CN219858664U - Storage device for sodium silicate - Google Patents

Abstract

The utility model discloses a storage device for sodium silicate, which belongs to the technical field of sodium silicate and comprises a moistureproof base, a moistureproof cabinet, a storage tank fixing assembly, a moisture absorption assembly, a moistureproof moving assembly and a moisture removal assembly, wherein the moistureproof base is horizontally arranged, the moistureproof base is of a hollow structure, the moistureproof cabinet is positioned above the moistureproof base, a grid plate is arranged at the bottom of the moistureproof cabinet and is communicated with the moistureproof base, three storage spaces are arranged on the moistureproof cabinet, the storage tank fixing assembly is provided with three storage tanks, the three storage tank fixing assemblies are respectively arranged in the three storage spaces, the moisture absorption assembly is positioned in the moistureproof cabinet, the moisture removal assembly is positioned in the moistureproof base, and a cabinet door is arranged on the storage space. The utility model ensures that the storage space is in a cool and ventilated state, and the storage space is in an environment suitable for storing sodium silicate, which is beneficial to storing sodium silicate.

Description

Storage device for sodium silicate

Technical Field

The utility model belongs to the technical field of sodium silicate, and particularly relates to a storage device for sodium silicate.

Background

Sodium silicate is a water-soluble silicate, the aqueous solution of which is commonly called water glass, and is an ore binder. At present, sodium silicate is mostly prepared by mixing silicon dioxide and sodium carbonate in a certain proportion in a melting kiln for eutectic melting, cooling and crushing. After the sodium silicate is produced, the sodium silicate needs to be stored and transported by a storage tank, and moisture needs to be prevented when the sodium silicate is stored so as to prevent the sodium silicate from reacting with water, and the sodium silicate is Na2SiO3+3H2 O=2NaOH + H4SiO4 (reversible). When the sodium silicate is stored, the sodium silicate is required to be placed in a storage tank and placed in a place with good shadiness and ventilation to prevent the sodium silicate from being affected with damp.

Therefore, when the sodium silicate is stored, the sodium silicate needs to be stored by the moisture-proof storage device so as to prevent the sodium silicate from being affected by moisture and further used, and the storage device can be protected and fixed in the process of storing and transporting the sodium silicate.

Disclosure of Invention

The embodiment of the utility model provides a storage device for sodium silicate, which aims to solve the problems in the prior art.

The embodiment of the utility model adopts the following technical scheme: the utility model provides a storage device for sodium silicate, includes dampproofing base, dampproofing cabinet, storage tank fixed subassembly, moisture absorption subassembly, dampproofing removal subassembly and row damp subassembly, dampproofing base is the level setting, dampproofing base is hollow structure, dampproofing cabinet is located dampproofing base's top, dampproofing cabinet's bottom is equipped with the net board and is linked together with dampproofing base, be equipped with three parking space on the dampproofing cabinet, storage tank fixed subassembly is equipped with three, three storage tank fixed subassembly sets up respectively in three parking space, moisture absorption subassembly is located dampproofing cabinet, dampproofing removal subassembly is located dampproofing base, moisture removal subassembly is located dampproofing cabinet's top, be equipped with the cabinet door on the parking space.

Further, every the fixed subassembly of storage tank all includes unable adjustment base and two symmetries setting up the mounting in storage space, unable adjustment base is located the grid board, every the mounting all includes fixed frame and two fixed arc, fixed frame level sets up on storage space's inside wall, be equipped with the spring damping seat that four symmetries set up on the fixed frame, the both ends of fixed arc are connected with two spring damping seats respectively.

Further, the moisture absorption assembly is provided with three groups, the three groups of moisture absorption assemblies are respectively arranged in three storage spaces, each group of moisture absorption assemblies comprises two placement boxes and two drying bags, the two placement boxes are symmetrically arranged on the side wall of the storage space, and the two drying bags are respectively arranged in the two placement boxes.

Furthermore, a damp-proof pad is arranged on the inner side wall of each storage space.

Furthermore, ventilation fan blades are arranged on two sides of the moisture-proof base.

Further, dampproofing removal subassembly includes movable motor, movable screw, movable rod, movable plate and air-cooler, the movable rod rotates to be connected on dampproofing base, the movable rod is located dampproofing base, movable plate and movable rod sliding fit, movable plate and movable screw threaded connection, the movable motor is located on the lateral wall of dampproofing base and movable motor's main shaft and movable screw transmission are connected, the air-cooler is located the movable plate.

Further, the moisture removal assembly comprises three moisture removal fans which are arranged at the top of the dampproof cabinet at equal intervals and correspond to the three storage spaces.

The above at least one technical scheme adopted by the embodiment of the utility model can achieve the following beneficial effects:

firstly, the air cooler can discharge dry cool air, the movable motor works to drive the movable screw rod to rotate, the movable screw rod rotates to drive the movable plate to move on the movable rod, and accordingly the air cooler is driven to move in the dampproof base, the cool air is conveyed into the three storage spaces, the storage spaces are in a cool and ventilated state, the storage spaces are in an environment suitable for storing sodium silicate, and sodium silicate storage is facilitated.

Secondly, when the storage tank for storing the sodium silicate is fixed, the bottom of the storage tank is placed on the fixed base, the four spring damping seats work to drive the two fixed arc plates to move to fix and limit the position of the storage tank, collapse or displacement of the storage tank in the process of storage or transportation is prevented, the use of the storage tank is influenced, and vibration generated in the transportation process can be damped by the spring damping seats.

Third, the dampproof pad and the drying bag can remove moisture and humidity in the dampproof cabinet, and prevent the storage of sodium silicate from being influenced by the moisture.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of a partial perspective structure of the present utility model;

FIG. 3 is a schematic perspective view of a canister retainer assembly according to the present utility model;

FIG. 4 is a schematic perspective view of a moisture resistant moving assembly of the present utility model;

FIG. 5 is a side view of the present utility model;

reference numerals

Dampproofing base 1, ventilation fan leaf 11, dampproofing cabinet 2, storage space 21, storage jar fixed subassembly 3, unable adjustment base 31, fixed frame 32, fixed arc 33, spring damper seat 34, moisture absorption subassembly 4, place box 41, dampproofing removal subassembly 5, mobile motor 51, mobile lead screw 52, movable rod 53, movable plate 54, air-cooler 55, moisture removal subassembly 6, moisture removal fan 61, cabinet door 62, dampproofing pad 7.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to specific embodiments of the present utility model and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. 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.

The following describes in detail the technical solutions provided by the embodiments of the present utility model with reference to the accompanying drawings.

Referring to fig. 1 to 5, the embodiment of the utility model provides a sodium silicate storage device, which comprises a moisture-proof base 1, a moisture-proof cabinet 2, a storage tank fixing component 3, a moisture-absorbing component 4, a moisture-proof moving component 5 and a moisture-discharging component 6, wherein the moisture-proof base 1 is horizontally arranged, the moisture-proof base 1 is of a hollow structure, the moisture-proof cabinet 2 is positioned above the moisture-proof base 1, a grid plate is arranged at the bottom of the moisture-proof cabinet 2 and is communicated with the moisture-proof base 1, three storage spaces 21 are arranged on the moisture-proof cabinet 2, three storage tank fixing components 3 are arranged in the three storage spaces 21 respectively, the moisture-absorbing component 4 is positioned in the moisture-proof cabinet 2, the moisture-proof moving component 5 is positioned in the moisture-proof base 1, the moisture-discharging component 6 is positioned at the top of the moisture-proof cabinet 2, and a cabinet door 62 is arranged on the storage spaces 21.

Specifically, each storage tank fixing assembly 3 comprises a fixing base 31 and two fixing pieces symmetrically arranged in the storage space 21, the fixing base 31 is located on the grid plate, each fixing piece comprises a fixing frame 32 and two fixing arc plates 33, the fixing frame 32 is horizontally arranged on the inner side wall of the storage space 21, four symmetrically arranged spring damping seats 34 are arranged on the fixing frame 32, and two ends of each fixing arc plate 33 are respectively connected with the two spring damping seats 34. When the storage tank for storing sodium silicate is fixed, the bottom of the storage tank is placed on the fixed base 31, the two fixed arc plates 33 are driven to move through the four spring damping seats 34 to fix and limit the position of the storage tank, collapse or displacement of the storage tank in the process of storage or transportation is prevented, the use of the storage tank is influenced, and the spring damping seats 34 can also absorb vibration generated in the process of transportation.

Specifically, the moisture absorption assembly 4 is provided with three groups, the three groups of moisture absorption assemblies 4 are respectively arranged in three storage spaces 21, each group of moisture absorption assemblies 4 comprises two placement boxes 41 and two drying bags, the two placement boxes 41 are symmetrically arranged on the side wall of the storage space 21, the two drying bags are respectively arranged in the two placement boxes 41, and each inner side wall of the storage space 21 is provided with a moisture-proof pad 7. Moisture and humidity in the dampproof cabinet 2 can be removed to dampproof pad 7 and dry package, prevents to have moisture to influence the deposit of sodium silicate.

Specifically, ventilation blades 11 are arranged on two sides of the moisture-proof base 1. The ventilation fan blade 11 can ventilate the moisture-proof base 1.

Specifically, the dampproof moving assembly 5 comprises a moving motor 51, a moving screw rod 52, a moving rod 53, a moving plate 54 and an air cooler 55, wherein the moving rod 53 is rotatably connected to the dampproof base 1, the moving rod 53 is located on the dampproof base 1, the moving plate 54 is in sliding fit with the moving rod 53, the moving plate 54 is in threaded connection with the moving screw rod 52, the moving motor 51 is located on the outer side wall of the dampproof base 1, a main shaft of the moving motor 51 is in transmission connection with the moving screw rod 52, and the air cooler 55 is located on the moving plate 54. The air cooler 55 can discharge dry cool air, the movable motor 51 works to drive the movable screw rod 52 to rotate, the movable screw rod 52 rotates to drive the movable plate 54 to move on the movable rod 53, so that the air cooler 55 is driven to move in the moisture-proof base 1, cool air is conveyed into the three storage spaces 21, the storage spaces 21 are in a cool and ventilated state, the storage spaces 21 are in an environment suitable for storing sodium silicate, and the sodium silicate is stored in a favorable manner.

Specifically, the moisture removing assembly 6 includes three moisture removing fans 61, and three moisture removing fans 61 are equally spaced on the top of the dampproof cabinet 2 and correspond to the three storage spaces 21. The three moisture removal fans 61 can discharge the moisture in the storage space 21 outwards so as to prevent the moisture from entering the storage tank and affecting the use and storage of the sodium silicate, so that the storage space 21 is in a ventilation state and the use of the sodium silicate is facilitated.

The foregoing is merely exemplary of the present utility model and is not intended to limit the present utility model. Various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are to be included in the scope of the claims of the present utility model.

Claims (7)

1. The utility model provides a storage device for sodium silicate, its characterized in that, including dampproofing base (1), dampproofing cabinet (2), storage tank fixed subassembly (3), moisture absorption subassembly (4), dampproofing removal subassembly (5) and row's damp subassembly (6), dampproofing base (1) is the level setting, dampproofing base (1) is hollow structure, dampproofing cabinet (2) are located the top of dampproofing base (1), the bottom of dampproofing cabinet (2) is equipped with the net board and is linked together with dampproofing base (1), be equipped with three storage space (21) on dampproofing cabinet (2), storage tank fixed subassembly (3) are equipped with three, three storage tank fixed subassembly (3) set up respectively in three storage space (21), moisture absorption subassembly (4) are located dampproofing cabinet (2), dampproofing removal subassembly (5) are located dampproofing base (1), row's damp subassembly (6) are located the top of dampproofing cabinet (2), be equipped with cabinet door (62) on storage space (21).

2. The storage device for sodium silicate according to claim 1, wherein: every storage tank fixed subassembly (3) all includes unable adjustment base (31) and two symmetries setting up the mounting in storage space (21), unable adjustment base (31) are located the grid board, every the mounting all includes fixed frame (32) and two fixed arc (33), fixed frame (32) level sets up on the inside wall of storage space (21), be equipped with spring damping seat (34) that four symmetries set up on fixed frame (32), the both ends of fixed arc (33) are connected with two spring damping seats (34) respectively.

3. The storage device for sodium silicate according to claim 1, wherein: the moisture absorption assembly (4) is provided with three groups, the three groups of moisture absorption assemblies (4) are respectively arranged in three storage spaces (21), each group of moisture absorption assemblies (4) comprises two placement boxes (41) and two drying bags, the two placement boxes (41) are symmetrically arranged on the side wall of the storage space (21), and the two drying bags are respectively arranged in the two placement boxes (41).

4. The storage device for sodium silicate according to claim 1, wherein: and a moisture-proof pad (7) is arranged on the inner side wall of each storage space (21).

5. The storage device for sodium silicate according to claim 1, wherein: and ventilation blades (11) are arranged on two sides of the moisture-proof base (1).

6. The storage device for sodium silicate according to claim 1, wherein: dampproofing removal subassembly (5) are including moving motor (51), removal lead screw (52), movable rod (53), movable plate (54) and air-cooler (55), movable rod (53) rotate and connect on dampproofing base (1), movable rod (53) are located dampproofing base (1), movable plate (54) and movable rod (53) sliding fit, movable plate (54) and movable lead screw (52) threaded connection, movable motor (51) are located on the lateral wall of dampproofing base (1) and the main shaft and the movable lead screw (52) transmission of movable motor (51) are connected, air-cooler (55) are located movable plate (54).

7. The storage device for sodium silicate according to claim 1, wherein: the moisture removal assembly (6) comprises three moisture removal fans (61), and the three moisture removal fans (61) are arranged at the top of the dampproof cabinet (2) at equal intervals and correspond to the three storage spaces (21).