CN207219991U - A kind of cake skin automatic conveyor - Google Patents

Abstract

The utility model discloses a kind of cake skin automatic conveyor, including：The cake skin mould emptier that cake skin is adsorbed from cake skin mould；The lower end of the cake skin mould emptier is arranged on, the cake skin of the cake skin mould emptier absorption is received and cake skin is delivered to the demoulding guiding mechanism of bottom by guide frame；The upper end of cake filling mould is arranged on, absorption is slid to the cake skin of the demoulding guiding mechanism bottom, and cake skin is rotated to the revolving die mechanism being placed into cake filling mould.The utility model cake skin automatic conveyor sets the cake skin mould emptier continuously acted, demoulding guiding mechanism and revolving die mechanism; from cake skin mould rack; transmission cake skin sequentially through cake skin mold mechanism position when, cake skin mold mechanism absorption cake skin simultaneously be transferred to demould guiding mechanism in；The utility model device is worked continuously, to realize continuous productive process by realizing that automation acts.

Description

A kind of cake skin automatic conveyor

Technical field

It the utility model is related to cake making line technology field, more particularly to a kind of cake skin automatic conveyor.

Background technology

In the prior art, it is general first in cake skin mould in the production process of production line for making layer cake Injection makes the slurry of cake skin on tool, makes cake skin, the cake skin made then is gone to another mould again, That is, cake filling mould, after cake skin is gone to cake filling mould, sandwich slurry is injected on cake filling mould and forms cake The slurry of bottom, after baking, the making of complete whole cake.

But in the prior art, cake skin is gone into cake filling mould from cake skin mould, it is impossible to real by automechanism It is existing, it is difficult to which that realization is worked continuously, to realize continuous productive process.

In view of drawbacks described above, the utility model creator obtains this creation finally by prolonged research and practice.

The content of the invention

The purpose of this utility model is to provide a kind of cake skin automatic conveyor, to solve cake skin in the prior art It cannot be automatically sent to revolving die mechanism technology problem.

To achieve these goals, the technical solution of the utility model is：A kind of cake skin automatic conveyor, including：

The cake skin mould emptier that cake skin is adsorbed from cake skin mould；

The lower end of the cake skin mould emptier is arranged on, receives the cake skin of the cake skin mould emptier absorption and by leading Cake skin is delivered to the demoulding guiding mechanism of bottom to structure；

It is arranged on the upper end of cake filling mould, absorption is slid to the cake skin of the demoulding guiding mechanism bottom, and by egg Cake skin rotates the revolving die mechanism being placed into cake filling mould.

Further, the cake skin mould emptier includes：The end of the cake skin mould rack is arranged on, passes through swing Movement, the suction nozzle driving mechanism that cake skin is adsorbed and discharged under pressure control effect；

It is arranged on the cake skin mould rack, is rotated along it sequentially to convey the cake skin conveyer belt of cake skin；

And be arranged on the cake skin mould rack, drive the chain gear transmission machine of the cake skin conveying V belt translation Structure.

Further, the suction nozzle driving mechanism includes：First connecting rod mechanism passes through the first cylinder drive sprocket mechanism band The second connecting rod driving mechanism that dynamic second connecting rod is swung；

The first connecting rod mechanism being connected with the second connecting rod driving mechanism；

Suction nozzle stent of the one end of first connecting rod mechanism and second connecting rod driving mechanism with the first suction nozzle is connected；It is and right The adsorption structure of the first suction nozzle control.

Further, the first connecting rod mechanism includes the first motor, be connected by the first belt with the first motor One belt pulley, the second belt pulley being connected by the second belt with the first belt pulley, are connected with the first company on the second belt pulley Bar, first connecting rod are connected on suction nozzle stent；

The second connecting rod driving mechanism includes the first cylinder, is connected by the first drive chain with the first cylinder piston rod The first drive sprocket, the second drive sprocket being connected by the second drive chain with the first drive sprocket, the second drive sprocket It is upper that the second connecting rod rotated with the second drive sprocket, second connecting rod and the connection axis connection of suction nozzle stent side portion are set.

Further, the adsorption structure includes the first four-way valve and the first air blower being arranged on suction nozzle stent, The first air inlet, the second air inlet being connected with the first air blower, first be connected with the first suction nozzle are set on the first four-way valve Inlet and outlet, second import and export, set the first hinge inside first four-way valve, are controlled by the rotating of the first hinge The conversion into outlet of first four-way valve；The first cylinder switching with the first hinge connection is set on first four-way valve, Pass through the flexible swing for realizing the first hinge of the first cylinder switching.

Further, the demoulding guiding mechanism includes being oriented to bottom plate, and the side for being oriented to bottom plate sets the reception cake skin One row's mold cup of cake skin of mould emptier release；

The gib block being obliquely installed is provided with the offside of the mold cup, is set between gib block for cake skin from top to bottom The guide groove of landing；Cake skin is slid to bottom from mold cup along guide groove.

Further, the sidepiece of the demoulding guiding mechanism sets baffle arrangement, and the baffle arrangement includes and cake skin The inclined plate connecting rod of mould rack connection, the gear cake bottom plate being connected with the inclined plate connecting rod, and the company being arranged on gear cake bottom plate Continuous arc gear cake plate.

Further, the revolving die mechanism includes revolving die stent, is arranged on absorption demoulding Guiding machine on the revolving die stent Cake skin on structure and the suction nozzle assembly being placed on cake filling mould, are arranged on the revolving die stent and pass through pressure control The suction unit of suction nozzle assembly, is arranged on the clamping unit that suction unit is fixed on the revolving die stent, further includes and set Put the rotational structure for supplying the revolving die mechanism to rotate at the both ends of the revolving die stent.

Further, the suction nozzle assembly includes the first suction nozzle cylinder being inclined on the revolving die stent, and It is arranged on the second suction nozzle cylinder of the tailpiece of the piston rod of the first suction nozzle cylinder；The tailpiece of the piston rod connection second of second suction nozzle cylinder Suction nozzle, passes through the flexible of the second suction nozzle cylinder, the linear motion of the second suction nozzle of control；Pass through the flexible of the first suction nozzle cylinder, control Make the rotation of the second suction nozzle.

Further, the suction nozzle assembly includes the shaft core through revolving die stent；Set in the revolving die stent side portion Block is rotatablely connected, to be connected with the stent of cake filling mould；Set to the second suction nozzle and supply in the upper end of second suction nozzle The suction nozzle connecting tube of gas, sets suction nozzle connector sleeve to fix the second suction nozzle in suction nozzle connecting tube.

The utility model has the advantages that compared with prior art：The utility model cake skin automatic conveyor The cake skin mould emptier continuously acted, demoulding guiding mechanism and revolving die mechanism, from cake skin mould rack, transmission be set and Come cake skin sequentially through cake skin mold mechanism position when, cake skin mold mechanism absorption cake skin simultaneously be transferred to the demoulding be oriented to In mechanism；Cake skin is placed into the cake filling mould of lower section by revolving die mechanism after cake skin is received；The utility model fills Put by realizing that automation acts, work continuously, to realize continuous productive process.

Further, the cake skin mould emptier of the utility model is by adsorbing cake skin under being acted in pressure control And the suction nozzle driving mechanism of release, chain wheel driving mechanism realize the conveying of cake skin and absorption of the cake skin mould emptier to cake skin And the synchronization job discharged, conveniently work continuously.

Further, the first connecting rod mechanism of the utility model, the first suction nozzle of second connecting rod driving mechanisms control are continuously put Dynamic, pneumatic control facilitates easy to operate.

Further, the demoulding guiding mechanism of the utility model sets hang plate, and for the guide groove that cake skin slides, egg Cake skin slides automatically, and the landing time provides the time difference for the action of cake skin mould emptier, revolving die mechanism, conveniently works continuously；Together When, in order to ensure that cake skin cannot slide, the utility model sets baffle arrangement, and egg can be accommodated by keeping off setting on cake structure The multiple arcs recess of cake skin shape.

Further, the revolving die mechanism of the utility model passes through pneumatic control by setting suction unit and suction nozzle assembly Gas nozzle is adsorbed and discharged, and drives the rotation of revolving die stent to drive suction nozzle to swing by two groups of cylinders being obliquely installed, by cake Skin is adsorbed in cake filling mould from demoulding guiding mechanism, and convenient control, realizes auto-action.

Brief description of the drawings

Fig. 1 is the dimensional structure diagram of the cake skin automatic conveyor of the utility model；

Fig. 2 a are positive structure diagram of the cake skin mould emptier of the utility model after cake skin is adsorbed；

Fig. 2 b are side structure schematic view of the cake skin mould emptier of the utility model in Fig. 2 a states；

Fig. 2 c are overlooking the structure diagram of the cake skin mould emptier of the utility model in Fig. 2 a states；

Fig. 3 is positive structure diagram of the cake skin mould emptier of the utility model when adsorbing cake skin；

Fig. 4 is the adsorption structure schematic diagram of the suction nozzle of the cake skin mould emptier of the utility model；

Fig. 5 a are facing structure of the suction nozzle driving mechanism of the cake skin mould emptier of the utility model after cake skin is adsorbed Schematic diagram；

Fig. 5 b are facing structure of the suction nozzle driving mechanism of the cake skin mould emptier of the utility model when adsorbing cake skin Schematic diagram；

Fig. 5 c are the side structure schematic view of the suction nozzle driving mechanism of the cake skin mould emptier of the utility model；

Fig. 6 is the dimensional structure diagram of the demoulding guiding mechanism of the utility model；

Fig. 7 is the positive structure diagram of the demoulding guiding mechanism of the utility model；

Fig. 8 a are the positive structure diagram of the revolving die mechanism of the utility model；

Fig. 8 b are side view structure signal of the revolving die mechanism of the utility model when adsorbing cake skin from demoulding guiding mechanism Figure；

Fig. 8 c are side structure schematic view of the revolving die mechanism of the utility model when placing cake skin to cake filling mould；

Fig. 9 is the positive structure diagram of the suction unit of the revolving die mechanism of the utility model；

Figure 10 is the overlooking the structure diagram of the suction unit of the revolving die mechanism of the utility model；

Figure 11 is the positive structure diagram of the suction nozzle assembly of the revolving die mechanism of the utility model；

Figure 12 is the side structure schematic view of the suction nozzle assembly of the revolving die mechanism of the utility model；

Figure 13 is the dimensional structure diagram of the clamping unit of the utility model.

Embodiment

Below in conjunction with attached drawing, and other technical characteristic above-mentioned to the utility model and advantage are described in more detail.

The preferred embodiment of the utility model described with reference to the accompanying drawings.It should be understood by those skilled in the art that It is that these embodiments are used only for explaining the technical principle of the utility model, it is not intended that limit the protection of the utility model Scope.

It should be noted that in the description of the utility model, term " on ", " under ", "left", "right", " interior ", " outer " etc. The direction of instruction or the term of position relationship are to be based on direction shown in the drawings or position relationship, this, which is intended merely to facilitate, retouches State, rather than instruction or imply that described device or element there must be specific orientation, with specific azimuth configuration and operation, because This is it is not intended that limitation to the utility model.In addition, term " first ", " second " are only used for description purpose, and cannot manage Solve to indicate or implying relative importance.

In addition it is also necessary to explanation, in the description of the utility model, unless otherwise clearly defined and limited, art Language " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or It is integrally connected；Can mechanically connect or be electrically connected；It can be directly connected, can also be by between intermediary Connect connected, can be the connection inside two elements.To those skilled in the art, can understand as the case may be above-mentioned Concrete meaning of the term in the utility model.

Refering to Figure 1, its dimensional structure diagram for the cake skin automatic conveyor of the utility model；Bag Include：The cake skin mould emptier 1 that cake skin is adsorbed from cake skin mould；The lower end of the cake skin mould emptier 1 is arranged on, is connect Receive the cake skin that the cake skin mould emptier 1 adsorbs and cake skin is delivered to the demoulding guiding mechanism of bottom by guide frame 2；Absorption is slid to the cake skin of 2 bottom of the demoulding guiding mechanism, and cake skin is rotated and is placed into cake filling mould 4 Revolving die mechanism 3.

Specifically, the cake skin automatic conveyor of the utility model is to the egg that will be transmitted in cake skin mould Cake skin is adsorbed and shifted, and in the present embodiment, cake skin mould emptier 1 is arranged on cake skin mould rack 14, transmission and The cake skin come sequentially through cake skin mold mechanism 1 position when, cake skin mold mechanism 1 adsorbs cake skin and is transferred to the demoulding and leads Into mechanism 2；Revolving die mechanism 3 is arranged on the stent of cake filling mould 4, and after cake skin is received, cake skin is placed into In the cake filling mould 4 of lower section.

In the present embodiment, cake skin mould emptier 1 and revolving die mechanism 3 pass through the suction cake skin of pressure control.

Refer to shown in Fig. 2 a-2c, its be respectively the utility model cake skin mould emptier after cake skin is adsorbed just Regard structure diagram, the side structure schematic view that Fig. 2 a are the cake skin mould emptier of the utility model in Fig. 2 a states, scheming Overlooking the structure diagram during 2a states；Cake skin mould emptier includes：The end of cake skin mould rack 14 is arranged on, passes through pendulum Dynamic movement, the suction nozzle driving mechanism 11 that cake skin is adsorbed and discharged under pressure control effect；It is arranged on the cake On skin mould rack 14, and rotated along it sequentially to convey the cake skin conveyer belt 13 of cake skin；And it is arranged on the cake On skin mould rack 14, the chain wheel driving mechanism 12 of the transmission of cake skin conveyer belt 13 is driven.

Specifically, the sprocket wheel transport mechanism 12 is arranged on one end of cake skin mould rack 14, in the egg 14 lower end of cake skin mould rack sets supporting leg 141.The suction nozzle driving mechanism 11 drives the first suction nozzle for being arranged on end 113 are rocked to cake skin conveyer belt 13 to adsorb cake skin, vertical state are rocked to, to discharge cake skin.

Please continue to refer to shown in Fig. 2 b-2c, the chain wheel driving mechanism 12 of the present embodiment includes being arranged on cake skin mould branch The first motor 127 on frame 14, be connected with first first sprocket wheels 123 of 127 connections, by the first chain 126 and the first sprocket wheel Second sprocket wheel 122 of 123 connections, the 3rd sprocket wheel 121 being connected by sprocket wheel with the second sprocket wheel 122, and it is arranged on the second chain First rotating shaft 124 on wheel 122, the second shaft 124 being arranged on the 3rd sprocket wheel 121.

Specifically, the present embodiment sets three groups of sprocket wheels, and the 3rd sprocket wheel 121 thereon is driven by the transmission of three groups of sprocket wheels Transmission, conveys cake skin.Cake skin mold cup is arranged side by side in the cake skin conveyer belt 13 of the present embodiment, and often row sets multiple mold cups.

Refer to shown in Fig. 5 a-5c, it is adsorbing egg for the suction nozzle driving mechanism of the cake skin mould emptier of the utility model Positive structure diagram after cake skin, the positive structure diagram when adsorbing cake skin, the side view structure of suction nozzle driving mechanism Schematic diagram；The suction nozzle driving mechanism of the present embodiment includes：First cylinder is passed through by motor-driven drive sprockets, first connecting rod mechanism 1135 drive sprocket mechanisms drive the second connecting rod driving mechanism that second connecting rod 1128 is swung；It is connected with the second connecting rod 1128 Drive first connecting rod 1127 swing first connecting rod mechanism；One end of first connecting rod mechanism and second connecting rod driving mechanism with The suction nozzle stent 1129 of first suction nozzle 113 connects.

Specifically, the first connecting rod mechanism of the present embodiment includes the first motor 1121, passes through the first belt 1122 and First belt pulley 1123 of one motor connection, the second belt pulley being connected by the second belt 1125 with the first belt pulley 1123 1126, first connecting rod 1127 is connected with the second belt pulley 126, first connecting rod 1127 is connected on suction nozzle stent 1129.The One motor drives first connecting rod to swing by belt and belt pulley set, and then drives the first suction nozzle to swing.

Specifically, the second connecting rod driving mechanism of the present embodiment includes the first cylinder 1135, passes through the first drive chain 1135 the first drive sprockets 1133 being connected with the first cylinder piston rod, pass through the second drive chain 1133 and the first drive sprocket Second drive sprockets 1131 of 1133 connections, second rotated with the second drive sprocket 1131 is set on the second drive sprocket 1131 Connecting rod 1128, second connecting rod 1128 are connected with the connecting shaft 1130 of 1129 sidepiece of suction nozzle stent, drive suction nozzle stent 1129 to put It is dynamic.First cylinder, 1135 drive sprocket mechanism drives second connecting rod to swing, and then drives the first suction nozzle to swing.

Please continue to refer to shown in Fig. 5 a-5c and 2a-2c, when the first motor 1121 is rotated according to direction shown in Fig. 5 a, And during the first elongation of cylinder 1135, when sprocket wheel, chain are rotated according to direction shown in figure, suction nozzle is rocked to minimum point, starts to inhale Attached cake skin；When the first cylinder is shunk, when sprocket wheel, chain are rotated according to direction shown in figure, suction nozzle is rocked to peak, the One connecting rod and second connecting rod turn to vertical state, and cake skin mould emptier 1 discharges cake skin.

Refer to shown in Fig. 4, it is the adsorption structure schematic diagram of the suction nozzle of the cake skin mould emptier of the utility model, described Suction nozzle driving mechanism includes controlling first suction nozzle adsorption structure, and the adsorption structure of the present embodiment includes being arranged on suction nozzle branch The first four-way valve 115 and the first air blower 116 on frame 1129, set on the first four-way valve 115 and are connected with the first air blower The first air inlet 1153, the second air inlet 1151, first import and export 1152, the second import and export being connected with the first suction nozzle 1130 1156, the first hinge is set inside first four-way valve, the first four-way is controlled by the rotating of the first hinge 1154 The conversion into outlet of valve；The first cylinder switching 1155 being connected with the first hinge 1154 is set on first four-way valve, Pass through the flexible swing for realizing the first hinge of the first cylinder switching 1155.Specifically, in the first suction cake skin, First four-way valve controls air-breathing, and the first suction nozzle is internally formed negative pressure, cake skin is adsorbed in the first suction nozzle；Inhaled in the first suction nozzle During attached cake skin, the first four-way valve control outlet, the first suction nozzle is internally formed high pressure, cake skin is discharged from the first suction nozzle.

Please continue to refer to shown in Fig. 5 b-5c, baffle arrangement 114 is also set up below the nozzle structure, first After suction nozzle release cake skin, stop that cake skin skids off by baffle arrangement；The baffle arrangement 114 includes and cake skin mould branch The inclined plate connecting rod 1143 of the connection of frame 14, the gear cake bottom plate 1141 being connected with the inclined plate connecting rod 1143, and it is arranged on gear cake bottom Continuous arc gear cake plate 1142 on plate 1141；Set the multiple arcs that can accommodate cake skin shape recessed on gear cake plate 1142 Mouthful, to stop cake skin when being placed into demoulding guiding mechanism 2, cake skin slides out.

Refer to shown in Fig. 6-7, it is the dimensional structure diagram of the demoulding guiding mechanism of the utility model；Tied with facing Structure schematic diagram；Demoulding guiding mechanism 2 includes being oriented to bottom plate 25, and the side for being oriented to bottom plate 25 sets row's mold cup 21, to receive The cake skin of cake skin mould emptier release；The gib block 24 being obliquely installed is provided with the offside of mold cup 21, between gib block 24 The guide groove 23 slid from top to bottom for cake skin is set；Cake skin is slid to bottom from mold cup 21 along guide groove；In order to prevent Cake skin slides and goes out, and the baffle arrangement 114 is arranged on the sidepiece of demoulding guiding mechanism 2, gear cake plate 1142 and guide groove 23 It is corresponding.

Specifically, 25 upper end of guiding bottom plate of the present embodiment is inclined plane, can allow for cake skin to slide；It is being oriented to bottom The both sides of plate 25 set connector 22, are fixed will be oriented to bottom plate 25.Guiding is also set up in the bottom of the guide groove 23 Flow distribution plate 26, is oriented to flow distribution plate 26 and gib block 24 is setting up and down, and cake skin is oriented to.

Refer to shown in Fig. 8 a-8c, it is oriented to for the positive structure diagram of the revolving die mechanism of the utility model, from the demoulding Mechanism adsorb cake skin when side structure schematic view, to cake filling mould place cake skin when side structure schematic view；Turn Mold mechanism 3 includes revolving die stent 34, is arranged on the cake skin on the revolving die stent 34 on absorption demoulding guiding mechanism 2 and places Suction nozzle assembly 31 onto cake filling mould, is arranged on the revolving die stent 34 and by the suction of pressure control suction nozzle assembly 31 Gas unit 32, is arranged on the clamping unit 33 that suction unit is fixed on the revolving die stent 34, further includes and be arranged on institute State the rotational structure 35 that the both ends of revolving die stent 34 supply the revolving die mechanism to rotate.

Specifically, rotational structure 35 is to be arranged on the shaft sleeve of revolving die stent 34, and shaft passes through the shaft sleeve, band Turn mold mechanism is swung.

Continuing with reference to shown in Fig. 8 b, the suction nozzle assembly 31 includes first be inclined on the revolving die stent 34 Suction nozzle cylinder 322, and it is arranged on the second suction nozzle cylinder 323 of the tailpiece of the piston rod of the first suction nozzle cylinder 322, the second suction nozzle The tailpiece of the piston rod of cylinder 323 connects the second suction nozzle 310, by the flexible of the second suction nozzle cylinder 323, controls the straight of the second suction nozzle Line moves；By the flexible of the first suction nozzle cylinder 322, the rotation of the second suction nozzle 310 is controlled.

Specifically, when suction nozzle assembly 31 needs to adsorb the cake skin being arranged on demoulding guiding mechanism 2, the first suction nozzle Cylinder 322 extends, and promotes the second suction nozzle cylinder 323 to swing, also, the second suction nozzle cylinder 323 elongation control piston bar end Second suction cake skin, meanwhile, suction unit 31 utilizes negative-pressure adsorption by passing in and out 310 air-breathing of the second suction nozzle of gas control system Cake skin；When suction nozzle assembly 31 discharges cake skin, the first suction nozzle cylinder 322 is shunk, and pulls the second suction nozzle cylinder 323 to swing, Also, the second suction nozzle cylinder 323 shrinks the second suction nozzle release cake skin of control piston bar end, meanwhile, suction unit 31 is logical The the second suction nozzle air inlet of disengaging gas control system is crossed, suction nozzle sorption cake skin alignment shelf mold cup, when the second cylinder stretches out, cake skin press-in is put Inside template die cup, cake skin is discharged.

Refer to shown in Fig. 9-10, its for the utility model revolving die mechanism suction unit positive structure diagram and Overlooking the structure diagram；Suction unit 31 includes the second four-way valve 323 being arranged on the revolving die stent 34 and the second drum Wind turbine, the 3rd air inlet 322, the 4th air inlet being connected with the second air blower is set on the second four-way valve 323, with the second suction nozzle The 321, the 4th inlet and outlet of the 3rd inlet and outlet of connection, set the second hinge inside second four-way valve, pass through the second hinge Rotating control the conversion into outlet of the first four-way valve；Closed by being set on second four-way valve 323 with second Second cylinder switching 324 of the connection of page 325, passes through the flexible swing for realizing the second hinge of the second cylinder switching 324.

Please refer to Fig.1 shown in 1-12, it is the positive structure diagram of the suction nozzle assembly of the revolving die mechanism of the utility model And side structure schematic view；Suction nozzle assembly 31 includes the shaft core 352 through revolving die stent 34, when revolving die stent 34 rotates, turns Slided up and down when mould holder 34 rotates along shaft core 352 is opposite；Detection ring 353 is set in the shaft core 352；In the revolving die 34 sidepiece of stent sets rotation connection block 355, to be connected with the stent of cake filling mould, rotates to it.Described The upper end of two suction nozzles 310 sets the suction nozzle connecting tube 311 supplied to the second suction nozzle 310, and suction nozzle is set in suction nozzle connecting tube 311 Connector sleeve 312 is fixing the second suction nozzle 310；Set in the top of the suction nozzle connector sleeve 312 and connect with suction nozzle connecting tube 311 The connector 361 connect, sets compression spring 362 in connector 361, is connected to convenient.

Please refer to Fig.1 shown in 3, it is the dimensional structure diagram of the clamping unit of the utility model, and clamping unit includes It is arranged on cylinder upper mounted plate 331 that upper end is connected with revolving die stent 34, is arranged on the support that sidepiece is connected with revolving die stent 34 Plate fixed seat 333, and with the cylinder supports plate 332 that be connected of support fixed seat 333, set to pass through on cylinder supports plate 332 and stretch The clamping cylinder 357 clamped with loosening is realized in contracting, in the tailpiece of the piston rod connection clamping sleeve 336 of clamping cylinder 357, gripping sleeve 336 Lower end, which is set, clamps guide plate 337.By setting clamping unit, the revolving die stent 34 of the present embodiment can be stablized when rotating Rotate.In the present embodiment, the setting of clamping cylinder is primarily to push down the chain on shelf, to realize suction nozzle alignment mold cup etc. Orientation problem.

So far, have been combined preferred embodiment shown in the drawings and describe the technical solution of the utility model, still, this Field technology personnel are it is easily understood that the scope of protection of the utility model is expressly not limited to these embodiments. Without departing from the utility model principle on the premise of, those skilled in the art can make correlation technique feature equivalent change Or replace, the technical solution after these are changed or replace it is fallen within the scope of protection of the utility model.

Claims (10)

1. A kind of 1. cake skin automatic conveyor, it is characterised in that including：

   The cake skin mould emptier that cake skin is adsorbed from cake skin mould；

   The lower end of the cake skin mould emptier is arranged on, the cake skin of the cake skin mould emptier absorption is received and is tied by being oriented to Cake skin is delivered to the demoulding guiding mechanism of bottom by structure；

   It is arranged on the upper end of cake filling mould, absorption is slid to the cake skin of the demoulding guiding mechanism bottom, and by cake skin Rotate the revolving die mechanism being placed into cake filling mould.
2. 2. cake skin automatic conveyor according to claim 1, it is characterised in that the cake skin mould emptier includes： The end of the cake skin mould rack is arranged on, by oscillating motion, cake skin is adsorbed under pressure control effect And the suction nozzle driving mechanism of release；

   It is arranged on the cake skin mould rack, is rotated along it sequentially to convey the cake skin conveyer belt of cake skin；

   And be arranged on the cake skin mould rack, drive the chain wheel driving mechanism of the cake skin conveying V belt translation.
3. 3. cake skin automatic conveyor according to claim 2, it is characterised in that the suction nozzle driving mechanism includes：

   The second connecting rod driving mechanism of second connecting rod swing is driven by the first cylinder drive sprocket mechanism；

   The first connecting rod mechanism being connected with the second connecting rod driving mechanism；

   Suction nozzle stent of the one end of first connecting rod mechanism and second connecting rod driving mechanism with the first suction nozzle is connected；And to described The adsorption structure of first suction nozzle control.
4. 4. cake skin automatic conveyor according to claim 3, it is characterised in that the first connecting rod mechanism includes the One motor, the first belt pulley being connected by the first belt with the first motor, be connected by the second belt with the first belt pulley Second belt pulley, is connected with first connecting rod on the second belt pulley, and first connecting rod is connected on suction nozzle stent；

   The second connecting rod driving mechanism includes the first cylinder, be connected by the first drive chain with the first cylinder piston rod One drive sprocket, the second drive sprocket being connected by the second drive chain with the first drive sprocket, sets on the second drive sprocket Put the second connecting rod rotated with the second drive sprocket, second connecting rod and the connection axis connection of suction nozzle stent side portion.
5. 5. cake skin automatic conveyor according to claim 3, it is characterised in that the adsorption structure includes being arranged on The first four-way valve and the first air blower on suction nozzle stent, set on the first four-way valve be connected with the first air blower first into Gas port, the second air inlet, the first import and export being connected with the first suction nozzle, second import and export, set inside first four-way valve Put the first hinge；The first cylinder switching with the first hinge connection is set on first four-way valve.
6. 6. cake skin automatic conveyor according to claim 1, it is characterised in that the demoulding guiding mechanism includes leading To bottom plate, the side for being oriented to bottom plate sets the one row's mold cup of cake skin for receiving the cake skin mould emptier release；

   The gib block being obliquely installed is provided with the offside of the mold cup, sets between gib block and is slid from top to bottom for cake skin Guide groove.
7. 7. cake skin automatic conveyor according to claim 6, it is characterised in that the sidepiece of the demoulding guiding mechanism Baffle arrangement is set, and the baffle arrangement includes the inclined plate connecting rod being connected with cake skin mould rack and the inclined plate connecting rod connects The gear cake bottom plate connect, and the continuous arc gear cake plate being arranged on gear cake bottom plate.
8. 8. cake skin automatic conveyor according to claim 1, it is characterised in that the revolving die mechanism includes revolving die branch Frame, the suction nozzle for being arranged on the cake skin on the revolving die stent on absorption demoulding guiding mechanism and being placed on cake filling mould are total Into being arranged on the revolving die stent and by the suction unit of pressure control suction nozzle assembly, be arranged on the revolving die stent The clamping unit that suction unit is fixed, further includes the both ends for being arranged on the revolving die stent for revolving die mechanism rotation Rotational structure.
9. 9. cake skin automatic conveyor according to claim 8, it is characterised in that the suction nozzle assembly is set including inclination The first suction nozzle cylinder on the revolving die stent is put, and is arranged on the second suction of the tailpiece of the piston rod of the first suction nozzle cylinder Mouth cylinder；The tailpiece of the piston rod of second suction nozzle cylinder connects the second suction nozzle.
10. 10. cake skin automatic conveyor according to claim 9, it is characterised in that the suction nozzle assembly include through The shaft core of revolving die stent；Set in the revolving die stent side portion to be connected rotation connection block with the stent of cake filling mould； The suction nozzle connecting tube supplied to the second suction nozzle is set in the upper end of second suction nozzle, sets suction nozzle to connect in suction nozzle connecting tube Female connector is fixing the second suction nozzle.