CN217012630U - Device is fried to pie raw materials - Google Patents

Abstract

The utility model provides a cake raw material frying device which comprises a first bearing bracket, wherein a limiting supporting beam is arranged at the top of the first bearing bracket, side frames which are vertically upward are fixed at the edges of two sides of the first bearing bracket, a top beam is arranged between the tops of the two side frames, a lifting cylinder which is vertically downward is arranged at the bottom of the top beam, a stirring frame is arranged at the bottom of the lifting cylinder, lifting guide pillars which are vertically downward are fixed at two ends of the bottom of the top beam, and the lower parts of the lifting guide pillars are movably inserted into the stirring frame; the stirring unit is arranged on the stirring frame. Rational in infrastructure, excellent in use effect after this scheme of adoption.

Description

Device is fried to pie raw materials

Technical Field

The utility model relates to the technical field of food processing, in particular to a frying device for cake raw materials.

Background

Cake-like food is broadly called "flour cake" or "cake", or "biscuit". According to different production processes, genres and production styles, the method can be divided into the following steps: turning-over cakes, homely cakes, palace cakes, wedding cakes, steamed cakes, baked cakes, pancake cakes, milk cakes and other food cakes. The raw materials of cake food need to be fried in advance under most conditions, and traditionally, a frying pan is adopted for frying, so that the frying mode is single, the heating is uneven, and the efficiency is low.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides the cake raw material frying device which is reasonable in structure and good in using effect.

In order to achieve the purpose, the technical scheme provided by the utility model is as follows: a cake raw material frying device comprises a first bearing bracket, wherein a limiting supporting beam is arranged at the top of the first bearing bracket, side frames which are vertically upward are fixed at the edges of two sides of the first bearing bracket, a top beam is arranged between the tops of the two side frames, a lifting cylinder which is vertically downward is arranged at the bottom of the top beam, a stirring frame is arranged at the bottom of the lifting cylinder, lifting guide pillars which are vertically downward are fixed at two ends of the bottom of the top beam, and the lower parts of the lifting guide pillars are movably inserted into the stirring frame; the stirring frame is provided with a stirring unit; the ground outside the output end of the limiting supporting beam is fixedly provided with a positioning frame, the top of the output direction of the positioning frame is fixedly provided with a lower hinge plate, the top of the input direction of the positioning frame is vertically fixedly provided with a supporting column, one end of the second supporting bracket is hinged with the output end of the positioning frame, the other end of the second supporting bracket is supported by the supporting column, a material pouring cylinder is arranged between the second supporting bracket and the supporting column, and the output end of the second supporting bracket is provided with a limiting stop plate.

The second supporting bracket is H-shaped when being overlooked, the vertical arms at two sides of the second supporting bracket are supporting arms, the length direction of the supporting arms is consistent with the conveying direction of the positioning frame, and one end of the material pouring cylinder is hinged with the bottom of a cross arm of the second supporting bracket; the two support columns are respectively fixed on two sides of the same end of the positioning frame, the fixed support columns are positioned under the support arms, a support column beam is connected between the middle parts of the two support columns, and the other end of the material pouring cylinder is hinged with the middle part of the support column beam; the top of the output direction of the positioning frame is fixed with a lower hinge plate, the inner sides of the end parts of the support arms of the output direction of the positioning frame are fixed with upper hinge plates, the upper hinge plates are hinged with the lower hinge plates, a synchronizing shaft is connected between the two upper hinge plates, a cylinder plate is arranged between the synchronizing shaft and the cross arm of the bearing bracket, the end part of the cylinder plate is connected with the corresponding support arm, a limiting cylinder is hinged on the cylinder plate, the middle part of a limiting stop plate is provided with a sleeve hole, the sleeve hole is sleeved with the middle part of the synchronizing shaft, a piston rod of the limiting cylinder is hinged with the bottom of the limiting stop plate, and the top of the limiting stop plate is a limiting end.

The stirring unit comprises an outer stirring cylinder and an inner stirring shaft, wherein the middle part of the outer stirring cylinder is movably arranged at the lower part of the stirring frame through an outer bearing ring, two lateral support rods are respectively fixed at two sides of the lower part of the outer peripheral surface of the outer stirring cylinder, anti-sticking scraping rods are arranged at the bottoms of the lateral support rods, the anti-sticking scraping rods are U-shaped, straight-edge corners or arc-shaped smooth transition is adopted at the corners, scraping rod insertion holes are arranged at the bottoms of the lateral support rods, the upper parts of the side walls at two sides of the anti-sticking scraping rods are movably sleeved in the scraping rod insertion holes, and the anti-sticking scraping rods are locked through corresponding support rod bolts after being sleeved; an inner stirring shaft is movably sleeved in the outer stirring cylinder, inner stirring blades with the number larger than 4 are installed on the lower portion of the inner stirring shaft, the inner stirring blades are distributed on the outer peripheral surface of the inner stirring shaft in a spiral shape, the length of the inner stirring blades is gradually shortened from bottom to top, a power unit is installed on the stirring frame, and the inner stirring shaft and the outer stirring cylinder are driven by the power unit to operate.

The power unit comprises an outer cylinder toothed ring, an inner shaft toothed ring, a stirring motor and a power shaft, wherein the power shaft is vertically arranged on a stirring frame outside an outer stirring cylinder, the stirring motor is arranged at the top of the stirring frame, a transmission shaft of the installed stirring motor is downwards connected with the top of the power shaft, a lower power gear is arranged at the lower part of the power shaft, an upper power gear is arranged at the upper part of the power shaft, the outer cylinder toothed ring is fixed on the outer peripheral surface of the top of the outer stirring cylinder, the fixed outer cylinder toothed ring is meshed with the lower power gear, the middle part of the inner stirring shaft is connected with the outer stirring cylinder through a middle bearing ring, the lower part of the inner stirring shaft downwards penetrates through the outer cylinder toothed ring to form stirring ends, and the stirring ends are provided with inner stirring blades with the number larger than 2 from top to bottom; the top of the inner stirring shaft penetrates through the outer stirring cylinder upwards to be connected with the inner shaft gear ring, a middle gear is arranged on the stirring frame between the inner shaft gear ring and the upper power gear, and two sides of the middle gear are respectively meshed with the upper power gear and the inner shaft gear ring.

And the center of the top of the first bearing frame is fixedly provided with two T-shaped supporting beams which are respectively connected between the end parts of the two limiting supporting beams, and a heater is arranged on the first bearing bracket between the two T-shaped supporting beams.

After the scheme is adopted, the limiting supporting beam is used for limiting and supporting the raw material tank, the lifting cylinder is used for lifting the stirring frame, the heater is used for heating, the power unit drives the inner stirring shaft and the outer stirring cylinder to synchronously run, the rotating direction of the inner stirring shaft is opposite to that of the outer stirring cylinder under the action of the intermediate gear, and through the reverse motion of the inner stirring shaft and the outer stirring cylinder, the raw material in the raw material tank is stirred and fried, after the frying is finished, the raw material tank enters the supporting bracket, and the raw material is poured out of the raw material tank through the stretching of the corresponding cylinder in the supporting bracket.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the T-shaped support beam connection of the present invention.

Fig. 3 is a schematic view of the positioning frame of the present invention.

Fig. 4 is a schematic diagram of the hinge of the spacing cylinder of the present invention.

FIG. 5 is a top view of the support bracket of the present invention.

Detailed Description

The utility model will be further described with reference to all the drawings, in which preferred embodiments of the utility model are: referring to fig. 1 to 5, the device for stir-frying raw materials for cakes according to the embodiment includes a first supporting bracket 301, a limiting joist 304 is installed on the top of the first supporting bracket 301, a T-shaped supporting beam 303 is fixed at the center of the top of the first supporting bracket 301, two T-shaped supporting beams 303 are respectively connected between the ends of the two limiting joists 304, and a heater is installed on the first supporting bracket 301 between the two T-shaped supporting beams 303. Vertical upward side frames are fixed at the edges of the two sides of the first support bracket 301, a top beam is installed between the tops of the two side frames, a vertical downward lifting cylinder 305 is installed at the bottom of the top beam, a stirring frame 306 is installed at the bottom of the lifting cylinder 305, vertical downward lifting guide pillars are fixed at the two ends of the bottom of the top beam, and the lower parts of the lifting guide pillars are movably inserted into the stirring frame 306; the stirring frame 306 is provided with a stirring unit; a positioning frame 401 is fixed on the ground outside the output end of the limiting joist 304, a lower hinge plate 403 is fixed at the top of the positioning frame 401 in the output direction, a support column 404 is vertically fixed at the top of the positioning frame 401 in the input direction, one end of a support bracket 402 is hinged to the output end of the positioning frame 401, the other end of the support bracket is supported by the support column 404, a material pouring cylinder 405 is arranged between the support bracket 402 and the support column 404, and a limiting stop plate 409 is installed at the output end of the support bracket 402.

The support bracket 402 is H-shaped in a top view, the vertical arms at two sides of the support bracket 402 are support arms, the length direction of the support arms is consistent with the conveying direction of the positioning frame 401, and one end of the material pouring cylinder 405 is hinged with the bottom of a cross arm of the support bracket 402; two support columns 404 are respectively fixed on two sides of the same end of the positioning frame 401, the fixed support columns 404 are positioned under the support arms, a support column beam is connected between the middle parts of the two support columns 404, and the other end of the material pouring cylinder 405 is hinged with the middle part of the support column beam; the top of the output direction of the positioning frame 401 is fixed with a lower hinge plate 403, the inner side of the end part of the supporting arm of the output direction of the positioning frame 401 is fixed with an upper hinge plate 406, the upper hinge plate 406 is hinged with the lower hinge plate 403, a synchronizing shaft 408 is connected between the two upper hinge plates 406, an air cylinder plate 407 is arranged between the synchronizing shaft 408 and the cross arm of the supporting bracket 402, the end part of the air cylinder plate 407 is connected with the corresponding supporting arm, a limiting air cylinder 410 is hinged on the air cylinder plate 407, the middle part of a limiting stop plate 409 is provided with a sleeve hole, the sleeve hole is sleeved with the middle part of the synchronizing shaft 408, the piston rod of the limiting air cylinder 410 is hinged with the bottom of the limiting stop plate 409, and the top of the limiting stop plate 409 is a limiting end.

The stirring unit comprises an outer stirring cylinder 308 and an inner stirring shaft 311, wherein the middle part of the outer stirring cylinder 308 is movably arranged at the lower part of the stirring frame 306 through an outer bearing ring 307, two lateral support rods 309 are respectively fixed at two sides of the lower part of the outer peripheral surface of the outer stirring cylinder 308, anti-sticking scraping rods 310 are arranged at the bottoms of the lateral support rods 309, the anti-sticking scraping rods 310 are U-shaped, straight-edge corners or arc smooth transition is adopted at the corners, scraping rod insertion holes are arranged at the bottoms of the lateral support rods 309, the upper parts of the side walls at two sides of the anti-sticking scraping rods 310 are movably sleeved in the scraping rod insertion holes, and the anti-sticking scraping rods are locked through corresponding support rod bolts after being sleeved; an inner stirring shaft 311 is movably sleeved in the outer stirring cylinder 308, inner stirring blades 312 with the number larger than 4 are installed at the lower part of the inner stirring shaft 311, the inner stirring blades 312 are spirally distributed on the outer peripheral surface of the inner stirring shaft 311, the length of the inner stirring blades 312 is gradually shortened from bottom to top, a power unit is installed on the stirring frame 306, and the inner stirring shaft 311 and the outer stirring cylinder 308 are driven by the power unit to operate.

The power unit comprises an outer cylinder toothed ring 313, an inner shaft toothed ring 314, a stirring motor 315 and a power shaft 317, wherein the power shaft 317 is vertically arranged on a stirring frame 306 outside an outer stirring cylinder 308, the stirring motor 315 is arranged at the top of the stirring frame 306, a transmission shaft of the installed stirring motor 315 is downwards connected with the top of the power shaft 317, a lower power gear 318 is arranged at the lower part of the power shaft 317, an upper power gear 319 is arranged at the upper part of the power shaft 317, the outer cylinder toothed ring 313 is fixed on the outer peripheral surface of the top of the outer stirring cylinder 308, the fixed outer cylinder toothed ring 313 is meshed with the lower power gear 318, the middle part of an inner stirring shaft 311 is connected with the outer stirring cylinder 308 through a middle bearing ring, the lower part of the inner stirring shaft 311 downwards penetrates through the outer cylinder toothed ring 313 to form stirring ends, and the stirring ends are provided with inner stirring blades 312 with the number more than 2 from top to bottom; the top of the inner stirring shaft 311 passes through the outer stirring cylinder 308 upwards to be connected with the inner shaft gear ring 314, a middle gear 320 is installed on the stirring frame 306 between the inner shaft gear ring 314 and the upper power gear 319, and two sides of the middle gear 320 are respectively meshed with the upper power gear 319 and the inner shaft gear ring 314.

The C-shaped positioning sleeves at the bottoms of the raw material tanks on two sides of the bottom of the raw material tank are embedded with corresponding limiting joists, the embedded raw material tank is supported and limited by the limiting joists, the heights of an inner stirring shaft and an anti-sticking scraping rod are adjusted according to the stirring depth of the raw material tank, a lifting cylinder drives a stirring frame to descend, so that the inner stirring blade and the anti-sticking scraping rod enter the raw material tank, a stirring motor operates to drive a power shaft to rotate, the power shaft synchronously drives an upper power gear and a lower power gear to rotate, the lower power gear drives an outer stirring barrel to rotate through an outer barrel gear ring, the upper power gear drives an intermediate gear to rotate, the intermediate gear drives an inner shaft gear ring to rotate, the inner shaft gear ring drives an inner stirring shaft to rotate, the inner stirring shaft and the outer stirring barrel to rotate after transition through the intermediate gear, the rotating directions of the inner stirring shaft and the outer stirring barrel are opposite, so that the inner stirring blade and a lateral strut move reversely, and the raw material is sheared and mixed through the acting force of the reverse rotation, thereby increasing the stirring effect and simultaneously enabling the stir-frying to be heated more uniformly;

the bottom of the input end of the supporting arm in the original state is supported by the supporting column, the input end of the supporting arm is over against the output end of the limiting supporting beam, after the raw material in the raw material tank is fried, the raw material is continuously fed through the forklift, the fried raw material tank is pushed by the raw material tank on the forklift to move downwards to the output end of the limiting supporting beam and finally moves to the supporting bracket, when the raw material tank moves to the supporting bracket, the C-shaped positioning sleeve at the bottom of the raw material tank is embedded with the supporting arm (the positioning sleeve can slide on the supporting arm), the piston rod of the limiting cylinder extends out to drive the lower part of the limiting stop plate to move, the limiting end at the upper part of the limiting stop plate moves upwards to enable the limiting stop plate to be in a vertical state and stand in the output direction of the positioning frame, after the raw material tank completely moves to the supporting bracket (the outer side wall of the lower part of the raw material tank in the output direction is contacted with the limiting stop plate, the limiting stop plate is limited by the limiting stop plate), the piston rod of the material pouring cylinder extends out to drive the supporting bracket to rotate (the upper hinge plate, The pin joint of lower hinge plate is rotatory for the center), the input of support bracket goes upward and begins to incline, the support bracket drives the synchronous slope of head tank, thereby make the raw materials pour out from the head tank, the piston rod shrink of pouring the material cylinder after pouring out drives the support bracket and resets (the support bracket is the horizontality), the piston rod shrink of spacing cylinder, drive spacing board action (make spacing board that ends be in the horizontality basically), the head tank that the system was fried is when getting into the trailing arm, the empty can that will pour out the raw materials is released from the trailing arm, get into the outside track of feeding, rational in infrastructure after this scheme of adoption, excellent in use effect, with the cooperation of external control system, can effectively realize crisp intelligent control of yolk and automated production.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereby, and all changes made in the shape and principle of the present invention should be covered within the scope of the present invention.

Claims (5)

1. The utility model provides a system device is fried to pie raw materials, it is including first support bracket (301), its characterized in that: the top of the first support bracket (301) is provided with a limiting joist (304), the edges of two sides of the first support bracket (301) are fixed with vertically upward side frames, a top beam is arranged between the tops of the two side frames, the bottom of the top beam is provided with a vertically downward lifting cylinder (305), the bottom of the lifting cylinder (305) is provided with a stirring frame (306), two ends of the bottom of the top beam are fixed with vertically downward lifting guide pillars, and the lower parts of the lifting guide pillars are movably inserted into the stirring frame (306); the stirring frame (306) is provided with a stirring unit; the subaerial locating rack (401) that is fixed with in spacing joist (304) output side, locating rack (401) output direction top is fixed with down hinge plate (403), the vertical support post (404) that is fixed with in locating rack (401) input direction top, second support bracket (402) wherein one end is articulated with locating rack (401) output, the other end is by support post (404) bearing, be equipped with between second support bracket (402) and support post (404) and fall material cylinder (405), spacing board (409) of ending is installed to second support bracket (402) output.

2. The pan-fried cake raw material frying device as claimed in claim 1, wherein: the second supporting bracket (402) is H-shaped in plan view, the vertical arms at two sides of the second supporting bracket (402) are supporting arms, the length direction of the supporting arms is consistent with the conveying direction of the positioning frame (401), and one end of the material pouring cylinder (405) is hinged with the bottom of the cross arm of the second supporting bracket (402); two support columns (404) are respectively fixed on two sides of the same end of the positioning frame (401), the fixed support columns (404) are positioned under the support arm, a support column beam is connected between the middle parts of the two support columns (404), and the other end of the material pouring cylinder (405) is hinged with the middle part of the support column beam; the top of the output direction of the positioning frame (401) is fixed with a lower hinge plate (403), the inner side of the end part of the supporting arm of the output direction of the positioning frame (401) is fixed with an upper hinge plate (406), the upper hinge plate (406) is hinged with the lower hinge plate (403), a synchronizing shaft (408) is connected between the two upper hinge plates (406), a cylinder plate (407) is arranged between the synchronizing shaft (408) and the cross arm of the bearing bracket (402), the end part of the cylinder plate (407) is connected with the corresponding supporting arm, a limiting cylinder (410) is hinged on the cylinder plate (407), the middle part of the limiting stop plate (409) is provided with a trepanning, the trepanning is sleeved with the middle part of the synchronizing shaft (408), the piston rod of the limiting cylinder (410) is hinged with the bottom of the limiting stop plate (409), and the top of the limiting stop plate (409) is a limiting end.

3. The pan-fried cake raw material frying device as claimed in claim 1, wherein: the stirring unit comprises an outer stirring cylinder (308) and an inner stirring shaft (311), wherein the middle part of the outer stirring cylinder (308) is movably arranged at the lower part of the stirring frame (306) through an outer bearing ring (307), two sides of the lower part of the outer peripheral surface of the outer stirring cylinder (308) are respectively fixed with a lateral supporting rod (309), the bottom of the lateral supporting rod (309) is provided with an anti-sticking scraping rod (310), the anti-sticking scraping rod (310) is U-shaped, the corner of the anti-sticking scraping rod adopts a straight-edge corner or arc smooth transition, the bottom of the lateral supporting rod (309) is provided with a scraping rod jack, the upper parts of the side walls at two sides of the anti-sticking scraping rod (310) are movably sleeved in the scraping rod jack, and are locked through corresponding supporting rod bolts after being sleeved; an inner stirring shaft (311) is movably sleeved in the outer stirring cylinder (308), inner stirring blades (312) with the number larger than 4 are installed on the lower portion of the inner stirring shaft (311), the inner stirring blades (312) are distributed on the outer peripheral surface of the inner stirring shaft (311) in a spiral shape, the length of the inner stirring blades (312) is gradually shortened from bottom to top, a power unit is installed on the stirring frame (306), and the inner stirring shaft (311) and the outer stirring cylinder (308) are driven by the power unit to operate.

4. The device of claim 1, wherein the device comprises: the power unit comprises an outer barrel gear ring (313), an inner shaft gear ring (314), a stirring motor (315) and a power shaft (317), the stirring device comprises a power shaft (317), a stirring rack (306) arranged on the outer side of an outer stirring cylinder (308), a stirring motor (315) arranged on the top of the stirring rack (306), a transmission shaft of the installed stirring motor (315) is downwards connected with the top of the power shaft (317), a lower power gear (318) is arranged on the lower portion of the power shaft (317), an upper power gear (319) is arranged on the upper portion of the power shaft (317), an outer cylinder toothed ring (313) is fixed on the outer peripheral surface of the top of the outer stirring cylinder (308), the fixed outer cylinder toothed ring (313) is meshed with the lower power gear (318), the middle portion of an inner stirring shaft (311) is connected with the outer stirring cylinder (308) through a middle shaft, the lower portion of the inner stirring shaft (311) downwards penetrates through the outer cylinder toothed ring (313) to form a stirring end, and the stirring end is provided with inner stirring blades (312) with the number larger than 2 from top to bottom; the top of the inner stirring shaft (311) upwards penetrates through the outer stirring cylinder (308) to be connected with the inner shaft gear ring (314), the stirring frame (306) between the inner shaft gear ring (314) and the upper power gear (319) is provided with a middle gear (320), and two sides of the middle gear (320) are respectively meshed with the upper power gear (319) and the inner shaft gear ring (314).

5. The device of claim 1, wherein the device comprises: t-shaped supporting beams (303) are fixed at the center of the top of the first supporting bracket (301), the number of the T-shaped supporting beams (303) is two, the two T-shaped supporting beams are respectively connected between the end parts of the two limiting joists (304), and a heater is arranged on the first supporting bracket (301) between the two T-shaped supporting beams (303).

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