CN116274627B - Egg tart skin mould - Google Patents

Abstract

The invention relates to the technical field of food processing, in particular to an egg tart skin mold, which comprises a support frame, wherein a concave sliding block is arranged on the support frame in a sliding way, an extrusion block is arranged on the concave sliding block, a plurality of mold holes are formed in the extrusion block, and a telescopic spring rod which is arranged in a rectangular array is arranged between the concave sliding block and the extrusion block.

Description

Egg tart skin mould

Technical Field

The invention relates to the technical field of food processing, in particular to an egg tart skin mold.

Background

Egg tarts are western style pie with stuffing made of egg pulp, the cake skin is put into a small round basin-shaped cake mold, then the egg pulp formed by mixing granulated sugar and eggs is poured into an oven, the outer layer of the baked egg tart is crispy tart skin, the inner layer is sweet yellow solidified egg pulp, the egg tart skin mold is popular with people, the egg tart skin mold is generally manufactured in batch, in particular to a mold for extruding the egg tart skin on tinfoil, and then the formed egg tart skin mold is processed by a shearing device according to the required shape of the egg tart skin mold, so that the processing efficiency of producing the egg tart skin mold is improved.

The utility model provides an egg tart skin mould that chinese patent bulletin number is CN211386530U, includes the base, install the stand on the base, be provided with first spring on the stand, be provided with the spout on the stand, install the slider in the spout, the slider links to each other with last mould, sliding connection has the bed die on the stand, be provided with egg tart hole on the bed die, be provided with the counter bore around the egg tart hole, be provided with on the bed die with counter bore matched with cutting circle, mainly solve the problem that current egg tart skin preparation efficiency is low, above technical scheme has following defect:

firstly, when the tinfoil needs to be manually placed between a lower template and an upper die before egg tart skin is processed, then the tinfoil is extruded and sheared, after egg tart skin die making is completed, the egg tart skin die is stopped, the egg tart skin is continued between the upper die and the lower die, and the efficiency of making the tinfoil is reduced by repeatedly stopping the operation;

secondly, in the egg tart skin mold manufacturing process, the tinfoil needs to be manually limited between the upper mold and the lower mold, otherwise, the tinfoil is easy to place inaccurately, and waste of the tinfoil material is caused;

thirdly, the processed waste paper needs to be manually taken away, and meanwhile, the processed egg tart skin mould is wrapped on the extrusion block and needs to be manually taken down one by one, so that the labor intensity of manpower is increased, too much time is wasted, and the manufacturing efficiency is reduced.

Disclosure of Invention

Accordingly, the invention aims to provide an egg tart skin mold, which can effectively solve the problems of low mold making efficiency, inaccurate tinfoil placement and high labor intensity.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an egg tart skin mould, includes the support frame, the slip is equipped with the spill slider on the support frame, be provided with the extrusion piece on the spill slider, a plurality of mould holes have been seted up in the extrusion piece, install the flexible spring bar that is rectangular array and lay between spill slider and the extrusion piece, the mid-mounting of support frame has the spill frame, a plurality of dead levers are installed to the bottom of spill frame, the bottom slip of dead lever is equipped with the push pedal, be provided with a plurality of extrusion dies in the push pedal, be provided with the intermittent type subassembly that drives extrusion piece intermittent type and remove on the spill frame, be equipped with the intermittent type subassembly that drives the downward intermittent type of extrusion die and promote the subassembly, be provided with the feed subassembly of being convenient for the tinfoil feed on the spill slider, be provided with the receipts paper subassembly of being convenient for collect waste paper on the spill frame, be provided with the firm subassembly to the tinfoil firm on the spill frame, be provided with the ejection of compact subassembly that will process the mould and go out on the spill slider.

Preferably, the intermittent movement subassembly is including installing the L type frame at the left and right sides both ends of spill frame, two the first carousel is installed through the pivot at the vertical end top of L type frame, the motor of drive first carousel rotary motion is installed to the L type frame that is located the right-hand member, two the connection pad is installed to the opposite side of first carousel, the location push rod is installed at first carousel opposite side top, the intermittent wheel is installed through the pivot at the left and right sides both ends opposite side of spill frame, the intermittent gear is installed through the pivot at the left and right sides both ends opposite side of spill frame, the rack board with the top surface sliding connection of support frame is installed at the top of spill slider, intermittent gear and rack board mesh, the top rotation of spill frame is connected with the connection transfer rod, the driving roller is all installed at the left and right ends of connection transfer rod and the opposite side of two first carousels, the transmission is connected with the driving belt between the driving roller that is located upper and lower both ends.

Preferably, the intermittent pushing assembly comprises a second turntable arranged on the opposite sides of the two connecting discs, a rotating plate is rotatably connected to the bottom of the second turntable through a rotating shaft, a reciprocating rod is arranged on one side of the rotating plate opposite to the second turntable, reciprocating holes are formed in the left end and the right end of the concave frame, the reciprocating rod is slidably connected with the bottom of the reciprocating holes, a reciprocating plate slidably connected with a fixing rod is arranged between the reciprocating rods, a fixing disc is arranged in the middle of the fixing rod, a compression spring is sleeved on the outer side of the fixing rod and between the pushing plate and the fixing disc, and a reciprocating push rod is arranged at the bottom of the reciprocating plate and between the fixing rods.

Preferably, the feeding assembly comprises a paper placing box arranged at the top of the rear end of the concave sliding block, a paper feeding hole is formed between the opposite sides of the rack plate, an L-shaped plate is arranged in the paper feeding hole at the rear end in a sliding mode, two first limiting rods are arranged on the vertical ends of the L-shaped plate in a sliding mode, pressing plates are arranged at the tops of the first limiting rods in a sliding mode, inserting pins which are in rectangular arrays are arranged at the bottoms of the pressing plates, a screw rod is arranged between the two first limiting rods in the L-shaped plate, a nut rod in threaded connection with the screw rod is rotatably connected to the tops of the pressing plates, moving grooves are formed in the top surfaces of the opposite sides of the rack plate, the tops of the nut rod slide through the moving grooves, a linkage roller is arranged in the middle of the nut rod, a linkage belt is connected between the linkage roller in a driving mode, and the tops of the nut rod are rotatably connected with a pushing plate through a bearing.

Preferably, the paper collecting assembly comprises two stable seats arranged at the front end of the concave frame, the left side of the stable seat at the right end and the left side of the intermittent gear at the right end are respectively connected with auxiliary rollers in a rotating mode, the two auxiliary rollers are connected with auxiliary belts in a transmission mode, the detachable seat is arranged at one side, close to the auxiliary rollers, of the stable seat at the left end, the paper collecting roller is arranged between the detachable seat and the auxiliary rollers at the front end, limit holes are formed in the right end of the paper collecting roller and the inner cavities of the auxiliary rollers at the front end, torsion rods are connected with inner threads of the stable seat at the right end, second limit rods are arranged at the left end of the torsion rods, spring plates are arranged in the inner cavities of the detachable seat, the left end of the paper collecting roller is extruded in the spring plates, elastic ropes in a linear array are arranged at the bottom of the paper collecting roller, horizontal plates are arranged at the bottom of the plurality of the elastic ropes, and the left side, close to the left side of the concave frame, and the left side of the paper collecting roller is provided with a plurality of hook needles.

Preferably, the stabilizing component comprises a plurality of compression spring rods which are connected with the two ends of the front end of the push plate in a sliding mode, a connecting plate is arranged at the top of each compression spring rod, and an extrusion plate is arranged at the bottom of each compression spring rod.

Preferably, the stabilizing assembly further comprises two stabilizing plates fixedly installed at two ends of the front end of the concave sliding block, a first paper transfer wheel is installed between the two stabilizing plates, a notch is formed in the top of the stabilizing plate located at the rear end, a first compression spring is installed in the notch, a reset block fixedly connected with the first compression spring is rotationally connected in the notch, and a second paper transfer wheel is rotationally connected between the two reset blocks.

Preferably, a lifting block is mounted at the rear end of the pressing plate, one side of the lifting block, which faces away from the pressing plate, is in a bent shape, and the end, which faces away from the pressing plate, of the lifting block is in an inclined structure.

Preferably, the discharging component comprises a discharging plate, a linkage groove is formed in the bottom of a die hole in the extruding block, the die hole is communicated with the linkage groove, the discharging plate is arranged at the bottom of the die hole, a T-shaped discharging rod is arranged below the discharging plate, a second compression spring is arranged in the T-shaped discharging rod in a sleeved mode, a discharging push rod is slidably arranged below the concave sliding block corresponding to the linkage grooves, a vertical connecting plate is fixedly arranged at the bottom of the discharging push rod, horizontal connecting plates are respectively arranged on the outer sides of the concave sliding block, extending out of the front end and the rear end of the vertical connecting plate, a pushing plate is slidably arranged at the left end and the right end of the concave sliding block, the pushing plate is obliquely arranged on the outer side of the concave sliding block, the bottom of the horizontal connecting plate is provided with a chamfer matched with the pushing plate, a linkage component for driving the whole pushing plate to move along the outer side of the concave sliding block is arranged in the concave sliding block, a plurality of through holes are formed in the concave sliding block through spring telescopic rods, and an elastic array of through holes is formed in the bottom of the concave sliding block corresponding to the extruding die.

Preferably, the linkage assembly comprises a double-end screw rod which is in threaded connection between the front lifting pushing plate and the rear lifting pushing plate, a first driving wheel is arranged in the middle of the double-end screw rod, a second driving wheel is rotatably connected to the inner cavity of the concave sliding block and is positioned above the first driving wheel, the first driving wheel is meshed with the second driving wheel, a driving rod is arranged at the front end of the second driving wheel, one end of the driving rod is rotatably arranged on the outer side of the concave sliding block in a penetrating mode, driving rollers are arranged at one end of the driving rod, and a conveying belt is connected between the two driving rollers in a transmission mode.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the intermittent moving assembly and the intermittent pushing assembly are matched with each other, so that the intermittent moving of the extrusion block can be automatically realized, meanwhile, the automatic extrusion molding of the tinfoil can be realized, the stop of manpower in the operation process is reduced, the processing of the tinfoil on the extrusion block can be completed at one time, and the stable molding effect of the tinfoil in the extrusion process of the extrusion die can be realized through the cooperation of the stabilizing assembly in the processing process, the offset of the tinfoil in the molding process is prevented, and the molding stability of the invention is improved.

2. According to the invention, the feeding assembly can be used for rapidly spreading the tinfoil on the extrusion block, then the tinfoil is fixed on the L-shaped plate through the pressing plate, the pressing stability of the tinfoil and the pressing plate is further improved under the action of the contact pin and the rubber pad, then the L-shaped plate moves on the paper feeding hole, the placement stability of the tinfoil can be improved, meanwhile, under the cooperation of the first paper conveying wheel and the second paper conveying wheel, the excessive conveying of the tinfoil is prevented, and meanwhile, the conveying of the tinfoil is protected.

3. According to the invention, the kinetic energy of the intermittent moving assembly is transmitted to the paper collecting roller, so that the purpose of collecting waste tinfoil is realized, the operation of manually taking away waste paper is reduced, the efficiency of making egg tart skin is further improved, after the processing of the tinfoil on the extrusion block is finished, the torsion bar is required to rotate in the early stage, the second limiting rod is separated from the limiting hole in the auxiliary roller, and the rotary motion of the paper collecting roller is not driven in the rotary motion process of the auxiliary roller at the front end, so that the reverse rotary motion of the paper collecting roller is not caused, and the rotary motion of the paper collecting roller is not generated under the extrusion fit of the spring plate and the two sides of the torsion bar, so that the paper collecting roller is reset in a fixed mode after the extrusion block is reset.

4. According to the egg tart skin mold, the egg tart skin mold in the mold hole is shoveled out through the elastic plate after the egg tart skin mold is processed, and then the egg tart skin mold in the mold hole can be rapidly discharged through the mutual matching of the discharging component and the linkage component.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a rear elevational view of the overall structure of the present invention;

FIG. 3 is a schematic view of a delivery assembly according to the present invention;

FIG. 4 is an exploded view of the intermittent motion assembly of the present invention;

FIG. 5 is an exploded view of the feed assembly of the present invention;

FIG. 6 is a schematic view of a feed assembly of the present invention;

FIG. 7 is a schematic view of a press block of the present invention;

FIG. 8 is a cross-sectional view of a take-up roller of the present invention;

FIG. 9 is a schematic view of an extrusion die of the present invention;

FIG. 10 is an enlarged view of a portion of FIG. 7A;

FIG. 11 is a cross-sectional view between a support bracket and a concave slider of the present invention;

FIG. 12 is a cross-sectional view of the left side wall of the concave slider of the present invention.

In the figure:

1. a support frame; 11. a concave slider; 12. extruding a block; 13. a telescoping spring rod;

2. a concave frame;

3. a concave frame;

4. a push plate; 41. an extrusion die;

5. an intermittent movement assembly; 51. an L-shaped frame; 52. a first turntable; 53. a connecting disc; 54. positioning a push rod; 55. an intermittent plate; 56. an intermittent gear; 57. rack plate; 58. connecting a transmission rod; 59. a driving roller; 510. a drive belt;

6. an intermittent pushing assembly; 61. a second turntable; 62. a rotating plate; 63. a reciprocating lever; 64. a reciprocating hole; 65. a shuttle plate; 66. a fixed plate; 67. a compression spring; 68. a reciprocating push rod;

7. a feed assembly; 71. placing a paper box; 72. a paper feed hole; 73. an L-shaped plate; 74. a first stop lever; 75. pressing the plate; 76. a screw; 77. a nut stem; 78. a linkage roller; 79. a linkage belt; 710. a pushing plate;

8. a paper collection assembly; 81. a stabilizing seat; 82. an auxiliary roller; 821. disassembling the seat; 83. an auxiliary belt; 84. a paper collecting roller; 85. a limiting hole; 86. a torsion bar; 87. a second limit rod; 88. a spring plate; 89. a horizontal plate; 810. a crochet hook;

9. a stabilizing assembly; 91. compressing the spring rod; 92. a connecting plate; 93. an extrusion plate; 94. a stabilizing plate; 95. the first paper conveying wheel; 911. a first compression spring; 912. resetting is fast; 913. the second paper conveying wheel; 914. lifting the block;

10. a discharge assembly; 100. a linkage groove; 1001. penetrating the board; 1002. an elastic plate; 101. a discharge plate; 102. a T-shaped discharging rod; 103. a second compression spring; 104. a discharging push rod; 105. a vertical connecting plate; 106. a horizontal connecting plate; 107. lifting the push plate; 1071. a double-ended screw; 1072. a first driving wheel; 1073. a second driving wheel; 1074. a driving rod; 1075. a drive roller; 1076. a conveyor belt.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment one:

referring to fig. 1 to 12, the present invention provides a technical solution: an egg tart skin mold comprises a support frame 1, wherein a concave sliding block 11 is arranged on the support frame 1 in a sliding manner, an extrusion block 12 is arranged on the concave sliding block 11, a plurality of mold holes are formed in the extrusion block 12, a telescopic spring rod 13 which is arranged in a rectangular array is arranged between the concave sliding block 11 and the extrusion block 12, a concave frame 2 is arranged in the middle of the support frame 1, a plurality of fixing rods 3 are arranged at the bottom of the concave frame 2, a push plate 4 is arranged at the bottom of the fixing rods 3 in a sliding manner, a plurality of extrusion molds 41 are arranged in the push plate 4, an intermittent movement assembly 5 for driving the extrusion block 12 to intermittently move is arranged on the concave frame 2, the intermittent movement assembly 5 comprises L-shaped frames 51 which are arranged at the left end and the right end of the concave frame 2, a first rotating disc 52 is arranged at the tops of the vertical ends of the two L-shaped frames 51 through rotating shafts, the motor for driving the first rotating discs 52 to rotate is arranged on the L-shaped frame 51 at the right end, the connecting discs 53 are arranged on the opposite sides of the two first rotating discs 52, the positioning push rods 54 are arranged on the tops of the opposite sides of the first rotating discs 52, the intermittent discs 55 are arranged on the opposite sides of the left end and the right end of the concave frame 2 through rotating shafts, the intermittent gears 56 are arranged on the opposite sides of the left end and the right end of the concave frame 2 through rotating shafts, the rack plate 57 which is in sliding connection with the top surface of the support frame 1 is arranged on the top of the concave slider 11, the intermittent gears 56 are meshed with the rack plate 57, the connecting transmission rods 58 are rotatably connected to the top of the concave frame 2, the transmission rollers 59 are arranged on the left end and the right end of the connecting transmission rods 58 and the opposite sides of the two first rotating discs 52, and the transmission belt 510 is connected between the transmission rollers 59 at the upper end and the lower end.

When the egg tart skin mold manufacturing device works, the driving motor drives the first rotary disc 52 to rotate, the positioning push rod 54 on the first rotary disc 52 drives the intermittent disc 55 to rotate, then the intermittent disc 55 drives the intermittent gear 56 to intermittently rotate through the rotary shaft, then the rack plate 57 drives the extrusion block 12 to intermittently move along the length direction of the support frame 1 under the pressure of the intermittent gear 56, the extrusion mold 41 is conveniently and intermittently extruded on the mold on the extrusion block 12, the next round of manufacturing can be continued after the egg tart skin mold is finished, no pause is needed, and the manufacturing efficiency of the egg tart skin mold manufacturing device is greatly improved.

It is worth noting that the push plate 4 is internally provided with an electric pushing expansion plate, the plurality of extrusion dies 41 are all arranged on the electric pushing expansion plate, after the processing of the tinfoil on the extrusion block 12 is finished, the extrusion dies 41 can be expanded and contracted in the push plate 4 through the electric pushing expansion plate when the extrusion block 12 is reset, and meanwhile, different extrusion heights of the extrusion dies 41 can be determined through the electric pushing expansion plate.

It is noted that the present invention can improve the limit between the extrusion block 12 and the extrusion die 41 through the intermittent moving assembly 5, and simultaneously improve the stability of the extrusion block 12 through the meshing action of the intermittent gear 56 and the rack plate 57, so as to further improve the efficiency of making egg tart skin.

It is noted that by the cooperation of the connecting transmission rod 58, the transmission roller 59 and the transmission belt 510, the stability of the movement of the rack plate 57 and the pressing block 12 can be improved, and the intermittent pushing assembly 6 can play a role in stabilizing the tinfoil processing and forming.

Embodiment two:

the technical scheme is basically the same as that of the first embodiment, except that, as shown in fig. 3 and 4, an intermittent pushing assembly 6 for driving the extrusion die 41 to move intermittently downwards is provided in the intermittent moving assembly 5, the intermittent pushing assembly 6 includes a second turntable 61 installed at opposite sides of the two connection plates 53, a rotating plate 62 is rotatably connected to the bottom of the second turntable 61 through a rotating shaft, a reciprocating rod 63 is installed at one side of the rotating plate 62 opposite to the second turntable 61, reciprocating holes 64 are opened at left and right ends of the concave frame 2, the reciprocating rod 63 is slidably connected at the bottom of the reciprocating hole 64, a reciprocating plate 65 slidably connected with the fixing rod 3 is installed between the reciprocating rods 63, a fixing disc 66 is installed at the middle part of the fixing rod 3, a compression spring 67 is sleeved outside the fixing rod 3 and between the push plate 4 and the fixing disc 66, and a reciprocating push rod 68 is installed between the plurality of fixing rods 3.

When the reciprocating plates 65 move downwards, the connected reciprocating push rods 68 drive the push plates 4 to move downwards, and meanwhile the extrusion dies 41 extrude along the die holes on the extrusion blocks 12 under the pressure of the push plates 4, so that the tinfoil can be molded.

According to the invention, the tinfoil on the extrusion block 12 can be rapidly molded and sheared at one time by the cooperation of the intermittent moving component 5 and the intermittent pushing component 6, so that repeated pause operation is not needed, and the efficiency of manufacturing the tinfoil is improved.

It is noted that by the cooperation of the compression spring 67 and the fixed disk 66, the impact of the push plate 4 can be reduced when it moves upward, and the reset stability of the extrusion die 41 can be improved.

It should be noted that the cutting knife is installed around the plurality of extrusion dies 41, and the plurality of extrusion dies 41 facilitate the extrusion dies 41 to cut the tinfoil by the cutting knife after the extrusion block 12 forms the tinfoil compression die.

Embodiment III:

the technical scheme is basically the same as that of the first embodiment, except that, as shown in fig. 2, 5, 6 and 7, a feeding component 7 for facilitating tin foil feeding is disposed on the concave slider 11, the feeding component 7 includes a paper placing box 71 mounted at the top of the rear end of the concave slider 11, a paper feeding hole 72 is formed between opposite sides of the rack 57, an L-shaped plate 73 is slidably disposed in the paper feeding hole 72 at the rear end, two first limit rods 74 are mounted on the vertical end of the L-shaped plate 73, a pressing plate 75 is slidably disposed at the top of the two first limit rods 74, a rectangular array of pins are mounted at the bottom of the pressing plate 75, a screw 76 is mounted between the two first limit rods 74, the top of the pressing plate 75 is rotatably connected with a nut rod 77 in threaded connection with the screw 76, moving grooves are formed on opposite sides of the two rack 57, the top of the nut rod 77 is slidably passed through the moving grooves, a linkage roller 78 is mounted in the middle of the nut rod 77, a belt 79 is drivingly connected between the two linkage rollers 78, and the top of the nut rod 77 is rotatably connected with a linkage plate 710 through a bearing 710.

Firstly, a tinfoil roller is placed in a paper placing box 71, a pushing plate 710 is manually driven to drive nut rods 77 at two sides to extend out along the rear end of a paper feeding hole 72, then one end of the tinfoil is horizontally paved on a re-extrusion block 12 along the front end of a moving groove through rotating the nut rods 77, under the cooperation of a linkage roller 78 and a linkage belt 79, the other nut rods 77 can be driven to synchronously rotate, the nut rods 77 rotate on a screw 76 to realize the lifting movement of the pressing plate 75 along a first limiting rod 74, pins on the pressing plate 75 can fix the side ends of the tinfoil between the L-shaped plate 73 and the pressing plate 75, then the pushing plate 710 slides along the front end of the moving groove, and the spacing accuracy of the tinfoil can be improved through the mutual cooperation of the L-shaped plates 73 at two sides, the pressing plate 75 and pins.

It is noted that the rubber pad is installed below the pin by the L-shaped plate 73, which is beneficial to the pin to press the tinfoil on the rubber pad and improve the placement stability of the tinfoil.

Embodiment four:

the difference is that, as shown in fig. 3, 8 and 9, the concave frame 2 is provided with a paper collecting assembly 8 for collecting waste paper, the paper collecting assembly 8 includes two stabilizing seats 81 installed at the front end of the concave frame 2, the left side of the stabilizing seat 81 at the right end and the left side of the intermittent gear 56 at the right end are both rotationally connected with an auxiliary roller 82, an auxiliary belt 83 is connected between the two auxiliary rollers 82 in a transmission manner, one side of the stabilizing seat 81 at the left end, which is close to the auxiliary roller 82, is provided with a dismounting seat 821, a limit hole 85 is formed between the dismounting seat 821 and the auxiliary roller 82 at the front end, the right end of the paper collecting roller 84 and the inner cavity of the auxiliary roller 82 at the front end are both provided with limit holes 85, the inner threads of the stabilizing seat 81 at the right end are connected with a torsion bar 86, the left end of the torsion bar 86 is provided with a second limit rod 87, the inner cavity of the dismounting seat 821 is provided with a spring plate 88, the left end of the paper collecting roller 84 is internally extruded in the spring plate 88, one side of the second limit rod 87 is internally provided with a plurality of limit ropes 84, and the two sides of elastic ropes are linearly arranged at the bottom of the two sides of the concave frame are arranged at the bottom of the paper collecting seat 84, which is near the bottom of the two horizontal plates of the concave frame is provided with a plurality of limit ropes 810.

When the tin foil is tiled on the extrusion block 12, the left and right sides of one end of the tin foil are fixed through the crochet hook 810, and when the extrusion block 12 intermittently moves, the paper collecting roller 84 can be driven to rotate in reverse time through the cooperation of the auxiliary roller 82 and the auxiliary belt 83, and the processed waste tin foil can be rotated on the paper collecting roller 84 under the action of the horizontal plate 89. The invention realizes the purpose of collecting waste tinfoil by transmitting the kinetic energy of the intermittent moving assembly 5 on the paper collecting roller 84, reduces the manual operation of taking away waste paper, and further improves the efficiency of making egg tart skin.

It should be noted that, when more waste tin paper is collected from the collection roller 84, one end of the collection roller 84 can be manually pressed along the disassembly seat 821 to make the spring plate 88 enter a compressed state, and then after the collection roller 84 is separated from the auxiliary roller 82 from the other end, one end of the collection roller 84 can be separated from the disassembly seat 821 in an inclined manner, so that the waste tin paper can be conveniently treated and the collection roller 84 can be quickly assembled.

It is noted that, when the extrusion block 12 resets, through the counter-rotating movement of the intermittent gear 56, then, through the cooperation of the auxiliary belt 83 and the auxiliary roller 82 located at the rear end, the auxiliary roller 82 at the front end is driven to rotate synchronously in the counter-rotating direction, after the tin paper on the extrusion block 12 is processed, the torsion bar 86 needs to rotate in the front stage, after the second limit rod 87 is separated from the limit hole 85 in the auxiliary roller 82, the auxiliary roller 82 located at the front end cannot drive the paper collecting roller 84 to rotate in the rotating movement, so that the paper collecting roller 84 cannot be caused to rotate in the counter-rotating movement, when the extrusion block 12 resets, the paper collecting roller 84 is fixed through the extrusion of the limit hole 85 in the paper collecting roller 84 by the second limit rod 87, then, when the extrusion block 12 resets, the extrusion block 12 rotates in the counter-rotating direction by the torsion bar 86, the second limit rod 87 enters the limit hole 85 located in the front end auxiliary roller 82, the paper collecting roller 84 is extruded along the second limit rod 87 under the elastic force of the spring plate 88, and the paper collecting roller 84 can be driven to rotate in the rotating direction when the auxiliary roller 82 rotates in the rotating direction.

Fifth embodiment:

the difference with the technical solution of the first embodiment is that, as shown in fig. 6 and 9, a stabilizing component 9 for stabilizing the tinfoil is disposed on the concave frame 2, the stabilizing component 9 includes a plurality of compression spring rods 91 slidably connected to two ends of the front end of the push plate 4, a connecting plate 92 is mounted on top of the plurality of compression spring rods 91, a squeeze plate 93 is mounted on the bottom of the compression spring rods 91, the stabilizing component 9 further includes two stabilizing plates 94 fixedly mounted on two ends of the front end of the concave slider 11, a first paper transfer wheel 95 is mounted between the two stabilizing plates 94, a notch is formed on top of the stabilizing plate 94 at the rear end, a first compression spring 911 is mounted in the notch, a reset block 912 fixedly connected to the first compression spring 911 is rotationally connected between the two reset blocks 912, a lifting block 914 is mounted on the rear end of the pressing plate 75, one side of the lifting block 914 opposite to the pressing plate 75 is in a curved shape, and the end of the lifting block 914 opposite to the pressing plate 75 is in an inclined structure.

When the push plate 4 moves downwards, the extruding plate 93 contacts with the tinfoil before the push plate is not contacted with the tinfoil, and then the elastic potential energy of the compression spring rod 91 is released, and the reaction force drives the extruding plate 93 to tightly press on the tinfoil, so that the tinfoil plays a role in stabilizing and forming in the extrusion process of the extruding die 41, the offset of the tinfoil in the forming process is prevented, and the forming stability of the invention is improved.

It is noted that, in order to prevent the damage of the tinfoil caused by the scratch generated in the intermittent movement process of the tinfoil during the feeding process of the tinfoil, the invention conveys the tinfoil through the first paper conveying wheel 95 and the second paper conveying wheel 913 at the rear end of the extrusion block 12, then the compression effect can be achieved on the tinfoil through the release elasticity of the first compression spring 911, the excessive conveying of the tinfoil is prevented, then one end of the tinfoil passes through the bottom of the other first paper conveying wheel 95 and is connected with the paper collecting assembly 8, and no crease is generated on the tinfoil in the whole process, thereby being beneficial to playing a role of stabilizing the tinfoil.

It is worth noting that, when one end of the tin foil is taken out and enters between the L-shaped plate 73 and the pressing plate 75, the end of the tin foil is inclined, the second paper conveying wheel 913 and the first paper conveying wheel 95 can be lifted, after the second paper conveying wheel 913 is slowly lifted through the bent shape of the second paper conveying wheel, the impact of the lifting block 914 on the second paper conveying wheel 913 is reduced, the tin foil is conveniently fixed on the L-shaped plate 73 after passing through the second paper conveying wheel 913 and the first paper conveying wheel 95, and the labor intensity of a person is reduced without manually lifting the tin foil.

Example six:

the difference with the first technical scheme of the embodiment is that as shown in fig. 9-12, a discharging component 10 for discharging the processed mould is arranged on a concave slide block 11, the discharging component 10 comprises a discharging plate 101, a linkage groove 100 is formed in the bottom of a mould hole in an extrusion block 12, the mould hole is communicated with the linkage groove 100, a T-shaped discharging rod 102 is arranged below the discharging plate 101 at the bottom of the mould hole, a second compression spring 103 is sleeved in the T-shaped discharging rod 102, a discharging push rod 104 is arranged below the concave slide block 11 in a sliding manner corresponding to the plurality of linkage grooves 100, a vertical connecting plate 105 is fixedly arranged at the bottom of the discharging push rod 104, two ends of the vertical connecting plate 105 extend out of the outer sides of the concave slide block 11, a horizontal connecting plate 106 is arranged at the left end and the right end of the concave slide block 11 in a sliding manner, a lifting push plate 107 is obliquely arranged at the outer side of the concave slide block 11, a chamfer matched with the lifting plate 107 is arranged at the bottom of the horizontal connecting plate 106, a linkage component for driving the whole push plate 107 to move along the outer side of the concave slide block 11 is arranged in the concave slide block 11, a plurality of first transmission wheels 1073 are correspondingly arranged at the bottom of the push plate 4 through spring 1001, a plurality of transmission wheels 1072 are correspondingly arranged at the two ends of the concave slide blocks 1072, two transmission wheels 1072 are rotatably connected with two transmission wheels 1073, two end 1072 are rotatably connected with two transmission wheels 1071, each other is rotatably connected with two transmission wheels 1072, and each transmission wheel 1072 is rotatably arranged correspondingly, each transmission wheel 1072 is arranged at the two end of the two transmission wheels 1071 and each transmission wheel 107is rotatably has a transmission wheel 1071 and has a two end has a two transmission end that has a transmission end that is provided, one end of the driving rod 1074 rotates to penetrate through the outer side of the concave sliding block 11 and is provided with driving rollers 1075, a conveying belt 1076 is connected between the two driving rollers 1075 in a transmission mode, and an artificial rotating wheel is arranged at the front end of the driving roller 1075 located on the left side.

Firstly, after the egg tart skin mold is processed by tinfoil, the egg tart skin mold is possibly wrapped on the extrusion mold 41, when the extrusion mold 41 moves upwards, the penetrating plate 1001 continues to extrude along the extrusion block 12 by the reaction force of the spring telescopic rod, the tinfoil on the extrusion mold 41 is shoveled by the elastic plate 1002, thus the processed egg tart skin mold continues to be in the mold hole, when the processing of the tinfoil on the extrusion block 12 is finished, the driving rod 1074 can be synchronously driven by the rotary motion of the manual rotating wheel, then the driving roller 1075 and the transmission belt 1076 are matched with each other, the second driving wheel 1073 rotates the first driving wheel 1072 and the double-end screw 1071 under the pressure of the driving rod 1074, the lifting pushing plates 107 at the front end and the rear end are separated from the concave sliding block 11 under the action of the double-end screw 1071, the horizontal connecting plates 106 are slowly lifted, the vertical connecting plates 105 can lift the discharging push rods 104 upwards under the pressure of the horizontal connecting plates 106, then the lifting pushing plates 107 drive the T-shaped discharging rods 102 and the discharging plates 101 to move upwards so as to conveniently lift the egg rolls 101 upwards from the hole, and the egg molds 10 can be conveniently processed by the manual pushing assembly, and the egg molds can be quickly lifted from the hole, and all the egg molds can be conveniently processed by the invention, and the egg molds can be conveniently and discharged from the hole.

It is noted that when the egg flat skin is extruded in the mold hole, the discharging plate 101 is stably pressed in the mold hole under the elastic action of the second compression spring 103, so that the molding effect of the egg flat skin is not affected.

Working principle: the egg tart skin mold comprises the following steps of:

firstly, a tinfoil rod is placed on a paper placing box 71, then a pushing plate 710 is manually driven to drive screw cap rods 77 on two sides to extend out along the rear end of a paper feeding hole 72, then one end of the tinfoil is driven to extend between an L-shaped plate 73 and a pressing plate 75, the screw cap rods 77 are rotated, the screw cap rods 77 can be driven to synchronously rotate under the cooperation of a linkage roller 78 and a linkage belt 79, the screw cap rods 77 rotate on a screw rod 76 to realize the lifting movement of the pressing plate 75 along a first limiting rod 74, a contact pin on the pressing plate 75 can fix the side end of the tinfoil between the L-shaped plate 73 and the pressing plate 75, and then the pushing plate 710 slides along the front end of a moving groove, so that the tinfoil can be tiled and then pressed on a block 12;

secondly, when the tinfoil is tiled on the extrusion block 12, the left and right sides of one end of the tinfoil are fixed through the crochet hook 810, the driving motor drives the first rotary disc 52 to rotate, the positioning push rod 54 on the first rotary disc 52 drives the intermittent disc 55 to rotate, then the intermittent disc 55 drives the intermittent gear 56 to intermittently rotate through the rotating shaft, then the rack plate 57 drives the extrusion block 12 to intermittently move along the length direction of the support frame 1 under the pressure of the intermittent gear 56, meanwhile, the rotating plate 62 drives the reciprocating rod 63 to slide up and down along the reciprocating hole 64, and further drives the reciprocating plate 65 to intermittently lift on the fixed rod 3, and when the reciprocating plate 65 moves downwards, the connected reciprocating push rod 68 drives the push plate 4 to move downwards, and meanwhile, the extrusion die 41 extrudes along the die hole on the extrusion block 12 under the pressure of the push plate 4, so that the tinfoil is molded;

thirdly, when the push plate 4 moves downwards, before the push plate 4 is not contacted with the tinfoil, the extrusion plate 93 is contacted with the tinfoil, then the elastic potential energy of the compression spring rod 91 is released, and the reaction force drives the extrusion plate 93 to tightly press on the tinfoil, so that the tinfoil plays a role in stabilizing and forming in the extrusion process of the extrusion die 41, and the offset of the tinfoil in the forming process is prevented;

fourth, when the extrusion block 12 intermittently moves, the auxiliary roller 82 and the auxiliary belt 83 cooperate to drive the paper collecting roller 84 to rotate in reverse time, so that the processed waste tin paper can be rotated along the paper collecting roller 84 under the action of the horizontal plate 89. The invention realizes the purpose of collecting the waste tinfoil by transmitting the kinetic energy of the intermittent moving assembly 5 to the paper collecting roller 84;

fifth, after the egg tart skin mold is processed by tinfoil, the egg tart skin mold may be wrapped on the extrusion mold 41, when the extrusion mold 41 moves upwards, the penetrating plate 1001 continues to extrude along the extrusion block 12 by the reaction force of the spring telescopic rod, the tinfoil on the extrusion mold 41 is shoveled by the elastic plate 1002, thus the processed egg tart skin mold continues to be in the mold hole, when the processing of the tinfoil on the extrusion block 12 is completed, the driving rod 1074 can be synchronously driven by the rotation of the manual rotating wheel, then the driving roller 1075 and the transmission belt 1076 are mutually matched, then the second driving wheel 1073 rotates the first driving wheel 1072 and the double-headed screw 1071 under the pressure of the driving rod 1074, the lifting pushing plates 107 at the front end and the rear end are separated from the concave sliding block 11 under the action of the double-headed screw 1071, and the horizontal connecting plates 106 at the front end and the rear end are slowly lifted, the vertical connecting plates 105 can lift the discharging rod 104 upwards under the pressure of the horizontal connecting plates 106, and then the lifting pushing plates 107 drive the T-shaped discharging rods 102 and the discharging plates 101 to move upwards, so that the egg tart skin mold 101 can be processed from the mold hole.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. Egg tart skin mould, including support frame (1), its characterized in that: the device comprises a support frame (1), wherein a concave sliding block (11) is arranged on the support frame (1) in a sliding manner, an extrusion block (12) is arranged on the concave sliding block (11), a plurality of die holes are formed in the extrusion block (12), a telescopic spring rod (13) which is arranged in a rectangular array is arranged between the concave sliding block (11) and the extrusion block (12), a concave frame (2) is arranged in the middle of the support frame (1), a plurality of fixing rods (3) are arranged at the bottom of the concave frame (2), a push plate (4) is arranged at the bottom of the fixing rods (3) in a sliding manner, a plurality of extrusion dies (41) are arranged in the push plate (4), an intermittent moving component (5) which drives the extrusion block (12) to intermittently move downwards is arranged in the intermittent moving component (5), a feeding component (7) which is convenient for feeding tin paper, a paper collecting component (8) which is convenient for collecting waste paper is arranged on the concave frame (2), and the concave frame (2) is provided with a stable discharging component (9) which stably processes the paper (11);

the intermittent movement assembly (5) comprises L-shaped frames (51) arranged at the left end and the right end of the concave frame (2), first rotating discs (52) are arranged at the tops of the vertical ends of the two L-shaped frames (51) through rotating shafts, motors for driving the first rotating discs (52) to rotate are arranged at the tops of the L-shaped frames (51) at the right end, connecting discs (53) are arranged at the opposite sides of the two first rotating discs (52), positioning push rods (54) are arranged at the tops of the opposite sides of the first rotating discs (52), intermittent discs (55) are arranged at the opposite sides of the left end and the right end of the concave frame (2) through rotating shafts, intermittent gears (56) are arranged at the opposite sides of the left end and the right end of the concave frame (2) through rotating shafts, rack plates (57) which are in sliding connection with the top surfaces of the supporting frames (1) are meshed, connecting transmission rods (58) are connected in a rotating mode at the tops of the concave frame (2), and transmission belts (59) are arranged at the left end and the right end of each of the concave frame (2) and are connected with the transmission belts (59) between the two transmission pulleys (52);

intermittent type promotes subassembly (6) including installing second carousel (61) at two connection pad (53) opposite sides, the bottom of second carousel (61) is connected with swivel plate (62) through the pivot rotation, reciprocating rod (63) are installed to one side of swivel plate (62) back to second carousel (61), reciprocating hole (64) have been seted up at both ends about concave frame (2), reciprocating rod (63) are in reciprocating hole (64)'s bottom sliding connection, install reciprocating plate (65) with dead lever (3) sliding connection between reciprocating rod (63), mid-mounting of dead lever (3) has dead plate (66), the outside of dead lever (3) just is located between push pedal (4) and dead plate (66) cover is equipped with compression spring (67), reciprocating rod (68) are installed between the bottom of reciprocating plate (65) and a plurality of dead levers (3).

2. The egg tart skin mold of claim 1, wherein: the feeding assembly (7) comprises a paper placing box (71) arranged at the top of the rear end of the concave sliding block (11), a paper feeding hole (72) is formed between opposite sides of the rack plate (57), an L-shaped plate (73) is arranged in the paper feeding hole (72) at the rear end in a sliding mode, two first limiting rods (74) are arranged on the vertical ends of the L-shaped plate (73), a pressing plate (75) is arranged on the top of the first limiting rods (74) in a sliding mode, a contact pin in a rectangular array is arranged at the bottom of the pressing plate (75), a screw rod (76) is arranged between the two first limiting rods (74) in the L-shaped plate (73), a nut rod (77) in threaded connection with the screw rod (76) is connected to the top of the pressing plate (75), a moving groove is formed in the top surface of the opposite side of the rack plate (57), the top of the nut rod (77) slides through the moving groove, a linkage roller (78) is arranged in the middle of the nut rod (77), and the two linkage roller (78) is connected with a belt (710) through the belt driving rod (79).

3. An egg tart skin mould as claimed in claim 2, wherein: the paper collecting assembly (8) comprises two stabilizing seats (81) arranged at the front end of the concave frame (2), limiting holes (85) are formed in the inner cavities of the right end of the paper collecting roller (84) and the inner cavity of the auxiliary roller (82) arranged at the front end, auxiliary rollers (82) are connected with one another in a rotating mode, auxiliary belts (83) are connected between the two auxiliary rollers (82) in a transmission mode, a disassembling seat (821) is arranged on one side, close to the auxiliary rollers (82), of the stabilizing seat (81) arranged at the left end, a paper collecting roller (84) is arranged between the disassembling seat (821) and the auxiliary rollers (82) arranged at the front end, limiting holes (85) are formed in the inner cavities of the right end of the paper collecting roller (84) and the inner cavities of the auxiliary rollers (82) arranged at the front end, a torsion rod (86) is connected with one another in a threaded mode, a spring plate (88) is arranged in the inner cavity of the disassembling seat (821), the inner cavity of the paper collecting roller (84) is arranged at the bottom of the second limiting rod (87) in a linear array, the inner cavity of the spring plate (84) is arranged at the bottom of the second spring plate (84), the left end and the right end of one side of the horizontal plate (89) close to the concave frame (2) are provided with a plurality of crochets (810).

4. An egg tart skin mould according to claim 3, wherein: the stabilizing assembly (9) comprises a plurality of compression spring rods (91) which are connected to the two ends of the front end of the push plate (4) in a sliding mode, connecting plates (92) are arranged at the tops of the compression spring rods (91), and extrusion plates (93) are arranged at the bottoms of the compression spring rods (91).

5. The egg tart skin mold of claim 4, wherein: the stabilizing assembly (9) further comprises two stabilizing plates (94) fixedly installed at two ends of the front end of the concave sliding block (11), a first paper conveying wheel (95) is installed between the two stabilizing plates (94), a notch is formed in the top of the stabilizing plate (94) located at the rear end, a first compression spring (911) is installed in the notch, a reset block (912) fixedly connected with the first compression spring (911) is rotationally connected in the notch, and a second paper conveying wheel (913) is rotationally connected between the two reset blocks (912).

6. The egg tart skin mold of claim 4, wherein: the rear end of the pressing plate (75) is provided with a lifting block (914), one side of the lifting block (914) opposite to the pressing plate (75) is in a bent shape, and the end of the lifting block (914) opposite to the pressing plate (75) is in an inclined structure.

7. The egg tart skin mold of claim 1, wherein: the utility model provides a push plate (11) is equipped with push rod (104) in the below slip of a plurality of gangways (100) in ejection of compact subassembly (10), gangway (100) have been seted up to the interior die hole bottom that is located of extrusion piece (12), die hole and gangway (100) are linked together, ejection of compact board (101) are in the bottom of die hole, T shape ejection of compact pole (102) are installed to the below of ejection of compact board (101), T shape ejection of compact pole (102) endotheca is equipped with second compression spring (103), the below slip of concave slider (11) corresponding a plurality of gangway (100) is equipped with ejection of compact push rod (104), the bottom fixed mounting of ejection of compact push rod (104) has vertical connection board (105), horizontal connection board (106) are all installed in the outside that stretches out concave slider (11) in the front and back both ends, the left and right sides of concave slider (11) slides and is provided with push pedal (107), the outside that lifts up push pedal (107) is the slope type, the bottom of lifting up push plate (107) looks adaptation slider, concave slider (11) is provided with the whole push plate (11) and is equipped with through the extension spring (1001) along the outside of the removal of the expansion joint part (4), a plurality of through holes are formed in the through plate (1001) at one side corresponding to the extrusion die (41), and an elastic plate (1002) in an annular array is formed at the bottom of each through hole.

8. The egg tart skin mold of claim 7, wherein: the linkage assembly comprises a double-end screw rod (1071) which is connected between a front pushing plate (107) and a rear pushing plate (107) in a threaded manner, a first driving wheel (1072) is mounted in the middle of the double-end screw rod (1071), a second driving wheel (1073) is rotatably connected to the inner cavity of the concave sliding block (11) and located above the first driving wheel (1072), the first driving wheel (1072) is meshed with the second driving wheel (1073), a driving rod (1074) is mounted at the front end of the second driving wheel (1073), one end of the driving rod (1074) rotates to penetrate through the outer side of the concave sliding block (11) and is provided with a driving roller (1075), and a conveying belt (1076) is connected between the two driving rollers (1075).