CN219326686U

CN219326686U - Deionized water preparation device

Info

Publication number: CN219326686U
Application number: CN202320873797.0U
Authority: CN
Inventors: 马飞龙; 周志彬; 温亚龙; 姜锋; 姜波; 崔万里; 马小慧
Original assignee: Ningxia Weichuang Pharmaceutical Co ltd
Current assignee: Ningxia Weichuang Pharmaceutical Co ltd
Priority date: 2023-04-19
Filing date: 2023-04-19
Publication date: 2023-07-11
Anticipated expiration: 2033-04-19

Abstract

The utility model relates to the technical field of deionized water preparation, in particular to a deionized water preparation device, a water filtering mechanism is fixedly connected to a bottom plate, a pump is fixedly connected to the bottom plate, an open box is fixedly connected to the bottom plate, a sealing cover is detachably and hermetically connected to the open box, an inlet of the pump is communicated with the water filtering mechanism through a conduit, an ion removing mechanism is fixedly connected to the inside of the open box, and the bottom end of the inside of the sealing cover is fixedly connected with a buffering stirring mechanism for reducing impact force between water flow and the ion removing mechanism. According to the utility model, after the pump is electrified and started, filtered water in the water filtering mechanism is pumped out through the guide pipe, the pumped water is led into the movable pipe through the connecting pipe, the water released from the bottom end of the movable pipe impacts the buffer component, the buffer component buffers the water released from the movable pipe, the decelerated water falls into the open box, and the impact force between the water flow and the deionizing mechanism is reduced, so that the ion exchange resin block cannot be broken.

Description

Deionized water preparation device

Technical Field

The utility model relates to the technical field of deionized water preparation, in particular to a deionized water preparation device.

Background

Deionized water has wide application in industry, and the water quality requirements of different fields on deionized water are different. In the field of fine chemical industry, deionized water is mainly used for reaction water in the product synthesis process, and the purity of the deionized water directly influences the quality standard of medicines or agricultural products. Meanwhile, the high-quality work of the deionized water device is also of great significance for the safe and stable operation of the whole production line.

In the deionized water production process, ionic impurities in water are removed by adopting ion exchange resin to obtain deionized water, the water is sent into a box body filled with the ion exchange resin by a conveying device, the flow rate of the water is greatly improved by conveying the water by the conveying device, and after the water flow collides with the ion exchange resin in the box body at a high flow rate, the impact force between the ion exchange resin and the water flow is large, so that the ion exchange resin blocks are broken.

Disclosure of Invention

The utility model aims to solve the defect that the ion exchange resin blocks are broken due to the fact that the impact force between the ion exchange resin and water flow is large in the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

design deionized water preparation facilities, including bottom plate, drainage mechanism, pump, open case, deionized mechanism and buffering rabbling mechanism, wherein:

the water filtering mechanism is fixedly connected to the bottom plate, the pump is fixedly connected to the bottom plate, the open box is fixedly connected to the bottom plate, the detachable sealing cover is connected to the open box in a sealing way, the inlet of the pump is communicated with the water filtering mechanism through a guide pipe, the deionizing mechanism is fixedly connected into the open box, and the inner bottom end of the sealing cover is fixedly connected with the buffering stirring mechanism for reducing impact force between water flow and the deionizing mechanism.

Preferably, the water filtering mechanism comprises a water filtering tank, a water inlet pipe fitting, a filter screen and a filter packing layer, wherein the water inlet pipe fitting is communicated with the upper end of the water filtering tank, the water filtering tank is communicated with the guide pipe, the filter screen is fixedly connected to the water filtering tank, and the filter packing layer is arranged at the bottom end of the water filtering tank.

Preferably, the filter packing layer is an activated carbon packing layer.

Preferably, the deionization mechanism comprises a perforated groove frame, an ion exchange resin block and an extrusion block, wherein the perforated groove frame is fixedly connected to the inside of the open box, the ion exchange resin block is arranged in the perforated groove frame, and the extrusion block fixed to the ion exchange resin block is clamped on the perforated groove frame.

Preferably, the buffering stirring mechanism comprises a buffering component and two stirring components which are arranged in parallel, wherein the buffering component is fixedly connected to the bottom end of the sealing cover, the buffering component is located below the movable pipe, and the two stirring components which are arranged in parallel are connected with the buffering component.

Preferably, the buffer assembly comprises two parallel mounting plates, a rotating shaft, impellers and two parallel first bevel gears, wherein the two parallel mounting plates are fixedly connected to the bottom end of the sealing cover, the rotating shaft is rotatably connected to the mounting plates, the impellers are fixedly connected to the rotating shaft, the impellers are located below the movable pipe, the two parallel first bevel gears are fixedly connected to the two ends of the rotating shaft, the stirring assembly is rotatably connected with the mounting plates, and the stirring assembly is meshed with the first bevel gears.

Preferably, the stirring assembly comprises a stirring piece and a second bevel gear, wherein the stirring piece is rotatably connected to the mounting plate, the second bevel gear is fixedly connected to the upper end of the stirring piece, and the second bevel gear is in meshed connection with the first bevel gear.

The deionized water preparation device provided by the utility model has the beneficial effects that:

the water filtered in the water filtering mechanism is pumped out through the guide pipe after the pump is electrified and started, the pumped water is led into the movable pipe through the connecting pipe, the water released from the bottom end of the movable pipe is buffered by the buffer component, the water released from the movable pipe is buffered by the buffer component, the water after the speed reduction falls into the open box, the impact force between the water flow and the deionizing mechanism is reduced, and therefore the ion exchange resin block cannot be broken.

Drawings

Fig. 1 is a schematic structural diagram of a deionized water preparing apparatus according to the present utility model;

FIG. 2 is a schematic cross-sectional view of a deionized water preparing apparatus according to the present utility model;

FIG. 3 is a schematic diagram of a deionization mechanism in a deionized water preparing apparatus according to the present utility model;

fig. 4 is a schematic structural diagram of a buffering and stirring mechanism in the deionized water preparation device provided by the utility model.

In the figure: the device comprises a bottom plate 1, a water filtering mechanism 2, a pump 3, an open box 4, a sealing cover 5, a movable pipe 6, a connecting pipe 7, a deionizing mechanism 8, a buffer stirring mechanism 9, a water discharging pipe 10, a water filtering tank 21, a water inlet pipe fitting 22, a filter screen 23, a filter packing layer 24, a grooved frame 81 with holes, an ion exchange resin block 82, an extrusion block 83, a buffer assembly 91, a stirring assembly 92, a mounting plate 911, a rotating shaft 912, an impeller 913, a first bevel gear 914, a stirring piece 921 and a second bevel gear 922.

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.

Example 1

Referring to fig. 1 to 4, the deionized water preparing apparatus includes a base plate 1, a water filtering mechanism 2, a pump 3, an open tank 4, a deionizing mechanism 8, and a buffer stirring mechanism 9, wherein:

the water filtering mechanism 2 is fixedly connected to the bottom plate 1, the water filtering mechanism 2 is used for filtering water, impurities in the water are removed, the pump 3 is fixedly connected to the bottom plate 1, the pump 3 is used for guiding the water filtered in the water filtering mechanism 2 into the open tank 4, the open tank 4 is fixedly connected to the bottom plate 1, the detachable sealing cover 5 is connected to the open tank 4 in a sealing manner, the sealing cover 5 is used for sealing the open tank 4, the movable pipe 6 is slidably inserted into the sealing cover 5, the movable pipe 6 is used for guiding the water into the open tank 4, the inlet of the pump 3 is communicated with the water filtering mechanism 2 through a conduit, the outlet of the pump 3 is communicated with the connecting pipe 7, the connecting pipe 7 is used for guiding the pumped water into the movable pipe 6, one end of the connecting pipe 7 is slidably sealed and inserted into the movable pipe 6, the deionization mechanism 8 is fixedly connected into the open tank 4, the deionization mechanism 8 is used for deionizing water in the open tank 4, the inner bottom end of the sealing cover 5 is fixedly connected with the buffer stirring mechanism 9 used for reducing impact force between water flow and the deionization mechanism 8, the buffer stirring mechanism 9 is used for buffering water released from the movable pipe 6, the decelerated water falls into the open tank 4, impact force between the water flow and the deionization mechanism 8 is reduced, the deionization mechanism 8 is protected, meanwhile, the buffer stirring mechanism 9 rotates after being impacted by the water flow, the buffer stirring mechanism 9 rotates to stir and rotate the water in the open tank 4, the stirred water contacts with the deionization mechanism 8, the deionization effect of the deionization mechanism 8 on the water is improved, and the open tank 4 is communicated with the drain pipe 10;

the deionization mechanism 8 comprises a perforated groove frame 81, an ion exchange resin block 82 and an extrusion block 83, wherein the perforated groove frame 81 is fixedly connected into the open box 4, the perforated groove frame 81 is used for installing the ion exchange resin block 82, the ion exchange resin block 82 is arranged in the perforated groove frame 81, the ion exchange resin block 82 is used for deionizing water in the open box 4, and the extrusion block 83 which is used for fixing the ion exchange resin block 82 is clamped on the perforated groove frame 81;

the buffer stirring mechanism 9 comprises a buffer assembly 91 and two stirring assemblies 92 which are arranged in parallel, the buffer assembly 91 is fixedly connected to the bottom end of the sealing cover 5, the buffer assembly 91 is used for buffering water released from the movable pipe 6, the water after deceleration falls into the open tank 4, the impact force between water flow and the deionization mechanism 8 is reduced, meanwhile, the buffer assembly 91 is impacted by the water flow and then drives the stirring assemblies 92 to rotate, the stirring assemblies 92 stir and rotate water in the open tank 4, the buffer assembly 91 is located below the movable pipe 6, and the two stirring assemblies 92 which are arranged in parallel are connected with the buffer assembly 91.

The working process comprises the following steps: the water is added into the water filtering mechanism 2, the water filtering mechanism 2 filters the water, impurities in the water are removed, the pump 3 pumps out the filtered water in the water filtering mechanism 2 through the guide pipe after being electrified and started, the pumped water is led into the movable pipe 6 through the connecting pipe 7, the pumped water is released from the bottom end of the movable pipe 6, the water released from the bottom end of the movable pipe 6 is impacted into the buffer component 91, the buffer component 91 buffers the water released from the movable pipe 6, the decelerated water falls into the open box 4, the impact force between the water flow and the deionization mechanism 8 is reduced, so that the ion exchange resin block 82 cannot be broken, the buffer component 91 drives the stirring component 92 to rotate after being impacted by the water flow, the stirred water in the open box 4 is stirred and rotated after the stirring component 92 contacts with the deionization mechanism 8, and the deionization effect of the deionization mechanism 8 on the water is improved.

Example 2

Referring to fig. 1 to 4, as another preferred embodiment of the present utility model, the difference from embodiment 1 is that the water filtering mechanism 2 includes a water filtering tank 21, a water inlet pipe 22, a filter screen 23 and a filter packing layer 24, the water inlet pipe 22 is connected to the upper end of the water filtering tank 21, the water filtering tank 21 is connected to a conduit, the filter screen 23 is fixedly connected to the water filtering tank 21, the filter packing layer 24 is disposed at the bottom end of the water filtering tank 21, the filter packing layer 24 is an activated carbon packing layer, water enters the water filtering tank 21 through the water inlet pipe 22, the introduced water is filtered through the filter screen 23, impurities in the filtered water are contacted with the filter packing layer 24 through the filter screen 23, and the filter packing layer 24 performs secondary filtration on the water to improve the filtering effect of the water.

Example 3

Referring to fig. 1 to 4, as another preferred embodiment of the present utility model, the buffer assembly 91 is different from embodiment 1 in that the buffer assembly 91 comprises two parallel mounting plates 911, a rotating shaft 912, an impeller 913, and two parallel first bevel gears 914, the two parallel mounting plates 911 are fixedly connected to the bottom end of the sealing cover 5, the rotating shaft 912 is rotatably connected to the mounting plates 911, the impeller 913 is fixedly connected to the rotating shaft 912, the impeller 913 is positioned below the movable tube 6, the two parallel first bevel gears 914 are fixedly connected to both ends of the rotating shaft 912, the stirring assembly 92 is rotatably connected to the mounting plates 911, the stirring assembly 92 is engaged with the first bevel gears 914, the water flow released from the bottom end of the movable tube 6 falls on the impeller 913, the impeller 913 buffers the released water flow, the buffered water flow falls into the open box 4, the impact force between the water flow buffered by the impeller 913 and the deionizing mechanism 8 is small, the impeller 913 rotates after being impacted by the water flow, the impeller 913 rotates, the rotating shaft 912, the first bevel gears 914 is driven by the rotating shaft 912, the first bevel gears 914, and the stirring assembly 92 is powered by the rotation of the first bevel gears 914.

Example 4

Referring to fig. 1 to 4, as another preferred embodiment of the present utility model, the difference from embodiment 1 is that the agitation assembly 92 includes an agitation member 921 and a second bevel gear 922, the agitation member 921 is rotatably connected to the mounting plate 911, the second bevel gear 922 is fixedly connected to an upper end of the agitation member 921, the second bevel gear 922 is engaged with and connected to the first bevel gear 914, the first bevel gear 914 drives the second bevel gear 922 to rotate, the second bevel gear 922 drives the agitation member 921 to rotate, and the agitation member 921 rotates to agitate and rotate the water in the open tank 4, and the agitated water contacts the deionizing mechanism 8, thereby improving the deionizing effect of the deionizing mechanism 8 on the water.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims

1. Deionized water preparation facilities, its characterized in that includes bottom plate (1), drainage mechanism (2), pump (3), open case (4), deionized mechanism (8) and buffering rabbling mechanism (9), wherein:

the utility model discloses a water filter, including bottom plate (1) and pump mechanism (3), filtering mechanism (2) fixed connection to on bottom plate (1), pump mechanism (3) fixed connection to on bottom plate (1), uncovered case (4) fixed connection to on bottom plate (1), detachable sealing connection has sealed lid (5) on uncovered case (4), the import of pump mechanism (3) is through pipe intercommunication filtering mechanism (2), deionization mechanism (8) fixed connection to in uncovered case (4), the inside bottom fixed connection of sealed lid (5) is used for reducing rivers with impact force between deionization mechanism (8) buffering rabbling mechanism (9).

2. The deionized water preparation apparatus as claimed in claim 1, wherein the water filtering mechanism (2) comprises a water filtering tank (21), a water inlet pipe fitting (22), a filter screen (23) and a filter packing layer (24), wherein the water inlet pipe fitting (22) is communicated to the upper end of the water filtering tank (21), the water filtering tank (21) is communicated with the guide pipe, the filter screen (23) is fixedly connected to the water filtering tank (21), and the filter packing layer (24) is arranged at the bottom end of the water filtering tank (21).

3. The deionized water production apparatus as claimed in claim 2, wherein the filter filler layer (24) is an activated carbon filler layer.

4. The deionized water preparation apparatus as claimed in claim 1, wherein the deionization mechanism (8) comprises a perforated groove frame (81), an ion exchange resin block (82) and a pressing block (83), the perforated groove frame (81) is fixedly connected into the open tank (4), the ion exchange resin block (82) is arranged in the perforated groove frame (81), and the pressing block (83) for fixing the ion exchange resin block (82) is clamped on the perforated groove frame (81).

5. The deionized water preparation apparatus as claimed in claim 1, wherein the buffer stirring mechanism (9) comprises a buffer assembly (91) and two stirring assemblies (92) arranged in parallel, the buffer assembly (91) is fixedly connected to the bottom end of the sealing cover (5), the buffer assembly (91) is located below the movable tube (6), and the two stirring assemblies (92) arranged in parallel are connected with the buffer assembly (91).

6. The deionized water production apparatus as claimed in claim 5, wherein the buffer assembly (91) comprises two parallel mounting plates (911), a rotating shaft (912), an impeller (913) and two parallel first bevel gears (914), wherein the two parallel mounting plates (911) are fixedly connected to the bottom ends of the sealing covers (5), the rotating shaft (912) is rotatably connected to the mounting plates (911), the impeller (913) is fixedly connected to the rotating shaft (912), the impeller (913) is located below the movable tube (6), the two parallel first bevel gears (914) are fixedly connected to both ends of the rotating shaft (912), the stirring assembly (92) is rotatably connected to the mounting plates (911), and the stirring assembly (92) is engaged with the first bevel gears (914).

7. The deionized water preparation apparatus as claimed in claim 6, wherein the agitation assembly (92) includes an agitation member (921) and a second bevel gear (922), the agitation member (921) being rotatably coupled to the mounting plate (911), the second bevel gear (922) being fixedly coupled to an upper end of the agitation member (921), the second bevel gear (922) being engaged with the first bevel gear (914).