CN216644615U - Efficient and energy-saving liquid phosphite ester production system - Google Patents

Abstract

The utility model discloses a high-efficiency and energy-saving liquid phosphite ester production system, which comprises a base, wherein the top of the base is fixedly connected with a heat insulation box, the inner wall of the heat insulation box is fixedly connected with limit rings which are distributed at equal intervals, the inner walls of the limit rings are respectively and fixedly connected with a heating ring and a refrigerating box, the inner walls of the heating ring and the refrigerating box are respectively sleeved with a first storage box and a second storage box, the device has simple structure and novel design, the liquid phosphite ester in the first storage box is heated by absorbing and utilizing the heat of the liquid phosphite ester in the second storage box, the residual temperature of the liquid phosphite ester in the second storage box is fully utilized, resources are saved, the liquid phosphite ester in the first storage box is heated while the liquid phosphite ester in the second storage box is cooled, the production line type production is further formed, and the production efficiency is improved, this device is fit for extensively promoting.

Description

Efficient and energy-saving liquid phosphite ester production system

Technical Field

The utility model relates to the technical field of liquid phosphite ester production devices, in particular to a high-efficiency and energy-saving liquid phosphite ester production system.

Background

Phosphite ester: the phosphite ester is divided into two types, namely liquid phosphite ester and powder phosphite ester, and the chemical name of the liquid phosphite ester is as follows: the carbon-based-4, 4-diiso-methylene-fatty alcohol-phosphate chelating polymer and the liquid phosphite ester are characterized by being environment-friendly and free of free phenol, nonyl phenol and bisphenol A, are mainly used for compounding composite liquid calcium zinc, composite powder calcium zinc, composite organic tin and organic rare earth, and can also be matched with other stabilizers for use.

The liquid phosphite is generally reacted to the end under high temperature, vacuum conditions, and the heating medium is generally steam or heat conducting oil. Before the subsequent filtering and packaging steps, the product needs to be cooled for a long time before entering the next post-treatment process, otherwise, the product is easy to scald personnel. The cooling time is too long, which results in low production efficiency. Meanwhile, the heat of the materials is dissipated, and the energy is wasted.

SUMMERY OF THE UTILITY MODEL

Objects of the utility model

In order to solve the technical problems in the background art, the utility model provides an efficient and energy-saving liquid phosphite ester production system which is simple in structure and novel in design, the liquid phosphite ester in a first storage tank is heated by absorbing and utilizing the heat of the liquid phosphite ester in a second storage tank, the residual temperature of the liquid phosphite ester in the second storage tank is fully utilized, resources are saved conveniently, the liquid phosphite ester in the first storage tank is heated while the liquid phosphite ester in the second storage tank is cooled, further, the production line type production is formed, the production efficiency is improved, and the device is suitable for wide popularization.

(II) technical scheme

The utility model provides a high-efficiency and energy-saving liquid phosphite ester production system, which comprises a base, wherein the top of the base is fixedly connected with a heat insulation box, the inner wall of the heat insulation box is fixedly connected with limit rings which are distributed at equal intervals, the inner wall of each limit ring is respectively and fixedly connected with the heating ring and the refrigerating box, the inner wall of the heating ring and the inner wall of the refrigerating box are respectively sleeved with a first material storage box and a second material storage box, the outer wall of the first storage box and the outer wall of the second storage box are respectively sleeved with a first coil pipe and a second coil pipe, a first guide pipe and a second guide pipe are fixedly sleeved at two ends of the first coil pipe respectively, a third guide pipe and a fourth guide pipe are sleeved at two ends of the second coil pipe respectively, one end, far away from the heat insulation box, of the first guide pipe, the second guide pipe, the third guide pipe and the fourth guide pipe and the fixed sleeve are provided with a fifth guide pipe, and a sixth guide pipe is fixedly sleeved on one side, close to each other, of the second guide pipe and the third guide pipe.

Preferably, the recess of placing first coil pipe and second coil pipe is seted up respectively to the inner wall of heating collar and refrigeration case, is convenient for fix first coil pipe and second coil pipe, the inside of first coil pipe and second coil pipe is all reserved there is the conduction oil, the fixed cover in one side that first storage case is close to second storage case is equipped with and extends and runs through to the inside first row of material pipe of second storage case, and the liquid phosphite that the heating of being convenient for was accomplished gets into in the second storage case.

Preferably, the first water pump and the second water pump are respectively arranged on the outer wall of the first guide pipe and the outer wall of the second guide pipe and on one side close to the fifth guide pipe, and provide power for the heat conduction oil, so that the heat conduction oil circularly flows.

Preferably, the outer wall of fifth pipe just is located fixedly connected with electric valve between second pipe and the third pipe, the outer wall fixed cover of second storage case is equipped with and extends and runs through to the outside second of heat-insulating box and arranges the material pipe, is convenient for collect the liquid phosphite that the cooling of second storage case was accomplished, facilitates the use, the equal fixedly connected with electric valve of outer wall of material pipe, second row material pipe, second pipe is arranged to first row, the outer wall of second pipe and third pipe just is located the equal fixedly connected with electric valve in one side that sixth pipe and fifth pipe are close to each other, and installation electric valve is convenient for operate, improves work efficiency.

Preferably, the fixed cover in one side that second storage case was kept away from to first storage case is equipped with the inlet pipe, the feeding of being convenient for, one side cover that first storage case was kept away from to the inlet pipe is equipped with the apron, prevents when not using, and dirt such as dust gets into in the first storage case.

Preferably, first coil pipe and second coil pipe all are the heliciform, increase first coil pipe and second coil pipe respectively with the area of contact of first storage case and second storage case, improve heating and refrigerated efficiency, the top of hot box, heating collar and refrigeration case all is the opening form, electric valve, first water pump, second water pump all with controller electric connection, convenient operation.

Compared with the prior art, the technical scheme of the utility model has the following beneficial technical effects:

1. the device has realized retrieving thermal effect through first pipe, second pipe, fifth pipe and electric valve isotructure, through making heat conduction oil absorb the heat of the interior liquid phosphite of second storage tank to transmit to first storage tank in, heat the interior liquid phosphite of first storage tank, make full use of the interior liquid phosphite's of second storage tank waste heat, the resources are saved of being convenient for.

2. The device is through first storage case, second storage case and heating collar isotructure, the effect that improves liquid phosphite production efficiency has been realized, the liquid phosphite that the heating was accomplished gets into the second storage case along first row of material pipe, and close the electric valve of first row of material pipe outer wall, the liquid phosphite that is convenient for not have the heating gets into first storage case along the inlet pipe, the waste heat of the first storage case of make full use of, and heat the liquid phosphite in the first storage case when cooling down to the liquid phosphite in the second storage case, accelerate the cooling rate of liquid phosphite in the second storage case, and then form pipelined production, and the production efficiency is improved.

To sum up, the device simple structure, the modern design utilizes the heat of liquid phosphite in the second storage incasement to heat the liquid phosphite in the first storage incasement through the absorption, and the waste heat of liquid phosphite in the make full use of second storage incasement, the resources are saved of being convenient for heats the liquid phosphite in the first storage incasement when cooling down the liquid phosphite in the second storage incasement, and then forms pipelined production, improves production efficiency, and this device is fit for extensively promoting.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a high-efficiency and energy-saving liquid phosphite production system provided by the utility model.

Fig. 2 is a schematic structural diagram of a limiting ring, a refrigeration box and a heating ring of the efficient and energy-saving liquid phosphite ester production system provided by the utility model.

Fig. 3 is a schematic diagram of the first coil and the second coil of the high-efficiency and energy-saving liquid phosphite production system provided by the utility model.

Fig. 4 is a schematic diagram of the structure of a first conduit, a third conduit, a fourth conduit and a second conduit of an efficient and energy-saving liquid phosphite production system according to the present invention.

Reference numerals; 1. a base; 2. a second discharge pipe; 3. a heat insulation box; 4. heating a ring; 5. a first material storage box; 6. a feeding pipe; 7. a first conduit; 8. a first water pump; 9. a fifth conduit; 10. an electrically operated valve; 11. a second conduit; 12. a third conduit; 13. a second water pump; 14. a limiting ring; 15. a refrigeration case; 16. a second material storage tank; 17. a first discharging pipe; 18. a first coil pipe; 19. a second coiled tube; 20. a fourth conduit; 21. a sixth conduit.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-4, the efficient and energy-saving liquid phosphite production system provided by the present invention comprises a base 1, a heat insulation box 3 is fixedly connected to the top of the base 1, a spacing ring 14 is fixedly connected to the inner wall of the heat insulation box 3 and equidistantly distributed to facilitate fixing of a heating ring 4 and a refrigeration box 15, the inner wall of the spacing ring 14 is respectively fixedly connected to the heating ring 4 and the refrigeration box 15 to respectively heat and cool the liquid phosphite in the first storage box 5 and the second storage box 16, the inner wall of the heating ring 4 and the inner wall of the refrigeration box 15 are respectively sleeved with the first storage box 5 and the second storage box 16 to facilitate storing the liquid phosphite, the outer wall of the first storage box 5 and the outer wall of the second storage box 16 are respectively sleeved with a first coil 18 and a second coil 19, the first coil 18 and the second coil 19 are both spiral to increase the contact area between the first coil 18 and the second coil 19 and the first storage box 5 and the second storage box 16, the heating efficiency and the cooling efficiency are improved, the two ends of the first coil 18 are respectively fixedly sleeved with the first guide pipe 7 and the second guide pipe 11, the two ends of the second coil 19 are respectively sleeved with the third guide pipe 12 and the fourth guide pipe 20, one ends of the first guide pipe 7, the second guide pipe 11, the third guide pipe 12 and the fourth guide pipe 20, which are far away from the heat insulation box 3, and the fixed sleeves are provided with the fifth guide pipe 9, the side, close to each other, of the second guide pipe 11 and the third guide pipe 12 is fixedly sleeved with the sixth guide pipe 21, the outer wall of the fifth guide pipe 9 is fixedly connected with the electric valve 10 between the second guide pipe 11 and the third guide pipe 12, the electric valve 10 is fixedly connected to the outer walls of the second guide pipe 11 and the third guide pipe 12, which are located on the side, close to each other, of the sixth guide pipe 21 and the fifth guide pipe 9, the operation is convenient by installing the electric valve 10, the working efficiency is improved, and the heat of the heat conduction oil is absorbed by the liquid phosphite ester in the second storage box 16, and transmit in first storage case 5, heat the interior liquid phosphite of first storage case 5, the waste heat of the interior liquid phosphite of make full use of second storage case 16, the resources are saved of being convenient for.

The inner walls of the heating ring 4 and the refrigeration box 15 are respectively provided with a groove for placing a first coil pipe 18 and a second coil pipe 19, so that the first coil pipe 18 and the second coil pipe 19 are convenient to fix, heat conducting oil is reserved in the first coil pipe 18 and the second coil pipe 19, one side of the first storage box 5, which is close to the second storage box 16, is fixedly sleeved with a first discharging pipe 17 which extends to and penetrates through the inside of the second storage box 16, liquid phosphite which is convenient to heat enters the second storage box 16, the outer wall of the second storage box 16 is fixedly sleeved with a second discharging pipe 2 which extends to and penetrates through the outside of the heat insulation box 3, so that liquid phosphite which is convenient to cool the second storage box 16 is convenient to collect, the use is convenient, the first discharging pipe 17, the second discharging pipe 2 and the outer wall of the second guide pipe 11 are respectively and fixedly connected with an electric valve 10, one side of the outer wall of the first guide pipe 7, the outer wall of the second guide pipe 11, which is close to the fifth guide pipe 9, is respectively provided with a first water pump 8 and a second water pump 13, the heat conduction oil is powered to enable the heat conduction oil to flow circularly, one side, far away from the second storage box 16, of the first storage box 5 is fixedly sleeved with a feeding pipe 6, feeding is facilitated, one side, far away from the first storage box 5, of the feeding pipe 6 is sleeved with a cover plate, dirt such as dust and the like is prevented from entering the first storage box 5 when the heat conduction oil is not used, the tops of the heat insulation box 3, the heating ring 4 and the refrigeration box 15 are all in an open shape, the electric valve 10, the first water pump 8 and the second water pump 13 are all electrically connected with a controller, operation is facilitated, heated liquid phosphite ester enters the second storage box 16 along the first discharge pipe 17, the electric valve 10 on the outer wall of the first discharge pipe 17 is closed, unheated liquid phosphite ester can conveniently enter the first storage box 5 along the feeding pipe 6, residual temperature of the first storage box 5 is fully utilized, liquid phosphite ester in the first storage box 5 is heated while the liquid phosphite ester in the second storage box 16 is cooled, accelerate the cooling rate of liquid phosphite in second storage case 16, and then form pipelined production, improve production efficiency.

In the utility model, a cover plate is opened, liquid phosphite ester is input into a first storage box 5 along a feeding pipe 6, the heating ring 4 is connected through an external power supply, the heating ring 4 generates heat, heat conduction oil in a first coil pipe 18 is heated, the heat conduction oil rapidly absorbs the heat generated by the heating ring 4 to further heat the liquid phosphite ester in the first storage box 5, a controller is used for starting a first water pump 8 and an electric valve 10 on the outer wall of a second guide pipe 11, the first water pump 8 drives the heat conduction oil to circularly flow in the first guide pipe 7, the second guide pipe 11, the upper end of a fifth guide pipe 9 and the first coil pipe 18, the liquid phosphite ester in the first storage box 5 is conveniently heated and is convenient to use, after the heating is finished, the electric valve 10 on the outer wall of a first discharging pipe 17 is started through the controller, the liquid phosphite ester enters a second storage box 16 along the first discharging pipe 17, the heat conducting oil in the second coil pipe 19 quickly absorbs the heat of the liquid phosphite ester in the second storage tank 16, after the liquid phosphite ester enters the second storage tank 16, the electric valve 10 on the outer wall of the first discharging pipe 17 and the electric valve 10 on the outer wall of the second guide pipe 11 are closed through the controller, so that the unheated liquid phosphite ester enters the first storage tank 5 along the feeding pipe 6, the second water pump 13, the electric valve 10 on the outer wall of the fifth guide pipe 9 and the electric valve 10 on the outer wall of the sixth guide pipe 21 are started through the controller, the heat conducting oil in the first coil pipe 18 is mixed with the heat conducting oil in the second coil pipe 19 and passes through the first guide pipe 7, the first coil pipe 18, the right end of the second guide pipe 11, the sixth guide pipe 21, the right end of the third guide pipe 12, the second coil pipe 19, the fourth guide pipe 20 and the fifth guide pipe 9 for internal circulation, so that the heat conducting oil absorbs the heat of the liquid phosphite ester in the second storage tank 16, and is transmitted into the first storage box 5 to heat the liquid phosphite in the first storage box 5, and the liquid phosphite in the second storage box 16 is cooled and simultaneously heated in the first storage box 5, so that the residual temperature of the liquid phosphite in the second storage box 16 is fully utilized, thereby facilitating resource saving, after the heat absorption is completed, the electric valves 10 on the outer walls of the fifth conduit 9 and the sixth conduit 21 are closed by the controller, the electric valves 10 on the outer walls of the third conduit 12 and the second conduit 11 are started by the controller, so that the heat conducting oil circularly flows at the upper ends of the first conduit 7, the first coil 18, the second conduit 11, the fifth conduit 9 and the third conduit 12, the second coil 19, the fourth conduit 20 and the fifth conduit 9 respectively, and the heating ring 4 and the refrigerating box 15 are connected by the external power supply to heat and cool the first storage box 5 and the second storage box 16 respectively, the liquid phosphite that the cooling was accomplished is arranged tub 2 along the second and is flowed, facilitates the use, and the practicality is strong.

It should be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the utility model and are not to be construed as limiting the utility model. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such changes and modifications that fall within the scope and bounds of the appended claims, or equivalents of such scope and bounds.

Claims (6)

1. The utility model provides a high-efficient, energy-conserving liquid phosphite production system, includes base (1), its characterized in that, the top fixedly connected with heat-insulating box (3) of base (1), spacing collar (14) that the inner wall fixedly connected with equidistance of heat-insulating box (3) distributes, the inner wall of spacing collar (14) fixed connection heating collar (4) and refrigeration case (15) respectively, the inner wall of heating collar (4) and the inner wall of refrigeration case (15) are overlapped respectively and are equipped with first storage case (5) and second storage case (16), the outer wall of first storage case (5) and the outer wall of second storage case (16) are overlapped respectively and are equipped with first coil pipe (18) and second coil pipe (19), the both ends of first coil pipe (18) are fixed cover respectively and are equipped with first pipe (7) and second pipe (11), the both ends of second coil pipe (19) are overlapped respectively and are equipped with third pipe (12) and fourth pipe (20), one end and the fixed cover that keep away from hot box (3) of first pipe (7), second pipe (11), third pipe (12) and fourth pipe (20) are equipped with fifth pipe (9), the fixed cover in one side that second pipe (11) and third pipe (12) are close to each other is equipped with sixth pipe (21).

2. The efficient and energy-saving liquid phosphite ester production system of claim 1, wherein grooves for placing the first coil pipe (18) and the second coil pipe (19) are formed in the inner walls of the heating ring (4) and the refrigeration box (15), and a first discharging pipe (17) extending to the inside of the second storage box (16) is fixedly sleeved on one side, close to the second storage box (16), of the first storage box (5).

3. An efficient and energy-saving liquid phosphite production system according to claim 2, wherein a first water pump (8) and a second water pump (13) are respectively arranged on the outer wall of the first conduit (7) and the outer wall of the second conduit (11) and on the side close to the fifth conduit (9).

4. A high efficiency, energy saving liquid phosphite production system as claimed in claim 3, wherein the outer wall of fifth pipe (9) and located between second pipe (11) and third pipe (12) is fixedly connected with electric valve (10), the outer wall of second storage tank (16) is fixedly sleeved with second discharging pipe (2) extending and penetrating to the outside of heat insulation tank (3), the outer walls of first discharging pipe (17), second discharging pipe (2), second pipe (11) are all fixedly connected with electric valve (10), the outer walls of second pipe (11) and third pipe (12) and located on the side where sixth pipe (21) and fifth pipe (9) are close to each other are all fixedly connected with electric valve (10).

5. An efficient and energy-saving liquid phosphite production system according to claim 4, wherein a feed pipe (6) is fixedly sleeved on one side of the first storage tank (5) far away from the second storage tank (16), and a cover plate is sleeved on one side of the feed pipe (6) far away from the first storage tank (5).

6. The efficient and energy-saving liquid phosphite production system of claim 5, wherein the first coil (18) and the second coil (19) are both spiral, the tops of the heat insulation box (3), the heating ring (4) and the refrigeration box (15) are both open, and the electric valve (10), the first water pump (8) and the second water pump (13) are all electrically connected with the controller.

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