the U-shaped flow guide pipe 2, the air pump 9 is used for guiding the flue gas in the U-shaped flow guide pipe 2, excessive overflow of the flue gas from the guide pipe 31 into the filter bin 32 is prevented, normal discharge is affected, in addition, the air flow direction generated by the operation of the air pump 9 plays a certain guiding role on condensed water, the condensed water can flow in the direction close to the guide pipe 31 under the action of the air pump 9, and the phenomenon that the flue gas cannot flow normally because the angle set by the U-shaped flow guide pipe 2 is too close to the horizontal is prevented, and further the failure of the filter device and the opening and closing mechanism is caused.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (8)

1. The utility model provides a uridylic acid desalination is with cooling filtration, includes coolant tank (1) and runs through U-shaped honeycomb duct (2) of coolant tank (1), its characterized in that: a filtering device is arranged in the cooling water tank (1) and is used for filtering impurities;

the filtering device comprises a guide pipe (31) arranged on the U-shaped flow guide pipe (2), a filtering bin (32) is further arranged in the cooling water tank (1), the guide pipe (31) is communicated with the filtering bin (32), a drain pipe (33) is further arranged on the cooling water tank (1), and the drain pipe (33) penetrates into the filtering bin (32).

2. The cooling filter structure for uridylic acid desalting according to claim 1, wherein: an opening and closing mechanism is further arranged in the guide pipe (31) and used for opening and closing the guide pipe (31);

the opening and closing mechanism comprises a fixed plate (41) arranged in the guide pipe (31), a sealing ring plate (43) is further arranged in the guide pipe (31) in a sliding mode, a sleeve (42) is further arranged on the fixed plate (41), and the sealing ring plate (43) and the sleeve (42) are mutually matched;

the sleeve (42) is also provided with a through hole (44).

3. The cooling filter structure for uridylic acid desalting according to claim 2, wherein: the sealing ring plate (43) is also slidably arranged on the sleeve (42).

4. A cooling filter structure for the desalination of uridylic acid according to claim 3, wherein: the sealing ring plate (43) is provided with an elastic sheet (5), and the sealing ring plate (43) is directly and elastically connected with the fixing plate (41) through the elastic sheet (5).

5. The cooling filter structure for uridylic acid desalting according to claim 4, wherein: a sealing plate (6) is further arranged on the sleeve (42).

6. The cooling filter structure for uridylic acid desalting according to claim 5, wherein: an inclined plane is arranged on the sealing ring plate (43).

7. The cooling filter structure for uridylic acid desalting according to claim 6, wherein: a sliding mechanism is further arranged in the guide pipe (31) and used for enabling the sealing ring plate (43) to slide stably;

the sliding mechanism comprises a sliding groove (71) formed in the guide pipe (31), a sliding block (72) mutually matched with the sliding groove (71) is arranged on the sealing ring plate (43), and the sliding block (72) is arranged in the sliding groove (71) in a sliding mode.

8. The cooling filter structure for uridylic acid desalting according to claim 7, wherein: still be provided with filter screen (8) in U-shaped honeycomb duct (2), filter screen (8) are used for supplementary filtration, still be provided with air pump (9) on U-shaped honeycomb duct (2), air pump (9) are used for supplementary exhaust.