CN117282309B - Mixing device and method for preparing seasoning kelp jam - Google Patents

Abstract

The invention relates to the technical field of seasoning kelp jam preparation, and discloses a mixing device and a method for seasoning kelp jam preparation. According to the mixing device and the method for preparing the kelp sauce serving as the seasoning, the roller is horizontally designed, and is enabled to rotate in a horizontal state, so that mixed raw materials inside the roller can be in a dead angle-free motion state, the motion rate of the mixed raw materials at the corner position is improved, the mixed raw materials are combined and used by combining with the stirring structure, the motion rate of the mixed raw materials is further improved, the efficiency of raw material mixing is effectively improved, in addition, the device can realize the rotation of a horizontal cylinder body by utilizing one driving motor, and can realize the rotation driving function of the stirring structure, so that one machine is multipurpose, and the effective utilization rate of the driving motor is effectively improved.

Description

Mixing device and method for preparing seasoning kelp jam

Technical Field

The invention relates to the technical field of preparation of kelp sauce serving as a seasoning, in particular to a mixing device and a mixing method for preparing kelp sauce serving as a seasoning.

Background

The seasoning is an auxiliary food which can increase the color, fragrance and taste of dishes, promote appetite and is beneficial to human health, the function of the seasoning is to promote the quality of dishes and meet the sensory requirements of consumers, so that the appetite is stimulated, the human health is promoted, the seasoning comprises salty agents, sour agents, sweeteners, flavoring agents, xin Xiangji and the like in a broad sense, and the seasoning is similar to common salt, soy sauce, vinegar, monosodium glutamate, sugar (other), star anise, fennel, pricklyash peel, mustard and the like, and when the conventional seasoning preparation mixing device is used, the conventional seasoning preparation mixing device is mainly stirred manually, so that the production efficiency is low, and the use of people is not facilitated.

Therefore, CN211936668U in chinese patent publication discloses a mixing device of automatic turning material for seasoning preparation, its main structure includes the base, the right side swing joint at base top has the dead lever, the surface of dead lever is overlapped respectively and is equipped with fixed block and spring, the top and the bottom of spring respectively with the bottom of fixed block and the top swing joint of base, the top fixedly connected with motor on fixed block right side, the left end of motor shaft runs through the fixed block and extends to the outside fixedly connected with turning block of fixed block. Above-mentioned automatic mixing arrangement who turns over material is used in flavouring preparation makes the mixing box vibrate from top to bottom through setting up dead lever, fixed block, spring, connecting block and fixed cover, through setting up motor, rotating block, fan-shaped piece, connecting rod, bracing piece, adapter sleeve, guide arm, guide rail, fixed ball and turning over the board, can turn over the material to the flavouring in the mixing box and mix, makes mixing arrangement convenient to use, and mixing arrangement does not need the manual work to stir, has improved production efficiency, is favorable to people's use.

From the above description, it can be seen that: above-mentioned automatic mixing arrangement who turns over material is used in flavouring preparation is that motor 5 drives the turning block and rotates, and the turning block drives sector piece and connecting rod rotation, and the connecting rod drives the bracing piece rotation, and the bracing piece makes fixed ball and turns over the board and rotate under the cooperation of adapter sleeve, guide arm and guide rail, turns over the board and turns over the material mixing to the flavouring of mixing box, consequently, the device work's premise is that mixed raw materials need be stored inside fixed barrel, then the device is recycled and the principle of mixing is carried out to the raw materials in the barrel is realized, because there is the dead angle that can't reach in structure corner position, the raw materials at this dead angle position can seriously reduce mixing efficiency if need to reach the degree of mixing.

Disclosure of Invention

(one) solving the technical problems

According to the mixing device and the method for preparing the kelp sauce serving as the seasoning, the roller is horizontally designed and rotates in a horizontal state, so that mixed raw materials in the roller can be in a dead angle-free motion state, the motion rate of the mixed raw materials at the corner is improved, the mixed raw materials are combined with the stirring structure for use, the motion rate of the mixed raw materials is further improved, the efficiency of raw material mixing is effectively improved, in addition, the device can realize the rotation of a horizontal cylinder body and the rotation driving function of the stirring structure by using one driving motor, the multiple purposes of one machine are realized, the effective utilization rate of the driving motor is effectively improved, the rotation directions of the horizontal cylinder body and the stirring structure are opposite, the motion speed of the mixed raw materials is accelerated, the mixing efficiency is further accelerated, and the technical problems are solved.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: the mixing device for preparing the seasoning kelp sauce comprises a support flat plate, a driving motor horizontally and fixedly arranged above one side of the support flat plate through a main fixing sleeve, a horizontal cylinder body horizontally and rotatably arranged above the support flat plate through an auxiliary fixing sleeve, a mixing cavity arranged in the horizontal cylinder body and provided with an opening at one end, and a raw material injection valve arranged on the circumferential side surface of the horizontal cylinder body and used for injecting raw materials into the mixing cavity after opening, and further comprises a rotary stirring structure, wherein the rotary stirring structure is arranged in the mixing cavity along the axial direction of the mixing cavity, and is internally provided with a stirring rod used for stirring surrounding liquid during rotation and a spiral strip used for generating directional driving for raw materials at the circumferential inner wall of the horizontal cylinder body during directional rotation; the gear type linkage structure is fixedly arranged between the rotor of the driving motor and the solid end face of the horizontal cylinder body through the supporting substrate, and an extending shaft body structure which rotates along with the rotor of the driving motor and drives the rotary stirring structure to rotate and a second rotating shaft which is opposite to the rotating direction of the extending shaft body structure and drives the horizontal cylinder body to rotate are arranged in the gear type linkage structure under the linkage effect of the third gear; the deformation type closed structure is arranged at the opening end of the horizontal cylinder body through the supporting substrate, and an elastic air film which is in a straightened state when the horizontal cylinder body is in a horizontal state and in a funnel state when the horizontal cylinder body is in a longitudinal state is arranged in the deformation type closed structure; and a supporting type skip structure installed at a middle region of the supporting plate, and having a central rotation shaft inside which the supporting plate is rotated, an insertion rod and an insertion groove for maintaining the supporting plate in a horizontal state or a longitudinal state.

Preferably, the rotary stirring structure comprises a plurality of equidistant shaft sleeves axially arranged along the mixing cavity, sleeve holes are formed in the centers of the shaft sleeves, stirring rods in three longitudinal states are mounted on the circumferential surface of each shaft sleeve, a fan-shaped connecting plate is mounted between the end parts of the stirring rods on the same axis, and a spiral strip is fixedly mounted on the outer circumferential surface of each fan-shaped connecting plate.

Preferably, two opposite side surfaces of the fan-shaped connecting plate along the axial direction of the mixing cavity are respectively provided with a tangent plane structure pointing to the axial line direction of the mixing cavity.

Preferably, the gear type linkage structure comprises a rectangular box body fixedly mounted between a rotor of the driving motor and a solid end face of the horizontal cylinder through a supporting substrate, a rectangular cavity is formed in the center of the rectangular box body, a main rotating shaft and a second rotating shaft are respectively mounted on two horizontal opposite end faces of the rectangular cavity through bearings, a first gear and a second gear of an integrated structure are respectively arranged at opposite ends of the main rotating shaft and the second rotating shaft, a third gear meshed with the first gear and the second gear is mounted on the upper symmetrical side face and the lower symmetrical side face of the rectangular cavity through bearings, one end of the main rotating shaft is in butt joint with the rotor end portion of the driving motor, a connecting plate structure fixedly connected with the solid end face of the horizontal cylinder is arranged at one end face of the second rotating shaft, an integrated structure is arranged on one end face of the first gear and penetrates through an extending shaft body structure of the second rotating shaft and the horizontal cylinder, and the extending shaft body structure is fixedly mounted inside each sleeve hole.

Preferably, the first gear, the second gear and the third gear are all bevel gears, and the third gear is in a region between opposite ends of the engagement first gear and the second gear.

Preferably, the deformation type closed structure comprises a ring sleeve body and a sleeve arranged on the upper end face of a supporting plate through a supporting substrate, wherein one end of the ring sleeve body is provided with an annular bulge structure which can be inserted into the opening end of the mixing cavity, the center of the sleeve body is sleeved with a strip-shaped pipeline body, an annular rubber ring is embedded in the periphery of the strip-shaped pipeline body, one end of the strip-shaped pipeline body is provided with a pipeline butt joint port, the other end of the strip-shaped pipeline body extends to the center of the ring sleeve body, the annular embedding body is fixed in an annular hole in the ring sleeve body, and the annular embedding body and the ring sleeve body are embedded with elastic air films on the corresponding circumferential surfaces.

Preferably, the annular rubber ring has a maximum friction against the strip-shaped pipe body sufficient to maintain the strip-shaped pipe body in a fixed orientation when not subjected to human manipulation.

Preferably, the supporting type tipping bucket structure comprises a semi-cylindrical shell fixedly mounted on the middle area of the bottom surface of the supporting flat plate through bolts and vertical discs positioned at two ends of the semi-cylindrical shell, the bottom area of the vertical discs is provided with a fixed vertical plate of an integrated structure, two vertical discs are provided with central mounting grooves at the central positions of opposite end surfaces, a central rotating shaft is fixedly mounted in the semi-cylindrical shell, two ends of the central rotating shaft are rotatably mounted in the central mounting grooves through bearings, the vertical discs are provided with insertion grooves under the central mounting grooves and in the flush position, the semi-cylindrical shell is provided with a central flow hole at the central position under the central rotating shaft, the semi-cylindrical shell is provided with a horizontal hollow rod structure at one side of the central flow hole, two ends of the central flow hole are respectively provided with a first horizontal cavity, a first piston body capable of axially moving along the first horizontal cavity is arranged in each first horizontal cavity, an insertion rod which penetrates through the corresponding end structure of the semi-cylindrical shell and can be inserted into the insertion groove is fixedly arranged at one end of the first piston body, a first spiral spring which moves towards the direction of the central flow hole is sleeved on the periphery of the rod body of the insertion rod, a second horizontal cavity is arranged in the horizontal hollow rod structure, the second horizontal cavity is communicated with the central flow hole through a branch flow hole, a second piston body capable of axially moving along the second horizontal cavity is arranged in the second horizontal cavity, a closed interval between the second horizontal cavity and the two first piston bodies is filled with rear buffer liquid, a pull rod which penetrates through the corresponding end surface of the horizontal hollow rod structure is arranged at one end of the second piston body, the second spiral spring which moves towards the direction of the central flow hole is sleeved on the periphery of the rod body of the pull rod.

Preferably, the amount of the buffer solution is sufficient such that when the second piston body moves to the middle region of the second horizontal cavity, the first piston body moves to the middle region of the first horizontal cavity and the insertion rod is inserted into the inside of the insertion groove.

As a preferred mode of use, S1: the fixed vertical plate is fixedly arranged in a working area, and then a feed port of a storage tank for storing finished kelp sauce is communicated with a pipeline butt joint port through a pipeline, and the pipeline butt joint port and the pipeline are required to have a rotary motion function at a butt joint position; s2: pulling the pull rod to enable the insertion rod to withdraw from the insertion groove under the action of the first spiral spring, then manually overturning the support flat plate to enable the support flat plate to be in a horizontal state, and at the moment, inserting the insertion rod into the corresponding insertion groove under the elastic action of the second spiral spring; s3: opening a raw material injection valve, and injecting raw materials required by mixing into the mixing cavity, wherein the total amount of the injected raw materials does not exceed the horizontal height of the strip-shaped pipeline body; s4: starting a driving motor, controlling the rotation direction of a rotor of the driving motor, and driving a spiral strip to generate a driving direction facing the solid end part of the mixing cavity when the rotor rotates in the rotation direction, and keeping a certain stirring time; s5: after stirring, the operation step of the step S2 is utilized, so that the supporting flat plate is kept at a longitudinal angle, at this moment, the butt joint port of the pipeline is downward, the strip-shaped pipeline body is pulled downward, the elastic air film is in a funnel-shaped state, a finished product positioned in the mixing cavity can be stacked in a groove section of the elastic air film, and moves to the inside of a storage tank for storing the finished kelp sauce along the butt joint pipeline under the action of gravity, meanwhile, a driving motor can be started, so that the driving motor rotates in the opposite direction of the step S4, and the spiral strip can enable sauce positioned on the circumferential wall surface of the mixing cavity to enter the inside of the storage tank in an accelerating manner.

Compared with the prior art, the invention provides the mixing device and the method for preparing the kelp sauce serving as the seasoning, which have the following beneficial effects:

according to the mixing device and the method for preparing the kelp sauce serving as the seasoning, the roller is horizontally designed, and is enabled to rotate in a horizontal state, so that mixed raw materials in the roller can be in a dead angle-free motion state, the motion rate of the mixed raw materials at the corner position is improved, and the mixed raw materials are combined and used by combining with the stirring structure, so that the motion rate of the mixed raw materials is further improved, the efficiency of mixing the raw materials is effectively improved.

Drawings

FIG. 1 is a schematic diagram of the present invention in full section;

FIG. 2 is a perspective view of the present invention;

FIG. 3 is a perspective view of a rotary stirring structure according to the present invention;

FIG. 4 is a schematic view of a gear-type linkage structure of the present invention in full section;

FIG. 5 is a perspective view of a deformed closure structure according to the present invention;

FIG. 6 is a longitudinal perspective cross-sectional view of a deformed closure structure according to the present invention;

FIG. 7 is a perspective view of a supporting skip structure of the present invention;

FIG. 8 is a longitudinal perspective cross-sectional view of the supporting skip structure of the present invention;

FIG. 9 is a perspective cross-sectional view of the supporting skip structure of the present invention in a horizontal direction;

fig. 10 is a perspective view of a single fixed riser and upright disk in accordance with the present invention.

Wherein: 1. a support plate; 2. a support substrate; 3. a driving motor; 4. a main fixing sleeve; 5. an auxiliary fixing sleeve; 6. a horizontal cylinder; 7. a raw material injection valve; 8. a mixing cavity; 9. a rotary stirring structure; 91. a shaft sleeve; 92. trepanning; 93. a stirring rod; 94. a fan-shaped connecting plate; 95. a cut surface structure; 96. a spiral strip; 10. a gear type linkage structure; 101. a rectangular box body; 102. a rectangular cavity; 103. a first gear; 104. a main rotation shaft; 105. an extension shaft structure; 106. a second gear; 107. a second rotation shaft; 108. a connection plate structure; 109. a third gear; 11. a deformed closed structure; 111. a loop body; 112. an annular projection structure; 113. an annular insert; 114. an elastic air film; 115. a strip-shaped pipeline body; 116. a pipe butt joint port; 117. a sleeve; 118. an annular rubber ring; 12. a supporting type tipping bucket structure; 121. fixing the vertical plate; 122. a vertical disc; 123. a central mounting groove; 124. an insertion groove; 125. a semi-cylindrical housing; 126. a center rotation shaft; 127. a central flow aperture; 128. a first horizontal cavity; 129. a branch flow hole; 1210. a first piston body; 1211. an insertion rod; 1212. a first coil spring; 1213. a horizontal hollow bar structure; 1214. a second piston body; 1215. a pull rod; 1216. a second horizontal cavity; 1217. and a second coil spring.

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.

Referring to fig. 1 and 2, a mixing device for preparing seasoning kelp sauce comprises a support flat plate 1, a driving motor 3 horizontally and fixedly installed above one side of the support flat plate 1 through a main fixing sleeve 4, a horizontal cylinder 6 horizontally and rotatably installed above the support flat plate 1 through a secondary fixing sleeve 5, a mixing cavity 8 arranged inside the horizontal cylinder 6 and provided with an opening at one end, and a raw material injection valve 7 arranged on the circumferential side surface of the horizontal cylinder 6 and used for injecting raw materials into the mixing cavity 8 after opening, wherein the space state of the mixing cavity 8 can be changed by rotating the support flat plate 1, the mixing cavity 8 can be kept in a horizontal state, so that the mixed raw materials in the cylinder can be in a dead angle-free motion state, the motion rate of the mixed raw materials at the corners is improved, the mixing cavity 8 is kept in a longitudinal angle, and the discharge of finished sauce can be effectively guided.

In order to realize the function of rotating and stirring the raw materials, please refer to fig. 1, a rotating stirring structure 9 needs to be arranged inside the mixing cavity 8 along the axial direction of the mixing cavity, a stirring rod 93 for stirring surrounding liquid during rotation and a spiral strip 96 for generating directional driving on the raw materials at the circumferential inner wall of the horizontal cylinder 6 during directional rotation are arranged in the rotating stirring structure 9, the longitudinal stirring rod 93 can generate a certain stirring effect on the raw materials around the stirring rod during rotation, the directional stirring of the spiral strip 96 can realize a transverse driving effect on the raw materials around the stirring rod, so that the movement rate of the mixed raw materials is further improved, the efficiency during raw material mixing is effectively improved, and the directional stirring of the spiral strip 96 can accelerate the discharge driving effect of the finished sauce, thereby accelerating the working efficiency.

With respect to the specific structure of the rotary stirring structure 9, please refer to fig. 3, the rotary stirring structure comprises a plurality of equally spaced shaft sleeves 91 axially disposed along the mixing cavity 8, sleeve holes 92 are disposed in the center of the shaft sleeves 91, stirring rods 93 in three longitudinal states are mounted on the circumferential surface of each shaft sleeve 91, a fan-shaped connecting plate 94 is mounted between the ends of the stirring rods 93 on the same axis, and in order to achieve a driving effect towards the center direction on the circumferential wall surface of the mixing cavity 8 during rotation, thereby further improving the movement rate of the raw materials, two opposite side surfaces of the fan-shaped connecting plate 94 along the axial direction of the mixing cavity 8 are provided with tangential structures 95 pointing to the axial direction of the mixing cavity 8, and a spiral strip 96 is fixedly mounted on the outer circumferential surface of the fan-shaped connecting plates 94.

In order to achieve multiple purposes, the effective utilization rate of the driving motor 3 and the rapid mixing of raw materials are improved, please refer to fig. 1 and 2, a gear type linkage structure 10 is required to be arranged, the gear type linkage structure is fixedly installed between a rotor of the driving motor 3 and a solid end face of the horizontal cylinder 6 through a supporting substrate 2, an extending shaft body structure 105 which rotates along with the rotor of the driving motor 3 and drives the rotary stirring structure 9 to rotate is arranged in the gear type linkage structure, and a second rotating shaft 107 which is opposite to the rotating direction of the extending shaft body structure 105 and drives the horizontal cylinder 6 to rotate is generated under the linkage effect of a third gear 109, after the extending shaft body structure 105 rotates along with the driving motor 3, the rotary stirring structure 9 can be driven to rotate, so that the stirring effect of raw materials is achieved, the rotation of the second rotating shaft 107 can drive the horizontal cylinder 6 to rotate, the mixed raw materials in the cylinder can be in a dead angle-free motion state, and the motion rate of the mixed raw materials at corners is improved, so that the rotation of the horizontal cylinder 6 can be achieved by the driving motor 3, the rotation of the horizontal cylinder 9 can be achieved, the rotation of the rotary stirring structure 9 can be achieved, and the effective utilization rate of the driving motor is improved.

Referring to fig. 4, referring to the specific structure of the gear-type linkage structure 10, the gear-type linkage structure comprises a rectangular box 101 fixedly installed between a rotor of a driving motor 3 and a solid end surface of a horizontal cylinder 6 through a supporting substrate 2, a rectangular cavity 102 is arranged in the center of the rectangular box 101, a main rotating shaft 104 and a second rotating shaft 107 are respectively installed on two horizontal opposite end surfaces of the rectangular cavity 102 through bearings, a first gear 103 and a second gear 106 of an integral structure are respectively arranged on opposite ends of the main rotating shaft 104 and the second rotating shaft 107, a third gear 109 meshed with the first gear 103 and the second gear 106 is installed on upper and lower symmetrical side surfaces of the rectangular cavity 101 through bearings, in order to realize that when the horizontal cylinder 6 and the rotary stirring structure 9 rotate in opposite rotation directions, so that the movement speed of mixed raw materials is accelerated, the mixing efficiency is further accelerated, the first gear 103, the second gear 106 and the third gear 109 are all conical gears, the first gear 103 and the second gear 106 are located in an area connected between opposite ends of the first gear 103 and the second gear 106, the first gear 103 and the second gear 106 are connected with the solid end surface of the horizontal cylinder 6, and the horizontal cylinder 6 is fixedly provided with the rotary shaft 105, and the horizontal cylinder 105 is connected with the solid end surface of the horizontal cylinder 6, and the solid end surface 105 is connected with the horizontal cylinder 107.

In order to realize the rapid guiding and discharging function of the finished sauce, please refer to fig. 1 and 2, a deformation type sealing structure 11 is required to be arranged, the device is installed at the opening end of the horizontal cylinder 6 through the supporting substrate 2, an elastic air film 114 which is in a straight state when the horizontal cylinder 6 is in a horizontal state and in a funnel state when the horizontal cylinder is in a longitudinal state is arranged in the device, after the stirring work is completed, the strip-shaped pipeline body 115 is pulled downwards, the elastic air film 114 is in a funnel state, the finished product positioned in the mixing cavity 8 can be stacked in a groove section of the elastic air film 114, and moves to the inside of a storage tank for storing the finished kelp sauce along a butt joint pipeline under the action of gravity, so that the finished product is rapidly guided to be concentrated into the inside of the storage tank.

With reference to fig. 5 and 6, referring to the specific structure of the deformed enclosed structure 11, the deformed enclosed structure includes a ring sleeve 111 and a sleeve 117 mounted on the upper end surface of the support plate 1 through the support substrate 2, one end of the ring sleeve 111 is provided with an annular protrusion structure 112 that can be inserted into the opening end of the mixing cavity 8, the center of the sleeve 117 is sleeved with a strip-shaped pipe body 115, and an annular rubber ring 118 is embedded in the periphery of the strip-shaped pipe body 115 in the interior of the sleeve 117, so that the elastic air film 114 can keep deformation and cannot move during operation, the maximum friction force of the annular rubber ring 118 to the strip-shaped pipe body 115 needs to be enough to enable the strip-shaped pipe body 115 to be kept in a fixed orientation when no manual operation is performed, one end of the strip-shaped pipe body 115 is provided with a pipe butt joint port 116, the other end extends to the center part of the ring sleeve 111, the annular embedded body 113 is fixed in the annular hole inside the ring hole of the ring sleeve 111, and the annular embedded body 113 and the annular pipe body 111 are embedded with the elastic air film 114 on the corresponding circumferential surface.

In order to realize the angle control of the support plate 1, referring to fig. 1 and 2, it is necessary to provide a support type skip structure 12 installed in the middle region of the support plate 1, which is internally provided with a central rotation shaft 126 for rotating the support plate 1, an insertion rod 1211 and an insertion slot 124 for maintaining the support plate 1 in a horizontal state or a longitudinal state, and pull the pull rod 1215 so that the insertion rod 1211 withdraws from the insertion slot 124 under the action of the first coil spring 1212, and then manually overturn the support plate 1 to place the support plate 1 in a desired state, and at this time, the insertion rod 1211 is inserted into the corresponding insertion slot 124 under the elastic action of the second coil spring 1217, thereby enabling the support plate 1 to be maintained at a desired angle and realizing different working spaces.

With respect to the specific structure of the supporting type skip structure 12, please refer to fig. 7, 8, 9 and 10, it includes a semi-cylindrical shell 125 fixedly installed at a central region of a bottom surface of the supporting plate 1 by bolts and vertical disks 122 positioned at both ends of the semi-cylindrical shell 125, the bottom region of the vertical disks 122 is provided with a fixed riser 121 of an integrated structure, the two vertical disks 122 are provided with a central installation groove 123 at a central portion of opposite end surfaces, a central rotation shaft 126 is fixedly installed inside the semi-cylindrical shell 125, both ends of the central rotation shaft 126 are rotatably installed inside the central installation groove 123 by bearings, the vertical disks 122 are provided with insertion grooves 124 both right under the central installation groove 123 and in flush orientation, the semi-cylindrical shell 125 is provided with a central flow hole 127 at a central portion right under the central rotation shaft 126, the semi-cylindrical housing 125 is provided with a horizontal hollow rod structure 1213 at a horizontal side of the central flow hole 127, two ends of the central flow hole 127 are respectively provided with a first horizontal cavity 128, a first piston body 1210 capable of axially moving along the first horizontal cavity 128 is arranged in each first horizontal cavity 128, one end of the first piston body 1210 is fixedly provided with an inserting rod 1211 penetrating through a corresponding end structure of the semi-cylindrical housing 125 and capable of being inserted into the inserting groove 124, the rod body periphery of the inserting rod 1211 is sleeved with a first spiral spring 1212 which generates movement towards the central flow hole 127 for the first piston body 1210, a second horizontal cavity 1216 is arranged in the horizontal hollow rod structure 1213, the second horizontal cavity 1216 is communicated with the central flow hole 127 through a branch flow hole 129, a second piston body 1214 capable of axially moving along the second horizontal cavity 1216 is arranged in the second horizontal cavity 1216, the closed space between the second horizontal cavity 1216 and the two first piston bodies 1210 is filled with a rear buffer solution, so that a sufficient moving space exists before the parts, the buffer solution needs to be made to be sufficient in quantity, when the second piston body 1214 moves to the middle area of the second horizontal cavity 1216, the first piston body 1210 moves to the middle area of the first horizontal cavity 128, the inserting rod 1211 is inserted into the inserting groove 124, one end of the second piston body 1214 is provided with a pull rod 1215 penetrating through the corresponding end face of the horizontal hollow rod structure 1213, and the rod body periphery of the pull rod 1215 is sleeved with a second coil spring 1217 which generates movement to the second piston body 1214 towards the direction of the central flow hole 127.

When in use, S1: the fixing vertical plate 121 is fixedly arranged in a working area, and then a feed port of a storage tank for storing finished kelp sauce is communicated with the pipeline butt joint port 116 through a pipeline, and the pipeline butt joint port 116 and the pipeline are required to have a rotary motion function at a butt joint position; s2: pulling the pull rod 1215, so that the insertion rod 1211 withdraws from the insertion groove 124 under the action of the first coil spring 1212, and then, manually overturning the support plate 1 to make the support plate 1 be in a horizontal state, at this time, the insertion rod 1211 is inserted into the corresponding insertion groove 124 under the elastic action of the second coil spring 1217; s3: opening the raw material injection valve 7 to inject the raw materials required for mixing into the mixing cavity 8, and taking care that the total amount of the injected raw materials does not exceed the horizontal height of the strip-shaped pipeline body 115; s4: starting the driving motor 3 and controlling the rotation direction of the rotor of the driving motor 3, wherein the rotation direction of the rotor needs to drive the spiral strip 96 to generate a driving direction towards the solid end part of the mixing cavity 8 when rotating, and the stirring time is kept to be a certain time; s5: after the stirring is finished, the operation step of the step S2 is utilized, so that the supporting flat plate 1 is kept at a longitudinal angle, at this time, the pipe butt joint port 116 is downward, the strip-shaped pipe body 115 is pulled downward, the elastic air film 114 is in a funnel-shaped state, the finished product positioned in the mixing cavity 8 can be stacked in the groove section of the elastic air film 114, and moves to the inside of the storage tank for storing the finished kelp sauce along the butt joint pipe under the action of gravity, meanwhile, the driving motor 3 can be started, so that the driving motor 3 rotates in the opposite direction to the step S4, and the spiral strip 96 can enable the sauce positioned at the circumferential wall surface of the mixing cavity 8 to enter the inside of the storage tank in an accelerating manner.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a mixing arrangement is used in flavouring kelp sauce preparation, including supporting dull and stereotyped (1), through main fixed cover (4) level fixed mounting in driving motor (3) of supporting dull and stereotyped (1) one side top, through the horizontal barrel (6) of vice fixed cover (5) level rotatable mounting in supporting dull and stereotyped (1) top, set up in the inside and one end open-ended of horizontal barrel (6) mix cavity (8) and set up in horizontal barrel (6) circumference side and at opening the inside raw materials injection valve (7) of injecting into raw materials of back to mixing cavity (8), its characterized in that: also included is a method of manufacturing a semiconductor device,

the rotary stirring structure (9) is arranged in the mixing cavity (8) along the axial direction of the mixing cavity, and a stirring rod (93) for stirring surrounding liquid during rotation and a spiral strip (96) for generating directional driving on raw materials at the circumferential inner wall of the horizontal cylinder (6) during directional rotation are arranged in the rotary stirring structure (9);

the gear type linkage structure (10) is fixedly arranged between a rotor of the driving motor (3) and a solid end face of the horizontal cylinder body (6) through the supporting substrate (2), and is internally provided with an extending shaft body structure (105) which rotates along with the rotor of the driving motor (3) and drives the rotary stirring structure (9) to rotate and a second rotating shaft (107) which is opposite to the rotating direction of the extending shaft body structure (105) and drives the horizontal cylinder body (6) to rotate under the linkage effect of the third gear (109);

the deformation type sealing structure (11) is arranged at the opening end of the horizontal cylinder (6) through the supporting substrate (2), and an elastic air film (114) which is in a stretched state when the horizontal cylinder (6) is in a horizontal state and in a funnel state when the horizontal cylinder is in a longitudinal state is arranged in the deformation type sealing structure;

the supporting type tipping bucket structure (12) is arranged in the middle area of the supporting flat plate (1), and a central rotating shaft (126) capable of enabling the supporting flat plate (1) to rotate, an inserting rod (1211) and an inserting groove (124) are arranged in the supporting tipping bucket structure, and the supporting type tipping bucket structure enables the supporting flat plate (1) to be kept in a horizontal state or a longitudinal state;

the rotary stirring structure (9) comprises a plurality of equally spaced shaft sleeves (91) axially arranged along the mixing cavity (8), sleeve holes (92) are formed in the centers of the shaft sleeves (91), stirring rods (93) in three longitudinal states are arranged on the circumferential surface of each shaft sleeve (91), a fan-shaped connecting plate (94) is arranged between the end parts of the stirring rods (93) on the same axis, the fan-shaped connecting plate (94) can achieve a driving effect towards the central direction on the circumferential wall surface of the mixing cavity (8), a spiral strip (96) is fixedly arranged on the outer circumferential surface of the fan-shaped connecting plate (94), and a tangent plane structure (95) pointing to the axial line direction of the mixing cavity (8) is arranged on two opposite side surfaces of the fan-shaped connecting plate (94) along the axial direction of the mixing cavity (8);

the deformation type closed structure (11) comprises a ring sleeve body (111) and a sleeve (117) arranged on the upper end face of a supporting flat plate (1) through a supporting substrate (2), wherein one end of the ring sleeve body (111) is provided with a ring-shaped bulge structure (112) which can be inserted into the opening end of a mixing cavity (8), the center of the sleeve (117) is sleeved with a strip-shaped pipeline body (115), the periphery of the strip-shaped pipeline body (115) is embedded with a ring-shaped rubber ring (118) in the interior of the sleeve (117), one end of the strip-shaped pipeline body (115) is provided with a pipeline butt joint port (116), the other end of the strip-shaped pipeline body extends to the central part of the ring sleeve body (111), the strip-shaped pipeline body (115) is fixedly provided with a ring-shaped embedded body (113) in the ring hole in the ring sleeve body (111), the ring-shaped embedded body (113) and the ring sleeve body (111) are embedded with an elastic air film (114) in the corresponding circumferential surface, and the maximum friction force of the ring-shaped rubber ring (118) to the strip-shaped pipeline body (115) is enough to enable the strip-shaped pipeline body (115) to be kept in a fixed position when not subjected to manual operation;

the supporting type tipping bucket structure (12) comprises a semi-cylindrical shell (125) fixedly installed on the middle area of the bottom surface of the supporting flat plate (1) through bolts and vertical discs (122) positioned at two ends of the semi-cylindrical shell (125), the bottom area of the vertical discs (122) is provided with a fixed vertical plate (121) with an integrated structure, the central parts of the opposite end faces of the two vertical discs (122) are provided with central installation grooves (123), central rotating shafts (126) are fixedly installed in the inner parts of the semi-cylindrical shell (125), two ends of the central rotating shafts (126) are rotatably installed in the inner parts of the central installation grooves (123) through bearings, the vertical discs (122) are provided with insertion grooves (124) under the central installation grooves (123) and in a flush position, the central part of the semi-cylindrical shell (125) positioned under the central rotating shafts (126) is provided with a central flow hole (127), one horizontal side of the semi-cylindrical shell (125) positioned at the central flow hole (127) is provided with a horizontal hollow rod structure (1213), two ends of the central flow hole (127) are respectively provided with a first horizontal cavity (128) and a second cavity (128) can move in the first cavity (1210) along the first cavity (128) in the axial direction, one end of the first piston body (1210) is fixedly provided with an insertion rod (1211) which penetrates through a corresponding end structure of the semi-cylindrical shell (125) and can be inserted into the insertion groove (124), the rod body periphery of the insertion rod (1211) is sleeved with a first spiral spring (1212) which moves towards the central flow hole (127) towards the first piston body (1210), the inside of the horizontal hollow rod structure (1213) is provided with a second horizontal cavity (1216), the second horizontal cavity (1216) is communicated with the central flow hole (127) through a branch flow hole (129), the inside of the second horizontal cavity (1216) is provided with a second piston body (1214) which can move along the axial direction of the second horizontal cavity (1216), a closed interval between the second horizontal cavity (1216) and the two first piston bodies (1210) is filled with buffer liquid, one end of the second piston body (1214) is provided with a pull rod (1215) which penetrates through the corresponding end surface of the horizontal hollow rod structure (1213), the periphery of the pull rod body (1215) is sleeved with a second spiral spring (1214) which moves towards the central flow hole (127) towards the second piston body (1214), and the second piston body (1217) moves along the axial direction of the second horizontal cavity (1216) towards the central flow hole (127), and the second piston body (1210) moves to the second horizontal cavity (1217) in a certain amount when the second horizontal cavity (1216) moves to the middle area, and the second piston body (1210) moves to the second horizontal cavity (1210) in a certain amount And the insertion rod (1211) is inserted into the inside of the insertion groove (124).

2. A mixing device for preparing kelp sauce according to claim 1, characterized in that: the gear type linkage structure (10) comprises a rectangular box body (101) fixedly mounted between a rotor of a driving motor (3) and a solid end face of a horizontal cylinder body (6) through a supporting substrate (2), a rectangular cavity (102) is formed in the center of the rectangular box body (101), a main rotating shaft (104) and a second rotating shaft (107) are respectively mounted on two horizontal opposite end faces of the rectangular cavity (102) through bearings, a first gear (103) and a second gear (106) of an integral structure are respectively arranged at opposite ends of the main rotating shaft (104) and the second rotating shaft (107), a third gear (109) meshed with the first gear (103) and the second gear (106) are mounted on the upper symmetrical side face and the lower symmetrical side face of the rectangular cavity (102) through bearings, one end of the main rotating shaft (104) is in butt joint with the rotor end portion of the driving motor (3), a connecting plate structure (108) fixedly connected with the solid end face of the horizontal cylinder body (6) is arranged at one end face of the second rotating shaft (107), one end face of the first gear (103) is provided with a through structure and the second shaft (105) extends into the inner part of the horizontal cylinder body (6).

3. A mixing device for preparing kelp sauce according to claim 2, characterized in that: the first gear (103), the second gear (106) and the third gear (109) are all conical gears, and the third gear (109) is in the region between the opposite ends of the first gear (103) and the second gear (106).

4. A mixing method of a mixing device for preparing a seasoning kelp jam according to any one of claims 1 to 3, characterized by: the method comprises the following steps:

s1: the fixed vertical plate (121) is fixedly arranged in a working area, and then a feed port of a storage tank for storing finished kelp sauce is communicated with a pipeline butt joint port (116) through a pipeline, and the pipeline butt joint port (116) and the pipeline are required to have a rotary motion function at a butt joint position;

s2: pulling the pull rod (1215) to enable the insertion rod (1211) to withdraw from the insertion groove (124) under the action of the first spiral spring (1212), then manually overturning the support plate (1) to enable the support plate (1) to be in a horizontal state, and at the moment, inserting the insertion rod (1211) into the corresponding insertion groove (124) under the elastic action of the second spiral spring (1217);

s3: opening a raw material injection valve (7) to inject raw materials required for mixing into the mixing cavity (8), wherein the total amount of the injected raw materials does not exceed the horizontal height of the strip-shaped pipeline body (115);

s4: starting the driving motor (3) and controlling the rotation direction of a rotor of the driving motor (3), wherein the rotation direction of the rotor is required to drive the spiral strip (96) to generate a driving direction towards the solid end part of the mixing cavity (8) when rotating, and a certain stirring time is kept;

s5: after stirring, the operation step of the step S2 is utilized, the supporting flat plate (1) is kept at a longitudinal angle, at this moment, the pipeline butt joint port (116) is downwards pulled to downwards pull the strip-shaped pipeline body (115), the elastic air film (114) is in a funnel-shaped state, finished products positioned in the mixing cavity (8) can be stacked in a groove section of the elastic air film (114), and move to the inside of a storage tank for storing finished kelp sauce along the butt joint pipeline under the action of gravity, meanwhile, the driving motor (3) can be started, the driving motor (3) can rotate in the opposite direction relative to the step S4, and the spiral strips (96) can enable the sauce positioned on the circumferential wall surface of the mixing cavity (8) to enter the inside of the storage tank in an accelerating manner.