CN203889513U - Feeding device in fried bean curd automatic processing device - Google Patents

Abstract

The utility model provides a feeding device in a fried bean curd automatic processing device and belongs to the technical field of machines. The technical problem that bean curds can not be evenly poured in an oil pan through an existing belt conveyor is solved by the feeding device. The fried bean curd automatic processing device comprises a rack and an oil pan. The feeding device comprises a first feeding board and a second feeding board, wherein the first feeding board and the second feeding board are located on the sides of the oil pan. A driving shaft is arranged between one end of the first feeding board and one end of the second feeding board in an axially-fixed and circumferentially-rotating mode. A driven shaft is arranged between the other end of the first feeding board and the other end of the second feeding board in an axially-fixed and circumferentially-rotating mode. A conveyor belt is arranged between the driving shaft and the driven shaft. The driving shaft is connected with a power mechanism capable of driving the driving shaft to rotate. The first feeding board is connected with a pushing mechanism capable of driving the first feeding board to move in a reciprocating mode towards the oil pan. The feeding device has the advantages that the bean curds can be evenly poured in the oil pan and labor intensity is low.

Description

Pay-off in a kind of fried bean curd automatic processing device

Technical field

The utility model belongs to field of mechanical technique, relates to a kind of pay-off, particularly the pay-off in a kind of fried bean curd automatic processing device.

Background technology

Fried bean curd is the fried food of bean curd, its golden yellow color, and interior as silk meat, careful continuous empty, high resilience.Fried bean curd is used traditional manual mode to produce for a long time, manually bean curd is put into oil cauldron and is carried out friedly, and labour intensity is large, and efficiency is low, and product design is poor.

Through retrieval, in Chinese patent literature, a kind of belt conveyer [patent No.: ZL201320182018.9 is disclosed; Granted publication number: CN203268922U].This belt conveyer, comprises underframe, and underframe is provided with rectangle carriage, and the frame of rectangle carriage both sides is provided with tapped bore, is provided with thread rod in tapped bore, and thread rod front end is provided with roller, and the roller at two ends connects by belt.

Although disclosed belt conveyer can regulate the elasticity of belt in this patent, guarantee that belt is non-slip, but while carrying bean curd with this conveyer, can not bean curd be poured in oil cauldron uniformly, therefore the pay-off of, designing in a kind of fried bean curd automatic processing device is necessary.

Summary of the invention

The purpose of this utility model is to have the problems referred to above for existing technology, has proposed the pay-off in a kind of fried bean curd automatic processing device, and this pay-off has can evenly pour bean curd into the low feature of feature, labour intensity in oil cauldron.

The purpose of this utility model can realize by following technical proposal: the pay-off in a kind of fried bean curd automatic processing device, described fried bean curd automatic processing device comprises frame and oil cauldron, it is characterized in that, this pay-off comprises delivery sheet one and the delivery sheet two in oil cauldron sidepiece, described delivery sheet one and delivery sheet two are parallel to each other, mode by axial restraint and circumferentially rotation between one end of one end of delivery sheet one and delivery sheet two is provided with imput shaft, mode by axial restraint and circumferentially rotation between the other end of the other end of delivery sheet one and delivery sheet two is provided with driven shaft, between described imput shaft and driven shaft, be arranged with load-transfer device, described imput shaft and one can drive the actuating unit of its rotation to be connected, described delivery sheet one and one can drive its pushing mechanism moving around towards oil cauldron to be connected.

The principle of work of the pay-off in this fried bean curd automatic processing device is as follows, plant personnel is added the cooking oil of 2/3rds volumes in oil cauldron, cooking oil is heated to frying temperature, the whole plate bean curd of having cut apart is put on load-transfer device, by pushing mechanism, drive delivery sheet one to move to the direction near oil cauldron, delivery sheet one driving conveying belt moves to the direction near oil cauldron together, and the load-transfer device when 3/4 moves to behind the top of oil cauldron; By pushing mechanism, drive delivery sheet one to move to the direction away from oil cauldron, delivery sheet one driving conveying belt moves to the direction away from oil cauldron together, simultaneously, by actuating unit, drive imput shaft forward, imput shaft driving conveying belt is forward together, along with load-transfer device moves the forward with load-transfer device to the direction away from oil cauldron, and the whole plate bean curd that is placed on load-transfer device being poured in oil cauldron one by one, and be evenly distributed in oil cauldron, plant personnel is carried out the fried operation of bean curd.

Described pushing mechanism comprises guide rail one, guide rail two, tooth bar, some antifriction-bearing boxs one, some antifriction-bearing boxs two, gear and pushing motor, described guide rail one is parallel with guide rail two to be fixed in frame, the inner ring of described some antifriction-bearing boxs one is fixed on delivery sheet one by rotating shaft one, the inner ring of described some antifriction-bearing boxs two is fixed on delivery sheet two by rotating shaft two, the outer ring of described antifriction-bearing box one is all arranged in the track of guide rail one, the outer ring of described antifriction-bearing box two is all arranged in the track of guide rail two, described tooth bar is fixed on delivery sheet one, and the arranged direction of tooth bar parallels with the length direction of delivery sheet one, described pushing motor is fixed in frame, gear is fixed on the output shaft of pushing motor, and wheel and rack is meshed.

In the time bean curd need being moved to the direction near oil cauldron, control the output shaft forward that pushing motor makes pushing motor, the output shaft driven gear of pushing motor is forward together, gear driven tooth bar moves to the direction near oil cauldron, rack drives delivery sheet one moves to the direction near oil cauldron together, delivery sheet one driving conveying belt moves to the direction near oil cauldron together, and load-transfer device drives bean curd to the direction near oil cauldron, to move together; In the time bean curd need being moved to the direction away from oil cauldron, control the output shaft reversion that pushing motor makes pushing motor, the output shaft driven gear of pushing motor reverses together, gear driven tooth bar moves to the direction away from oil cauldron, rack drives delivery sheet one moves to the direction away from oil cauldron together, delivery sheet one driving conveying belt moves to the direction away from oil cauldron together, and load-transfer device drives bean curd to the direction away from oil cauldron, to move together.

Described actuating unit comprises power motor, driving gear and driven gear, described power motor is fixed on delivery sheet two, driving gear is fixed on the output shaft of power motor, and driven gear is fixed in imput shaft, and driving gear and driven gear are meshed.

In the time bean curd need being poured into oil cauldron, control the output shaft forward of power motor, the output shaft of power motor drives driving gear forward together, driving gear drives driven gear, driven gear drives imput shaft forward together, imput shaft driving conveying belt is forward together, along with the forward of load-transfer device is poured bean curd in oil cauldron into uniformly.

As another situation, described actuating unit comprises power motor, driving pulley, driven pulley and belt, described power motor is fixed on delivery sheet two, described driving pulley is fixed on the output shaft of power motor, described driven pulley is fixed in imput shaft, and described belt is arranged between driving pulley and driven pulley.

In the time bean curd need being poured into oil cauldron, control the output shaft forward of power motor, the output shaft of power motor drives driving pulley forward together, driving pulley drives driven pulley forward together by belt, driven pulley drives imput shaft forward together, imput shaft driving conveying belt is forward together, along with the forward of load-transfer device is by bean curd being poured in oil cauldron one by one.

In described frame, be fixed with travel switch one and travel switch two, on described delivery sheet one, be fixed with contact block one and the contact block two of protrusion, described contact block one can contact with described travel switch one, described contact block two can contact with described travel switch two, described travel switch one is connected with a PLC Programmable Logic Controller by circuit with travel switch two, and above-mentioned pushing motor is connected with PLC Programmable Logic Controller by circuit with power motor.

When delivery sheet one moves to the direction near oil cauldron, contact block one fixing on delivery sheet one contacts with travel switch one, travel switch one passes to PLC Programmable Logic Controller by this signal, the output shaft reversion of PLC Controlled by Programmable Controller pushing motor, meanwhile, the output shaft forward of PLC Controlled by Programmable Controller power motor; When delivery sheet one moves to the direction away from oil cauldron, contact block two fixing on delivery sheet one contacts with travel switch two, travel switch two passes to PLC Programmable Logic Controller by this signal, and PLC Controlled by Programmable Controller pushing motor and power motor stop operating.

Between described imput shaft and driven shaft, be also provided with some asessory shafts, the two ends of described asessory shaft are arranged on delivery sheet one and delivery sheet two by the mode of axial restraint and circumferentially rotation respectively.

Between imput shaft and driven shaft, there is asessory shaft, adopt this structure, can to the position in the middle of load-transfer device, play the effect of support, guarantee that bean curd can steadily be poured in oil cauldron.

One end of described imput shaft is sheathed and be fixed with the first active bearings, and described the first active bearings is outside equipped with the first imput shaft bearing, and the first described imput shaft bearing is fixed on delivery sheet one; The other end of described imput shaft is sheathed and be fixed with the second active bearings, and described the second active bearings is outside equipped with the second imput shaft bearing, and the second described imput shaft bearing is fixed on delivery sheet two; One end of described driven shaft is sheathed and be fixed with the first driven bearing, and described the first driven bearing is outside equipped with the first driven shaft bearing, and the first described driven shaft bearing is fixed on delivery sheet one; The other end of described driven shaft is sheathed and be fixed with the second driven bearing, and described the second driven bearing is outside equipped with the second driven shaft bearing, and the second described driven shaft bearing is fixed on delivery sheet two; One end of described asessory shaft is sheathed and be fixed with the first auxiliary bearing, and described the first auxiliary bearing is outside equipped with the first asessory shaft bearing, and the first described asessory shaft bearing is fixed on delivery sheet one; The other end of described asessory shaft is sheathed and be fixed with the second auxiliary bearing, and described the second auxiliary bearing is outside equipped with the second asessory shaft bearing, and the second described asessory shaft bearing is fixed on delivery sheet two.

On described delivery sheet one, offer the mounting hole one that is bar shaped, on described delivery sheet two, offer the mounting hole two that is bar shaped, in the first described driven shaft bearing and the second driven shaft bearing, be fixed with respectively dowel bolt one and dowel bolt two, described dowel bolt one is connected with setscrew nut one through mounting hole one, and described dowel bolt two is connected with setscrew nut two through mounting hole two.

When load-transfer device tension, unscrew the corresponding setscrew nut one of dowel bolt one and dowel bolt two and setscrew nut two, the first driven shaft bearing and the second driven shaft bearing are moved to the direction near oil cauldron, load-transfer device is adjusted to suitable elasticity, screws the corresponding setscrew nut one of dowel bolt one and dowel bolt two and setscrew nut two; When load-transfer device is crossed pine, unscrew the corresponding setscrew nut one of dowel bolt one and dowel bolt two and setscrew nut two, the first driven shaft bearing and the second driven shaft bearing are moved to the direction away from oil cauldron, load-transfer device is adjusted to suitable elasticity, screws the corresponding setscrew nut one of dowel bolt one and dowel bolt two and setscrew nut two.

Compared with prior art, the pay-off in this fried bean curd automatic processing device has the following advantages:

1, to adopt load-transfer device that bean curd is poured in oil cauldron fried for the utility model, substitutes artificial feeding, and actv. has alleviated the work capacity of plant personnel, and labour intensity is low, production efficiency is high.

2, adopt load-transfer device translation and two kinds of motions of forward to combine, can make bean curd be poured in oil cauldron one by one, and be evenly distributed in oil cauldron, guarantee the reliable in quality of fried bean curd.

3, by dowel bolt one and setscrew nut one, dowel bolt two and setscrew nut two, elasticity that can quick adjustment load-transfer device, easy to operate, reasonable in design.

Accompanying drawing explanation

Fig. 1 is the pay-off perspective view in this fried bean curd automatic processing device.

Fig. 2 is this fried bean curd automatic processing device embodiment mono-planar structure schematic diagram.

Fig. 3 is this fried bean curd automatic processing device embodiment bis-planar structure schematic diagrams.

In figure, 1, delivery sheet two; 2, power motor; 3, load-transfer device; 4, frame; 5, delivery sheet one; 6, tooth bar; 7, travel switch two; 8, contact block two; 9, rotating shaft one; 10, antifriction-bearing box one; 11, contact block one; 12, travel switch one; 13, pushing motor; 14, guide rail one; 15, dowel bolt one; 16, setscrew nut one; 17, gear; 18, oil cauldron; 19, setscrew nut two; 20, dowel bolt two; 21, the second driven shaft bearing; 22, antifriction-bearing box two; 23, rotating shaft two; 24, guide rail two; 25, asessory shaft; 26, the second asessory shaft bearing; 27, driving gear; 28, driven gear; 29, the second imput shaft bearing; 30, imput shaft; 31, the first imput shaft bearing; 32, the first asessory shaft bearing; 33, the first driven shaft bearing; 34, driving pulley; 35, belt; 36, driven pulley; 37, PLC Programmable Logic Controller; 38, driven shaft.

The specific embodiment

Be below specific embodiment of the utility model by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiment.

Embodiment mono-:

As Fig. 1, shown in Fig. 2, pay-off in this fried bean curd automatic processing device, fried bean curd automatic processing device comprises frame 4 and oil cauldron 18, this pay-off comprises delivery sheet 1 and the delivery sheet 21 in oil cauldron 18 sidepieces, delivery sheet 1 and delivery sheet 21 are parallel to each other, mode by axial restraint and circumferentially rotation between one end of one end of delivery sheet 1 and delivery sheet 21 is provided with imput shaft 30, one end of imput shaft 30 is sheathed and be fixed with the first active bearings, the first active bearings is outside equipped with the first imput shaft bearing 31, the first imput shaft bearing 31 is fixed on delivery sheet 1, the first imput shaft bearing 31 is fixed on delivery sheet 1 by the mode of welding, the other end of imput shaft 30 is sheathed and be fixed with the second active bearings, the second active bearings is outside equipped with the second imput shaft bearing 29, the second imput shaft bearing 29 is fixed on delivery sheet 21, the second imput shaft bearing 29 is fixed on delivery sheet 21 by the mode of welding, mode by axial restraint and circumferentially rotation between the other end of the other end of delivery sheet 1 and delivery sheet 21 is provided with driven shaft 38, one end of driven shaft 38 is sheathed and be fixed with the first driven bearing, the first driven bearing is outside equipped with the first driven shaft bearing 33, the first driven shaft bearing 33 is fixed on delivery sheet 1, the other end of driven shaft 38 is sheathed and be fixed with the second driven bearing, the second driven bearing is outside equipped with the second driven shaft bearing 21, the second driven shaft bearings 21 and is fixed on delivery sheet 21, between imput shaft 30 and driven shaft 38, be arranged with load-transfer device 3, the cotton canvas apron of load-transfer device 3 for having bought on market, imput shaft 30 and one can drive the actuating unit of its rotation to be connected, and delivery sheet 1 and can drive its pushing mechanism moving around towards oil cauldron 18, and pushing mechanism is connected with delivery sheet 1.

As shown in Figure 1 and Figure 2, pushing mechanism comprises guide rail 1, guide rail 2 24, tooth bar 6, some antifriction-bearing boxs 1, some antifriction-bearing boxs 2 22, gear 17 and pushing motor 13, guide rail 1 is parallel with guide rail 2 24 to be fixed in frame 4, and guide rail 1 and guide rail 2 24 are bolted in frame 4; The inner ring of some antifriction-bearing boxs 1 is fixed on delivery sheet 1 by rotating shaft 1, and rotating shaft 1 is fixed on delivery sheet 1 by the mode of welding, and in the present embodiment one, the quantity of antifriction-bearing box 1 and rotating shaft 1 is three; The inner ring of some antifriction-bearing boxs 2 22 is fixed on delivery sheet 21 by rotating shaft 2 23, and rotating shaft 2 23 is fixed on delivery sheet 21 by the mode of welding, and in the present embodiment one, the quantity of antifriction-bearing box 2 22 and rotating shaft 2 23 is three; The outer ring of antifriction-bearing box 1 is all arranged in the track of guide rail 1, and the outer ring lower surface of antifriction-bearing box 1 contacts with the track upper surface of guide rail 1; The outer ring of antifriction-bearing box 2 22 is all arranged in the track of guide rail 2 24, and the outer ring lower surface of antifriction-bearing box 2 22 contacts with the track upper surface of guide rail 2 24; Tooth bar 6 is fixed on delivery sheet 1, and tooth bar 6 is bolted on delivery sheet 1; The arranged direction of tooth bar 6 parallels with the length direction of delivery sheet 1, and pushing motor 13 is fixed in frame 4, and pushing motor 13 is bolted in frame 4; Gear 17 is fixed on the output shaft of pushing motor 13, and the mode that gear 17 connects by key is fixed on the output shaft of pushing motor 13, and the output shaft driven gear 17 of guaranteeing pushing motor 13 is forward or reverse together; Gear 17 is meshed with tooth bar 6, guarantees that gear 17 can be with carry-over bar 6 to move around.

As shown in Figure 1 and Figure 2, actuating unit comprises power motor 2, driving gear 27 and driven gear 28, and power motor 2 is fixed on delivery sheet 21, and power motor 2 is bolted on delivery sheet 21; Driving gear 27 is fixed on the output shaft of power motor 2, and the mode that driving gear 27 connects by key is fixed on the output shaft of power motor 2, guarantees that the output shaft of power motor 2 drives driving gear 27 forward or reverse together; Driven gear 28 is fixed in imput shaft 30, and the mode that driven gear 28 connects by key is fixed in imput shaft 30, guarantees that driven gear 28 drives imput shaft 30 forward or reverse together; Driving gear 27 and driven gear 28 are meshed, and guarantee that driving gear 27 can drive driven gear 28 forward or reverse together.

As shown in Figure 1 and Figure 2, in frame 4, be fixed with travel switch 1 and travel switch 27, travel switch 1 is near oil cauldron 18, travel switch 27 is away from oil cauldron 18, travel switch 1 and the travel switch of travel switch 27 for having bought on market, such as the electric board travel switch of De Lixi; On delivery sheet 1, be fixed with contact block 1 and the contact block 28 of protrusion, contact block 1 is near oil cauldron 18, and contact block 28 is away from oil cauldron 18, and contact block 1 and contact block 28 adopt the mode of welding to be fixed on delivery sheet 1; Contact block 1 can contact with travel switch 1, contact block 28 can contact with travel switch 27, travel switch 1 is connected with a PLC Programmable Logic Controller 37 by circuit with travel switch 27, PLC Programmable Logic Controller 37 is existing products of having bought on market, such as the PLC Programmable Logic Controller that Mitsubishi is produced, its program does not need to redesign; Pushing motor 13 is connected with PLC Programmable Logic Controller 37 by circuit with power motor 2.

As shown in Figure 1 and Figure 2, be also provided with some asessory shafts 25 between imput shaft 30 and driven shaft 38, in the present embodiment one, the quantity of asessory shaft 25 is three; The two ends of asessory shaft 25 are arranged on delivery sheet 1 and delivery sheet 21 by the mode of axial restraint and circumferentially rotation respectively, one end of asessory shaft 25 is sheathed and be fixed with the first auxiliary bearing, the first auxiliary bearing is outside equipped with the first asessory shaft bearing 32, the first asessory shaft bearing 32 is fixed on delivery sheet 1, and the first asessory shaft bearing 32 is fixed on delivery sheet 1 by the mode of welding; The other end of asessory shaft 25 is sheathed and be fixed with the second auxiliary bearing, the second auxiliary bearing is outside equipped with the second asessory shaft bearing 26, the second asessory shaft bearing 26 is fixed on delivery sheet 21, and the second asessory shaft bearing 26 is fixed on delivery sheet 21 by the mode of welding.

As shown in Figure 1 and Figure 2, on delivery sheet 1, offer the mounting hole one that is bar shaped, on delivery sheet 21, offer the mounting hole two that is bar shaped, in the first driven shaft bearing 33 and the second driven shaft bearing 21, be fixed with respectively dowel bolt 1 and dowel bolt 2 20, dowel bolt 1 and dowel bolt 2 20 are separately fixed in the first driven shaft bearing 33 and the second driven shaft bearing 21 by the mode of welding; Dowel bolt 1 is connected with setscrew nut 1 through mounting hole one, and dowel bolt 2 20 is connected with setscrew nut 2 19 through mounting hole two.

The principle of work of the pay-off in this fried bean curd automatic processing device is as follows, plant personnel is added the cooking oil of 2/3rds volumes in oil cauldron, cooking oil is heated to frying temperature, the whole plate bean curd of having cut apart is put on load-transfer device 3, PLC Programmable Logic Controller 37 is controlled the output shaft forward of pushing motor 13, the output shaft driven gear 17 of pushing motor 13 is forward together, gear 17 moves to the direction near oil cauldron 18 with carry-over bar 6, tooth bar 6 drives delivery sheet 1 to the direction near oil cauldron 18, to move together, delivery sheet one 5 driving conveying belts 3 move to the direction near oil cauldron 18 together, load-transfer device 3 drives bean curd to the direction near oil cauldron 18, to move together, load-transfer device 3 when 3/4 moves to behind the top of oil cauldron 18, contact block 1 fixing on delivery sheet 1 contacts with travel switch 1, travel switch 1 passes to PLC Programmable Logic Controller 37 by this signal, PLC Programmable Logic Controller 37 is controlled the output shaft reversion of pushing motor 13, the output shaft driven gear 17 of pushing motor 13 reverses together, gear 17 moves to the direction away from oil cauldron 18 with carry-over bar 6, tooth bar 6 drives delivery sheet 1 to the direction away from oil cauldron 18, to move together, delivery sheet one 5 driving conveying belts 3 move to the direction away from oil cauldron 18 together, load-transfer device 3 drives bean curd to the direction away from oil cauldron 18, to move together, simultaneously, PLC Programmable Logic Controller 37 is controlled the output shaft forward of power motor 2, the output shaft of power motor 2 drives driving gear 27 forward together, driving gear 27 drives driven gear 28, driven gear 28 drives imput shaft 30 forward together, imput shaft 30 driving conveying belts 3 are forward together, along with load-transfer device 3 moves the forward with load-transfer device 3 to the direction away from oil cauldron 18, the whole plate bean curd that is placed on load-transfer device 3 being poured in oil cauldron 18 one by one, and be evenly distributed in oil cauldron 18, contact block 28 fixing on delivery sheet 1 contacts with travel switch 27, travel switch 27 passes to PLC Programmable Logic Controller 37 by this signal, PLC Programmable Logic Controller 37 controls pushing motor 13 and power motor 2 stops operating, plant personnel is carried out the fried operation of bean curd, when load-transfer device 3 tension, unscrew the corresponding setscrew nut 1 of dowel bolt 1 and dowel bolt 2 20 and setscrew nut 2 19, the first driven shaft bearing 33 and the second driven shaft bearing 21 are moved to the direction near oil cauldron 18, load-transfer device 3 is adjusted to suitable elasticity, screws the corresponding setscrew nut 1 of dowel bolt 1 and dowel bolt 2 20 and setscrew nut 2 19, when load-transfer device 3 is crossed pine, unscrew the corresponding setscrew nut 1 of dowel bolt 1 and dowel bolt 2 20 and setscrew nut 2 19, the first driven shaft bearing 33 and the second driven shaft bearing 21 are moved to the direction away from oil cauldron 18, load-transfer device 3 is adjusted to suitable elasticity, screws the corresponding setscrew nut 1 of dowel bolt 1 and dowel bolt 2 20 and setscrew nut 2 19.

Embodiment bis-:

Content in the present embodiment two is roughly identical with the content in embodiment mono-, difference is that the actuating unit in embodiment mono-comprises power motor 2, driving gear 27 and driven gear 28, power motor 2 is fixed on delivery sheet 21, driving gear 27 is fixed on the output shaft of power motor 2, driven gear 28 is fixed in imput shaft 30, and driving gear 27 and driven gear 28 are meshed; And in the present embodiment two, as shown in Figure 3, actuating unit comprises power motor 2, driving pulley 34, driven pulley 36 and belt 35, power motor 2 is fixed on delivery sheet 21, driving pulley 34 is fixed on the output shaft of power motor 2, moving belt pulley is fixed in imput shaft 30, and belt 35 is arranged between driving pulley 34 and driven pulley 36.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various modifications or supplements or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Although more used delivery sheet 21 herein, power motor 2, load-transfer device 3, frame 4, delivery sheet 1, tooth bar 6, travel switch 27, contact block 28, rotating shaft 1, antifriction-bearing box 1, contact block 1, travel switch 1, pushing motor 13, guide rail 1, dowel bolt 1, setscrew nut 1, gear 17, oil cauldron 18, setscrew nut 2 19, dowel bolt 2 20, the second driven shaft bearing 21, antifriction-bearing box 2 22, rotating shaft 2 23, guide rail 2 24, asessory shaft 25, the second asessory shaft bearing 26, driving gear 27, driven gear 28, the second imput shaft bearing 29, imput shaft 30, the first imput shaft bearing 31, the first asessory shaft bearing 32, the first driven shaft bearing 33, driving pulley 34, belt 35, driven pulley 36, PLC Programmable Logic Controller 37, driven shaft 38 terms such as grade, but do not get rid of the possibility of using other term.Use these terms to be only used to describe more easily and explain essence of the present utility model; They are construed to any additional restriction is all contrary with the utility model spirit.

Claims (8)

1. the pay-off in a fried bean curd automatic processing device, described fried bean curd automatic processing device comprises frame (4) and oil cauldron (18), it is characterized in that, this pay-off comprises delivery sheet one (5) and the delivery sheet two (1) in oil cauldron (18) sidepiece, described delivery sheet one (5) and delivery sheet two (1) are parallel to each other, mode by axial restraint and circumferentially rotation between one end of one end of delivery sheet one (5) and delivery sheet two (1) is provided with imput shaft (30), mode by axial restraint and circumferentially rotation between the other end of the other end of delivery sheet one (5) and delivery sheet two (1) is provided with driven shaft (38), between described imput shaft (30) and driven shaft (38), be arranged with load-transfer device (3), described imput shaft (30) and one can drive the actuating unit of its rotation to be connected, described delivery sheet one (5) or delivery sheet two (1) and can drive its pushing mechanism moving around towards oil cauldron (18) to be connected.

2. the pay-off in fried bean curd automatic processing device according to claim 1, it is characterized in that, described pushing mechanism comprises guide rail one (14), guide rail two (24), tooth bar (6), some antifriction-bearing boxs one (10), some antifriction-bearing boxs two (22), gear (17) and pushing motor (13), described guide rail one (14) is parallel with guide rail two (24) to be fixed in frame (4), the inner ring of described some antifriction-bearing boxs one (10) is fixed on delivery sheet one (5) by rotating shaft one (9), the inner ring of described some antifriction-bearing boxs two (22) is fixed on delivery sheet two (1) by rotating shaft two (23), the outer ring of described antifriction-bearing box one (10) is all arranged in the track of guide rail one (14), the outer ring of described antifriction-bearing box two (22) is all arranged in the track of guide rail two (24), described tooth bar (6) is fixed on delivery sheet one (5) or delivery sheet two (1), and the arranged direction of tooth bar (6) parallels with the length direction of delivery sheet one (5), described pushing motor (13) is fixed in frame (4), gear (17) is fixed on the output shaft of pushing motor (13), and gear (17) is meshed with tooth bar (6).

3. the pay-off in fried bean curd automatic processing device according to claim 1, it is characterized in that, described actuating unit comprises power motor (2), driving gear (27) and driven gear (28), described power motor (2) is fixed on delivery sheet one (5) or delivery sheet two (1), driving gear (27) is fixed on the output shaft of power motor (2), it is upper that driven gear (28) is fixed on imput shaft (30), and driving gear (27) and driven gear (28) are meshed.

4. the pay-off in fried bean curd automatic processing device according to claim 1, it is characterized in that, described actuating unit comprises power motor (2), driving pulley (34), driven pulley (36) and belt (35), described power motor (2) is fixed on delivery sheet one (5) or delivery sheet two (1), described driving pulley (34) is fixed on the output shaft of power motor (2), described driven pulley (36) is fixed in imput shaft (30), described belt (35) is arranged between driving pulley (34) and driven pulley (36).

5. the pay-off in fried bean curd automatic processing device according to claim 1, it is characterized in that, in described frame (4), be fixed with travel switch one (12) and travel switch two (7), on described delivery sheet one (5), be fixed with contact block one (11) and the contact block two (8) of protrusion, described contact block one (11) can contact with described travel switch one (12), described contact block two (8) can contact with described travel switch two (7), described travel switch one (12) is connected with a PLC Programmable Logic Controller (37) by circuit with travel switch two (7), above-mentioned pushing motor (13) is connected with PLC Programmable Logic Controller (37) by circuit with power motor (2).

6. the pay-off in fried bean curd automatic processing device according to claim 1, it is characterized in that, between described imput shaft (30) and driven shaft (38), be also provided with some asessory shafts (25), the two ends of described asessory shaft (25) are arranged on delivery sheet one (5) and delivery sheet two (1) by the mode of axial restraint and circumferentially rotation respectively.

7. the pay-off in fried bean curd automatic processing device according to claim 6, it is characterized in that, one end of described imput shaft (30) is sheathed and be fixed with the first active bearings, described the first active bearings is outside equipped with the first imput shaft bearing (31), and the first described imput shaft bearing (31) is fixed on delivery sheet one (5); The other end of described imput shaft (30) is sheathed and be fixed with the second active bearings, and described the second active bearings is outside equipped with the second imput shaft bearing (29), and the second described imput shaft bearing (29) is fixed on delivery sheet two (1); One end of described driven shaft (38) is sheathed and be fixed with the first driven bearing, and described the first driven bearing is outside equipped with the first driven shaft bearing (33), and the first described driven shaft bearing (33) is fixed on delivery sheet one (5); The other end of described driven shaft (38) is sheathed and be fixed with the second driven bearing, and described the second driven bearing is outside equipped with the second driven shaft bearing (21), and the second described driven shaft bearing (21) is fixed on delivery sheet two (1); One end of described asessory shaft (25) is sheathed and be fixed with the first auxiliary bearing, and described the first auxiliary bearing is outside equipped with the first asessory shaft bearing (32), and the first described asessory shaft bearing (32) is fixed on delivery sheet one (5); The other end of described asessory shaft is sheathed and be fixed with the second auxiliary bearing, and described the second auxiliary bearing is outside equipped with the second asessory shaft bearing (26), and the second described asessory shaft bearing (26) is fixed on delivery sheet two (1).

8. the pay-off in fried bean curd automatic processing device according to claim 7, it is characterized in that, on described delivery sheet one (5), offer the mounting hole one that is bar shaped, on described delivery sheet two (1), offer the mounting hole two that is bar shaped, in the first described driven shaft bearing (33) and the second driven shaft bearing (21), be fixed with respectively dowel bolt one (15) and dowel bolt two (20), described dowel bolt one (15) is connected with setscrew nut one (16) through mounting hole one, and described dowel bolt two (20) is connected with setscrew nut two (19) through mounting hole two.