CN111977182A

CN111977182A - Chemical storage tank

Info

Publication number: CN111977182A
Application number: CN202010865994.9A
Authority: CN
Inventors: 吴静
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-25
Filing date: 2020-08-25
Publication date: 2020-11-24

Abstract

The invention relates to a chemical storage tank which comprises a cooling frame, a grid baffle, an input port, two sealing units and a sealing cover, wherein the grid baffle is arranged inside the cooling frame, the input port is arranged at the upper end of the grid baffle, the two sealing units are arranged at the left end and the right end of the input port, and the sealing cover is arranged above the cooling frame. The invention can solve the problem that the cold air emitted by ice blocks is emitted in a divergent mode, and the interior of the carriage can be cooled comprehensively only by putting more ice blocks, so that the surface of the chemical storage tank is cooled, and the cold air can only contact with the outer side surface of the chemical storage tank, so that the temperature of each position of chemical raw materials in the tank is easily different, and the temperature of the chemical raw materials close to the side wall of the storage tank is lower than that of the chemical raw materials far away from the side wall of the storage tank; and traditional chemical storage tank is mostly single cavity and stores, stores in great specification's chemical storage tank to the less raw materials of some storage capacities, causes difficult problems such as the extravagant condition of storage space easily.

Description

Chemical storage tank

Technical Field

The invention relates to the field of chemical storage tanks, in particular to a chemical storage tank.

Background

In the chemical industry, chemical industry storage tank is a chemical industry equipment commonly used, and mainly used stores industrial chemicals, and when storing industrial chemicals, some industrial chemicals are high temperature resistant, need put it in the shade and seal the save, when transporting it, because temperature is higher in the sealed carriage, especially in hot weather, need put into the ice-cube in the carriage and carry out the physics cooling to chemical industry storage tank surface.

However, the cold air emitted by the ice blocks is emitted in a divergent manner, and the interior of the carriage can be cooled comprehensively only by putting more ice blocks, so that the surface of the chemical storage tank is cooled, the cooling cost is higher, and the cold air can only contact with the outer side surface of the chemical storage tank, so that the temperature of each position of the chemical raw materials in the tank is easily different, and the temperature of the chemical raw materials close to the side wall of the storage tank is lower than that of the chemical raw materials far away from the side wall of the storage tank; and traditional chemical industry storage tank is mostly single cavity and stores, can only save a industrial chemicals during the storage, stores in great specification's chemical industry storage tank some less raw materialss of storage capacity, causes the extravagant condition of storage space easily.

Disclosure of Invention

Technical scheme (I)

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a chemical storage tank, includes cooling frame, check baffle, input port, two sealed units and sealed cowlings, the inside of cooling frame be equipped with the check baffle, the input port is installed to the upper end of check baffle, two sealed units are installed at both ends about the input port, the top of cooling frame is equipped with the sealed cowling.

The cooling frame comprises a frame body, a main cavity, a diversion cavity, a cooling pipe, a cooling cavity, an injection mechanism, a sliding cavity, an insertion rod and a cooling air pump, wherein the main cavity is arranged in the middle of the lower end of the frame body, the diversion cavity is symmetrically arranged on the left side and the right side of the lower end of the frame body, the lower end of the main cavity is communicated with the cooling air pump, the cooling air pump is arranged on the frame body, the cooling pipe is connected between the diversion cavity and the main cavity, the cooling cavity is uniformly arranged on the side wall of the frame body, the upper end of the cooling cavity is communicated with the injection mechanism, the injection mechanism is arranged on the outer wall of the frame body, the sliding cavity and a locking cavity are arranged on the upper end of the frame body, the locking cavity is positioned above the sliding cavity, the locking cavity is connected with the insertion rod in a sliding fit manner, during specific work, chemical raw materials are put into the frame body for sealed storage, the cooling air is, the cooling pipe that pours into air conditioning cools down the processing to industrial chemicals's inside, and the reposition of redundant personnel chamber that pours into air conditioning cools down the processing to the bottom of framework, pours into cold water into the cooling intracavity through pouring into the mechanism to carry out inside cooling to four lateral walls of framework, through the mode to the synchronous cooling of lateral wall, bottom and industrial chemicals's of framework inside, guaranteed the homogeneity to industrial chemicals cooling.

The middle part of input port be equipped with isolated board, fixed mounting between isolated board's lower extreme and the check baffle forms two between the inside and the check baffle of cooling frame and preserves the chamber, the isolated board that the input port middle part set up has guaranteed that two kinds of industrial chemicals enter into the saving intracavity of different positions.

The sealing unit comprises an insertion plate, a sliding plate, a corresponding plate, an air bag, a fixed block and an extrusion mechanism, the insertion plate is arranged on the outer wall of the input port, the outer end of the input port is connected with the sliding plate in a sliding fit manner, the upper end of the sliding plate is connected with the corresponding plate, the air bag is placed at the upper end of the insertion plate, the fixed block is arranged on the side wall of the input port, the extrusion mechanism is arranged on the fixed block, and the position of the input port is moved leftwards and rightwards, thereby determining the respective volume of the two storage cavities, after the position is determined, the inner half part of the air bag is extruded by the extrusion mechanism, so that the outer plate part of the air bag extrudes and rises the corresponding plate, the corresponding teeth on the corresponding plate in the rising state are clamped into the dentate grooves, the position between the sealing unit and the sliding cavity is embedded and locked, and meanwhile, the sealing effect is improved through the double-layer design of the air bag and the corresponding plate.

The cooling pipe comprises a U-shaped pipe, a fixing frame, a first hose and a second hose, the U-shaped pipe is connected with the grid baffle through the fixing frame, the first hose is connected between the U-shaped pipe and the main cavity, and the second hose is connected between the U-shaped pipe and the shunting cavity.

The cooling cavity is of a plane spiral cavity structure, and a sealing block is blocked in the middle of the lower end of the cooling cavity.

Wherein, the mechanism of pouring into including storing frame, water pump, store the frame and install on the outer wall of framework, store and be connected through the water pump between frame and the cooling chamber, the water pump is installed in the framework.

The upper end of the sliding cavity is uniformly provided with a toothed groove, the upper end of the corresponding plate is uniformly provided with corresponding teeth, and the corresponding teeth correspond to the toothed groove in position.

The extruding mechanism comprises a threaded column, a handle and an extruding plate, the threaded column is in threaded fit connection with the fixed block, the handle is installed at the upper end of the threaded column, and the lower end of the threaded column is connected with the extruding plate through a bearing.

Wherein, the extrusion plate is attached to the upper end surface of the inner half part of the air bag, and the air bag is in an unfilled state.

The left end and the right end of the sealing cover are symmetrically provided with insertion grooves, and the insertion grooves correspond to the insertion rods in position.

(II) advantageous effects

1. According to the chemical storage tank, the cooling frame is structurally designed, chemical raw materials in the tank are comprehensively and uniformly cooled through multidirectional cooling, sprayed cold air and ice water are used in a targeted manner, waste is avoided, cost is reduced, two raw materials are simultaneously stored in a double-cavity adaptive storage mode, space utilization rate of a storage cavity is improved through adaptive adjustment of the lattice baffles, and the situation that a small amount of raw materials occupy a large space is avoided;

2. according to the chemical storage tank, the cooling frame carries out targeted cooling on the inside of the storage cavity and the bottom of the frame body through conveying of cold air, meanwhile, ice water is injected into the cooling cavity to carry out cooling treatment on the side face of the frame body, multi-directional cooling guarantees that chemical raw materials in the tank can be stored for a long time in a low-temperature environment, the circularly sprayed cold air is firstly discharged into a carriage after rapidly cooling the inside and the bottom end of the frame body, the carriage is further cooled, and auxiliary cooling is carried out on the outside of the cooled cooling frame, so that the raw materials are favorably stored;

3. according to the chemical storage tank, the respective capacity of the two storage cavities is controlled by the grid baffle plate and the input port moving left and right synchronously, the positions of the input port and the frame body are positioned by the linkage type embedding locking of the sealing unit, and meanwhile, the double-attaching type sealing is carried out on the inner part of the sliding cavity through the double-layer design of the air bag and the corresponding plate, so that the volatilization of raw materials is avoided.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a first cross-sectional view of the present invention;

FIG. 2 is a second cross-sectional view (from left to right) of the present invention;

FIG. 3 is a schematic structural view of the frame of the present invention;

fig. 4 is an enlarged view of a portion of the invention in the X direction of fig. 1.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the width of the lines or the size of the components in the drawings may be exaggerated for clarity and convenience of description.

The following terms are defined based on the functions of the present invention, and may be different depending on the intention of the user or the operator or the convention. Therefore, these terms are defined based on the entire contents of the present specification.

As shown in fig. 1 to 4, a chemical storage tank comprises a cooling frame 1, a grid baffle 2, an input port 3, two sealing units 4 and a sealing cover 5, wherein the grid baffle 2 is arranged in the cooling frame 1, the input port 3 is installed at the upper end of the grid baffle 2, the two sealing units 4 are installed at the left end and the right end of the input port 3, and the sealing cover 5 is arranged above the cooling frame 1.

The cooling frame 1 comprises a frame body 11, a main cavity 12, a shunt cavity 13, a cooling pipe 14, a cooling cavity 15, an injection mechanism 16, a sliding cavity 17, an insertion rod 18 and a cold air pump 19, the main cavity 12 is arranged in the middle of the lower end of the frame body 11, the shunt cavity 13 is symmetrically arranged on the left side and the right side of the lower end of the frame body 11, the lower end of the main cavity 12 is communicated with the cold air pump 19, the cold air pump 19 is arranged on the frame body 11, the cooling pipe 14 is connected between the shunt cavity 13 and the main cavity 12, the cooling cavity 15 is uniformly arranged on the side wall of the frame body 11, the upper end of the cooling cavity 15 is communicated with the injection mechanism 16, the injection mechanism 16 is arranged on the outer wall of the frame body 11, the sliding cavity 17 and a locking groove are arranged on the upper end of the frame body 11, the locking groove is connected with the insertion rod 18 in a sliding fit mode, during, inject cold air into main cavity 12 through cold air pump 19, gas in the main cavity 12 is discharged from the lower extreme opening part of reposition of redundant personnel chamber 13 after cooling tube 14 afterwards, the cooling tube 14 that injects cold air cools down the processing to industrial chemicals's inside, the reposition of redundant personnel chamber 13 that injects cold air cools down the processing to the bottom of framework 11, inject cold water into through injection mechanism 16 in cooling chamber 15, thereby carry out inside cooling to four lateral walls of framework 11, through the lateral wall to framework 11, the mode of the inside synchronous cooling of bottom and industrial chemicals, the homogeneity to the industrial chemicals cooling has been guaranteed.

The cooling pipe 14 comprises a U-shaped pipe 141, a fixing frame 142, a first hose 143 and a second hose 144, the U-shaped pipe 141 is connected with the lattice baffle 2 through the fixing frame 142, the first hose 143 is connected between the U-shaped pipe 141 and the main cavity 12, the second hose 144 is connected between the U-shaped pipe 141 and the flow dividing cavity 13, the flexible connection design of the first hose 143 and the second hose 144 ensures that the U-shaped pipe 141 can still be hermetically connected with the main cavity 12 and the flow dividing cavity 13 while moving left and right along with the lattice baffle 2, and the conveying path of cold air is the main cavity 12, the first hose 143, the U-shaped pipe 141, the second hose 144 and the flow dividing cavity 13.

The cooling cavity 15 is of a plane spiral cavity structure, the cooling cavity 15 of the structural design has the effect of uniform and comprehensive cooling on the side face of the frame body 11, and the sealing block is blocked in the middle of the lower end of the cooling cavity 15 and can discharge water in the cooling cavity 15.

Injection mechanism 16 including storing frame 161, water pump 162, store frame 161 and install on the outer wall of framework 11, store and be connected through water pump 162 between frame 161 and the cooling chamber 15, water pump 162 installs on framework 11, during specific work, will store the ice water suction of frame 161 in to cooling chamber 15 in through water pump 162 to carry out rapid cooling to the side of framework 11.

The upper end of the sliding cavity 17 is uniformly provided with a toothed groove, the upper end of the corresponding plate 43 is uniformly provided with corresponding teeth, and the corresponding teeth correspond to the toothed groove.

The middle part of input port 3 be equipped with isolated board, fixed mounting between isolated board's lower extreme and check baffle 2 forms two preservation chambeies between cooling frame 1 is inside and check baffle 2, the isolated board that the 3 middle parts of input port set up has guaranteed that two kinds of industrial chemicals enter into the preservation intracavity of different positions.

The sealing unit 4 comprises an inserting plate 41, a sliding plate 42, a corresponding plate 43, an air bag 44, a fixed block 45 and a pressing mechanism 46, wherein the inserting plate 41 is installed on the outer wall of the input port 3, the outer end of the input port 3 is connected with the sliding plate 42 in a sliding fit manner, the upper end of the sliding plate 42 is connected with the corresponding plate 43, the air bag 44 is placed at the upper end of the inserting plate 41, the fixed block 45 is installed on the side wall of the input port 3, the pressing mechanism 46 is arranged on the fixed block 45, during specific work, the position of the input port 3 is moved left and right, so that the respective capacity of the two storage cavities is determined, after the position is determined, the inner half part of the air bag 44 is pressed through the pressing mechanism 46, the outer plate part of the air bag 44 is pressed and lifted to the corresponding plate 43, corresponding teeth on the corresponding plate 43 in a lifting state, meanwhile, the sealing effect is improved through the double-layer design of the air bag 44 and the corresponding plate 43.

The squeezing mechanism 46 comprises a threaded column 461, a handle 462 and a squeezing plate 463, the threaded column 461 is in threaded fit connection with the fixed block 45, the handle 462 is installed at the upper end of the threaded column 461, the lower end of the threaded column 461 is connected with the squeezing plate 463 through a bearing, and during specific work, the threaded column 461 is rotated by the hand-held handle 462, so that the squeezing plate 463 is driven to descend, and then the inner half part of the air bag 44 is squeezed.

The pressing plate 463 is fitted to the upper end surface of the inner half of the air bag 44, and the air bag 44 is in an unfilled state.

The left end and the right end of the sealing cover 5 are symmetrically provided with insertion grooves corresponding to the positions of the insertion rods 18, the sealing cover 5 is sealed and covered on the upper end of the frame body 11, and the insertion rods 18 are inserted into the insertion grooves, so that the position between the sealing cover 5 and the frame body 11 is locked.

The working process is as follows:

adjusting the capacity of the preservation cavity: the position of the input port 3 is moved left and right to determine the respective capacity of the two storage cavities, after the position is determined, the inner half part of the air bag 44 is extruded by the extrusion mechanism 46, so that the outer plate part of the air bag 44 extrudes and rises the corresponding plate 43, the corresponding teeth on the corresponding plate 43 in the rising state are clamped into the tooth-shaped grooves, and the position between the sealing unit 4 and the sliding cavity 17 is embedded and locked;

cooling treatment: the two chemical raw materials are placed into a storage cavity for temporary storage, cold air is injected into a main cavity 12 through a cold air pump 19, gas in the main cavity 12 is discharged from an opening at the lower end of a shunting cavity 13 after passing through a cooling pipe 14, the cooling pipe 14 injected with the cold air carries out cooling treatment on the interior of the chemical raw materials, the shunting cavity 13 injected with the cold air carries out cooling treatment on the bottom of a frame body 11, and cold water is injected into a cooling cavity 15 through an injection mechanism 16, so that the interior of four side walls of the frame body 11 is cooled;

and (3) transportation: and (4) fixing the cooling frame 1 into a transport vehicle, and transporting the chemical raw materials which are temporarily cooled and stored.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a chemical storage tank, includes cooling frame (1), check baffle (2), input port (3), two sealed units (4) and sealed cowling (5), its characterized in that: a grid baffle (2) is arranged inside the cooling frame (1), an input port (3) is installed at the upper end of the grid baffle (2), two sealing units (4) are installed at the left end and the right end of the input port (3), and a sealing cover (5) is arranged above the cooling frame (1);

the cooling frame (1) comprises a frame body (11), a main cavity (12), a shunt cavity (13), a cooling pipe (14), a cooling cavity (15), an injection mechanism (16), a sliding cavity (17), an insertion rod (18) and a cold air pump (19), wherein the main cavity (12) is formed in the middle of the lower end of the frame body (11), the shunt cavity (13) is symmetrically formed in the left side and the right side of the lower end of the frame body (11), the lower end of the main cavity (12) is communicated with the cold air pump (19), the cold air pump (19) is installed on the frame body (11), the cooling pipe (14) is connected between the shunt cavity (13) and the main cavity (12), the cooling cavity (15) is uniformly formed in the side wall of the frame body (11), the upper end of the cooling cavity (15) is communicated with the injection mechanism (16), the injection mechanism (16) is installed on the outer wall of the frame body (11), the sliding cavity (17) is formed in the upper end of the frame body (11, the locking groove is connected with the insertion rod (18) in a sliding fit manner;

an isolation plate is arranged in the middle of the input port (3), and the lower end of the isolation plate and the grid baffle plate (2) are fixedly installed;

the sealing unit (4) include insert board (41), sliding plate (42), correspond board (43), gasbag (44), fixed block (45) and extrusion mechanism (46), insert board (41) and install on the outer wall of input port (3), be sliding fit between the outer end of input port (3) and sliding plate (42) and be connected, the upper end and the corresponding board (43) of sliding plate (42) are connected, gasbag (44) have been placed to the upper end of inserting board (41), install fixed block (45) on the lateral wall of input port (3), be equipped with extrusion mechanism (46) on fixed block (45).

2. The chemical storage tank of claim 1, wherein: the cooling pipe (14) comprises a U-shaped pipe (141), a fixing frame (142), a first hose (143) and a second hose (144), the U-shaped pipe (141) is connected with the lattice baffle (2) through the fixing frame (142), the first hose (143) is connected between the U-shaped pipe (141) and the main cavity (12), and the second hose (144) is connected between the U-shaped pipe (141) and the shunting cavity (13).

3. The chemical storage tank of claim 1, wherein: the cooling cavity (15) is of a plane spiral cavity structure, and a sealing block is blocked in the middle of the lower end of the cooling cavity (15).

4. The chemical storage tank of claim 1, wherein: the injection mechanism (16) comprises a storage frame (161) and a water pump (162), the storage frame (161) is installed on the outer wall of the frame body (11), the storage frame (161) is connected with the cooling cavity (15) through the water pump (162), and the water pump (162) is installed on the frame body (11).

5. The chemical storage tank of claim 1, wherein: the upper end of the sliding cavity (17) is uniformly provided with a toothed groove, the upper end of the corresponding plate (43) is uniformly provided with corresponding teeth, and the corresponding teeth correspond to the toothed groove in position.

6. The chemical storage tank of claim 1, wherein: the extrusion mechanism (46) include screw thread post (461), handle (462) and stripper plate (463), be screw thread fit connection between screw thread post (461) and fixed block (45), handle (462) is installed to the upper end of screw thread post (461), be the bearing connection between the lower extreme of screw thread post (461) and stripper plate (463).

7. The chemical storage tank of claim 6, wherein: the pressing plate (463) is attached to the upper end face of the inner half part of the air bag (44), and the air bag (44) is in an unfilled state.

8. The chemical storage tank of claim 1, wherein: insertion grooves are symmetrically formed in the left end and the right end of the sealing cover (5), and correspond to the insertion rods (18).