CN210583691U - Isooctyl palmitate dehydration purification production facility - Google Patents

Abstract

The utility model provides isooctyl palmitate dehydration purification production equipment, which comprises a heating barrel, a storage barrel and a feed barrel, wherein the storage barrel is arranged at two sides of the heating barrel, the feed barrel runs through the inner side of the heating barrel, a discharge pipe runs through the lower end of the heating barrel, a heating wire is arranged at the outer side of the heating barrel, a feed pipe runs through the upper end of the storage barrel, by arranging the sliding plate, the reaction solvent can be filled in the feeding barrel, so that the reaction solvent can be conveniently and quickly added into the isooctyl palmitate by a user through the through connection of the feeding barrel and the heating barrel, when the reaction solvent needs to be added, the sliding plate can be pushed by the stretching plate and drives the hole to move in the feeding barrel, and the hole can be connected with the through hole in a penetrating way, so that the method is suitable for the technical field of isooctyl palmitate.

Description

Isooctyl palmitate dehydration purification production facility

Technical Field

The utility model relates to an isooctyl palmitate technical field specifically is a production facility.

Background

Isooctyl palmitate, mainly used in cosmetics, its permeability is good, have effects of sweat-inhibiting, it is strong with skin affinity, it is a dry ventilative oil, apply skin care products and cosmetics extensively, it is the fine skin emollient, its performance is stable, difficult to oxidize or produce the peculiar smell, can make skin soft and tender and smooth without greasy feeling, the permeability is good, commonly used in all kinds of skin cream.

Wherein, a patent number is CN 201320609897.9's utility model application, this kind of practicality provides an isooctyl palmitate dewatering device, through being provided with the suction pump, make the equipment of this kind of device drop into for a short time, and easy operation, it is not high to the requirement of workman's technique, the energy consumption is little, dehydration effect is good, can produce the isooctyl palmitate that contains water low, but in isooctyl palmitate production process, need add different kind of reaction solvent, and the unable facilitate the use person of this kind of dewatering device adds different kind of reaction solvent fast, and this kind of device is less, and make this kind of dewatering device work efficiency lower, for this reason, the utility model provides an isooctyl palmitate dehydration purification production facility solves the problem that the aforesaid proposed with this.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at in solving current production facility, can't conveniently add reaction solvent, the lower technical problem of work efficiency provides an isooctyl palmitate dehydration purification production facility, through setting up the sliding plate to make inside reaction solvent of feed tank can get into inside the heating barrel through the hole with running through the mouth fast, make this kind of production facility can add reaction solvent according to the demand fast.

In order to achieve the above object, the utility model provides a following technical scheme: the isooctyl palmitate dehydration and purification production equipment comprises a heating barrel, storage barrels and a feeding barrel, wherein the storage barrels are arranged on two sides of the heating barrel, and the feeding barrel penetrates through the inner side of the heating barrel; a discharge pipe penetrates through the lower end of the heating barrel, a heating wire is installed on the outer side of the heating barrel, and a feed pipe penetrates through the upper end of the heating barrel; a feed delivery pipe penetrates through the upper end of the storage barrel, a valve is rotatably arranged on the outer side of the feed delivery pipe, and a condensation pipe penetrates through one end of the feed delivery pipe; the improved feeding device is characterized in that stretching plates are installed on two sides of the feeding barrel, a sliding plate is installed on one side of each stretching plate, a hole penetrates through the inside of each sliding plate, a fixing plate is connected to the upper end of each sliding plate in a sliding fit mode, and a penetrating port penetrates through the inside of each fixing plate.

In this embodiment: the inlet pipe runs through the inside of feed cylinder, the one end and the heating bucket through connection of feed cylinder, and the inside two inner chambers that are provided with of feed cylinder.

In this embodiment: the fixed plates are arranged on two sides of the interior of the feed barrel, and 3-5 penetrating openings are formed in the fixed plates.

In this embodiment: the inner diameters of the through hole and the hole are both 2-4cm, and one side of the fixing plate is fixedly welded with the feeding pipe.

In this embodiment: the sliding plates are in sliding connection with the feed barrel in the horizontal direction, the holes and the through holes are arranged in a staggered mode in the vertical direction, and the holes are in penetrating connection with the through holes through the sliding plates.

In this embodiment: the condenser pipe runs through and sets up in the both sides of heating bucket upper end, and the storage vat passes through conveying pipeline and condenser pipe through connection.

In this embodiment: the heater strip passes through electric wire and power electric connection, the heater strip encircles in the inside of heating bucket, and the valve is all installed in the outside of discharging pipe, conveying pipeline and inlet pipe.

The utility model discloses the beneficial effect who obtains:

1. the device is provided with the sliding plate, so that the reaction solvent can be filled in the feeding barrel, the feeding barrel can be in through connection with the heating barrel, a user can conveniently and quickly add the reaction solvent in isooctyl palmitate, when the reaction solvent needs to be added, the sliding plate can be pushed through the stretching plate, the sliding plate drives the hole to move in the feeding barrel, the hole can be in through connection with the through hole, the reaction solvent in the feeding barrel can quickly enter the heating barrel through the hole and the through hole, and the production equipment can quickly add the reaction solvent according to requirements;

2. the utility model discloses a be provided with the condenser pipe for accessible heating barrel upper end both sides all are provided with the condenser pipe, make after heating wire heats the inside isooctyl palmitate of heating barrel, and purification back isooctyl palmitate steam gets into the condenser pipe insidely, and can get into the storage vat through the convenient back isooctyl palmitate of purifying of conveying pipeline inside collecting, thereby make this kind of production facility can dewater the purification with isooctyl palmitate fast.

Drawings

Fig. 1 is a cross-sectional view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of a position a in fig. 1 according to the present invention.

In FIGS. 1-2: 1-heating barrel, 101-discharging pipe, 102-heating wire, 103-feeding pipe, 2-material storage barrel, 201-feeding pipe, 202-valve, 203-condensing pipe, 4-feeding barrel, 401-stretching plate, 402-sliding plate, 403-hole, 404-fixing plate and 405-through hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 2, the present invention provides a technical solution: a dehydration and purification production device for isooctyl palmitate comprises a heating barrel 1, storage barrels 2 and a feeding barrel 4, wherein the storage barrels 2 are arranged on two sides of the heating barrel 1, and the feeding barrel 4 penetrates through the inner side of the heating barrel 1; a discharge pipe 101 penetrates through the lower end of the heating barrel 1, a heating wire 102 is installed on the outer side of the heating barrel 1, and a feed pipe 103 penetrates through the upper end of the heating barrel 1; a feed delivery pipe 201 penetrates through the upper end of the storage vat 2, a valve 202 is rotatably arranged on the outer side of the feed delivery pipe 201, and a condensing pipe 203 penetrates through one end of the feed delivery pipe 201; the two sides of the feed barrel 4 are provided with stretching plates 401, one side of the stretching plates 401 is provided with sliding plates 402, holes 403 are arranged in the sliding plates 402, the upper ends of the sliding plates 402 are connected with fixing plates 404 in a sliding and attaching mode, and through holes 405 are arranged in the fixing plates 404.

In this embodiment: feed pipe 103 runs through the inside of feed bucket 4, and the one end and the heating bucket 1 through connection of feed bucket 4, and feed bucket 4 is inside to be provided with two inner chambers, through being provided with feed pipe 103 for accessible feed pipe 103 makes things convenient for isooctyl palmitate to get into the inside of heating bucket 1 and heats.

In this embodiment: the fixing plate 404 is installed on both sides of the inside of the feed barrel 4, and the through hole 405 is provided with 3-5 through holes penetrating through the fixing plate 404, so that the fixing plate 404 can prevent the reaction solvent from entering the inside of the heating barrel 1 when the reaction solvent is not required to be added.

In this embodiment: the inner diameters of the through hole 405 and the hole 403 are both 2-4cm, one side of the fixing plate 404 is fixedly welded with the feeding pipe 403, and the through hole 405 is arranged, so that the reaction solvent can conveniently enter the heating barrel 1 through the through hole 405.

In this embodiment: the sliding plate 402 is connected with the feed barrel 4 in a sliding manner in the horizontal direction, the holes 403 are arranged in a staggered manner in the vertical direction with the through holes 405, the holes 403 are connected with the through holes 405 through the sliding plate 402, by providing the sliding plate 402, it is possible to prevent the reaction solvent from being leaked out by filling the inside of the feed tank 4 with the reaction solvent, so that the reaction solvent can be conveniently and rapidly added into the isooctyl palmitate by a user through the through connection of the feeding barrel 4 and the heating barrel 1, when it is necessary to add a reaction solvent, the sliding plate 402 may be pushed by the drawing plate 401, the sliding plate 402 drives the hole 403 to move inside the feed barrel 4, and the hole 403 is connected to the through hole 405, thereby enabling the reaction solvent inside the feeding barrel 4 to rapidly enter the heating barrel 1 through the hole 403 and the through hole 405, and enabling the production equipment to rapidly add the reaction solvent according to the requirement.

In this embodiment: condenser pipe 203 runs through and sets up in the both sides of 1 upper end of heating vat, and storage vat 2 passes through conveying pipeline 201 and condenser pipe 203 through connection, through being provided with condenser pipe 203, make 1 upper end both sides of accessible heating vat all be provided with condenser pipe 203, make after heater strip 102 heats 1 inside isooctyl palmitate of heating vat, the isooctyl palmitate steam gets into inside condenser pipe 203 after the purification, and can get into 2 inside collections of storage vat through conveying pipeline 201 convenient purification back isooctyl palmitate steam, thereby make this kind of production facility can dewater the purification with isooctyl palmitate fast, and can improve this kind of production facility's work efficiency through condenser pipe 203.

In this embodiment: heating wire 102 passes through electric wire and power electric connection, and heating wire 102 encircles in heating barrel 1's inside, and discharging pipe 101, conveying pipeline 201 and inlet pipe 103's the outside all install valve 202, through being provided with heating wire 102 for accessible heating wire 102 and power electric connection, thereby can heat the purification to heating barrel 1 inside isooctyl palmitate.

When the utility model is used, the heating wire 102 is firstly powered on, then the feeding pipe 103 is connected with the raw material barrel of isooctyl palmitate in a penetrating way, the raw material enters the heating barrel 1 through the feeding pipe 103, the raw material is heated and purified by the heating wire 102, and then the reaction solvent is filled in the feeding barrel 4, so that the feeding barrel 4 can be connected with the heating barrel 1 in a penetrating way, a user can add the reaction solvent in the isooctyl palmitate quickly, and when the reaction solvent needs to be added, the sliding plate 402 can be pushed by the stretching plate 401, the sliding plate 402 drives the hole 403 to move in the feeding barrel 4, and the hole can be connected with the through hole 405 in a penetrating way, so that the reaction solvent in the feeding barrel 4 can enter the heating barrel 1 through the hole 403 and the through hole 405 quickly, after heating wire 102 heats the isooctyl palmitate in heating barrel 1, purified isooctyl palmitate steam enters into condenser pipe 203, and the purified isooctyl palmitate steam can be collected in storage barrel 2 through conveying pipe 201, so that the production equipment can rapidly dehydrate and purify the isooctyl palmitate.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an isooctyl palmitate dehydration purification production facility, includes heating vat (1), storage vat (2) and feed cylinder (4), its characterized in that: the material storage barrel (2) is arranged on two sides of the heating barrel (1), and the feeding barrel (4) penetrates through the inner side of the heating barrel (1); a discharge pipe (101) penetrates through the lower end of the heating barrel (1), a heating wire (102) is installed on the outer side of the heating barrel (1), and a feed pipe (103) penetrates through the upper end of the heating barrel (1); a feed delivery pipe (201) penetrates through the upper end of the storage barrel (2), a valve (202) is rotatably arranged on the outer side of the feed delivery pipe (201), and a condensation pipe (203) penetrates through one end of the feed delivery pipe (201); the improved structure of the feeding barrel is characterized in that stretching plates (401) are installed on two sides of the feeding barrel (4), a sliding plate (402) is installed on one side of each stretching plate (401), a hole (403) penetrates through the inside of each sliding plate (402), a fixing plate (404) is connected to the upper end of each sliding plate (402) in a sliding fit mode, and a through hole (405) penetrates through the inside of each fixing plate (404).

2. The isooctyl palmitate dehydration purification production facility according to claim 1, wherein: the inside of feed inlet bucket (4) is run through in feed inlet pipe (103), the one end and the heating barrel (1) through connection of feed inlet bucket (4), and feed inlet bucket (4) inside is provided with two inner chambers.

3. The isooctyl palmitate dehydration purification production facility according to claim 1, wherein: the fixed plates (404) are arranged on two sides of the interior of the feed barrel (4), and 3-5 penetrating openings (405) penetrate through the interior of the fixed plates (404).

4. The isooctyl palmitate dehydration purification production facility according to claim 1, wherein: the inner diameters of the through hole (405) and the hole (403) are both 2-4cm, and one side of the fixing plate (404) is fixedly welded with the feeding pipe (103).

5. The isooctyl palmitate dehydration purification production facility according to claim 1, wherein: the sliding plate (402) is in sliding connection with the feed barrel (4) in the horizontal direction, the holes (403) and the through holes (405) are arranged in a staggered mode in the vertical direction, and the holes (403) are in penetrating connection with the through holes (405) through the sliding plate (402).

6. The isooctyl palmitate dehydration purification production facility according to claim 1, wherein: condenser pipe (203) run through and set up in both sides of heating bucket (1) upper end, and storage vat (2) are through conveying pipeline (201) and condenser pipe (203) through connection.

7. The isooctyl palmitate dehydration purification production facility according to claim 1, wherein: heater strip (102) pass through electric wire and power electric connection, heater strip (102) encircle in the inside of heating bucket (1), and discharging pipe (101), conveying pipeline (201) and the outside of inlet pipe (103) all install valve (202).

Images