CN113750861A - Raw material mixing device is used in production of moon crust - Google Patents

Abstract

The invention relates to a raw material mixing device for moon crust production, which comprises a supporting base, a fixing frame, conical blocks, a shell, a water inlet pipe, a stirring wheel, a hollow disc, a discharging mechanism, a driving mechanism, a discharging mechanism and a friction disc, wherein the conical blocks are symmetrically and fixedly connected to the inner side of an inner ring of the supporting base, the friction disc is rotatably connected to the inner side of the conical blocks, and the stirring wheel is fixedly connected to the middle part of the outer side of the friction disc far away from the supporting base. The invention starts the driving mechanism firstly, the driving mechanism operates to drive the blanking mechanism and the friction disc to rotate forwards, the friction disc rotates forwards to drive the stirring wheel to rotate forwards, then a proper amount of water is discharged into the shell through the water inlet pipe, three raw materials can be poured into the blanking mechanism, the raw materials in the blanking mechanism fall into the shell, and the stirring wheel rotates forwards to stir and mix the raw materials, so that the three raw materials are not required to be stirred and mixed manually, the working efficiency is high, and the operation is convenient.

Description

Raw material mixing device is used in production of moon crust

Technical Field

The invention relates to a mixing device, in particular to a raw material mixing device for moon crisp production.

Background

In the manufacturing process of the moon cake, three raw materials are needed to be used, the three raw materials are respectively peanut, rice milk and flour, the three raw materials are stirred and mixed well, the mixed raw materials are put into oil to be fried to form the moon cake, at present, the three raw materials are stirred and mixed manually by hands, the three raw materials are poured into a container firstly, then a handheld tool stretches into the container to stir and mix the three raw materials continuously, the operation is troublesome, and the work efficiency is reduced due to the fact that the hand is easy to ache due to the fact that long-time stirring is needed.

Therefore, it is necessary to design and develop a raw material mixing device for producing moon-shaped crust, which can replace manual work to mix and stir raw materials, has high working efficiency and is convenient to operate.

Disclosure of Invention

In order to overcome the problem that the hand-held tool stretches into the container and is continuous to stir and mix three raw materials, the operation is troublesome, and because long-time stirring is needed, the hand is easy to ache, so that the working efficiency is reduced, the technical problem to be solved is as follows: the utility model provides a can replace artifical stir the raw materials and mix, work efficiency is high, and convenient operation's raw materials mixing device is used in production of moon crust.

The technical scheme is as follows: a raw material mixing device for moon crust production comprises a supporting base, a fixing frame, conical blocks, a shell, a water inlet pipe, a stirring wheel, a hollow disc, a discharging mechanism, a driving mechanism, a blanking mechanism and a friction disc, wherein the conical blocks are symmetrically and fixedly connected to the inner side of an inner ring of the supporting base, the friction disc is rotatably connected to the inner side of the conical blocks, the stirring wheel is fixedly connected to the middle part of the outer side of the friction disc far away from the supporting base, the shell is fixedly connected to one side of the inner ring of the supporting base, the fixing frame is fixedly connected to one side of the outer side of the shell, the water inlet pipe is communicated to one side of the shell far away from the fixing frame, the hollow disc is fixedly connected to one side of the shell far away from the supporting base, the blanking mechanism is arranged on the hollow disc, the driving mechanism is arranged between the hollow disc and the fixing frame, the driving mechanism is fixedly connected with the supporting base, the blanking mechanism is connected with the stirring wheel, and is contacted with the inner side of the friction disc, the discharging mechanism is arranged on the supporting base and is in contact with the conical block and one side of the shell.

Discharge mechanism is including handle, spliced pole and striker plate, the wearing of spliced pole slidingtype is in supporting base outer lane both sides, and the quantity of every side spliced pole is two, and the handle rigid coupling is between every side spliced pole outer end, and the striker plate rigid coupling is between two spliced poles of every side inner, and the striker plate runs through and supports base inner circle and conical block contact, and the striker plate still contacts with shell one side.

The driving mechanism comprises a motor, bevel gears, a first rotating shaft, a transmission assembly, a second rotating shaft, connecting blocks, friction balls and a first spring, the first rotating shaft is rotatably connected between the circle center position of one side of the fixed frame and one side of the supporting base, the motor is arranged at one side of the supporting base close to the fixed frame, the number of the bevel gears is two, one bevel gear is fixedly sleeved on an output shaft of the motor, the other bevel gear is fixedly sleeved at one side of the first rotating shaft, the two bevel gears are meshed, the second rotating shaft is rotatably connected between the circle center positions of two sides of the hollow disc in a penetrating manner, the second rotating shaft is connected with the blanking mechanism, one end of the second rotating shaft penetrates through the stirring wheel and then penetrates through the middle part of one side of the friction disc, the connecting blocks are fixedly sleeved at one side of the second rotating shaft close to the friction disc, the friction balls are symmetrically arranged at the outer sides of the connecting blocks, and the friction balls are in contact with the inner sides of the friction disc, the first spring is connected between one side of the friction ball and the inner side of the connecting block, the transmission assembly is connected between one side of the second rotating shaft far away from the supporting base and one side of the first rotating shaft, and the transmission assembly penetrates through the fixing frame.

Unloading mechanism is including unloading hopper, annular slide rail and branch charging tray, the connection of annular slide rail rotary type is inboard in hollow dish, and the hopper interval is connected in keeping away from hollow dish one side that supports the base down, divides the charging tray rigid coupling in annular slide rail inboard, divides charging tray and unloading hopper cooperation.

Preferably, the material stirring device also comprises a material stirring mechanism, the material stirring mechanism comprises a fixed plate, sleeves, connecting rods, a second spring, an elliptical frame, mounting blocks, convex rods, a stirring plate, a mounting box, a volute spring and a one-way coupling, the sleeves are fixedly connected to two sides of the shell far away from the supporting base, the number of the sleeves on each side is two, the fixed plate is fixedly connected between the outer ends of the two sleeves on each side, one side of the fixed plate is fixedly connected with one side of the supporting base, the connecting rods are slidably arranged in the sleeves, the second spring is connected between one end of the connecting rod far away from the second rotating shaft and the inner side of the sleeve, the mounting blocks are fixedly connected between the inner ends of the two connecting rods on each side, the convex rods are fixedly connected to the middle part of one side of the mounting blocks far away from the supporting base, the stirring plate is fixedly connected to the middle part of the outer side of the mounting blocks, the one-way coupling is mounted on one side of the outer side of the stirring wheel far away from the supporting base, and the elliptical frame is fixedly connected to the outer side of the one-way coupling, the oval frame is sleeved on the convex rod, the mounting box is fixedly connected to the middle of one side of the outer side of the hollow disc facing the supporting base, and the volute spiral spring is connected between the inner side of the mounting box and the outer side of the stirring wheel.

Preferably, the material discharging auxiliary mechanism further comprises a material discharging auxiliary mechanism, the material discharging auxiliary mechanism comprises a first magnetic block, a second magnetic block, guide pillars, a third spring, a magnetic material pushing plate and a guide rail, the guide rail is fixedly connected to two sides of the outer circle of the supporting base, the first magnetic block is slidably arranged on one side of the guide rail, the first magnetic block is fixedly connected to two sides of the outer circle of the supporting base, the first magnetic block corresponds to the second magnetic block, the guide pillars are slidably connected between the fixed plate and the shell in a penetrating mode, the number of the guide pillars on each side is two, the outer ends of the two guide pillars on each side are fixedly connected with one side of the second magnetic block on each side, the third spring is symmetrically connected between one side of the second magnetic block and the outer side of the fixed plate, the third spring is wound on the guide pillars, the magnetic material pushing plate is fixedly connected between the inner ends of the two guide pillars on each side, the magnetic material pushing plate is in contact with the stirring plate, and one side of the magnetic material pushing plate is fixedly connected with one side of the material blocking plate.

Preferably, the stirring device further comprises a stirring auxiliary mechanism, the stirring auxiliary mechanism comprises a rubber ball, a hollow rod, a fourth spring and a guide rod, the guide rod is connected to four sides of the stirring wheel in a penetrating mode at intervals in a sliding mode, the hollow rod is sleeved at the outer end of the guide rod in a sliding mode, the rubber ball is fixedly connected to the outer end of the hollow rod, and the fourth spring is connected between the inner side of the hollow rod and the outer end of the guide rod.

Preferably, the material collecting mechanism comprises a conical plate and mounting rods, the mounting rods are fixedly connected to one side of the outer side of the inner ring of the supporting base far away from the hollow disc at intervals, and the conical plate is fixedly connected among all the mounting rods.

Has the advantages that:

1. start actuating mechanism earlier, actuating mechanism operates and drives unloading mechanism and friction disk corotation, and friction disk corotation drives stirring wheel corotation, and the rethread inlet tube is arranged proper amount water into in the shell, can pour three kinds of raw materials into unloading mechanism in, the raw materials in the unloading mechanism drops to the shell in, and stirring wheel corotation is then stirred the raw materials and is mixed, so, need not the manual three kinds of raw materials of people and stir the mixture, and work efficiency is high, and the operation is still convenient.

2. Under the effect of dialling the material mechanism, when the circumstances that can not corotation appears in the stirring wheel, can close the motor, because of volute spiral spring's effect, can make the stirring wheel reversal, also make the continuous inside and outside removal of stirring board promote the raw materials in the shell, so, can avoid the raw materials to lead to the stirring wheel to stop corotation to stir and mix.

3. Under ejection of compact complementary unit's effect, can be when stirring the continuous inside and outside removal of board, can drive the continuous inside and outside removal of magnetism scraping wings, the inside and outside removal of magnetism scraping wings drives the striker plate and removes inside and outside, and partial raw materials in the shell then drops to collecting the container in, so, can make the raw materials in the shell reduce, makes things convenient for stirring wheel pair raw materials to stir and mixes.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

FIG. 3 is a schematic view of a first partial body structure according to the present invention.

FIG. 4 is a schematic view of a second partial body structure according to the present invention.

Fig. 5 is an enlarged schematic view of part a of the present invention.

Fig. 6 is a perspective view of a third embodiment of the present invention.

Fig. 7 is an enlarged view of part B of the present invention.

Fig. 8 is a perspective view of a fourth embodiment of the present invention.

Fig. 9 is an enlarged schematic view of part C of the present invention.

FIG. 10 is a schematic view of a fifth partial body structure according to the present invention.

FIG. 11 is a schematic view of a sixth partial body structure according to the present invention.

Fig. 12 is a schematic view of a seventh partial body structure according to the present invention.

Fig. 13 is a schematic perspective view of an eighth partial structure of the present invention.

Fig. 14 is a schematic structural view of a ninth partial body according to the present invention.

FIG. 15 is a schematic view of a tenth partial body structure according to the present invention.

Wherein: 1. a supporting base, 2, a fixed frame, 21, a conical block, 3, a shell, 4, a water inlet pipe, 41, a stirring wheel, 42, a hollow disc, 5, a discharging mechanism, 51, a handle, 52, a connecting column, 53, a baffle plate, 6, a driving mechanism, 61, a motor, 62, a bevel gear, 63, a first rotating shaft, 64, a transmission assembly, 65, a second rotating shaft, 66, a connecting block, 67, a friction ball, 68, a first spring, 7, a discharging mechanism, 71, a discharging hopper, 72, an annular sliding rail, 73, a material distributing disc, 8, a friction disc, 9, a material stirring mechanism, 91, a fixed plate, 92, a sleeve, 93, a connecting rod, 94, a second spring, 95, an oval frame, 96, a mounting block, 97, a convex rod, 98, a stirring plate, 99, a mounting box, 910, a volute spring, 911, a one-way coupling, 10, a discharging auxiliary mechanism, 101, a first magnetic block, 102, a second magnetic block, 103, a guide column, 104. a third spring 105, a magnetic material pushing plate 106, a guide rail 11, a stirring auxiliary mechanism 111, a rubber ball 112, a hollow rod 113, a fourth spring 114, a guide rod 12, a material collecting mechanism 121, a conical plate 122 and a mounting rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Example (b): a raw material mixing device for producing moon crisp.

Referring to fig. 1, 2, 3, 4, 5, 6 and 8, the device comprises a support base 1, a fixed frame 2, a conical block 21, a housing 3, a water inlet pipe 4, a stirring wheel 41, a hollow disc 42, a discharging mechanism 5, a driving mechanism 6, a blanking mechanism 7 and a friction disc 8, wherein the conical block 21 is fixedly connected between the front side and the rear side of the inner ring of the support base 1, the friction disc 8 is rotatably connected to the inner side of the conical block 21 along the circumferential direction, the stirring wheel 41 is fixedly connected to the middle of the outer top of the friction disc 8, the housing 3 is fixedly connected to the top of the inner ring of the support base 1 along the circumferential direction, the hollow disc 42 is fixedly sleeved on the top of the housing 3 along the circumferential direction, the fixed frame 2 is fixedly connected to the middle part of the outer side of the housing 3, the driving mechanism 6 is installed between the fixed frame 2, the hollow disc 42 and the support base 1, the driving mechanism 6 is also contacted with the stirring wheel 41 and the friction disc 8, the discharging mechanism 5 is installed on the support base 1, the discharging mechanism 5 is in contact fit with the bottom of the shell 3, the discharging mechanism 5 is in contact with the outer side of the conical block 21, the hollow disc 42 is provided with the discharging mechanism 7, the discharging mechanism 7 is fixedly connected with the driving mechanism 6, and the middle of the upper portion of the right side of the shell 3 is communicated with the water inlet pipe 4.

Discharge mechanism 5 has two spliced poles 52 including handle 51, spliced pole 52 and striker plate 53, and the cross-under that both sides middle part all slidingtype around supporting base 1 outer lane has two spliced poles 52, and the rigid coupling has handle 51 between two spliced pole 52 outer ends of every side, and the rigid coupling has striker plate 53 between two spliced pole 52 inner of every side, and striker plate 53 runs through and supports base 1 inner circle and the contact of 3 bottoms of shell, and striker plate 53 medial surface and the contact of the toper piece 21 outside.

The driving mechanism 6 comprises a motor 61, a bevel gear 62, a first rotating shaft 63, a transmission component 64, a second rotating shaft 65, a connecting block 66, a friction ball 67 and a first spring 68, the first rotating shaft 63 is rotatably connected between the middle of the top of the fixed frame 2 and the left side of the top of the inner ring of the supporting base 1, the second rotating shaft 65 is rotatably connected between the circle centers of the upper side and the lower side of the hollow disc 42 in a penetrating way, the bottom end of the second rotating shaft 65 penetrates through the middle of the tops of the stirring wheel 41 and the friction disc 8, the upper part of the second rotating shaft 65 is fixedly connected with the blanking mechanism 7, the transmission component 64 is connected between the upper part of the second rotating shaft 65 and the upper part of the first rotating shaft 63 and penetrates through the fixed frame 2, the transmission component 64 comprises two belt pulleys and a flat belt, one of the belt pulleys is fixedly sleeved on the upper part of the first rotating shaft 63, the other belt pulley is fixedly sleeved on the upper part of the second rotating shaft 65, and the flat belt is wound between the two belt pulleys, the connecting block 66 is fixedly sleeved on the lower portion of the second rotating shaft 65, the middle portions of the left side and the right side outside the connecting block 66 are both connected with the friction balls 67 in an embedded mode, the friction balls 67 are in contact with grooves in the friction disc 8, a first spring 68 is connected between the inner side of each friction ball 67 and the inner side of the connecting block 66, the motor 61 is installed in the middle of the left side of the top of the supporting base 1, the bevel gears 62 are fixedly sleeved on the end portion of the output shaft of the motor 61 and the lower portion of the first rotating shaft 63, and the two bevel gears 62 are meshed with each other.

The blanking mechanism 7 comprises a blanking hopper 71, an annular slide rail 72 and a material distribution disc 73, the inner side of the hollow disc 42 is rotatably connected with the annular slide rail 72 along the circumferential direction, the inner side of the annular slide rail 72 is fixedly connected with the material distribution disc 73 along the circumferential direction, the upper part of the second rotating shaft 65 is fixedly connected with the annular slide rail 72 and the material distribution disc 73, two holes are symmetrically formed in the material distribution disc 73, the top of the hollow disc 42 is uniformly connected with the three blanking hoppers 71 at intervals, and the blanking hoppers 71 are matched with the material distribution disc 73.

Firstly, an operator places a collecting container under a shell 3, then connects a water source with a water inlet pipe 4, discharges a proper amount of water into the shell 3 through the water inlet pipe 4, a discharging mechanism 5 blocks the water, then starts a driving mechanism 6, the driving mechanism 6 operates to drive a friction disc 8 to rotate forwards, the friction disc 8 rotates forwards to drive a stirring wheel 41 to rotate forwards, meanwhile, the driving mechanism 6 also drives a discharging mechanism 7 to operate, the operator can pour three raw materials which are moon-bars into the discharging mechanism 7, the discharging mechanism 7 operates to enable the three raw materials to drop into the shell 3 intermittently, the discharging mechanism 5 blocks the raw materials in the shell 3, the raw materials in the shell 3 are contacted with the stirring wheel 41, the stirring wheel 41 rotates forwards to stir and mix the three raw materials through the water, after the three raw materials are stirred and mixed, the driving mechanism 6 is closed, the driving mechanism 6 stops driving the discharging mechanism 7 to operate, the driving mechanism 6 also stops driving the friction disc 8, the friction disc 8 stops driving the stirring wheel 41 to rotate forwards, the discharging mechanism 5 is pulled to move outwards, the discharging mechanism 5 does not block the mixed raw materials in the shell 3 when moving outwards, and the mixed raw materials fall into the collecting container from the shell 3. When the mixed raw materials all fall into the collecting container, the discharging mechanism 5 is pushed to move inwards to reset, and then the collecting container is taken up to process the mixed raw materials into moon bars.

When raw materials and water drop to in the shell 3, discharge mechanism 5 blocks water and raw materials, and then three kinds of raw materials are stirred and mixed the back of accomplishing, can pull handle 51 and outwards remove, handle 51 outwards removes and drives spliced pole 52 and outwards removes, spliced pole 52 outwards removes and drives striker plate 53 and outwards removes, striker plate 53 outwards removes and does not block the raw materials that mix in the shell 3, the raw materials that mix then drops to the collection container in from the shell 3, when the raw materials in the shell 3 all dropped to the collection container in, promote handle 51 and inwards remove and drive striker plate 53 through spliced pole 52 and inwards remove and reset, take up the collection container again and process into moon crust with the raw materials that mix.

When a proper amount of water is discharged into the shell 3, the motor 61 is started to rotate positively, the motor 61 rotates positively to drive the lower bevel gear 62 to rotate positively, the lower bevel gear 62 rotates positively to drive the upper bevel gear 62 to rotate positively, the upper bevel gear 62 rotates positively to drive the first rotating shaft 63 to rotate positively, the first rotating shaft 63 rotates positively to drive the transmission assembly 64 to rotate positively, the transmission assembly 64 rotates positively to drive the second rotating shaft 65 to rotate positively, the second rotating shaft 65 rotates positively to drive the connecting block 66 to rotate positively, the connecting block 66 rotates positively to drive the friction ball 67 to rotate positively, the friction ball 67 rotates positively to drive the friction disc 8 to rotate positively, so that the stirring wheel 41 rotates positively, meanwhile, the second rotating shaft 65 also drives the blanking mechanism 7 to operate, and when three raw materials drop into the shell 3, the stirring wheel 41 rotates positively to pass through the water to stir and mix the three raw materials. After the three raw materials are stirred and mixed, the motor 61 is turned off, the motor stops driving the lower bevel gear 62 to rotate forwardly, the second rotating shaft 65 stops driving the friction ball 67 to rotate forwardly through the connecting block 66, the friction ball 67 also stops driving the friction disc 8 to rotate forwardly, the stirring wheel 41 stops rotating forwardly, and meanwhile, the second rotating shaft 65 stops driving the blanking mechanism 7 to operate.

When the motor 61 is started, the second rotating shaft 65 rotates positively to drive the distributing disc 73 to rotate positively, so that three raw materials can be poured into the three discharging hoppers 71 respectively, and the distributing disc 73 rotates positively to intermittently communicate the three discharging hoppers 71, so that the raw materials in the discharging hoppers 71 intermittently fall into the shell 3 to be stirred and mixed. After all the raw materials are stirred and mixed, the motor 61 is turned off, and the second rotating shaft 65 stops driving the distributing tray 73 to rotate forwardly. So, can make the raw materials intermittent type drop to being stirred in shell 3 and mixing, avoid the raw materials all to drop to in the shell 3.

Referring to fig. 1, 2, 3, 6, 7, 8, 9, 10, 11 and 12, the material-stirring mechanism 9 further comprises a material-stirring mechanism 9, the material-stirring mechanism 9 comprises a fixing plate 91, a sleeve 92, a connecting rod 93, a second spring 94, an oval frame 95, a mounting block 96, a protruding rod 97, a stirring plate 98, a mounting box 99, a volute spring 910 and a one-way coupling 911, two sleeves 92 are fixedly penetrated and connected on the upper portions of the front and rear sides of the housing 3, the connecting rod 93 is slidably arranged in the sleeve 92, the second spring 94 is connected between the outer end of the connecting rod 93 and the inner wall of the sleeve 92, the mounting block 96 is fixedly connected between the inner ends of the two connecting rods 93 on each side, the stirring plate 98 is fixedly connected on the middle of the outer side surface of the mounting blocks 96 on the front and rear sides, the protruding rod 97 is fixedly connected on the middle of the top of the mounting block 96, the one-way coupling 911 is mounted on the outer side of the stirring wheel 41, the oval frame 95 is fixedly mounted on the outer side of the one-way coupling 911, the oval frame 95 is sleeved on the convex rod 97, the middle of the outer bottom of the hollow disc 42 is fixedly connected with a mounting box 99, a volute spring 910 is connected between the lower part of the inner side of the mounting box 99 and the upper part of the outer side of the stirring wheel 41, the front side and the rear side of the top of the inner ring of the supporting base 1 are fixedly connected with fixing plates 91, and the upper parts of the inner side surfaces of the fixing plates 91 at the front side and the rear side are fixedly connected with the outer ends of the sleeves 92 at the front side and the rear side respectively.

The device also comprises a discharge auxiliary mechanism 10, the discharge auxiliary mechanism 10 comprises a first magnetic block 101, a second magnetic block 102, guide posts 103, a third spring 104, a magnetic material pushing plate 105 and a guide rail 106, the guide rail 106 is fixedly connected with the front side and the rear side of the upper part of the outer side of the inner ring of the supporting base 1, the outer end of the guide rail 106 is fixedly connected with the first magnetic block 101, the second magnetic block 102 is connected with the outer side of the top of the guide rail 106 in a sliding way, the second magnetic block 102 moves outwards to be contacted with the first magnetic block 101, the lower parts of the front side and the rear side of the shell 3 are connected with the two guide posts 103 in a sliding way in a penetrating way, the outer end of each guide post 103 penetrates through the lower part of the fixing plate 91 to be fixedly connected with the inner side surface of the second magnetic block 102, the two third springs 104 are connected between the inner side surface of the second magnetic block 102 and the lower part of the outer side surface of the fixing plate 91, the third springs 104 are wound on the guide posts 103, the magnetic material pushing plate 105 is fixedly connected between the inner ends of the two guide posts 103 on each side, the top of each side and is contacted with the bottom of the stirring plate 98, the bottom of the magnetic material pushing plate 105 is fixedly connected with the top of the material blocking plate 53.

When the motor 61 is started, the stirring wheel 41 rotates forwards to stir and mix the three raw materials in the housing 3, the spiral spring 910 is continuously compressed by the forward rotation of the stirring wheel 41, due to the action of the one-way coupling 911, the elliptical frame 95 is not driven to rotate forwards by the forward rotation of the stirring wheel 41, further, when too many raw materials are in the housing 3, the forward rotation of the stirring wheel 41 is difficult, the forward rotation of the stirring wheel 41 is stopped, the friction disc 8 stops rotating forwards, the spiral spring 910 stops compressing, the friction ball 67 continuously rotates forwards and is separated from contact with the grooves of the friction disc 8, the friction disc 8 enables the friction ball 67 to move inwards, the first spring 68 is compressed, the motor 61 is turned off, the second rotating shaft 65 stops driving the friction ball 67 to rotate forwards through the connecting block 66, due to the action of the spiral spring 910, the stirring wheel 41 rotates backwards to drive the elliptical frame 95 to rotate backwards through the one-way coupling 911, and the elliptical frame 95 drives the protruding rod 97 to continuously move inwards and outwards due to the action of the second spring 94, the inside and outside movement of the protruding rod 97 drives the mounting block 96 to move inside and outside, the inside and outside movement of the mounting block 96 drives the connecting rod 93 to move inside and outside, meanwhile, the mounting block 96 also drives the stirring plate 98 to move inside and outside, and the inside and outside movement of the stirring plate 98 pushes the raw materials in the shell 3. When the volute spiral spring 910 drives the stirring wheel 41 to rotate reversely and reset, the stirring wheel 41 stops rotating reversely, the oval frame 95 stops driving the protruding rod 97 to move inward and outward, the stirring plate 98 stops moving inward and outward, the motor 61 is started again, the friction ball 67 rotates forward and is matched with the groove of the friction disc 8 again, the friction ball 67 drives the friction disc 8 to rotate forward, and the stirring wheel 41 rotates forward again to stir and mix the raw materials. Thus, the stirring and mixing of the raw material by stopping the normal rotation of the stirring wheel 41 can be avoided.

When the stirring plate 98 moves outwards, the stirring plate 98 drives the magnetic material pushing plate 105 to move outwards, the magnetic material pushing plate 105 moves outwards to drive the guide post 103 to move outwards, the guide post 103 moves outwards to drive the second magnetic block 102 to move outwards, the third spring 104 is stretched, the magnetic material pushing plate 105 moves outwards to drive the material blocking plate 53 to move outwards, the material blocking plate 53 moves outwards without blocking the material in the housing 3, the material drops into the collection container, the second magnetic block 102 moves outwards to be in contact with the first magnetic block 101 and is attracted, the stirring plate 98 continues to move outwards to be out of contact with the magnetic material pushing plate 105, when the stirring plate 98 moves inwards, the stirring plate 98 moves inwards to drive the magnetic material pushing plate 105 to move inwards, the magnetic material pushing plate 105 moves inwards to drive the second magnetic block 102 to move inwards through the guide post 103, the second magnetic block 102 moves inwards to be out of contact with the first magnetic block 101, and the third spring 104 also contracts and resets, the magnetic material pushing plate 105 moves inwards to reset and drives the material blocking plate 53 to move inwards to reset, and the operation is repeated, so that the material blocking plate 53 can continuously move inwards and outwards, and raw materials intermittently drop into the collection container. When the stirring plate 98 stops moving inward and outward, the stirring plate 98 stops driving the magnetic pusher plate 105 to move inward and outward. So, can make the raw materials in the shell 3 reduce, make things convenient for stirring wheel 41 to stir the mixture to the raw materials.

Referring to fig. 1, 2, 13, 14 and 15, the stirring device further includes a stirring auxiliary mechanism 11, the stirring auxiliary mechanism 11 includes a rubber ball 111, a hollow rod 112, a fourth spring 113 and guide rods 114, six guide rods 114 are fixedly connected to four sides of the stirring wheel 41 at regular intervals, the hollow rod 112 is slidably sleeved at the outer end of each guide rod 114, the rubber ball 111 is fixedly connected to the outer end of each hollow rod 112, and the fourth spring 113 is connected between the inner wall of each hollow rod 112 and the outer end of each guide rod 114.

Still including the mechanism 12 that gathers materials, the mechanism 12 that gathers materials is including toper board 121 and installation pole 122, and the rigid coupling that supports base 1 inboard bottom along the even interval of circumference has six installation poles 122, installs toper board 121 through bolted connection's mode between six installation poles 122.

When the stirring wheel 41 rotates forwards to stir and mix the three raw materials, the stirring wheel 41 also drives the guide rod 114 to rotate forwards, the guide rod 114 rotates forwards to drive the hollow rod 112 to rotate forwards, the hollow rod 112 rotates forwards to drive the rubber ball 111 to rotate forwards, the rubber ball 111 rotates forwards to stir and mix the three raw materials, meanwhile, due to the centrifugal force and the action of the fourth spring 113, the guide rod 114 drives the hollow rod 112 to continuously move back and forth, the hollow rod 112 moves back and forth to drive the rubber ball 111 to move back and forth, and the rubber ball 111 moves back and forth to further stir and mix the three raw materials in a forward rotation mode. When the stirring wheel 41 stops rotating forward, the stirring wheel 41 stops driving the guide rod 114 to rotate forward, the rubber ball 111 stops rotating forward, and the rubber ball 111 stops moving back and forth. Therefore, the three raw materials can be better stirred and mixed.

When the mixed raw material falls out of the casing 3, the mixed raw material falls into the tapered plate 121, and the raw material in the tapered plate 121 falls into the collection container. In this way, the raw material can fall into the collection container more accurately and intensively.

The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims (8)

1. A raw material mixing device for moon crust production is characterized by comprising a supporting base (1), a fixing frame (2), a conical block (21), a shell (3), a water inlet pipe (4), a stirring wheel (41), a hollow disc (42), a discharging mechanism (5), a driving mechanism (6), a blanking mechanism (7) and a friction disc (8), wherein the conical block (21) is symmetrically and fixedly connected to the inner side of the inner ring of the supporting base (1), the friction disc (8) is rotatably connected to the inner side of the conical block (21), the stirring wheel (41) is fixedly connected to the middle part of the outer side of the friction disc (8) far away from the supporting base (1), the shell (3) is fixedly connected to one side of the inner ring of the supporting base (1), the fixing frame (2) is fixedly connected to one side of the outer side of the shell (3), the water inlet pipe (4) is communicated to one side of the shell (3) far away from the fixing frame (2), the hollow disc (42) is fixedly connected to one side of the shell (3) far away from the supporting base (1), the blanking mechanism (7) is installed on the hollow disc (42), the driving mechanism (6) is installed between the hollow disc (42) and the fixing frame (2), the driving mechanism (6) is fixedly connected with the supporting base (1), the driving mechanism (6) is connected with the blanking mechanism (7), the driving mechanism (6) penetrates through the stirring wheel (41) to be in contact with the inner side of the friction disc (8), the discharging mechanism (5) is installed on the supporting base (1), and the discharging mechanism (5) is in contact with one sides of the conical block (21) and the shell (3).

2. The raw material mixing device for moon cake production as claimed in claim 1, wherein the discharging mechanism (5) comprises a handle (51), connecting columns (52) and a baffle plate (53), the connecting columns (52) are slidably connected to two sides of the outer ring of the support base (1), the number of the connecting columns (52) on each side is two, the handle (51) is fixedly connected between the outer ends of the connecting columns (52) on each side, the baffle plate (53) is fixedly connected between the inner ends of the two connecting columns (52) on each side, the baffle plate (53) penetrates through the inner ring of the support base (1) and is in contact with the conical block (21), and the baffle plate (53) is also in contact with one side of the shell (3).

3. The raw material mixing device for producing the moon bars as claimed in claim 2, wherein the driving mechanism (6) comprises a motor (61), bevel gears (62), a first rotating shaft (63), a transmission assembly (64), a second rotating shaft (65), a connecting block (66), friction balls (67) and a first spring (68), the first rotating shaft (63) is rotatably connected between the circle center position of one side of the fixed frame (2) and one side of the supporting base (1), the motor (61) is installed at one side of the supporting base (1) close to the fixed frame (2), the number of the bevel gears (62) is two, one of the bevel gears (62) is fixedly sleeved on the output shaft of the motor (61), the other bevel gear (62) is fixedly sleeved at one side of the first rotating shaft (63), the two bevel gears (62) are meshed, the second rotating shaft (65) is rotatably connected between the circle center positions of two sides of the hollow disc (42), second pivot (65) are connected with unloading mechanism (7), second pivot (65) one end is passed stirring wheel (41) and is run through friction disk (8) one side middle part again, fixed suit in second pivot (65) one side that is close to friction disk (8) of connecting block (66), the slidingtype of friction ball (67) symmetry formula is established in the connecting block (66) outside, friction ball (67) and friction disk (8) inboard contact, first spring (68) are connected between friction ball (67) one side and connecting block (66) inboard, drive assembly (64) are connected between keeping away from second pivot (65) one side and first pivot (63) one side of supporting base (1), drive assembly (64) run through mount (2).

4. The raw material mixing device for moon crust production according to claim 3, wherein the blanking mechanism (7) comprises a blanking hopper (71), an annular slide rail (72) and a material distribution plate (73), the annular slide rail (72) is rotatably connected to the inner side of the hollow plate (42), the blanking hopper (71) is connected to one side of the hollow plate (42) far away from the support base (1) at intervals, the material distribution plate (73) is fixedly connected to the inner side of the annular slide rail (72), the material distribution plate (73) is matched with the blanking hopper (71), and the upper part of the second rotating shaft (65) is fixedly connected with both the annular slide rail (72) and the material distribution plate (73).

5. The raw material mixing device for producing moon cakes according to claim 4, which further comprises a material stirring mechanism (9), wherein the material stirring mechanism (9) comprises a fixing plate (91), sleeves (92), a connecting rod (93), a second spring (94), an oval frame (95), a mounting block (96), a convex rod (97), a stirring plate (98), a mounting box (99), a volute spring (910) and a one-way coupler (911), the sleeves (92) are fixedly connected to two sides of the shell (3) far away from the support base (1), the number of the sleeves (92) on each side is two, the fixing plate (91) is fixedly connected between the outer ends of the two sleeves (92) on each side, one side of the fixing plate (91) is fixedly connected with one side of the support base (1), the connecting rod (93) is slidably arranged in the sleeves (92), the second spring (94) is connected between one end of the connecting rod (93) far away from the second rotating shaft (65) and the inner side of the sleeves (92), the mounting block (96) is fixedly connected between the inner ends of the two connecting rods (93) on each side, the convex rod (97) is fixedly connected to the middle part of one side of the mounting block (96) far away from the supporting base (1), the stirring plate (98) is fixedly connected to the middle part of the outer side surface of the mounting block (96), the one-way coupler (911) is mounted on the outer side of the stirring wheel (41) far away from the supporting base (1), the elliptical frame (95) is fixedly connected to the outer side of the one-way coupler (911), the elliptical frame (95) is sleeved on the convex rod (97), the mounting box (99) is fixedly connected to the middle part of the outer side of the hollow disc (42) facing the supporting base (1), and the volute spiral spring (910) is connected between the inner side of the mounting box (99) and the outer side of the stirring wheel (41).

6. The raw material mixing device for moon crust production as claimed in claim 5, further comprising a discharging auxiliary mechanism (10), wherein the discharging auxiliary mechanism (10) comprises a first magnetic block (101), a second magnetic block (102), guide posts (103), a third spring (104), a magnetic material pushing plate (105) and a guide rail (106), the guide rail (106) is fixedly connected to two outer sides of an inner ring of the supporting base (1), the first magnetic block (101) is slidably arranged on one side of the guide rail (106), the first magnetic block (101) is fixedly connected to two outer sides of an outer ring of the supporting base (1), the first magnetic block (101) corresponds to the second magnetic block (102), the guide posts (103) are slidably connected between the fixing plate (91) and the housing (3), the number of the guide posts (103) on each side is two, the outer ends of the guide posts (103) on each side are fixedly connected to one side of the second magnetic block (102), the third spring (104) is symmetrically connected between one side of the second magnetic block (102) and the outer side of the fixed plate (91), the third spring (104) is wound on the guide posts (103), the magnetic material pushing plate (105) is fixedly connected between the inner ends of the two guide posts (103) on each side, the magnetic material pushing plate (105) is in contact with the stirring plate (98), and one side of the magnetic material pushing plate (105) is fixedly connected with one side of the material blocking plate (53).

7. The raw material mixing device for moon crust production according to claim 6, further comprising a stirring auxiliary mechanism (11), wherein the stirring auxiliary mechanism (11) comprises a rubber ball (111), a hollow rod (112), a fourth spring (113) and a guide rod (114), the guide rod (114) is connected to four sides of the stirring wheel (41) in a penetrating manner at intervals in a sliding manner, the hollow rod (112) is sleeved at the outer end of the guide rod (114) in a sliding manner, the rubber ball (111) is fixedly connected to the outer end of the hollow rod (112), and the fourth spring (113) is connected between the inner side of the hollow rod (112) and the outer end of the guide rod (114).

8. The raw material mixing device for moon bar production according to claim 7, further comprising a material collecting mechanism (12), wherein the material collecting mechanism (12) comprises a tapered plate (121) and a mounting rod (122), the mounting rod (122) is fixedly connected to one side of the inner ring of the support base (1) far away from the hollow disc (42) at intervals, and the tapered plate (121) is fixedly connected among all the mounting rods (122).

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