CN208776676U - Oil press cooking pot heat conduction oil circuit structure - Google Patents

Abstract

The utility model discloses a kind of oil press cooking pot heat conduction oil circuit structures, it includes pot body, pot nside is equipped with a plurality of interlayers, pot nside is vertically divided into plural layer by a plurality of interlayers, the interlayer includes lower plate and upper plate, it is connected between lower plate and upper plate by a plurality of vertical baffles, the opposite end of adjacent vertical baffle is connected with internal wall pot body respectively, interlayer space is divided into S-shaped by vertical baffle, each interlayer is equipped with oil inlet and oil outlet, and hot oil enters interlayer from oil inlet and flows out by zigzag from oil outlet.The utility model has the advantages that material in cooking pot is allowed to be heated evenly.

Description

Oil press cooking pot heat conduction oil circuit structure

Technical field

The utility model relates to Feed Manufacturing process equipments, more particularly to a kind of oil press cooking pot heat conduction oil circuit knot Structure.

Background technique

Existing oil press cooking pot is three layers of cooking pot with conduction-oil warming, high temperature oil from oil inlet to it is fuel-displaced be by Common interlayer, high temperature oil take the air line, and when conveying high temperature oil by high-pressure pump, the place remote from inlet and outlet piping, oil temperature can be lower, closely Place can be high, have the defects that uneven heating.

Summary of the invention

The purpose of this utility model overcome the deficiencies in the prior art, and provide and a kind of material in cooking pot is allowed to be heated evenly Oil press cooking pot heat conduction oil circuit structure.

The technical solution of the utility model is: a kind of oil press cooking pot heat conduction oil circuit structure comprising pot body, in pot body Portion is equipped with a plurality of interlayers, and pot nside is vertically divided into plural layer by a plurality of interlayers, and the interlayer includes lower plate and upper plate, under It is connected between plate and upper plate by a plurality of vertical baffles, the opposite end of adjacent vertical baffle is connected with internal wall pot body respectively It connects, interlayer space is divided into S-shaped by vertical baffle, and each interlayer is equipped with oil inlet and oil outlet, and hot oil enters interlayer from oil inlet It is flowed out by zigzag from oil outlet.

The further technical solution of the utility model is: the interlayer is three, as the first interlayer, the second interlayer and the Pot nside is divided into three sheaf spaces by three interlayers.

The further technical solution of the utility model is: three sheaf space of pot nside corresponds to be connected separately on outer wall First oil duct, the second oil duct and third oil duct；First oil duct is the first oil outlet for being equipped with the first oil inlet and connecting the first interlayer, It is equipped with the second oil outlet being located above the first interlayer oil inlet again, the second oil inlet of the second oil outlet and the second interlayer passes through First vertical oil duct is connected；Second oil duct is the third oil outlet for being equipped with third oil inlet and connecting the second interlayer, and is equipped with position 4th oil inlet of the 4th oil outlet above second the second oil inlet of interlayer, the 4th oil outlet and third interlayer passes through second Vertical oil duct is connected；Third oil duct is the 5th oil outlet for being equipped with the 5th oil inlet connection third interlayer, and is equipped with and is located at the The 6th oil outlet above the 4th oil inlet of three interlayers.

The further technical solution of the utility model is: the vertical baffle is welded with interlayer lower plate.

The further technical solution of the utility model is: the vertical baffle and interlayer lower plate are equipped with gap.

The further technical solution of the utility model is: first oil duct, the second oil duct and third oil duct are transverse direction U Shape, transverse weld is on pot body outer wall.

The further technical solution of the utility model is: the first vertical oil duct and the second vertical oil duct are vertical U-shaped.

The further technical solution of the utility model is: the oil inlet connects fuel inlet fitting.

The further technical solution of the utility model is: the 6th oil outlet connects delivery connection.

The utility model has a characteristic that compared with prior art

1, it is arranged due to the oil circuit of interlayer by S-shaped, hot oil is flowed by S-shaped oil duct, and entire interlayer can be allowed to be heated evenly.

2, since vertical baffle and interlayer lower plate are equipped with gap, hot oil can be flowed along S-shaped oil duct and be flowed along gap It is dynamic, it is heated evenly interlayer.

3, since outer wall is connected with the first oil duct, the second oil duct and third oil duct around outer wall, hot oil is by oil duct around outer wall Flowing, makes the inner wall heating of corresponding pot body, to make the material heating for corresponding to every sheaf space, greatly improves heating efficiency.

It is further described below in conjunction with detailed construction of the drawings and specific embodiments to the utility model.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the top view of Fig. 1；

Fig. 3 is the A-A cross-sectional view of Fig. 1；

Fig. 4 is the B-B cross-sectional view of Fig. 2；

Fig. 5 is the C-C cross-sectional view of Fig. 1；

Fig. 6 is the utility model perspective view.

Specific embodiment

Embodiment 1

As shown in figures 1 to 6, a kind of oil press cooking pot heat conduction oil circuit structure comprising pot body 1, pot body 1 are located at pedestal Top is internally provided with three (certain other numbers can also with) interlayers, respectively the first interlayer 11, the second interlayer 12 and third The inside of pot body 1 is vertically divided into three layers of space for being used to fill material by interlayer 13, and each interlayer includes lower plate and upper plate, lower plate and Seven vertical baffles (depending on the quantity of vertical baffle is with the size of pot body), the opposite direction of adjacent vertical baffle are welded between upper plate End is connected with 1 inner wall of pot body respectively, as shown in figure 4, with the first interlayer 11(due to the knot of the second interlayer 12 and third interlayer 13 Structure is identical as the first interlayer 11, is not repeating) for, seven vertical baffles 111 from left to right, serial number first and third, five, No. seven 111 lower ends of vertical baffle are welded on 1 inner wall of pot body, and second, four, No. six 111 upper end of vertical baffle welding of serial number On 1 inner wall of pot body, such hot oil enters from oil inlet 112, by separating the S-shaped oil duct formed by seven vertical baffles 111 It is flowed out from the first oil outlet 113, makes entire first interlayer, 11 thermally equivalent in this way, also just make the pot body 1 of 11 top of the first interlayer Space bottom for filling material is heated evenly.As seen from Figure 4, the oil inlet 112 and the first oil outlet of the first interlayer 11 113 are located at 1 two sides of pot body, are to solve asking for existing heating oil duct uneven heating to allow entire first interlayer 11 to be heated evenly Topic.As shown in Figure 3, the lower plate of the first interlayer 11 is exactly the bottom plate of pot body 1, vertical baffle and interlayer lower plate be equipped with it is lesser between Gap, such hot oil can be flowed along S-shaped oil duct and be flowed along this lesser gap, be heated evenly interlayer, quickly.

In order to make three layers of 1 inside of pot body also be heated for filling the surrounding in material space, increase heating efficiency, as shown in figure 3, 1 three sheaf spaces of inside of pot body, which correspond to, is connected separately with the first oil duct 21, the second oil duct 31 and third oil duct 41 on outer wall；First oil Road 21, the second oil duct 31 and third oil duct 41 are welded using 150mm channel steel pressing ring, it is transversely U-shaped, transverse weld is in pot body 1 On outer wall.First oil duct 21 is the first oil outlet 113 for being equipped with the first oil inlet 211 and connecting the first interlayer 11, and is equipped with and is located at First interlayer, 11 oil inlet, 112 top (right above preferably, the distance that hot oil can in this way flowed through in the first oil duct 21 Long, in this way can be to longer for filling the heating of material space surrounding, similarly hereinafter) the second oil outlet 212, the second oil outlet 212 with Second oil inlet 121 of the second interlayer 12 is connected by the first vertical oil duct 61；Second oil duct 31 is equipped with third oil inlet The third oil outlet 122 of 311 the second interlayers 12 of connection, and be equipped with and be located at the 4th of 121 top of the second 12 second oil inlet of interlayer Oil outlet 312, the 4th oil outlet 312 are connected with the 4th oil inlet 131 of third interlayer 13 by the second vertical oil duct 51；The Three oil ducts 41 are the 5th oil outlet 132 for being equipped with the 5th oil inlet 411 connection third interlayer 13, and are equipped with and are located at third interlayer 13 6th oil outlet 412 of 131 top of the 4th oil inlet.

First vertical oil duct 61 and the second vertical oil duct 51 are welded using 150mm channel steel pressing ring, vertical U-shaped, vertically It is welded on 1 outer wall of pot body.

In order to allow disengaging to have conveniently, it is connected with fuel inlet fitting 6 in oil inlet 112, is connected in the 6th oil outlet 412 fuel-displaced Connector 7.

As in Figure 3-5, high pressure conduction oil is from shown in fuel inlet fitting 6(Fig. 3 dotted line) the first folder is entered by oil inlet 112 Shown in layer 11(Fig. 4 dotted line), flowed out from the first oil outlet 113, by shown in first oil inlet 211(Fig. 3 dotted line) enter first Shown in oil duct 21(Fig. 5 dotted line), enter the second oil inlet from the second oil outlet 212 of the first oil duct 21 by the first vertical oil duct 61 Shown in mouthful 121(Fig. 3 dotted line), hence into the second interlayer 12, and so on, sixth oil outlet of the hot oil from third oil duct 41 412 flow to delivery connection 7, to flow out, by the space heating inside pot body 1 really.

Above-described embodiment is the preferable implementation of the utility model, and in addition to this, the utility model can also be with other Mode realizes that any obvious replacement is in the protection of the utility model under the premise of not departing from the technical program design Within the scope of.

Claims (10)

1. a kind of oil press cooking pot heat conduction oil circuit structure, it is characterised in that: including pot body (1), be equipped with plural number inside pot body (1) A interlayer, a plurality of interlayers will pot body (1) be internal is vertically divided into plural layer, and the interlayer includes lower plate and upper plate, lower plate and upper It is connected between plate by a plurality of vertical baffles, the opposite end of adjacent vertical baffle is connected with pot body (1) inner wall respectively, erects Interlayer space is divided into S-shaped to partition, each interlayer is equipped with oil inlet and oil outlet, and hot oil enters interlayer by S-shaped from oil inlet Route is flowed out from oil outlet.

2. a kind of oil press cooking pot heat conduction oil circuit structure according to claim 1, it is characterised in that: the interlayer is three A, as the first interlayer (11), the second interlayer (12) and third interlayer (13) will be divided into three sheaf spaces inside pot body (1).

3. a kind of oil press cooking pot heat conduction oil circuit structure according to claim 2, it is characterised in that: the pot body (1) Internal three sheaf spaces, which correspond to, is connected separately with the first oil duct (21), the second oil duct (31) and third oil duct (41) on outer wall；First Oil duct (21) is equipped with the first oil outlet (113) of the first oil inlet (211) connection the first interlayer (11), and is equipped with and is located at first The second oil outlet (212) above interlayer (11) oil inlet (112), the second of the second oil outlet (212) and the second interlayer (12) Oil inlet (121) is connected by the first vertical oil duct (61)；Second oil duct (31) is equipped with third oil inlet (311) connection the The third oil outlet (122) of two interlayers (12), and be equipped with the 4th be located above (12) second oil inlet (121) of the second interlayer and go out Hydraulic fluid port (312), the 4th oil outlet (312) and the 4th oil inlet (131) of third interlayer (13) pass through the second vertical oil duct (51) It is connected；Third oil duct (41) is equipped with the 5th oil outlet (132) of the 5th oil inlet (411) connection third interlayer (13), again Equipped with the 6th oil outlet (412) being located above the 4th oil inlet (131) of third interlayer (13).

4. a kind of oil press cooking pot heat conduction oil circuit structure according to claim 1 or 2, it is characterised in that: described vertical Partition is welded with interlayer lower plate.

5. a kind of oil press cooking pot heat conduction oil circuit structure according to claim 4, it is characterised in that: the vertical baffle Gap is equipped with interlayer lower plate.

6. a kind of oil press cooking pot heat conduction oil circuit structure according to claim 3, it is characterised in that: first oil duct (21), the second oil duct (31) and third oil duct (41) are transversely U-shaped, and transverse weld is on pot body (1) outer wall.

7. a kind of oil press cooking pot heat conduction oil circuit structure according to claim 3, it is characterised in that: described first is vertical Oil duct (61) and the second vertical oil duct (51) are vertical U-shaped.

8. a kind of oil press cooking pot heat conduction oil circuit structure according to claim 3, it is characterised in that: the oil inlet (112) fuel inlet fitting (6) are connected.

9. a kind of oil press cooking pot heat conduction oil circuit structure according to claim 3, it is characterised in that: the described 6th is fuel-displaced Mouth (412) connection delivery connection (7).

10. a kind of oil press cooking pot heat conduction oil circuit structure according to claim 8, it is characterised in that: the described 6th goes out Hydraulic fluid port (412) connects delivery connection (7).