CN112473419A

CN112473419A - Blending tank and polyamide oiling agent blending method

Info

Publication number: CN112473419A
Application number: CN202011234275.3A
Authority: CN
Inventors: 来宝根
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-07
Filing date: 2020-11-07
Publication date: 2021-03-12

Abstract

The invention discloses a blending tank, which comprises a tank body, a cover body and support legs; at the internal stirring structure that is equipped with of jar, its characterized in that: the cover body is provided with an adding tank, an injector and a buffer tank, and the bottom of the buffer tank is provided with an inserted water outlet pipe; the plug-in water outlet pipe is inserted into the rotating rod; the stirring rod is a hollow rod, a plurality of water outlet holes are formed in the stirring rod, an electric heating jacket is further arranged outside the tank body, and a temperature probe is arranged in the tank body. The blending tank can spray the feed liquid at the bottom of the tank body from the insertion type water outlet pipe through the circulating pipeline and the buffer tank by utilizing the action of the pump body II and the circulating pipeline, and after the feed liquid of other components is pressed into the buffer tank from the adding tank through the injector, the feed liquid along with the circulation enters the tank body, and then the feed liquid is sprayed out from the stirring rod in layers and is uniformly distributed in the original feed liquid, and then the feed liquid components are uniformly mixed and blended through the stirring action of the stirring rod.

Description

Blending tank and polyamide oiling agent blending method

Technical Field

The invention relates to a blending tank, in particular to a blending tank with good mixing effect.

Background

The existing blending tank mostly adopts a motor to drive a stirring structure to stir and mix feed liquid, for example, a blending tank used for producing Chinese medicinal liquor in Chinese patent 201820972362.0, a blending tank for resisting dextrin 201720246592.4, a cold tea beverage test blending tank for 201821333660.1, a metal processing oil blending tank for 201822008552.3 and the like, the blending tank publishes various schemes on a website of the State patent office, which can be regarded as the closest prior art of the patent, but the prior arts are structurally improved, the stirring and mixing performance is not improved from the angle of uniform mixing circulation of the feed liquid, and for blending of components which are not easy to mix mutually, the technical defects exist and need to be improved.

Disclosure of Invention

The purpose of the invention is: provides a blending tank with good mixing effect.

The scheme of the invention is as follows: a blending tank comprises a tank body, a cover body and support legs; a feeding hole is formed in the upper part of the tank body, a discharging pipe is arranged at the bottom of the tank body, and a valve and a pump body I are arranged on the discharging pipe; the tank body is also provided with a sampling port, a stirring structure is arranged in the tank body, the stirring structure comprises a rotating rod and a plurality of stirring rods arranged on the rotating rod, the center of the bottom of the tank body is provided with a bearing seat with a seal, the rotating rod is arranged in a bearing of the bearing seat in a penetrating way, a stirring motor is arranged below the tank body, and a motor shaft of the stirring motor is in transmission connection with the bottom end of the rotating rod; the method is characterized in that:

the cover body is provided with an adding tank, an injector and a buffer tank, a circulating pipeline is communicated between the lower part of the tank body and the top of the buffer tank, and the lower section of the circulating pipeline is provided with a valve and a pump body II; the circulating pipeline passes through a cooling water jacket, and the upper end and the lower end of the cooling water jacket are respectively provided with a cooling water inlet and a cooling water outlet; the top of the buffer tank is provided with an exhaust pipe with a valve; a movable piston is arranged in the injector; one end of the injector is communicated with the adding tank through the adding pipe I, the other end of the injector is the same as the buffer tank through the adding pipe II, the adding pipe I and the adding pipe II are both provided with one-way valves, the one-way valve on the adding pipe I enables liquid to flow to the injector only from the adding tank, and the one-way valve on the adding pipe II enables liquid to flow to the buffer tank only from the injector;

the bottom of the buffer tank is provided with an inserted water outlet pipe; the rotating rod is a structure with a hollow tube at the upper part and a solid rod at the lower part, the inserted water outlet pipe is inserted into the rotating rod, and a gap is formed between the inserted water outlet pipe and the rotating rod and can rotate relatively; the stirring rod is a hollow rod, the stirring rod is arranged in a mode that the middle of the stirring rod is high and the end of the stirring rod is low, a plurality of water outlet holes are formed in the stirring rod, water leakage holes are formed in the end of the stirring rod, a first through hole is formed between the stirring rod and the rotating rod, and a second through hole is formed in the position, opposite to the first through hole, of the inserted water outlet pipe; the upper part of the plug-in water outlet pipe is provided with a water retaining cover, and the top of the rotating rod is accommodated in the water retaining cover;

the tank body is also provided with an electric heating jacket, and the tank body is internally provided with a temperature probe.

The further scheme is as follows:

the electric heating jacket comprises an electric heating wire arranged on the tank body and a heat preservation layer coated outside the electric heating wire.

And the upper section of the circulating pipeline is provided with a flange plate for connecting the pipeline.

The sampling port is a sampling port with a water tap.

During blending, a large amount of component feed liquid enters the tank body from the feed inlet to be stirred, the feed liquid in the tank body circulates under the action of the pump body II, the feed liquid at the bottom of the tank body is sprayed out from the inserted water outlet pipe after passing through the circulating pipeline and the buffer tank, and finally is sprayed out from the water outlet hole and the water leakage port of the stirring rod; the small dosage of component feed liquid is added from the adding tank, when in adding, the injector firstly pumps the part of feed liquid into the injector from the adding tank, then presses the part of feed liquid into the buffer tank, and sprays out from the stirring rod along with the circulating feed liquid; the stirring rod circularly sprays the feed liquid and stirs the feed liquid.

Compared with the prior art, the invention has the beneficial effects that: by the action of the pump body II and the circulating pipeline, the pump body II can

The feed liquid at the bottom of the tank body is sprayed out from the inserted water outlet pipe after passing through the circulating pipeline and the buffer tank, and after the feed liquid of other components is pressed into the buffer tank from the adding tank through the injector, the feed liquid can enter the tank body along with the circulating feed liquid, then the feed liquid is sprayed out from the stirring rod in a layered mode and is uniformly distributed in the original feed liquid, and then the feed liquid components are uniformly mixed and blended under the stirring action of the stirring rod.

The invention also designs a nylon oiling agent blending method, which adopts the blending tank of the invention, and the components of the nylon oiling agent comprise 50-70 parts by weight of smoothing agent, antistatic agent, emulsifier, cohesive agent, stabilizer, PH regulator, viscosity improver, anti-ultraviolet agent, flame retardant, anti-microbial agent and nano additive; the method is characterized in that: during blending, the smoothing agent enters the tank body from the feeding hole to be stirred, the feed liquid in the tank body circulates under the action of the pump body II, the feed liquid at the bottom of the tank body is sprayed out from the inserted water outlet pipe after passing through the circulating pipeline and the buffer tank, and finally is sprayed out from the water outlet hole and the water leakage port of the stirring rod; other component liquid is added from the adding tank, when in adding, the injector firstly pumps the part of liquid into the injector from the adding tank, then presses the part of liquid into the buffer tank, and sprays the part of liquid from the stirring rod along with the circulating liquid; the stirring rod sprays the feed liquid in a circulating mode and stirs the feed liquid, and meanwhile, according to the measurement of the temperature probe, the electric heating jacket or the cooling water jacket is started to control the feed liquid to be at the temperature required by the process.

The blending method of the chinlon oiling agent can realize uniform mixing and blending of the components of the feed liquid, and has good blending effect.

Drawings

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

FIG. 1 is a schematic diagram of the configuration of a dispensing canister as described herein;

FIG. 2 is a schematic structural view of a stirring structure;

FIG. 3 is an enlarged view at A in FIG. 2;

FIG. 4 is a schematic view of a stir bar;

FIG. 5 is a schematic view at the cover;

the device comprises a tank body 1, a cover body 2, support legs 3, a feeding hole 4, a discharging pipe 5, a pump body I6, a sampling port 7, a stirring structure 8, a rotating rod 9, a stirring rod 10, a bearing seat 11, a stirring motor 12, an adding tank 13, an injector 14, a buffer tank 15, a circulating pipeline 16, a pump body II 17, a cooling water jacket 18, an exhaust pipe 19, an adding pipe I20, an adding pipe II 21, a one-way valve 22, an inserted water outlet pipe 23, a water outlet hole 24, a water leakage hole 25, a through hole I26, a through hole II 27, a water retaining cover 28, an electric heating jacket 29, a temperature probe 30, an electric heating wire 31, a heat.

Detailed Description

The invention is further described by way of example with reference to the accompanying drawings.

Example 1:

as shown in fig. 1, 2 and 3, the blending tank described in the present embodiment includes a tank body 1, a cover body 2 and support legs 3; the upper part of the tank body 1 is provided with a feeding hole 4, the bottom of the tank body 1 is provided with a discharging pipe 5, and the discharging pipe 5 is provided with a valve and a pump body I6; the tank body 1 is also provided with a sampling port 7, a stirring structure 8 is arranged in the tank body 1, the stirring structure 8 comprises a rotating rod 9 and a plurality of stirring rods 10 arranged on the rotating rod 9, the center of the bottom of the tank body 1 is provided with a bearing seat 11 with a seal, the rotating rod 9 is arranged in a bearing of the bearing seat 11 in a penetrating way, a stirring motor 12 is arranged below the tank body 1, and a motor shaft of the stirring motor 12 is in transmission connection with the bottom end of the rotating rod 9; the method is characterized in that:

as shown in fig. 5, an adding tank 13, an injector 14 and a buffer tank 15 are arranged on the cover body 2, a circulating pipeline 16 is communicated between the lower part of the tank body 1 and the top of the buffer tank 15, and a valve and a pump body II 17 are arranged at the lower section of the circulating pipeline 16; the circulating pipeline 16 passes through a cooling water jacket 18, the upper end and the lower end of the cooling water jacket 18 are respectively provided with a cooling water inlet and a cooling water outlet, heat can be exchanged between the cooling water jacket 18 and the circulating pipeline, and the circulating pipeline can be used for reducing the temperature of liquid in the tank body so as to meet the process requirement; the top of the buffer tank 15 is provided with an exhaust pipe 19 with a valve; a movable piston is arranged in the injector 14; one end of the injector 14 is communicated with the adding tank 13 through a first adding pipe 20, the other end of the injector is the same as the buffer tank 15 through a second adding pipe 21, the first adding pipe 20 and the second adding pipe 21 are both provided with one-way valves 22, the one-way valves 22 on the first adding pipe 20 enable liquid to flow from the adding tank 13 to the injector 14 only, and the one-way valves 22 on the second adding pipe 21 enable liquid to flow from the injector 14 to the buffer tank 15 only; the injector 14 is at a pressure greater than the water pressure generated by pump two, i.e., feed liquid can be added to the buffer tank 15.

The injector 14 operates on the principle: after the feed liquid is added into the adding tank 13, the piston is manually operated to move upwards, the liquid in the adding tank 13 enters the injector 14 through the adding pipe I20, the check valve 22 on the adding pipe II 21 blocks the medium liquid in the buffer tank 15 from entering the injector 14, the piston is manually operated to press downwards, the liquid in the injector 14 enters the buffer tank 15, and the check valve 22 on the adding pipe I20 blocks the backflow of the injector 14 to the adding tank 13.

As shown in fig. 3 and 4, a plug-in water outlet pipe 23 is arranged at the bottom of the buffer tank 15; the rotating rod 9 is a structure with a hollow tube at the upper part and a solid rod at the lower part, the inserted water outlet pipe 23 is inserted into the rotating rod 9, and a gap is formed between the two parts for relative rotation; the stirring rod 10 is a hollow rod, the stirring rod 10 is arranged in a mode that the middle is high and the end part is low, a plurality of water outlet holes 24 are formed in the stirring rod 10, water leakage holes 25 are formed in the end part of the stirring rod 10, a first through hole 26 is formed between the stirring rod 10 and the rotating rod 9, and a second through hole 27 is formed in the position, opposite to the first through hole 26, of the insertion type water outlet pipe 23; thus, the feed liquid sprayed out of the second through hole 27 can more smoothly enter the stirring rod 10 through the first through hole 26 and is finally sprayed out of the water outlet hole 24 and the water leakage port 25; the plug-in water outlet pipe 23 is high outside and low, and the end part is provided with a water leakage port 25, when the water is required to be output outwards after the blending is finished, a valve on the exhaust pipe is opened, and the material liquid stored in the stirring structure can be completely leaked out from the water leakage port 25. (the lowermost through hole should be flush with the bottom surface of the solid stem portion of the rotating stem to ensure that all of the feed liquid leaks out).

The upper part of the plug-in water outlet pipe 23 is provided with a water retaining cover 28, and the top of the rotating rod 9 is accommodated in the water retaining cover 28; a gap is arranged between the water retaining cover 28 and the rotating rod 9, and the feed liquid sprayed upwards from the rotating rod 9 can be retained.

An electric heating jacket 29 is also arranged outside the tank body 1, and a temperature probe 30 is arranged in the tank body 1. Temperature probes 30 may be used to indicate temperature and the temperature of the liquid may be varied in conjunction with the electrical heating jacket 29 and the cooling water jacket 18.

Specifically, the method comprises the following steps:

the electric heating jacket 29 comprises a heating wire 31 arranged on the tank body 1 and an insulating layer 32 coated outside the heating wire 31.

The upper section of the circulating pipeline 16 is provided with a flange 33 for connecting the pipeline. The flange 33 facilitates the disassembly and assembly of the pipeline, and the cover body can be taken down by disassembling the flange.

The sampling port 7 is provided with a tap, so that sampling and detection are convenient.

In the blending tank described in this embodiment, a large amount of component feed liquid enters the tank body 1 from the feed inlet 4 to be blended, the feed liquid in the tank body 1 circulates under the action of the pump body two 17, the feed liquid at the bottom of the tank body 1 is ejected from the insertion type water outlet pipe 23 through the circulating pipeline 16 and the buffer tank 15, and is finally ejected from the water outlet hole 24 and the water leakage port 25 of the stirring rod 10; a small amount of component feed liquid is added from an adding tank 13, when in adding, the injector 14 pumps the part of feed liquid into the injector 14 from the adding tank 13, then the part of feed liquid is pressed into a buffer tank 15, and the part of feed liquid is sprayed out from the stirring rod 10 along with the circulating feed liquid; the stirring rod 10 stirs the feed liquid while cyclically jetting the feed liquid.

The blending tank described in this embodiment utilizes the action of the pump body two and the circulation pipeline, and can spray the feed liquid at the bottom of the tank body 1 from the insertion-type water outlet pipe 23 through the circulation pipeline 16 and the buffer tank 15, and after the feed liquid of other components is pressed into the buffer tank 15 from the adding tank 13 through the injector 14, the feed liquid of the other components can be considered to enter the tank body along with the circulation feed liquid, and then the feed liquid is sprayed from the stirring rod layer by layer and is uniformly distributed in the original feed liquid, and then the feed liquid components are uniformly mixed and blended through the stirring action of the stirring rod.

The blending tank described in this embodiment can be used for blending of lubricating oil, medicated wine, beverages, and the like.

One point is explained: in the using process, due to the existence of the first adding pipe 20 and the second adding pipe 21, a part of liquid is remained at the first adding pipe 20 and the second adding pipe 21, and the small dosage of feed liquid added at the adding tank is low in content per se and cannot be remained at the first adding pipe 20 and the second adding pipe 21, so that the content is lower than that of the process, and the method for solving the problem is as follows: the sampling port 7 can sample the feed liquid, and after the adding tank is added, part of the feed liquid is taken out from the sampling port 7 and added into the adding tank, so that the residual small-dose component feed liquid of the first adding pipe 20 and the second adding pipe 21 can be ensured to enter the tank body.

Example 2

The embodiment describes a nylon oiling agent blending method, which adopts the blending tank described in embodiment 1, and the nylon oiling agent comprises 50-70 parts by weight of a smoothing agent, an antistatic agent, an emulsifier, an aggregating agent, a stabilizer, a pH regulator, a viscosity improver, an ultraviolet inhibitor, a flame retardant, an antibacterial agent and a nano additive; the method is characterized in that: during blending, the smoothing agent enters the tank body 1 from the feed inlet 4 to be stirred, the feed liquid in the tank body 1 circulates under the action of the pump body II 17, the feed liquid at the bottom of the tank body 1 is sprayed out from the inserted water outlet pipe 23 after passing through the circulating pipeline 16 and the buffer tank 15, and finally is sprayed out from the water outlet hole 24 and the water leakage port 25 of the stirring rod 10; the other component feed liquid is added from the adding tank 13, when in adding, the injector 14 pumps the part of feed liquid into the injector 14 from the adding tank 13, then presses the part of feed liquid into the buffer tank 15, and sprays the part of feed liquid from the stirring rod 10 along with the circulating feed liquid; the stirring rod 10 stirs the feed liquid while cyclically spraying the feed liquid, and at the same time, the electric heating jacket 29 or the cooling water jacket 18 is started to control the feed liquid at a temperature (45 to 50 ℃) required by the process according to the measurement of the temperature probe 30.

Claims

1. A blending tank comprises a tank body (1), a cover body (2) and support legs (3); a feeding hole (4) is formed in the upper portion of the tank body (1), a discharging pipe (5) is arranged at the bottom of the tank body (1), and a valve and a pump body I (6) are arranged on the discharging pipe (5); the tank body (1) is also provided with a sampling port (7), a stirring structure (8) is arranged in the tank body (1), the stirring structure (8) comprises a rotating rod (9) and a plurality of stirring rods (10) arranged on the rotating rod (9), the center of the bottom of the tank body (1) is provided with a bearing seat (11) with a seal, the rotating rod (9) is arranged in a bearing of the bearing seat (11) in a penetrating way, a stirring motor (12) is arranged below the tank body (1), and a motor shaft of the stirring motor (12) is in transmission connection with the bottom end of the rotating rod (9); the method is characterized in that:

an adding tank (13), an injector (14) and a buffer tank (15) are arranged on the cover body (2), a circulating pipeline (16) is communicated between the lower part of the tank body (1) and the top of the buffer tank (15), and a valve and a pump body II (17) are arranged on the lower section of the circulating pipeline (16); the circulating pipeline (16) passes through a cooling water jacket (18), and the upper end and the lower end of the cooling water jacket (18) are respectively provided with a cooling water inlet and a cooling water outlet; the top of the buffer tank (15) is provided with an exhaust pipe (19) with a valve; a movable piston is arranged in the injector (14); one end of the injector (14) is communicated with the adding tank (13) through an adding pipe I (20), the other end of the injector is the same as the buffer tank (15) through an adding pipe II (21), the adding pipe I (20) and the adding pipe II (21) are both provided with one-way valves (22), the one-way valves (22) on the adding pipe I (20) enable liquid to flow to the injector (14) from the adding tank (13) only, and the one-way valves (22) on the adding pipe II (21) enable liquid to flow to the buffer tank (15) from the injector (14) only;

the bottom of the buffer tank (15) is provided with an inserted water outlet pipe (23); the rotating rod (9) is a structure with a hollow tube at the upper part and a solid rod at the lower part, the plug-in water outlet pipe (23) is inserted into the rotating rod (9), and a gap is formed between the plug-in water outlet pipe and the rotating rod (9) and can rotate relatively; the stirring rod (10) is a hollow rod, the stirring rod (10) is arranged in a mode that the middle is high and the end part is low, a plurality of water outlet holes (24) are formed in the stirring rod (10), water leakage holes (25) are formed in the end part of the stirring rod (10), a first through hole (26) is formed between the stirring rod (10) and the rotating rod (9), and a second through hole (27) is formed in the position, opposite to the first through hole (26), of the insertion type water outlet pipe (23); the upper part of the plug-in water outlet pipe (23) is provided with a water retaining cover (28), and the top of the rotating rod (9) is accommodated in the water retaining cover (28);

an electric heating jacket (29) is arranged outside the tank body (1), and a temperature probe (30) is arranged in the tank body (1).

2. The dispensing canister of claim 1, wherein: the electric heating jacket (29) comprises an electric heating wire (31) arranged on the tank body (1) and an insulating layer (32) coated outside the electric heating wire (31).

3. The dispensing canister of claim 1, wherein: the upper section of the circulating pipeline (16) is provided with a flange (33) for connecting the pipeline.

4. The dispensing canister of claim 1, wherein: the sampling port (7) is a sampling port with a water tap.

5. The dispensing canister of claim 1, wherein: when in blending, a large amount of component feed liquid enters the tank body (1) from the feed inlet (4) to be stirred, the feed liquid in the tank body (1) circulates under the action of the pump body II (17), the feed liquid at the bottom of the tank body (1) is sprayed out from the plug-in water outlet pipe (23) after passing through the circulating pipeline (16) and the buffer tank (15), and finally is sprayed out from the water outlet hole (24) and the water leakage port (25) of the stirring rod (10); a small amount of component feed liquid is added from an adding tank (13), when in addition, the injector (14) pumps the part of feed liquid into the injector (14) from the adding tank (13) and then presses the part of feed liquid into a buffer tank (15), and the part of feed liquid is sprayed out from the stirring rod (10) along with the circulating feed liquid; the stirring rod (10) circularly sprays the feed liquid and stirs the feed liquid.

6. A chinlon oiling agent blending method adopts the blending tank of any one of claims 1 to 5, and the components of the chinlon oiling agent comprise 50 to 70 parts by weight of smoothing agent, antistatic agent, emulsifier, cohesive agent, stabilizer, PH regulator, viscosity improver, anti-ultraviolet agent, flame retardant, anti-microbial agent and nano additive; the method is characterized in that: during blending, the smoothing agent enters the tank body (1) from the feed inlet (4) to be stirred, the feed liquid in the tank body (1) circulates under the action of the pump body II (17), the feed liquid at the bottom of the tank body (1) is sprayed out from the plug-in water outlet pipe (23) after passing through the circulating pipeline (16) and the buffer tank (15), and finally is sprayed out from the water outlet hole (24) and the water leakage port (25) of the stirring rod (10); the other component feed liquid is added from an adding tank (13), when in addition, the injector (14) pumps the part of feed liquid into the injector (14) from the adding tank (13) firstly, then the part of feed liquid is pressed into a buffer tank (15), and the feed liquid is sprayed out from the stirring rod (10) along with the circulating feed liquid; the stirring rod (10) stirs the feed liquid while circularly spraying the feed liquid, and meanwhile, an electric heating jacket (29) or a cooling water jacket (18) is started to control the feed liquid to be at the temperature required by the process according to the measurement of the temperature probe (30).