CN110833087A - Macarons manufacturing method and efficient eggbeater - Google Patents

Abstract

The invention discloses a macarons manufacturing method and a high-efficiency eggbeater, which are technically characterized by comprising the following steps of: s1: weighing raw materials; s2: mixing the almond powder and the fine granulated sugar, sieving the mixture by a sieve of 25 meshes, then putting the sieved almond powder and the sieved fine granulated sugar into a dry mill for grinding, and then sieving the ground almond powder and the ground fine granulated sugar by a sieve of 20 meshes; s3: evenly dividing the protein liquid into at least 3 parts, dividing the fine granulated sugar into the same parts of the protein liquid according to the increasing times of equal proportion, beating each part of the protein liquid and each part of the fine granulated sugar by using a high-efficiency egg beater until the protein liquid and the fine granulated sugar are foamed, mixing the three parts of the beaten protein liquid and the three parts of the fine granulated sugar together, and continuously stirring by using the high-efficiency egg beater to obtain a beaten liquid; s4: preparing a semi-finished solution; s5: preparing batter; s6: preparing a cake blank; s7: and finally preparing the macarons. According to the invention, the paste is finely processed step by step, so that the prepared biscuit is fragrant, glutinous and delicious, and the prepared macarons are very delicious.

Description

Macarons manufacturing method and efficient eggbeater

Technical Field

The invention relates to the field of dessert making, in particular to a macarons making method and a high-efficiency eggbeater.

Background

Macarons are western-style snacks, are fragrant and glutinous in taste and exquisite in appearance, and are popular with people.

The prior Chinese patent with the application number of CN201610494165.8 discloses a macarons and a preparation method thereof, wherein the macarons comprise the following components in parts by weight: 950-1050 parts of almond powder, 850-950 parts of fine granulated sugar, 760-820 parts of sucrose powder, 800-850 parts of protein liquid, 250-300 parts of water and 600-1000 parts of stuffing; the preparation steps mainly comprise: weighing raw materials, preparing almond powder batter, treating protein batter, mixing the almond powder batter and the protein batter, preparing cake blanks and adding stuffing, wherein the prepared macarons have very beautiful taste.

The invention also aims to provide a preparation method of the macarons, so that the prepared macarons are fragrant and delicious in taste.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a macarons making method and a high-efficiency eggbeater, the masa is finely and step-by-step processed, so that the made biscuit is fragrant, glutinous and delicious, and the made macarons are very delicious.

In order to achieve the purpose, the invention provides the following technical scheme:

a macarons manufacturing method comprises the following steps:

s1: weighing raw materials, including base materials: protein liquid, almond powder and fine granulated sugar, and also comprises auxiliary materials and stuffing, and the basic materials and the auxiliary materials are weighed according to the required proportion;

s2: mixing the almond powder and the fine granulated sugar matched with the almond powder, sieving the mixture by a 25-mesh sieve, then putting the sieved almond powder and the fine granulated sugar into a dry mill, grinding the almond powder and the fine granulated sugar for 25 +/-5 seconds, and then sieving the ground almond powder and the ground fine granulated sugar by a 20-mesh sieve;

s3: evenly dividing the protein liquid into at least 3 parts, dividing the fine granulated sugar in proportion to the protein liquid into the same parts of the protein liquid according to the increasing times of equal proportion, beating each part of the protein liquid and each part of the fine granulated sugar by using a high-efficiency egg beater until the mixture is foamed, mixing the three parts of the beaten protein liquid and the three parts of the fine granulated sugar together, and continuously stirring for 5 +/-3 min by using the high-efficiency egg beater to obtain a beaten liquid;

s4: mixing the auxiliary materials, sieving with a 20-mesh sieve, adding the sieved auxiliary materials into the whipping liquid in the step 3 for three times, and stirring the auxiliary materials and the whipping liquid for 2 +/-1 min by using a high-efficiency eggbeater when adding the auxiliary materials and the whipping liquid for each time to obtain a semi-finished liquid;

s5: putting the almond powder and the fine granulated sugar which are sieved in the step 2 into the semi-finished liquid, and stirring for 3 +/-1 min by using a high-efficiency egg beater to obtain a batter;

s6: putting the batter into a casting machine, extruding batter cakes with the diameter of 4 +/-2 cm, putting the batter cakes into an oven with the preheating temperature of 45 ℃, adjusting the temperature of the oven to 55 ℃, baking for 15min, taking out the batter cakes, preheating the oven to 210 ℃, putting the batter cakes into the oven, adjusting the temperature to 195 ℃, and baking for 15min to obtain cake blanks;

s7: and smearing the stuffing between the two cake blanks to obtain the macarons.

By adopting the technical scheme, the almond powder, the fine granulated sugar and the auxiliary materials can be uniformly mixed in the respective mixing and stirring processes through the sieving step, the protein liquid and the fine granulated sugar are pre-stirred in unequal proportion and finally blended and stirred, and meanwhile, the high-efficiency egg beater is used, so that the obtained beating liquid is finer, the texture of the batter prepared by adding the almond powder, the fine granulated sugar and the auxiliary materials is fine and smooth, the prepared cake embryo is soft and glutinous in taste and delicious, and the macarons prepared by the invention are very delicious.

The invention also aims to provide a high-efficiency eggbeater, which comprises a shell, a rotary head, a pull rod and a folding claw, a shell cavity is arranged in the machine shell, the rotating head is rotatably arranged on the wall of the machine shell through the rotating through groove, one end of the rotary head extends into the shell cavity and is connected with a driving device, the rotary head is provided with a pull groove in an axial penetrating way, the pull rod is arranged in the pull groove in a sliding manner, the pull head is arranged at one end of the pull rod, which extends out of the pull groove and is far away from the shell cavity, the side of the pull head facing the pull rod is rotatably provided with a connecting ring, the folding claw comprises at least two claw rods which are rotatably connected, two ends of the folding claws are hinged between the connecting ring and the rotating head extending shell cavity, a plurality of the folding claws are evenly and circumferentially arranged between the pull head and the rotating head, and a retraction component is arranged in the shell cavity, and a driving end of the retraction component is connected with one end of the pull rod extending into the shell cavity and drives the pull rod to slide in the pull groove.

Through adopting above-mentioned technical scheme, at the in-process of eggbeater work, the receipts that utilize to receive and draw the subassembly draw the effect and can make the pull rod slide in drawing the inslot reciprocating to can change the distance between commentaries on classics head and the pull head relatively, can make and take place to rotate between the adjacent claw pole, thereby change folding claw and to the horizontal and vertical area of contact of egg liquid, make folding claw carry out thorough stirring to each position of egg liquid, thereby make the mixed stirring thing texture that obtains more meticulous in the same direction as the water.

The invention is further provided that the retraction assembly comprises a first guide ring, a retraction spring and a first linkage rod, the first guide ring is arranged on the cavity wall of the shell cavity through a first connecting rod, the pull rod is arranged in the first guide ring in a sliding manner, the retraction spring is fixedly arranged between one end of the pull rod far away from the pull head and the wall of the shell cavity, the retraction spring deforms along the length direction of the pull rod, the outer side wall of the shell is provided with a handle support, the side wall of the handle support facing the pull head along the length direction of the pull rod is provided with a abdicating groove, a driving pressing block is arranged in the abdicating groove in a sliding way, a return spring is arranged between the side wall of one side of the abdicating groove facing the notch and the driving pressing block, the shell is provided with a moving through groove, the first linkage rod is arranged between the peripheral wall of one side of the pull rod, which is close to the tension spring, and the driving pressing block, and the first linkage rod is connected with the moving through groove in a sliding mode.

Through taking above-mentioned technical scheme, can manually press the drive briquetting for under the effect of first gangbar, drive the pull rod and slide in the kerve, first guide ring leads the pull rod simultaneously, and in addition, reset spring can utilize the elasticity of self to reset and respectively will drive briquetting and pull rod pull back normal position, makes things convenient for staff's continuous operation, and manual operation makes things convenient for the staff to utilize and feels and master the stirring progress.

The invention is further set that the drawing and retracting assembly comprises a second guide ring, a driving toothed plate and a second linkage rod, the second guide ring is arranged on the cavity wall of the shell cavity through a second connecting rod, the pull rod is arranged in the second guide ring in a sliding mode, the second linkage rod is vertically arranged on the peripheral wall of one side of the pull rod, which is far away from the pull head, the driving toothed plate is vertically arranged at one end, which is far away from the pull rod, of the second linkage rod, a driving motor is arranged in the shell cavity, and a driving gear meshed with the driving toothed plate is arranged at the driving end of the driving motor.

Through taking above-mentioned technical scheme, utilize the meshing of drive pinion rack and drive gear, can make the second linkage pole remove along the length direction of pull rod to can drive the pull rod automatically and slide in the kerve, the second guide ring leads simultaneously, and electric operation more uses manpower sparingly moreover.

The invention is further provided with a connecting groove at one end of the pull rod close to the pull head, a connecting block in threaded connection with the connecting groove is arranged on the side wall of the pull head facing the pull rod, an installation frame groove is arranged at one side of the rotary head facing the pull head, an installation connecting frame is hinged at one end of the folding claw far away from the pull head, and a locking piece for clamping the installation connecting frame in the installation frame groove is arranged on the rotary head.

Through taking above-mentioned technical scheme, the installation frame groove is connected through even frame of lock and installation can be dismantled, the pull head passes through the spread groove and can dismantle with the pull rod with the connecting block and be connected, thereby can realize folding claw and the dismantled of pull rod is connected, can change suitable folding claw type according to the stirring needs, and folding claw passes through the go-between and articulates on the pull head, the go-between rotates with the pull head to be connected, can be when connecting block and spread groove, do not arouse folding claw's rotation, folding claw injury people and the problem of damage have been avoided.

The invention is further provided that the locking connecting piece comprises at least two clamping grooves, clamping blocks, driving bevel gears, linkage rotating rods and a driving rod, wherein the clamping grooves are uniformly recessed and arranged on the outer peripheral wall of the mounting connecting frame, the outer peripheral wall of the mounting frame groove is recessed and provided with extending grooves opposite to the clamping grooves, a frame cavity communicated with the extending grooves is arranged in the rotating head, the clamping blocks are slidably arranged in the extending grooves, four linkage rotating rods are sequentially and vertically arranged in the frame cavity in a rotating manner, one side of each clamping block extending into the frame cavity is provided with a linkage tooth, the peripheral wall of each linkage rotating rod is provided with ring teeth meshed with the linkage teeth, the driving bevel gears are arranged on one end wall of one linkage rotating rod, seven linkage bevel gears are arranged on the other end walls of the linkage rotating rods, and the seven linkage bevel gears are sequentially meshed with the driving bevel gears, the driving rod is fixedly arranged on the circular side wall of the driving bevel gear, which is far away from the linkage rotating rod, the driving rod extends out of the rotating head through the rotating groove, and a limiting part for limiting the driving rod to rotate is arranged on the rotating head.

By adopting the technical scheme, when the driving rod rotates, the driving bevel gear can be promoted to drive the linkage rotating rod connected with the driving bevel gear and the linkage bevel gear to rotate, so that the linkage rotating rod rotates in the same direction under the meshing action of other linkage bevel gears, the linkage rotating rod drives the ring gear to be meshed with the linkage gear, the clamping block extends out of the extending groove and is received in the frame cavity, the clamping connection and the separation of the clamping block and the clamping groove are realized, and the connection and the separation of the installation frame groove and the installation connecting frame are realized.

The invention is further arranged in that the limiting piece comprises a reversing block, a positioning block and a positioning groove, the reversing block is rotatably arranged at one end of the driving rod extending out of the shell, the positioning block is arranged at one end of the reversing block far away from the driving rod, and the positioning groove is arranged on the outer side wall of the rotary head and is clamped with the positioning block.

Through adopting above-mentioned technical scheme, limiting displacement between constant head tank and the locating piece can be fixed the switching-over piece on changeing the head relatively to can rotate the restriction to the actuating lever.

The invention is further arranged in that the adjacent claw rods are rotatably arranged on the same connecting block, one side of the connecting block, which faces the pull rod, is provided with a telescopic rod, one end, which is far away from the connecting block, of the telescopic rod, which is positioned on the same plane vertical to the length direction of the pull rod, is arranged on the same matching ring, and the matching ring is sleeved on the outer peripheral wall of the pull rod.

Through adopting above-mentioned technical scheme, under the prerequisite that does not influence claw pole pivoted, can carry on spacingly to folding claw in the direction of perpendicular to pull rod length, avoid folding claw to take place the rocking of circumference.

In conclusion, the invention has the following beneficial effects:

1. the pre-stirring and the final blending stirring in different proportions are carried out step by step, and meanwhile, the high-efficiency egg beater is used, so that the obtained beating liquid is finer in texture, and the batter prepared by adding the almond powder, the fine granulated sugar and the auxiliary materials is fine and smooth in texture, so that the prepared cake embryo is soft and glutinous in taste and delicious in taste, and the macarons prepared by the invention are very delicious;

2. the high-efficiency eggbeater can change the transverse and longitudinal contact area of the folding claws to egg liquid in the working process, so that the folding claws can thoroughly stir all the positions of the egg liquid, and the obtained mixed stirred material has finer and smoother texture.

Drawings

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

FIG. 2 is a cross-sectional view of a second structure embodying the present invention.

FIG. 3 is a partial cross-sectional view of a second embodiment of a fastener structure.

Fig. 4 is an enlarged view of a portion a in fig. 2.

Fig. 5 is an enlarged view at B in fig. 3.

FIG. 6 is a partial cross-sectional view of three structures embodying embodiments of the present invention.

Reference numerals: 1. a housing; 11. a shell cavity; 12. a drive device; 2. turning the head; 21. groove drawing; 22. rotating the through groove; 3. a slider; 31. a connecting ring; 4. a pull rod; 41. connecting grooves; 42. connecting blocks; 43. installing a frame groove; 44. mounting the connecting frame; 45. a locking member; 451. a card slot; 452. a clamping block; 4521. extending out of the groove; 4522. a linkage tooth; 453. a drive bevel gear; 454. linkage bevel gear; 455. a linkage rotating rod; 4551. a frame cavity; 4552. ring teeth; 456. a drive rod; 457. a limiting member; 4571. a commutation block; 4572. positioning blocks; 4753. positioning a groove; 5. a folding claw; 51. a claw rod; 52. connecting blocks; 53. a telescopic rod; 54. matching rings; 6. a retracting component; 61. a first guide ring; 611. a first link; 62. retracting and pulling the spring; 63. a first linkage rod; 64. a handle support; 641. a yielding groove; 642. driving the pressing block; 643. a return spring; 644. moving the through groove; 65. a second guide ring; 651. a second link; 66. a driving toothed plate; 661. a drive motor; 662. a drive gear; 67. a second linkage rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the invention discloses a macarons manufacturing method, which comprises the following steps:

s1: weighing raw materials, including base materials: 60 g of protein liquid, 90 g of almond powder and 90 g of fine granulated sugar, and also comprises 30 g of auxiliary materials of sucrose powder and 2 drops of natural powder pigment, and the stuffing materials are as follows: 250 g of unsalted butter, 50 g of fine granulated sugar, 1 drop of natural powder pigment and 1 drop of natural vanilla extract;

s2: mixing 90 g of almond powder and 42 g of fine granulated sugar, sieving by a 25-mesh sieve, grinding the screened almond powder and the screened fine granulated sugar in a dry grinding machine for 25 +/-5 seconds, and sieving the ground almond powder and the ground fine granulated sugar by a 20-mesh sieve;

s3: evenly dividing the protein liquid into 3 parts, then dividing 48 g of fine granulated sugar into three parts of 8 g, 16 g and 24 g, then beating each part of the protein liquid and each part of the fine granulated sugar by using a high-efficiency egg beater until the mixture is foamed, then mixing the three parts of the beaten protein liquid and the fine granulated sugar together, and continuously stirring for 5 +/-3 min by using the high-efficiency egg beater to obtain a beaten liquid;

s4: sieving sucrose powder with a 20-mesh sieve, adding the sieved sucrose powder into the hair-beating liquid in the step 3 for three times, stirring the auxiliary material and the hair-beating liquid for 2 +/-1 min by using a high-efficiency egg beater when adding the sucrose powder for each time, adding 2 drops of natural powder pigment after adding the sucrose powder for the last time, and obtaining semi-finished liquid;

s5: putting the almond powder and the fine granulated sugar which are sieved in the step 2 into the semi-finished liquid, and stirring for 3 +/-1 min by using a high-efficiency egg beater to obtain a batter;

s6: putting the batter into a small casting machine, extruding batter cakes with the diameter of 4 +/-2 cm, putting the batter cakes into an oven with the preheating temperature of 45 ℃, adjusting the temperature of the oven to 55 ℃, baking for 15min, taking out the batter cakes, preheating the oven to 210 ℃, putting the batter cakes into the oven, adjusting the temperature to 195 ℃, and baking for 15min to obtain cake blanks;

s7: 250 g of unsalted butter, 50 g of fine granulated sugar, 1 drop of natural powder pigment and 1 drop of natural vanilla essence are uniformly mixed to prepare stuffing, and then the stuffing is smeared between two cake blanks to obtain the macarons.

Example two:

the efficient eggbeater used in the macarons manufacturing process comprises a rectangular machine shell 1, a rotary head 2, a pull head 3, a pull rod 4 and folding claws 5, wherein the outer edge wall of the machine shell 1 is smooth and internally provided with a shell cavity 11, the rotary head 2 is rotatably arranged on the shell wall of the machine shell 1 through a rotary through groove 22, one part of the rotary head is positioned in the shell cavity 11, the other part of the rotary head is positioned outside the machine shell 1, the rotary head 2 is positioned in the machine shell 1 and is cylindrical, and the other part of the rotary head is positioned outside the machine shell 1 and is cube; one end of the rotary head 2 extends into the shell cavity 11 and is connected with a driving device 12 (preferably a motor and a gear arranged at the driving end of the motor and engaged with the rotary head), a button for driving the driving device 12 to work and adjusting the rotating speed of the driving device 12 is arranged on the machine shell 1, the rotary head 2 is provided with a pull groove 21 along the axial direction in a penetrating way, the pull rod 4 slides and is arranged in the pull groove 21 under the action of a drawing component 6 positioned in the shell cavity 11, the pull head 3 is arranged at one end of the pull rod 4 extending out of the pull groove 21 and far away from the shell cavity 11, a connecting ring 31 is arranged on the pull head 3 in a rotating way, the folding claws 5 comprise two claw rods 51 connected in a rotating way, the claw rods 51 of the embodiment are supporting rods, two ends of the folding claws 5 are hinged between the connecting ring 31 and the rotary head 2 extending out of the shell. When the egg beater is used, the folding claw 5 is stretched into protein liquid, the driving device 12 is started, the rotary head 2 drives the folding claw 5 to rotate, then the folding assembly 6 is started, the pull rod 4 slides in the pull groove 21, and therefore the two claw rods 51 are repeatedly folded between the rotary head 2 and the pull rod 4, the length of the folding claw 5 in the transverse direction and the longitudinal direction of the protein liquid is changed, and the protein liquid is fully stirred.

As shown in fig. 2, the adjacent claw rods 51 are rotatably arranged on the same connecting block 52, one side of the connecting block 52 facing the pull rod 4 is provided with an expansion link 53, the expansion links 53 in this embodiment are a plurality of sequentially sleeved cylindrical rods, one end of the expansion link 53, which is far away from the connecting block 52, on the same plane perpendicular to the length direction of the pull rod 4 is arranged on the same mating ring 54, and the mating ring 54 is sleeved on the outer peripheral wall of the pull rod 4; in the process that folding claw 5 buckles, telescopic link 53 takes place to stretch out and draw back, and the restriction is located the claw pole 51 on same perpendicular to pull rod 4 length direction plane and rotates the tie point and can not misplace, and simultaneously, the displacement that takes place when cooperation folding claw 5 folds is slided on pull rod 4 to cooperation ring 54, improves folding claw 5's stability in use.

As shown in fig. 2, the retracting assembly 6 includes a first guide ring 61, a retracting spring 62 and a first linkage rod 63, the first guide ring 61 is disposed on the cavity wall of the housing cavity 11 through a first connecting rod 611, the pull rod 4 is slidably disposed in the first guide ring 61, the retracting spring 62 is fixedly disposed between one end of the pull rod 4 away from the slider 3 and the cavity wall of the housing cavity 11 and deforms along the length direction of the pull rod 4, an oval ring-shaped handle holder 64 is disposed on the outer side wall of the bottom end of the housing 1, a yielding groove 641 is concavely disposed on the side wall of the handle holder 64 facing the slider 3 along the length direction of the pull rod 4, a driving pressing block 642 is slidably disposed in the yielding groove 641, and a return spring 643 is disposed between the side wall of the yielding groove 641 facing the notch and the driving pressing block 642, meanwhile, a moving through groove 644 is arranged on the machine shell 1, and the first linkage rod 63 is connected between the peripheral wall of one side of the pull rod 4 close to the tension spring 62 and the driving pressing block 642 through the moving through groove 644. Under the stirring action, a person holds the handle holder 64 with hands, presses the four fingers on the driving pressing block 642, then exerts force on the four fingers to press the driving pressing block 642 into the abdicating groove 641, at the moment, the pull rod 4 moves in one direction in the pull groove 21 through the first linkage rod 63, and in the process, the retraction spring 62 and the return spring 643 are compressed, so that when the four fingers do not press the driving pressing block 642 any more, the return spring 643 and the retraction spring 62 can push the pull rod 4 to move in the direction, and the reciprocating sliding of the pull rod 4 in the pull groove 21 can be driven by the repeated actions, so that the folding claw 5 is folded.

As shown in fig. 2 and 4, one end of the pull rod 4 close to the pull head 3 is concavely provided with a connecting groove 41, the side wall of the pull head 3 facing the pull rod 4 is convexly provided with a connecting block 42 in threaded connection with the connecting groove 41, one side of the swivel head 2 facing the pull head 3 is provided with a square mounting frame groove 43, one end of the folding claw 5 far away from the pull head 3 is hinged with a square mounting connecting frame 44, and the swivel head 2 is provided with a locking piece 45 for clamping the mounting connecting frame 44 in the mounting frame groove 43; in the using process of the eggbeater, the connecting block 42 is in threaded connection with the connecting groove 41, the mounting connecting frame 44 is fixed in the mounting frame groove 43 through the locking connecting piece 45, and the eggbeater works normally; when the folding claw 5 needs to be replaced and maintained, the fixing function of the locking piece 45 is released, then the connecting block 42 is unscrewed from the connecting groove 41, and the folding claw 5 can be taken down and replaced.

As shown in fig. 3 and 4, the locking member 45 includes a locking groove 451, a locking block 452, a driving bevel gear 453, a linkage bevel gear 454, a linkage rotary rod 455 and a driving rod 456, the locking groove 451 has four and uniformly recesses formed on the outer circumferential wall of the mounting frame 44, the outer circumferential wall of the mounting frame 43 is recessed with a protrusion groove 4521 opposite to the locking groove 451 and slidably connected to the locking block 452, a frame cavity 4551 communicating with the protrusion groove 4521 is formed in the rotary head 2, the linkage rotary rods 455 have four and sequentially vertically rotatably formed in the frame cavity 4551, one side of the locking block 452 protruding into the frame cavity 4551 is provided with a linkage tooth 4522, the circumferential wall of each linkage rotary rod 455 is provided with a ring tooth 4552 meshing with the linkage tooth 4522, the driving bevel gear 453 is disposed on one end wall of one of the linkage rotary rods 455, seven linkage bevel gears 454 are disposed on the other end walls 454 of the linkage rotary rods 455, and all the linkage bevel gears 454 mesh with the driving bevel gears 453 sequentially, the driving rod 456 is fixedly arranged on the circular side wall of the driving bevel gear 453 far away from the linkage rotating rod 455, the driving rod 456 extends out of the rotating head 2 through the rotating groove, and the rotating head 2 is provided with a limiting member 457 for limiting the driving rod 456 to rotate. In the using process of the eggbeater, one end of the clamping block 452 extends out of the groove and is clamped in the clamping groove 451, and meanwhile, the limiting piece 457 limits the rotation of the driving rod 456, so that the linkage rotating rod 455 cannot rotate, and the ring gear 4552 cannot drive the clamping block 452 to move through the linkage gear 4522. When the installation frame groove 43 and the installation connecting frame 44 need to be separated, the limiting function of the limiting piece 457 is removed, then the driving rod 456 is rotated, the driving bevel gear 453 drives the linkage rotating rod 455 and the linkage bevel gear 454 to rotate, the linkage tooth 4522 is meshed with the ring tooth 4552, the fixture block 452 slides in the extending groove, the fixture block 452 can leave the fixture groove 451, and the installation frame groove 43 and the installation connecting frame 44 can be separated.

As shown in fig. 5, the limiting member 457 comprises a direction-changing block 4571, a positioning block 4572 and a positioning groove 4753, the direction-changing block 4571 is rotatably disposed at one end of the driving rod 456, which extends out of the rotor 2, the positioning block 4572 in this embodiment is an elastic T-shaped block and is disposed at one end of the direction-changing block 4571, which is far away from the driving rod 456, and the positioning groove 4753 is a T-shaped groove and is disposed on an outer side wall of the rotor 2; the positioning block 4572 is elastically deformed and clamped with the positioning groove 4753, so that the reversing block 4571 can be relatively fixed on the rotary head 2, and the limit of the driving rod 456 is realized.

The working process is as follows:

when the egg beater is used, the folding claw 5 is stretched into the protein liquid, the driving device 12 is started, the rotary head 2 drives the folding claw 5 to rotate, then the handle support 64 is held by a hand, the driving pressing block 642 is continuously pressed and released, the pull rod 4 slides in the pull groove 21, the two claw rods 51 are enabled to be repeatedly folded between the rotary head 2 and the pull rod 4, and therefore the length of the folding claw 5 in the transverse direction and the longitudinal direction in the protein liquid is changed, and the protein liquid is fully stirred.

Example three:

a high-efficiency eggbeater is shown in figure 6, and the difference between the third embodiment and the second embodiment is that: the drawing assembly 6 comprises a second guide ring 65, a driving toothed plate 66 and a second linkage rod 67, the second guide ring 65 is arranged on the cavity wall of the shell cavity 11 through a second connecting rod 651, the inner ring ratio of the second guide ring is connected with the pull rod 4 in a sliding mode, the second linkage rod 67 is vertically arranged on the peripheral wall of one side, far away from the pull head 3, of the pull rod 4, the driving toothed plate 66 is vertically arranged at one end, far away from the pull rod 4, of the second linkage rod 67, a driving motor 661 is arranged in the shell cavity 11, a driving gear 662 meshed with the driving toothed plate 66 is arranged at the driving end of the driving motor 661, a button for controlling the work and the rotating speed of the driving motor 661 is arranged on the machine shell 1. When using the eggbeater, the worker holds the handle, but the folding of the folding claw 5 is realized by starting the driving motor 661, engaging the driving gear 662 with the driving gear plate 66, and then moving the pull groove 21 by the second linkage rod 67.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. A macarons manufacturing method is characterized by comprising the following steps:

s1: weighing raw materials, including base materials: protein liquid, almond powder and fine granulated sugar, and also comprises auxiliary materials and stuffing, and the basic materials and the auxiliary materials are weighed according to the required proportion;

s2: mixing the almond powder and the fine granulated sugar matched with the almond powder, sieving the mixture by a 25-mesh sieve, then putting the sieved almond powder and the fine granulated sugar into a dry mill, grinding the almond powder and the fine granulated sugar for 25 +/-5 seconds, and then sieving the ground almond powder and the ground fine granulated sugar by a 20-mesh sieve;

s3: evenly dividing the protein liquid into at least 3 parts, dividing the fine granulated sugar in proportion to the protein liquid into the same parts of the protein liquid according to the increasing times of equal proportion, beating each part of the protein liquid and each part of the fine granulated sugar by using a high-efficiency egg beater until the mixture is foamed, mixing the three parts of the beaten protein liquid and the three parts of the fine granulated sugar together, and continuously stirring for 5 +/-3 min by using the high-efficiency egg beater to obtain a beaten liquid;

s4: mixing the auxiliary materials, sieving with a 20-mesh sieve, adding the sieved auxiliary materials into the whipping liquid in the step 3 for three times, and stirring the auxiliary materials and the whipping liquid for 2 +/-1 min by using a high-efficiency eggbeater when adding the auxiliary materials and the whipping liquid for each time to obtain a semi-finished liquid;

s5: putting the almond powder and the fine granulated sugar which are sieved in the step 2 into the semi-finished liquid, and stirring for 3 +/-1 min by using a high-efficiency egg beater to obtain a batter;

s6: putting the batter into a casting machine, extruding batter cakes with the diameter of 4 +/-2 cm, putting the batter cakes into an oven with the preheating temperature of 45 ℃, adjusting the temperature of the oven to 55 ℃, baking for 15min, taking out the batter cakes, preheating the oven to 210 ℃, putting the batter cakes into the oven, adjusting the temperature to 195 ℃, and baking for 15min to obtain cake blanks;

s7: and smearing the stuffing between the two cake blanks to obtain the macarons.

2. An efficient eggbeater is characterized in that: comprises a machine shell (1), a rotary head (2), a pull head (3), a pull rod (4) and folding claws (5), wherein a shell cavity (11) is arranged in the machine shell (1), the rotary head (2) is rotatably arranged on the shell wall of the machine shell (1) through a rotary through groove (22), one end of the rotary head (2) extends into the shell cavity (11) and is connected with a driving device (12), a pull groove (21) axially penetrates through the rotary head (2), the pull rod (4) is slidably arranged in the pull groove (21), the pull head (3) is arranged at one end of the pull rod (4) extending out of the pull groove (21) and far away from the shell cavity (11), a connecting ring (31) is rotatably arranged on one side of the pull head (3) facing the pull rod (4), the folding claws (5) comprise at least two claw rods (51) which are rotatably connected, and two ends of the folding claws (5) are hinged between the connecting ring (31) and the rotary head (2) extending out of the shell cavity (11), a plurality of folding claws (5) are uniformly and circumferentially arranged between the pull head (3) and the rotary head (2), a drawing component (6) is arranged in the shell cavity (11), and the driving end of the drawing component (6) is connected with one end, extending into the shell cavity (11), of the pull rod (4) and drives the pull rod (4) to slide in the pull groove (21).

3. A high efficiency eggbeater according to claim 2, wherein: the retracting component (6) comprises a first guide ring (61), a retracting spring (62) and a first linkage rod (63), the first guide ring (61) is arranged on the cavity wall of the shell cavity (11) through a first connecting rod (611), the pull rod (4) is arranged in the first guide ring (61) in a sliding manner, the retracting spring (62) is fixedly arranged between one end, away from the pull head (3), of the pull rod (4) and the cavity wall of the shell cavity (11), the retracting spring (62) deforms along the length direction of the pull rod (4), a handle support (64) is arranged on the outer side wall of the machine shell (1), a yielding groove (641) is arranged on the side wall, facing the pull head (3), of the handle support (64) along the length direction of the pull rod (4), a driving pressing block (642) is arranged in the yielding groove (641) in a sliding manner, a return spring (643) is arranged between the side wall, facing the notch, of the yielding groove (641) and the driving pressing block (642), a moving through groove (644) is formed in the machine shell (1), the first linkage rod (63) is arranged between the peripheral wall, close to the tension spring (62), of one side of the pull rod (4) and the driving pressing block (642), and the first linkage rod (63) is connected with the moving through groove (644) in a sliding mode.

4. A high efficiency eggbeater according to claim 2, wherein: receive and draw subassembly (6) and include second guide ring (65), drive pinion rack (66) and second tie rod (67), second guide ring (65) set up on the chamber wall of shell chamber (11) through second connecting rod (651), pull rod (4) slide and set up in second guide ring (65), second tie rod (67) set up perpendicularly on pull rod (4) keep away from one side perisporium of pull head (3), drive pinion rack (66) set up perpendicularly and keep away from the one end of pull rod (4) in second tie rod (67), be provided with driving motor (661) in shell chamber (11), the drive end of driving motor (661) is provided with drive gear (662) with drive pinion rack (66) meshing.

5. A high efficiency eggbeater according to claim 2, wherein: the pull rod (4) is close to one end of pull head (3) and is provided with connecting groove (41), pull head (3) are provided with on the lateral wall towards pull rod (4) with connecting groove (41) threaded connection's connecting block (42), turn head (2) are provided with installation frame groove (43) towards one side of pull head (3), the one end that pull head (3) were kept away from in folding claw (5) articulates there is installation even frame (44), be provided with on turn head (2) with installation even frame (44) joint at the locking piece (45) of installation frame groove (43).

6. The high efficiency eggbeater of claim 5, wherein: the locking piece (45) comprises a clamping groove (451), clamping blocks (452), a driving bevel gear (453), a linkage bevel gear (454), a linkage rotating rod (455) and a driving rod (456), wherein at least two clamping grooves (451) are uniformly and concavely arranged on the peripheral wall of an installation connecting frame (44), an extending groove (4521) opposite to the clamping groove (451) is concavely arranged on the peripheral wall of an installation frame groove (43), a frame cavity (4551) communicated with the extending groove (4521) is arranged in the rotating head (2), the clamping blocks (452) are slidably arranged in the extending groove (4521), the linkage rotating rod (455) comprises four linkage rotating rods (4552) which are sequentially and vertically arranged in the frame cavity (4551), one side of the clamping blocks (452) extending into the frame cavity (4551) is provided with linkage teeth (4522), and the peripheral wall of the linkage rotating rod (455) is provided with ring teeth (4552) meshed with the linkage teeth (4522), the driving bevel gears (453) are arranged on one end wall of one linkage rotating rod (455), seven linkage bevel gears (454) are arranged on the other end walls of the linkage rotating rods (455), the seven linkage bevel gears (454) are sequentially meshed with the driving bevel gears (453), the driving rod (456) is fixedly arranged on a circular side wall, far away from the linkage rotating rod (455), of the driving bevel gears (453), the driving rod (456) extends out of the rotating head (2) through the rotating groove, and a limiting piece (457) for limiting the driving rod (456) to rotate is arranged on the rotating head (2).

7. The high efficiency eggbeater of claim 5, wherein: the limiting piece (457) comprises a reversing block (4571), a positioning block (4572) and a positioning groove (4753), the reversing block (4571) is rotatably arranged at one end, extending out of the rotary head (2), of the driving rod (456), the positioning block (4572) is arranged at one end, far away from the driving rod (456), of the reversing block (4571), and the positioning groove (4753) is arranged on the outer side wall of the rotary head (2) and is clamped with the positioning block (4572).

8. A high efficiency eggbeater according to claim 2, wherein: adjacent claw pole (51) rotate to set up on same even piece (52), even one side that piece (52) face pull rod (4) is provided with telescopic link (53), is located same perpendicular to one end setting that even piece (52) were kept away from in telescopic link (53) on pull rod (4) length direction plane is on same cooperation ring (54), cooperation ring (54) cover is established on the periphery wall of pull rod (4).

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