CN212233087U - Negative-pressure adsorption, demolding and transferring device for steamed cake - Google Patents

Abstract

The utility model relates to a evaporate cake negative pressure and adsorb drawing of patterns transfer device, including drawing of patterns frame and negative pressure adsorption mechanism, the top between production water line output and the packing assembly line input is erect to the drawing of patterns frame, the last sideslip mechanism that installs drive negative pressure adsorption mechanism translation between production water line output and packing assembly line input of drawing of patterns frame, negative pressure adsorption mechanism fixed mounting is in sideslip mechanism. This evaporate cake negative pressure and adsorb drawing of patterns transfer device degree of automation is high, work efficiency is high, sanitary, and the cake drawing of patterns is simple.

Description

Negative-pressure adsorption, demolding and transferring device for steamed cake

Technical Field

The utility model particularly relates to a evaporate cake negative pressure and adsorb drawing of patterns transfer device.

Background

The cake is a traditional cake, has good flavor, soft mouthfeel and attractive appearance, and is popular with consumers. Currently, the process of making cake generally includes preparing egg-breaking, preparing cake slurry, injection molding, and baking. At present, in cake production, deviate from in order to follow the mould smoothly with the cake after will making, the cake mould of prior art is mostly the open overall structure in top, and during the cake drawing of patterns, the manual work is with cake mould upset, strikes cake mould after that, utilizes the vibrations effect to make the cake deviate from, and degree of automation is low, and work efficiency is low, and is difficult for cleanly, and sanitary situation is poor. The cake is complicated to put in and take out, which affects the quality and beauty of the cake.

SUMMERY OF THE UTILITY MODEL

In view of the deficiencies of the prior art, the utility model aims to solve the technical problem that a steaming cake negative pressure adsorption demoulding transfer device with high automation degree, high working efficiency, sanitation and simple cake demoulding is provided.

In order to solve the technical problem, the utility model discloses a technical scheme is: the utility model provides a evaporate cake negative pressure and adsorb drawing of patterns transfer device, includes drawing of patterns frame and negative pressure adsorption mechanism, the drawing of patterns frame erects the top between production water line output and the packing assembly line input, the installation has the sideslip mechanism of drive negative pressure adsorption mechanism translation between production water line output and packing assembly line input on the drawing of patterns frame, negative pressure adsorption mechanism fixed mounting is in sideslip mechanism.

Preferably, the transverse moving mechanism comprises a transverse moving motor, a transverse moving shaft, an installation frame and two rows of transverse moving racks, the two rows of transverse moving racks are parallelly installed on the demolding frame and are located above the space between the production line and the packaging line, the transverse moving shaft is erected between the two rows of transverse moving racks, transverse moving gears corresponding to the transverse moving racks are respectively fixed at two ends of the transverse moving shaft, at least two hanging blocks are sleeved on the transverse moving shaft, the installation frame is fixed at the bottoms of the hanging blocks, and the transverse moving motor is fixed at one end of the transverse moving shaft.

Preferably, the negative pressure adsorption mechanism includes the sucking disc, inhales die head and elevating system, the lower terminal surface at the sucking disc is fixed to the die head, the sucking disc is located the mounting bracket under, elevating system fixes and is used for driving the sucking disc to go up and down on the mounting bracket, the up end of sucking disc is connected with an at least negative pressure exhaust column, the negative pressure exhaust column communicates to the air exhauster.

Preferably, elevating system includes first lift cylinder, first lift axle, first initiative lift wheel, first driven lift wheel, first lift chain, second lift cylinder, second lift axle, second initiative lift wheel, second driven lift wheel and second lift chain, the piston end of first lift cylinder and the piston end dorsad setting of second lift cylinder, first lift axle and second lift axle parallel arrangement and both ends rotate and install on the mounting bracket, first lift cylinder rotates through the first lift axle of first turning arm drive, second lift cylinder rotates through second turning arm drive second lift axle, the one end at first lift axle is fixed to first initiative lift wheel, first driven lift wheel rotates and installs on the mounting bracket, the one end of first lift chain is fixed on first initiative lift wheel, the other end of first lift chain passes through the bottom of first initiative lift wheel and the top of first driven lift wheel in proper order Fixed connection is at the up end of sucking disc after the portion, the one end at second lift axle is fixed to second initiative lifting wheel, the driven lifting wheel of second rotates and installs on the mounting bracket, the one end of second lift chain is fixed on second initiative lifting wheel, fixed connection is at the up end of sucking disc after the other end of second lift chain passes through the top of second initiative lifting wheel and the top of the driven lifting wheel of second in proper order.

Preferably, synchronous gears are symmetrically fixed on the first lifting shaft and the second lifting shaft, and a synchronous chain is sleeved between the two synchronous gears.

Preferably, the transverse moving mechanism further comprises two auxiliary rotating shafts, the two auxiliary rotating shafts are respectively matched with the two rows of transverse moving racks, auxiliary gears matched with the corresponding transverse moving racks are fixed at one ends of the auxiliary rotating shafts, and auxiliary hanging blocks connected with the tops of the mounting racks are fixed at the other ends of the auxiliary rotating shafts.

Compared with the prior art, the utility model discloses following beneficial effect has: this evaporate cake negative pressure and adsorb drawing of patterns transfer device erects the top between production water line output and packing assembly line input with the drawing of patterns frame, then adsorbs the drawing of patterns to the cake in cake mould through the negative pressure adsorption device on the drawing of patterns frame to on transferring to the packing assembly line from the production water line through the cake after the sideslip mechanism will demold, thereby realize automatic cake drawing of patterns, degree of automation is high, work efficiency is high, sanitation, and the cake drawing of patterns is simple.

Drawings

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

Fig. 2 is a schematic structural diagram of a lifting mechanism according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a traverse mechanism according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of an auxiliary rotating shaft according to an embodiment of the present invention.

The labels in the figure are: 601. demoulding the mould frame; 602. a negative pressure adsorption mechanism; 603. a traversing mechanism; 604. a traversing motor; 605. traversing the shaft; 606. transversely moving the rack; 607. a lateral moving gear; 608. a hanging block; 609. a mounting frame; 610. a suction cup; 611. a suction die head; 612. a lifting mechanism; 613. a negative pressure exhaust pipe; 614. a first lifting cylinder; 615. a first lifting shaft; 616. a first driving lifting wheel; 617. a first driven lifting wheel; 618. a first lifting chain; 619. a second lifting cylinder; 620. a second lifting shaft; 621. a second driving lifting wheel; 622. a second driven lifting wheel; 623. a second lifting chain; 624. a first crank arm; 625. a second crank arm; 626. a synchronizing gear; 627. a synchronization chain; 628. an auxiliary rotating shaft; 629. an auxiliary gear; 630. an exhaust fan; 631. and (5) auxiliary hoisting blocks.

Detailed Description

In order to make the aforementioned and other features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

As shown in fig. 1-4, a evaporate cake negative pressure and adsorb drawing of patterns transfer device, includes drawing of patterns frame 601 and negative pressure adsorption mechanism 602, drawing of patterns frame 601 erects the top between production water line output and the packing assembly line input, install the sideslip mechanism 603 that drives negative pressure adsorption mechanism 602 translation between production water line output and packing assembly line input on the drawing of patterns frame 601, negative pressure adsorption mechanism 602 fixed mounting is on sideslip mechanism 603.

In this embodiment, the traverse mechanism 603 includes a traverse motor 604, a traverse shaft 605, a mounting rack 609, and two rows of traverse racks 606, the two rows of traverse racks 606 are installed on the demolding frame 601 in parallel and are located above the space between the production line and the packaging line, the traverse shaft 605 is erected between the two rows of traverse racks 606, traverse gears 607 corresponding to the traverse racks 606 are respectively fixed at two ends of the traverse shaft 605, at least two hanging blocks 608 are sleeved on the traverse shaft 605, the mounting rack 609 is fixed at the bottom of the hanging blocks 608, and the traverse motor 604 is fixed at one end of the traverse shaft 605.

In this embodiment, the negative pressure suction mechanism 602 includes a suction cup 610, a suction die head 611 and a lifting mechanism 612, the suction die head 611 is fixed on the lower end surface of the suction cup 610, the suction cup 610 is located right below the mounting frame 609, the lifting mechanism 612 is fixed on the mounting frame 609 to drive the suction cup 610 to lift, at least one negative pressure exhaust pipe 613 is connected to the upper end surface of the suction cup 610, and the negative pressure exhaust pipe 613 is communicated to the exhaust fan 630.

In this embodiment, the lifting mechanism 612 includes a first lifting cylinder 614, a first lifting shaft 615, a first driving lifting wheel 616, a first driven lifting wheel 617, a first lifting chain 618, a second lifting cylinder 619, a second lifting shaft 620, a second driving lifting wheel 621, a second driven lifting wheel 622, and a second lifting chain 623, a cylinder body of the first lifting cylinder 614 and a cylinder body of the second lifting cylinder 619 are fixedly mounted on the mounting block 609, a piston end of the first lifting cylinder 614 and a piston end of the second lifting cylinder 619 are oppositely disposed, the first lifting shaft 615 and the second lifting shaft 620 are disposed in parallel and both ends are rotatably mounted on the mounting block 609, the first lifting cylinder 614 drives the first lifting crank shaft 615 to rotate through a first crank arm 624, the second lifting cylinder 619 drives the second lifting shaft 620 to rotate through a second crank arm 625, the first driving lifting wheel 616 is fixed at one end of the first lifting shaft 615, the first driven lifting wheel 617 is rotatably mounted on the mounting frame 609, one end of the first lifting chain 618 is fixed to the first driving lifting wheel 616, the other end of the first lifting chain 618 passes through the bottom of the first driving lifting wheel 616 and the top of the first driven lifting wheel 617 in turn and then is fixedly connected to the upper end surface of the suction cup 610, the second driving elevating wheel 621 is fixed to one end of the second elevating shaft 620, the second driven elevating wheel 622 is rotatably mounted on the mounting frame 609, one end of the second lifting chain 623 is fixed on the second driving lifting wheel 621, and the other end of the second lifting chain 623 sequentially passes through the top of the second driving lifting wheel 621 and the top of the second driven lifting wheel 622 and then is fixedly connected to the upper end face of the suction cup 610, and preferably, two lifting mechanisms 612 are symmetrically arranged on two sides of the top of the suction cup 610 to keep the lifting stability of the suction cup 610.

In this embodiment, the first lifting shaft 615 and the second lifting shaft 620 are symmetrically fixed with synchronizing gears 626, and a synchronizing chain 627 is sleeved between the two synchronizing gears 626.

In this embodiment, the traversing mechanism further includes two auxiliary rotating shafts 628, the two auxiliary rotating shafts 628 are respectively matched with the two rows of traversing racks 606, an auxiliary gear 629 matched with the corresponding traversing rack 606 is fixed at one end of each auxiliary rotating shaft 628, and an auxiliary hanging block 631 connected with the top of the mounting rack 609 is fixed at the other end of each auxiliary rotating shaft 628.

The utility model discloses a theory of operation is: the piston rod of the first lifting cylinder 614 extends out, the first lifting cylinder 614 drives the first lifting shaft 615 to rotate through the first crank arm 624, the first lifting shaft 615 drives the first driving lifting wheel 616 to rotate clockwise, meanwhile, the piston rod of the second lifting cylinder 619 contracts, the second lifting cylinder 619 drives the second lifting shaft 620 to rotate through the second crank arm 625, the second lifting shaft 620 drives the second driving lifting wheel 616 to rotate clockwise, at the moment, the suction cup is arranged below the first lifting chain 618 and the second lifting chain 623, the exhaust fan is started, the cake on the cake mold is sucked by the suction head 611 on the suction cup 610, the first lifting cylinder 614 and the second lifting cylinder 619 reset, the cake can be separated from the cake mold through the negative pressure suction mechanism 602, then the transverse moving motor 604 drives the transverse moving shaft 605 to rotate, the transverse moving gear 607 moves on the corresponding rack transverse moving 606, and the cake sucked on the suction head 611 is brought to the corresponding station of the packaging production line, the first lifting cylinder 614 and the second lifting cylinder 619 are started again, the cake is placed on the corresponding station, the exhaust fan is closed, the cake is taken off the die sucking head 611 immediately, the first lifting cylinder 614 and the second lifting cylinder 619 are reset again, then the transverse moving mechanism 603 is reset, and the next adsorption, demolding and transferring process can be carried out.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any person skilled in the art should not depart from the technical scope of the present invention, and any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should fall within the scope of the present invention.

Claims (6)

1. The utility model provides a evaporate cake negative pressure and adsorb drawing of patterns transfer device which characterized in that: including drawing of patterns frame and negative pressure adsorption apparatus structure, drawing of patterns frame erects the top between production water line output and the packing assembly line input, the installation has the sideslip mechanism of drive negative pressure adsorption apparatus structure translation between production water line output and packing assembly line input on the drawing of patterns frame, negative pressure adsorption apparatus constructs fixed mounting on sideslip mechanism.

2. The negative pressure adsorption, demolding and transferring device for steamed cakes according to claim 1, characterized in that: the transverse moving mechanism comprises a transverse moving motor, a transverse moving shaft, an installation frame and two rows of transverse moving racks, the two rows of transverse moving racks are parallelly installed on the demolding frame and located above a position between the production line and the packaging line, the transverse moving shaft is erected between the two rows of transverse moving racks, transverse moving gears corresponding to the transverse moving racks are respectively fixed at two ends of the transverse moving shaft, at least two hanging blocks are sleeved on the transverse moving shaft, the installation frame is fixed at the bottoms of the hanging blocks, and the transverse moving motor is fixed at one end of the transverse moving shaft.

3. The negative-pressure cake-steaming, adsorption, demolding and transferring device as claimed in claim 2, wherein: the negative pressure adsorption mechanism comprises a sucker, a sucker head and a lifting mechanism, the sucker head is fixed on the lower end face of the sucker, the sucker is located under the mounting frame, the lifting mechanism is fixed on the mounting frame and used for driving the sucker to lift, the upper end face of the sucker is connected with at least one negative pressure exhaust pipe, and the negative pressure exhaust pipe is communicated to the exhaust fan.

4. The negative pressure cake-steaming, adsorption, demolding and transferring device as claimed in claim 3, wherein: elevating system includes first lift cylinder, first lift axle, first initiative lift wheel, first driven lift wheel, first lift chain, second lift cylinder, second lift axle, second initiative lift wheel, second driven lift wheel and second lift chain, the piston end of first lift cylinder and the piston end dorsad of second lift cylinder set up, first lift axle and second lift axle parallel arrangement and both ends rotate and install on the mounting bracket, first lift cylinder rotates through the first lift axle of first turning arm drive, second lift cylinder rotates through second turning arm drive second lift axle, the one end at first lift axle is fixed to first initiative lift wheel, first driven lift wheel rotates and installs on the mounting bracket, the one end of first lift chain is fixed on first initiative lift wheel, the other end of first lift chain is fixed behind the bottom of first initiative lift wheel and the top of first driven lift wheel in proper order The up end at the sucking disc is connected, the one end at second lift axle is fixed to second initiative lifting wheel, the driven lifting wheel of second rotates and installs on the mounting bracket, the one end of second lift chain is fixed on second initiative lifting wheel, fixed connection is at the up end of sucking disc after the top of second initiative lifting wheel and the top of the driven lifting wheel of second in proper order to the other end of second lift chain.

5. The negative pressure cake adsorption, demolding and transferring device as claimed in claim 4, wherein: synchronous gears are symmetrically fixed on the first lifting shaft and the second lifting shaft, and a synchronous chain is sleeved between the two synchronous gears.

6. The negative-pressure cake-steaming, adsorption, demolding and transferring device as claimed in claim 2, wherein: the transverse moving mechanism further comprises two auxiliary rotating shafts, the two auxiliary rotating shafts are respectively matched with the two rows of transverse moving racks, auxiliary gears matched with the corresponding transverse moving racks are fixed at one ends of the auxiliary rotating shafts, and auxiliary hanging blocks connected with the tops of the mounting racks are fixed at the other ends of the auxiliary rotating shafts.

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