CN217429100U - Continuous oil immersion machine for frying - Google Patents

Abstract

The utility model relates to a food processing equipment technical field provides a continuous type immersion oil machine of deep-fry usefulness, including the immersion oil groove, the key lies in: the immersion oil machine still includes conveying mesh belt, and conveying mesh belt's head end is located inside the immersion oil groove, and conveying mesh belt's terminal tilt up and extend to the immersion oil groove outside and form into horizontal immersion oil section and slope unloading section, and the immersion oil machine is still including setting up the feeder hopper in conveying mesh belt's head end top, and the feed inlet up end of feeder hopper flushes with the up end of immersion oil groove or is located its top. The problems that in the prior art, feeding and discharging of oil immersion equipment are manually completed, a previous batch of raw materials immersed with oil are required to be completely fished out, then a next batch of raw materials required to be immersed with oil can be poured, continuous production cannot be realized, time and labor are wasted, labor intensity is high, and working efficiency is low are solved.

Description

Continuous oil immersion machine for frying

Technical Field

The utility model relates to a food processing equipment technical field, it is specific, relate to a continuous type immersion oil machine of deep-fry usefulness.

Background

Some fried food need carry out the immersion oil processing in the preparation process, and present immersion oil equipment structure is fairly simple, has only an immersion oil groove, adds the suitable oil of temperature in the immersion oil groove, then pours the raw materials that wait to immerse oil into the immersion oil groove, and after reaching the time, takes out the raw materials from the immersion oil groove again, then carries out subsequent processing. Feeding and ejection of compact all are accomplished by the manual work, need to soak the whole backs of fishing out of the raw materials of oil of last batch, just can pour into the raw materials of next batch needs the immersion oil, can not realize continuous production, and waste time and energy, intensity of labour is great moreover, and work efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The utility model provides a continuous type immersion oil machine of deep-fry usefulness, the feeding and the ejection of compact that have solved immersion oil equipment in the correlation technique are all accomplished by the manual work, need with the whole backs of fishing out of the raw materials that the oil was soaked to last batch, just can pour into the raw materials that next batch needs the immersion oil, can not realize continuous production, waste time and energy moreover, intensity of labour is great, the lower problem of work efficiency.

The technical scheme of the utility model as follows: the utility model provides a continuous type immersion oil machine of deep-fry usefulness, includes the immersion oil groove, and the key lies in: the immersion oil machine still includes conveying mesh belt, and conveying mesh belt's head end is located inside the immersion oil groove, and conveying mesh belt's terminal tilt up and extend to the immersion oil groove outside and form into horizontal immersion oil section and slope unloading section, and the immersion oil machine is still including setting up the feeder hopper in conveying mesh belt's head end top, and the feed inlet up end of feeder hopper flushes with the up end of immersion oil groove or is located its top.

The immersion oil machine still includes the frame, the transmission shaft of setting in frame one end, and set up the driving shaft at the frame other end, conveying mesh belt connects between driving shaft and transmission shaft, immersion oil machine is still including setting up the holding down lever in the frame and between driving shaft and the driven shaft, and set up the depression bar on depression bar both ends top down, the lower terminal surface of going up the depression bar contacts with conveying mesh belt's up end, the lower terminal surface of holding down lever contacts with conveying mesh belt's the up end of the lower floor area body, conveying mesh belt is located the part between depression bar and the transmission shaft and is horizontal immersion oil section, the part that is located between depression bar and the driving shaft is the slope ejection of compact section.

The immersion oil machine is characterized by further comprising an oil receiving groove which is arranged below the inclined discharging section of the conveying net belt and fixedly connected with the rack, and the lower end of the oil receiving groove is of an opening structure and extends into the oil immersion groove.

The oil immersion machine further comprises a frame erected above the oil immersion tank and a hoisting mechanism connected between the frame and the rack, and the rack has a lifting degree of freedom with the help of the hoisting mechanism.

The immersion oil machine is characterized by further comprising an air inlet pipe and an air supply mechanism, wherein the air inlet pipe is arranged in the immersion oil groove and is positioned between the upper layer belt body and the lower layer belt body of the conveying net belt, the air supply mechanism is arranged outside the immersion oil groove, a blowing opening is formed in the side wall of the air inlet pipe, and the inlet end of the air inlet pipe is connected with the air supply mechanism through a connecting pipe.

The immersion oil machine also comprises a cooling system, a hot oil inlet of the cooling system is connected with an oil outlet of the immersion oil tank, and a cold oil outlet of the cooling system is connected with an oil inlet of the immersion oil tank.

A filter screen is arranged at the oil inlet of the oil immersion groove.

The immersion oil machine also comprises a shell with an opening structure at the top, the immersion oil tank and the cooling system are both positioned inside the shell, and the cooling system is positioned below the immersion oil tank.

The immersion oil machine also comprises a group of supporting legs in threaded connection with the bottom of the shell, and the shell has lifting freedom degree by means of rotation of the supporting legs.

The immersion oil machine is characterized by further comprising a supporting seat fixed at the bottom of the supporting leg, and the diameter of the lower end face of the supporting seat is larger than that of the supporting leg.

The utility model discloses a theory of operation and beneficial effect do: set up conveying mesh belt, conveying mesh belt's head end is located the immersion oil groove inside, conveying mesh belt's terminal tilt up and extend to the immersion oil groove outside and form horizontal immersion oil section and slope ejection of compact section, set up the feeder hopper above conveying mesh belt's head end, the feed inlet up end of feeder hopper flushes with the up end of immersion oil groove or is located its top, make the material enter into the immersion oil groove and fall on conveying mesh belt through the feeder hopper, the material is along with conveying mesh belt by the head end to terminal removal, in the moving process, the material soaks in the fluid throughout in horizontal immersion oil section, reach slope ejection of compact section back, material and fluid separation, then be sent to next process, can realize automatic discharging, and just can realize continuous production as long as continuous feed, time saving and labor saving, can reduce intensity of labour, and work efficiency is improved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the middle frame and the frame of the present invention.

Fig. 3 is a schematic structural diagram of the middle housing, the oil immersion groove and the cooling system of the present invention.

In the figure: 1. the device comprises a shell, 2, an oil immersion groove, 3, a frame, 4, a frame, 5, a cooling system, 6, a conveying mesh belt, 7, a feed hopper, 8, a transmission shaft, 9, a driving shaft, 10, a lower pressing rod, 11, an upper pressing rod, 12, an oil receiving groove, 13, a hoisting mechanism, 14, an air inlet pipe, 15, an air supply mechanism, 16, a connecting pipe, 17, an oil inlet, 18, a supporting leg, 19 and a supporting seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to 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 of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts relate to the protection scope of the present invention.

In the embodiment, as shown in fig. 1, a continuous oil immersion machine for frying comprises an oil immersion tank 2 and further comprises a conveying mesh belt 6, the head end of the conveying mesh belt is located inside the oil immersion tank 2, the tail end of the conveying mesh belt 6 inclines upwards and extends to the outside of the oil immersion tank 2 to form a transverse oil immersion section and an inclined discharge section, the oil immersion machine further comprises a feed hopper 7 arranged above the head end of the conveying mesh belt 6, and the upper end face of a feed inlet of the feed hopper 7 is flush with or located above the upper end face of the oil immersion tank 2.

As right the utility model discloses a further improvement, the immersion oil machine still includes frame 3, the transmission shaft 8 of setting in 3 one ends in the frame, and set up the driving shaft 9 at the 3 other ends in the frame, conveying mesh belt 6 is connected between driving shaft 9 and transmission shaft 8, the immersion oil machine is still including setting up the depression bar 10 that just is located between driving shaft 9 and the driven shaft in frame 3, and set up the last depression bar 11 in depression bar 10 both ends top down, the lower terminal surface of going up depression bar 11 and conveying mesh belt 6's up end contact, the lower terminal surface of depression bar 10 and the up end contact of conveying mesh belt 6's the lower floor's of layer area body, conveying mesh belt 6 is located the part between depression bar 11 and the transmission shaft 8 and is horizontal immersion oil section, the part that is located between depression bar 11 and the driving shaft 9 is the slope ejection of compact section.

As shown in fig. 1 and 2, a transmission shaft 8 which forms a rotation fit with the frame 3 is arranged at the left end of the frame 3, a driving shaft 9 which forms a rotation fit with the frame 3 is arranged at the right end of the frame 3, upper compression rods 11 are arranged at the front end and the rear end of the middle part of the frame 3, a lower compression rod 10 is arranged below the upper compression rod 11, the lower compression rod 10 and the upper compression rod 11 are both positioned below the driving shaft 9, the lower compression rod 10 is matched with the upper compression rod 11 to divide the conveying mesh belt 6 into a transverse oil immersion section and an inclined discharge section, a driving mechanism is used for driving the driving shaft 9 to rotate, and the driving shaft 9 is matched with the transmission shaft 8 to drive the conveying mesh belt 6 to move.

As right the utility model discloses a further improvement, the immersion oil machine is still including setting up in conveying mesh belt 6's slope unloading section below, and with frame 3 fixed connection's oil groove 12 that connects, the lower extreme that connects oil groove 12 is open structure and extends to inside the immersion oil groove 2. As shown in fig. 1 and fig. 2, oil drops carried on the conveying mesh belt 6 fall into the oil immersion groove 2 and fall back to the oil immersion groove 2 along the oil immersion groove 2, so that the waste of oil caused by the fact that the oil drops directly fall to the ground can be avoided, and meanwhile, the ground can be cleaner and tidier.

As right the utility model discloses a further improvement, feeder hopper 7 and immersion oil tank 2 overlap joint, immersion oil machine still including erect frame 4 in immersion oil tank 2 top and connect hoisting machine structure 13 between frame 4 and frame 3, frame 3 has the lift degree of freedom with the help of hoisting machine structure 13. As shown in fig. 2, the hoisting mechanism 13 is used for hoisting the frame 3, so as to lift the conveying mesh belt 6, and the dregs in the oil immersion tank 2 can be cleaned conveniently. The hoisting mechanism 13 may be a winch, and as shown in fig. 2, a wire rope of the winch is connected to a hook fixed to the frame 3, and the frame 3 can be hoisted by retracting the wire rope. The hoisting mechanism 13 can also be a telescopic cylinder vertically fixed on the frame 4, and the frame 3 can be hoisted by the contraction of the telescopic cylinder.

As right the utility model discloses a further improvement, immersion oil machine is still including setting up intake pipe 14 and the setting mechanism 15 of supplying gas outside immersion oil groove 2 between the upper band body that just is located conveying mesh belt 6 in immersion oil groove 2 and the lower floor's area body, has seted up the blowing mouth on intake pipe 14's the lateral wall, and intake pipe 14's entrance point is connected with mechanism 15 of supplying gas with the help of connecting pipe 16. As shown in fig. 1, a set of air inlet pipes 14 is arranged between the upper layer belt body and the lower layer belt body of the conveying mesh belt 6, all the air inlet pipes 14 are arranged along the length direction (i.e. the left and right direction in fig. 1) of the conveying mesh belt 6, the length direction of the air inlet pipes 14 is arranged along the width direction (i.e. the front and back direction in fig. 1) of the conveying mesh belt 6, connecting pipes 16 are arranged in front of and/or behind all the air inlet pipes 14, the air inlet pipes 14 are connected with the air supply mechanism 15 by the connecting pipes 16, the gas output by the air supply mechanism 15 enters the air inlet pipes 14 through the connecting pipes 16, and then is sprayed out from the spraying ports on the side walls of the air inlet pipes 14, so that the material is fully contacted with the oil liquid, and the oil immersion effect is better.

As right the utility model discloses a further improvement, the immersion oil machine still includes cooling system 5, and cooling system 5's hot oil import is connected with immersion oil groove 2's oil-out, and cooling system 5's cold oil export is connected with immersion oil groove 2's oil inlet 17. As shown in fig. 3, the high-temperature oil in the oil immersion tank 2 enters the cooling system 5 through the oil outlet, and returns to the oil immersion tank 2 through the oil inlet 17 after being cooled to the required temperature, so that the use requirements of oil liquid at different temperatures can be met.

As right the utility model discloses a further improvement is provided with the filter screen in immersion oil groove 2's oil inlet 17 department, and the filter screen can filter the fluid that enters into in immersion oil groove 2, reduces the dregs that enters into in immersion oil groove 2.

As right the utility model discloses a further improvement, immersion oil machine still includes that the top is open structure's shell 1, and immersion oil groove 2 and cooling system 5 all are located the inside just cooling system 5 of shell 1 and are located immersion oil groove 2 below. As shown in figure 3, the oil immersion tank 2 and the cooling system 5 are both arranged inside the shell 1, so that the overall appearance is more neat and beautiful.

As a further improvement to the present invention, the oil immersion machine further includes a set of support legs 18 connected to the bottom of the housing 1 by threads, and the housing 1 has a lifting degree of freedom by means of the rotation of the support legs 18. As shown in figure 3, the distance between the shell 1 and the ground can be changed by changing the length of the support leg 18 screwed into the shell 1, the structure is simple, and the adjustment is convenient.

As right the utility model discloses a further improvement, the immersion oil machine still includes fixes the supporting seat 19 in the supporting leg 18 bottom, and the lower terminal surface diameter of supporting seat 19 is greater than the diameter of supporting leg 18. As shown in FIG. 3, the supporting base 19 can increase the contact area between the supporting leg 18 and the ground, and the stability is better.

When the utility model is used in concrete, the transverse oil immersion section of the conveying mesh belt 6 is positioned below the oil surface in the oil immersion groove 2, the right end of the inclined discharging section inclines upwards, the feed hopper 7 is positioned above the left end of the conveying mesh belt 6, the material enters the oil immersion groove 2 and falls on the conveying mesh belt 6 through the feed hopper 7, the material moves from left to right along with the conveying mesh belt 6, in the moving process, the material is always immersed in oil in the transverse oil immersion section, and the gas output by the gas supply mechanism 15 enters the gas inlet pipe 14 through the connecting pipe 16, and then is sprayed out from the spraying opening on the side wall of the gas inlet pipe 14, so that the material can be fully contacted with the oil, after reaching the inclined discharging section, the material is gradually lifted to be separated from the oil, and then is sent to the next process, automatic discharging can be realized, and continuous production can be realized as long as continuous feeding, time and labor are saved, labor intensity can be reduced, and working efficiency is improved.

Claims (10)

1. The utility model provides a continuous type immersion oil machine of fried usefulness, includes immersion oil groove (2), its characterized in that: the immersion oil machine still includes conveying mesh belt (6), and conveying mesh belt's head end is located inside immersion oil groove (2), and conveying mesh belt's (6) end tilt up extends to immersion oil groove (2) outside and forms into horizontal immersion oil section and slope unloading section, and the immersion oil machine still flushes or is located its top including feeder hopper (7) that set up in the head end top of conveying mesh belt (6), the feed inlet up end of feeder hopper (7) and the up end of immersion oil groove (2).

2. A continuous oil immersion machine for frying according to claim 1, characterized in that: the oil immersion machine also comprises a frame (3), a transmission shaft (8) arranged at one end of the frame (3) and a driving shaft (9) arranged at the other end of the frame (3), the oil immersion machine also comprises a lower pressure rod (10) which is arranged on the frame (3) and is positioned between the driving shaft (9) and the driven shaft, and an upper pressure rod (11) which is arranged above the two ends of the lower pressure rod (10), the lower end surface of the upper pressure rod (11) is contacted with the upper end surface of the conveying mesh belt (6), the lower end surface of the lower pressure rod (10) is contacted with the upper end surface of the lower layer belt body of the conveying mesh belt (6), the part of the conveying mesh belt (6) between the upper pressure lever (11) and the transmission shaft (8) is a transverse oil immersion section, and the part between the upper pressure lever (11) and the driving shaft (9) is an inclined discharging section.

3. A continuous oil immersion machine for frying according to claim 2, characterized in that: the immersion oil machine further comprises an oil receiving groove (12) which is arranged below the inclined discharging section of the conveying mesh belt (6) and is fixedly connected with the rack (3), and the lower end of the oil receiving groove (12) is of an opening structure and extends into the immersion oil groove (2).

4. A continuous oil immersion machine for frying according to claim 2, characterized in that: feeder hopper (7) and immersion oil groove (2) overlap joint, immersion oil machine still including erect frame (4) in immersion oil groove (2) top to and connect hoisting machine between frame (4) and frame (3) and construct (13), frame (3) have the lift degree of freedom with the help of hoisting machine constructs (13).

5. A continuous oil immersion machine for frying according to claim 1, characterized in that: the immersion oil machine further comprises an air inlet pipe (14) which is arranged in the immersion oil tank (2) and is positioned between the upper layer belt body and the lower layer belt body of the conveying net belt (6) and an air supply mechanism (15) which is arranged outside the immersion oil tank (2), a blowing opening is formed in the side wall of the air inlet pipe (14), and the inlet end of the air inlet pipe (14) is connected with the air supply mechanism (15) through a connecting pipe (16).

6. A continuous oil immersion machine for frying according to claim 1, characterized in that: the immersion oil machine further comprises a cooling system (5), a hot oil inlet of the cooling system (5) is connected with an oil outlet of the immersion oil groove (2), and a cold oil outlet of the cooling system (5) is connected with an oil inlet (17) of the immersion oil groove (2).

7. A continuous oil immersion machine for frying according to claim 1, characterized in that: a filter screen is arranged at the oil inlet (17) of the immersion oil tank (2).

8. A continuous oil immersion machine for frying according to claim 6, characterized in that: the immersion oil machine further comprises a shell (1) with an opening structure at the top, the immersion oil tank (2) and the cooling system (5) are both located inside the shell (1), and the cooling system (5) is located below the immersion oil tank (2).

9. A continuous oil immersion machine for frying according to claim 8, characterized in that: the oil immersion machine further comprises a group of supporting legs (18) in threaded connection with the bottom of the shell (1), and the shell (1) has lifting freedom degree by means of rotation of the supporting legs (18).

10. A continuous oil immersion machine for frying according to claim 9, characterized in that: the immersion oil machine further comprises a supporting seat (19) fixed at the bottom of the supporting leg (18), and the diameter of the lower end face of the supporting seat (19) is larger than that of the supporting leg (18).

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