CN213246646U - Meat ball processing is with cutmixer - Google Patents

Abstract

The application relates to a chopping mixer for processing meatballs, which comprises a machine body, a chopping pot, a material cutting assembly and a material chopping driving assembly, wherein the material chopping assembly is rotatably arranged on the machine body, the material cutting assembly is used for cutting materials in the chopping pot, the material chopping driving assembly is used for driving the chopping pot to rotate and driving the material cutting assembly to cut the materials, the material taking assembly is arranged on the side portion of the machine body and comprises a supporting arm hinged to the side portion of the machine body, a supporting seat fixed to the supporting arm and far away from one end of the machine body, a driving motor arranged on the supporting seat and a guiding disc fixed to an output shaft of the driving motor, an inner cavity of the chopping pot is annular, the inner wall of the chopping pot is arc-shaped, the guiding disc coincides with a certain radial plane of the chopping pot, the guiding disc is disc-shaped, the lower edge of the guiding disc abuts against the cavity wall of the chopping pot, and a. This application has the effect of being convenient for clean material of getting.

Description

Meat ball processing is with cutmixer

Technical Field

The application relates to the field of food processing machinery, in particular to a chopping and mixing machine for processing meatballs.

Background

The chopper is a key device for producing and processing minced meat and meat-paste-shaped food (ham sausage, roasted sausage), and under the action of high-speed rotation, the chopper can chop the raw materials of meat, vegetables, scallion, ginger and garlic, etc., and at the same time can stir the chopped materials together into uniform emulsion. The chopping and mixing machine can select proper chopping and mixing time according to different processing materials, and the natural taste of the stuffing is kept. At present, the existing chopping and mixing machine cuts the processed materials in the chopping pot under the rotation of the chopping cutter, and has the defects that after the materials in the chopping pot are cut, the chopping and mixing machine is suspended, and the materials in the chopping pot can be taken out only by opening the chopping protective cover, so that the chopping and mixing machine cannot continuously chop the materials, the working efficiency is low, and the operation is troublesome.

The Chinese patent with application number CN201920162479.7 in the prior related art discloses a chopping and mixing machine, which has the technical key points that: the chopping and mixing machine comprises a machine body, wherein a chopping and mixing pot is fixedly arranged on the machine body; the cutting assembly is fixed on the machine body and can extend into the chopping pot and cut materials in the chopping pot; the chopping and mixing driving assembly drives the chopping and mixing pot and the material cutting assembly to rotate and cut materials respectively; the chopping and mixing protective cover is arranged above the chopping and mixing pot, and the chopping and mixing protective cover is rotatably connected with a material taking baffle.

To the correlation technique among the above-mentioned, the inventor thinks that when using, the material of being cut up the stirring is easily blockked up by getting material baffle, is not convenient for clean the material of getting.

SUMMERY OF THE UTILITY MODEL

In order to facilitate cleaning and material taking, the application provides a chopping and mixing machine for meat ball processing.

The application provides a cutmixer for meat ball processing adopts following technical scheme:

the chopping and mixing machine comprises a machine body, a chopping and mixing pot, a material cutting assembly and a material taking assembly, wherein the chopping and mixing pot is rotatably arranged on the machine body, the material cutting assembly is used for cutting materials in the chopping and mixing pot, the chopping and mixing drive assembly is used for driving the chopping and mixing pot to rotate and driving the material cutting assembly to cut, the material taking assembly is arranged on the side portion of the machine body and comprises a supporting arm hinged to the side portion of the machine body, a supporting seat fixed to one end, far away from the machine body, of the supporting arm, a driving motor arranged on the supporting seat and a guide disc fixed to an output shaft of the driving motor, an inner cavity of the chopping and mixing pot is annular, the inner wall of the chopping and mixing pot is arc-shaped, the guide disc is superposed with a certain radial plane of the chopping and mixing pot, the guide disc is disc-shaped, the lower edge of the guide disc abuts against a.

By adopting the technical scheme, when the materials in the chopping and mixing pot are required to be led out, the supporting arm is only required to be rotated to drive the supporting seat and the driving motor to rotate, so that the lower edge of the guiding disc is abutted against the cavity wall of the chopping and mixing pot, then the driving motor drives the guiding disc to rotate so as to guide the materials in the chopping and mixing pot towards the outside of the edge of the outer ring, and the chopping and mixing pot rotates under the action of the driving material cutting assembly, so that the materials in the chopping and mixing pot can be guided and led out relatively conveniently under the dual actions of the rotating chopping and mixing pot and the rotating guiding disc, and the chopping and mixing pot is relatively convenient and rapid to clean and take the materials.

Optionally, the output shaft of the driving motor is coaxially and fixedly connected with a connecting rod, the other end of the connecting rod is fixed to the guide disc and perpendicular to the guide disc, the connecting rod is sleeved with a connecting pipe, one end of the connecting pipe is rotatably connected to the supporting seat, the other end of the connecting pipe is fixed with a guide plate, and the guide plate is attached to one side of the guide disc, which guides the material.

By adopting the technical scheme, when the chopping and mixing machine is used, the guide plate is connected to the supporting seat through the connecting pipe, the connecting rod can effectively increase the distance between the driving motor and the guide disc so as to reduce the possibility that the driving motor interferes with materials in the chopping and mixing pot, the guide plate can scrape the materials adhered to the side wall of the guide disc so as to optimize the using effect, and meanwhile, the connecting pipe can be rotated according to the materials in the chopping and mixing pot so as to adjust the angle of the guide plate, so that the using effect is further optimized.

Optionally, the connecting pipe is connected to the one end of supporting seat and is provided with the locking piece that is used for making the connecting pipe rotate the locking, the locking piece is including the locking post that is fixed in the supporting seat and two locking plates with the locking post centre gripping, the locking plate is curved platelike structure and the coaxial connecting pipe that is fixed in of its axial one end, two the locking bolt that presss from both sides tightly is worn to locate respectively at the axial both sides border of locking plate.

Through adopting above-mentioned technical scheme, when using, make two locking plate clamp locking post through the locking bolt to make to connect in the relative supporting seat rotation locking of connecting pipe of locking plate.

Optionally, two the equal shaping in opposite sides of locking plate has a plurality of arris grooves that are on a parallel with its axial, the same shaping of locking post has a plurality of arris grooves that encircle its setting.

Through adopting above-mentioned technical scheme, when two lock plates will lock the post centre gripping, the arris groove on lock plate and the locking post can intermeshing to further optimize the effect of rotation locking.

Optionally, the guide plate is in an arc plate-shaped structure, and a central axis of the guide plate is parallel to the connecting pipe, and the central axis of the guide plate is located on one side of the guide plate away from the chopping pan.

Through adopting above-mentioned technical scheme for the in-process that the guide plate was scraped the material that the guide plate bonded can be with the direction guide of material orientation keeping away from the guide plate center, in order to optimize the result of use.

Optionally, the buffer member includes a guide rod fixed to the support arm, two buffer springs sleeved on the guide rod, and a buffer block arranged between the two buffer springs, the buffer block is connected to the guide rod in a sliding manner, opposite ends of the two buffer springs are connected to the buffer block, ends of the two buffer springs far away from each other are respectively fixed to the guide rod, and the support seat is fixed to the buffer block.

Through adopting above-mentioned technical scheme, when using, when the guide dish bears and receives great external force, can slide through connecting rod pulling supporting seat, the supporting seat can compress respectively and tensile two buffer spring through the buffer block this moment to do the buffering, reduce when using because of the guide dish bears the possibility that external force too big leads to getting the material subassembly and take place the damage.

Optionally, a buffer plate with an arc-shaped plate structure is fixed at one end of the support arm away from the machine body, a buffer slot with an arc-shaped extension path is formed in the buffer plate in a concave manner, the guide rod is arc-shaped, and the guide rod, the buffer block and the buffer spring are all arranged in the buffer slot, and a radial plane of the extension path of the buffer slot where the buffer block is located is parallel to a radial plane of an inner cavity of the chopping and mixing pot where the guide disc is located.

By adopting the technical scheme, when the chopping pan is used, the supporting seat can be supported by the aid of the buffer plate, and the guide disc can still keep a state of being attached to the cavity wall of the inner cavity of the chopping pan when the supporting seat and the guide disc are pulled by the buffer groove in the arc-shaped extension path, so that a relatively better using state is maintained.

Optionally, the concave shaping of the face of buffer board has a plurality of supporting grooves the same with the buffer slot structure, the card is established and is slided in the supporting groove and is connected with the supporting shoe that is fixed in the supporting seat, supporting groove and buffer slot are dovetail or T type groove.

Through adopting above-mentioned technical scheme, when using, can be through a plurality of supporting shoes when doing the support to the supporting seat, can slide along supporting groove through the supporting shoe and reduce the interference to the buffering.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the materials in the chopping and mixing pot need to be led out, the supporting arm only needs to be rotated to drive the supporting seat and the driving motor to rotate, so that the lower edge of the guiding disc is abutted to the cavity wall of the chopping and mixing pot, then the driving motor drives the guiding disc to rotate so as to guide the materials in the chopping and mixing pot towards the outside of the outer ring edge, and at the moment, the chopping and mixing pot rotates under the action of the driving material cutting assembly, so that the materials in the chopping and mixing pot can be guided and led out relatively conveniently under the dual actions of the rotating chopping and mixing pot and the rotating guiding disc, the use is relatively convenient and fast, and the use is relatively more convenient.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is an exploded schematic view of an embodiment of the present application;

fig. 3 is an exploded view of a take-out assembly according to an embodiment of the present disclosure.

Description of reference numerals: 1. a body; 2. chopping and mixing the pan; 21. a toothed ring; 3. a material cutting assembly; 31. a rotating shaft; 32. a blade cutter for cutting; 4. a chopping drive assembly; 41. a first driving member; 411. a first motor; 412. a first drive gear; 42. a second driving member; 421. a second motor; 422. a second drive gear; 423. a driven gear; 5. a material taking assembly; 51. a support arm; 52. a supporting seat; 53. a drive motor; 531. a connecting rod; 532. a connecting pipe; 533. a guide plate; 534. a support bearing; 54. a guide plate; 55. a buffer member; 551. a guide rod; 552. a buffer spring; 553. a buffer block; 554. a buffer plate; 555. a buffer tank; 556. a support groove; 557. a support block; 56. a locking member; 561. a locking post; 562. a lock plate; 563. locking the bolt; 564. and (4) a ridge groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses cutmixer is used in meat ball processing. Referring to fig. 1 and 2, the chopper mixer includes a body 1, a chopping pan 2 rotatably connected to the top of the body 1, a cutting assembly 3 for cutting, and a chopping driving assembly 4 for driving the chopping pan 2 to rotate and the cutting assembly 3 to cut. The chopping and mixing pot 2 is of an upper opening structure and is formed with an annular inner cavity, and the cross section of the inner cavity of the chopping and mixing pot 2 is circular.

The cutting assembly 3 comprises a rotating shaft 31 rotatably connected to the machine body 1 and at least one cutting blade knife 32 fixed to the rotating shaft 31, the rotating plane of the cutting blade knife 32 is overlapped with the vertical radial plane of the inner cavity of the chopping pan 2, and the cutting blade knife 32 is positioned in the inner cavity of the chopping pan 2.

The chopping drive assembly 4 comprises a first drive member 41 for driving the chopping pan 2 to rotate and a second drive member 42 for driving the rotating shaft 31 to rotate. The first driving member 41 includes a first motor 411 fixed inside the machine body 1 and a first driving gear 412 fixed on an output shaft of the first motor 411, a gear ring 21 disposed on the same central axis as the bottom of the chopping pan 2 is fixedly connected to the bottom of the chopping pan, the gear ring 21 is rotatably connected to the machine body 1, and the gear ring 21 is meshed with the first driving gear 412. When in use, the first motor 411 can drive the gear ring 21 to rotate through the first driving gear 412, so as to drive the chopping pan 2 to rotate.

The second driving member 42 includes a second motor 421 fixed in the machine body 1 and a second driving gear 422 fixed on an output shaft of the second motor 421, and one end of the rotating shaft 31 far away from the material cutting blade 32 is fixedly connected with a driven gear 423 meshed with the second driving gear 422. When in use, the second motor 421 can drive the driven gear 423 to rotate through the second driving gear 422, so as to drive the rotating shaft 31 to rotate, and can drive the material cutting blade 32 to rotate through the rotating shaft 31 and make material cutting.

Referring to fig. 2 and 3, the side of the machine body 1 is further provided with a material taking assembly 5 for guiding out the material in the chopping pan 2, the material taking assembly 5 comprises a supporting arm 51 hinged to the side of the machine body 1, a supporting base 52 fixed at one end of the supporting arm 51 far away from the machine body 1, a driving motor 53 arranged on the supporting base 52, and a guiding disc 54 fixed on an output shaft of the driving motor 53, and a rotating plane of the supporting arm 51 is vertically arranged, so that when in use, the supporting arm 51 can drive the guiding disc 54 to abut against the cavity wall of the chopping pan 2 or separate from the chopping pan 2 when rotating.

The guide disc 54 coincides with one of the vertical radial planes of the cavity of the chopping pan 2, is in a disc-shaped structure, and the lower edge of the guide disc abuts against the cavity wall of the cavity of the chopping pan 2. A buffer member 55 for buffering the driving motor 53 is provided between the support arm 51 and the support base 52.

When the material in the chopping pan 2 needs to be led out, the supporting arm 51 only needs to be rotated to drive the supporting seat 52 and the driving motor 53 to rotate, so that the lower edge of the guiding disc 54 is abutted to the cavity wall of the chopping pan 2, then the driving motor 53 drives the guiding disc 54 to rotate so as to guide the material in the chopping pan 2 towards the outside of the outer ring edge, and at the moment, the chopping pan 2 rotates under the action of the driving material cutting assembly 3, so that the material in the chopping pan 2 can be guided and led out relatively conveniently under the dual action of the rotating chopping pan 2 and the rotating guiding disc 54, the cleaning and material taking can be realized, and the use is relatively convenient.

Referring to fig. 2 and 3, a connecting rod 531 is coaxially and fixedly connected to the output shaft of the driving motor 53, one end of the connecting rod 531, which is far away from the driving motor 53, is fixed to the guide plate 54, and the connecting rod 531 is perpendicular to the guide plate 54. The connecting rod 531 is sleeved with a connecting tube 532, one end of the connecting tube 532 is rotatably connected to the supporting seat 52, the other end of the connecting tube 532 is fixedly connected with a guiding plate 533, and the side edge of the guiding plate 533 is attached to the plate surface on the side of the guiding material of the guiding plate 54.

When in use, the guide plate 533 is connected to the supporting seat 52 through the connecting pipe 532, and the connecting rod 531 can effectively increase the distance between the driving motor 53 and the guide disc 54 to reduce the possibility that the driving motor 53 interferes with the material in the chopping pan 2, and the guide plate 533 can scrape off the material adhered to the side wall of the guide disc 54 to optimize the use effect, and simultaneously, the connecting pipe 532 can be rotated to adjust the angle of the guide plate 533 according to the material in the chopping pan 2 to further optimize the use effect.

The guide plate 533 is of an arc-shaped plate-shaped structure, and the central axis of the guide plate 533 is parallel to the connecting pipe 532, and the central axis of the guide plate 533 is located at one side of the guide plate 533 away from the chopping pan 2, so that the material can be guided towards the direction away from the center of the guide plate 54 in the process that the guide plate 533 scrapes the material adhered to the guide plate 54, and the use effect is optimized.

Referring to fig. 2 and 3, a locking member 56 for locking the connection pipe 532 in rotation is disposed at one end of the connection pipe 532 connected to the support base 52, the locking member 56 includes a locking column 561 fixed to the support base 52 and two locking plates 562 clamping the locking column 561, and the connection rod 531 penetrates through the locking column 561. The locking plate 562 is curved plate-shaped structure and its axial one end is fixed in connecting pipe 532 coaxially, and two locking plates 562 set up with the central axis, and locking plate 562 axial both sides border is respectively to turning up the book shaping and has the flange board, and two locking plate 562 axial both sides border is worn to be equipped with respectively and is pressed from both sides tight locking bolt 563, and locking bolt 563 presss from both sides two locking plates 562 through wearing to locate the flange board. And the two locking plates 562 are formed with a plurality of rib grooves 564 parallel to the axial direction thereof on opposite sides thereof, and the outer wall of the locking post 561 is also formed with a plurality of rib grooves 564 arranged therearound.

In use, the two locking plates 562 clamp the locking post 561 via the locking bolts 563 so that the connecting tube 532 connected to the locking plate 562 is locked rotationally relative to the support base 52, and the locking plates 562 and the rib grooves 564 on the locking post 561 can engage with each other when the locking post 561 is clamped by the two locking plates 562, thereby further optimizing the effect of the rotational locking.

The connecting rod 531 is externally sleeved with at least one supporting bearing 534, and the supporting bearing 534 is disposed in the connecting pipe 532 for assisting in supporting the connecting pipe 532.

Referring to fig. 2 and 3, the buffer member 55 includes a guide rod 551 fixed to the support arm 51, two buffer springs 552 sleeved on the guide rod 551, and a buffer block 553 disposed between the two buffer springs 552, wherein the guide rod 551 is disposed through the buffer block 553 and slidably connected to the buffer block 553. The two buffer springs 552 are fixed to the guide rods 551 at their ends remote from each other, and the support base 52 is fixed to the buffer block 553. When the material taking assembly 5 is used, when the guide disc 54 bears a large external force, the support seat 52 can be pulled to slide through the connecting rod 531, and at the moment, the support seat 52 can respectively compress and stretch the two buffer springs 552 through the buffer block 553 for buffering, so that the possibility that the material taking assembly 5 is damaged due to the fact that the guide disc 54 bears the external force too much when the material taking assembly is used is reduced.

One end of the supporting arm 51, which is away from the machine body 1, is fixed with a buffer plate 554 having an arc-shaped plate structure, the buffer plate 554 is concavely formed with a buffer groove 555 having an arc-shaped extending path, the guide rod 551 has an arc-shaped rod-shaped structure, and is arranged in the buffer groove 555 together with the buffer block 553 and the buffer spring 552, and the extending path of the buffer groove 555 and the length direction of the guide rod 551 are arranged on the same central axis. Wherein, the radial plane of the extending path of the buffer slot 555 where the buffer block 553 is located is parallel to the radial plane of the inner cavity of the chopping pan 2 where the guide disc 54 is located, the supporting seat 52 is in a cylindrical structure, and the driving motor 53 is arranged inside the supporting seat 52.

When in use, the supporting seat 52 can be supported by the buffer plate 554, and the guide plate 54 can still be kept in a state of being attached to the cavity wall of the inner cavity of the chopping pan 2 when the supporting seat 52 and the guide plate 54 are pulled by the buffer slot 555 of the arc-shaped extending path, so that a relatively better using state can be maintained.

The surface of the buffer plate 554 is recessed to form a plurality of supporting grooves 556 with the same structure as the buffer groove 555, the supporting grooves 556 are clamped and connected with supporting blocks 557 fixed on the supporting base 52 in a sliding manner, and the supporting grooves 556 and the buffer groove 555 are dovetail grooves or T-shaped grooves. And the extended path of the support groove 556 is disposed on the same central axis as the extended path of the buffer groove 555. When the buffer is used, the support seat 52 can be supported by the plurality of support blocks 557, and the interference to the buffer can be reduced by the support blocks 557 sliding along the support grooves 556.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a meat ball processing is with cutmixer, includes organism (1), rotates and sets up in the cutmixer pot (2) of organism (1), is used for doing blank in cutmixer pot (2) blank subassembly (3) and is used for driving cutmixer pot (2) to rotate and drive blank subassembly (3) and do the cutmixer drive assembly (4) of cutting, its characterized in that: the chopping and mixing device is characterized by further comprising a material taking assembly (5) arranged on the side portion of the machine body (1), wherein the material taking assembly (5) comprises a supporting arm (51) hinged to the side portion of the machine body (1), a supporting seat (52) fixed to one end, far away from the machine body (1), of the supporting arm (51), a driving motor (53) arranged on the supporting seat (52) and a guide disc (54) fixed to an output shaft of the driving motor (53), an inner cavity of the chopping and mixing pot (2) is annular, the inner wall of the chopping and mixing pot is arc-shaped, the guide disc (54) is overlapped with a certain radial plane of the chopping and mixing pot (2), the guide disc (54) is disc-shaped, the lower edge of the guide disc abuts against the cavity wall of the chopping and mixing pot (2), and a buffer piece (55) used for buffering the driving motor (53).

2. The chopping mixer for processing meatballs according to claim 1, characterized in that: the output shaft of the driving motor (53) is coaxially and fixedly connected with a connecting rod (531), the other end of the connecting rod (531) is fixed on a guide disc (54) and is perpendicular to the guide disc (54), a connecting pipe (532) is sleeved outside the connecting rod (531), one end of the connecting pipe (532) is rotatably connected to a supporting seat (52), a guide plate (533) is fixed to the other end of the connecting pipe (532), and the guide plate (533) is attached to one side, where the guide disc (54) guides materials.

3. The chopping mixer for processing meatballs according to claim 2, characterized in that: connecting pipe (532) are connected and are provided with locking piece (56) that is used for making connecting pipe (532) rotation locking in the one end of supporting seat (52), locking piece (56) are including locking post (561) and two locking plate (562) with locking post (561) centre gripping that are fixed in supporting seat (52), locking plate (562) are curved platelike structure and its axial one end coaxial fastening in connecting pipe (532), two locking plate (562) axial both sides border wears to locate locking bolt (563) that press from both sides tightly respectively.

4. The chopping mixer for processing meatballs according to claim 3, characterized in that: the opposite sides of the two locking plates (562) are respectively provided with a plurality of edge grooves (564) parallel to the axial direction of the locking plates, and the locking column (561) is also provided with a plurality of edge grooves (564) arranged around the locking column.

5. The chopping mixer for processing meatballs according to claim 2, characterized in that: the guide plate (533) is of an arc plate-shaped structure, the central axis of the guide plate is parallel to the connecting pipe (532), and the central axis of the guide plate (533) is positioned on one side of the guide plate away from the chopping pan (2).

6. The chopping mixer for processing meatballs according to claim 1, characterized in that: the buffer piece (55) comprises a guide rod (551) fixed on the support arm (51), two buffer springs (552) sleeved on the guide rod (551) and a buffer block (553) arranged between the two buffer springs (552), wherein the buffer block (553) is connected to the guide rod (551) in a sliding mode, opposite ends of the two buffer springs (552) are connected to the buffer block (553), the ends, far away from the two buffer springs (552), of the two buffer springs are respectively fixed to the guide rod (551), and the support seat (52) is fixed to the buffer block (553).

7. The chopping mixer for processing meatballs according to claim 6, characterized in that: one end of the supporting arm (51) far away from the machine body (1) is fixedly provided with a buffer plate (554) in an arc-shaped plate structure, the buffer plate (554) is concavely formed with a buffer groove (555) with an arc-shaped extending path, the guide rod (551) is in an arc shape, the guide rod, the buffer block (553) and the buffer spring (552) are arranged in the buffer groove (555), and the radial plane of the extending path of the buffer groove (555) where the buffer block (553) is located is parallel to the radial plane of the inner cavity of the chopping pot (2) where the guide disc (54) is located.

8. The chopping mixer for processing meatballs according to claim 7, characterized in that: the supporting structure is characterized in that a plurality of supporting grooves (556) which are the same as the buffering grooves (555) in structure are formed in the plate surface of the buffering plate (554) in a concave mode, supporting blocks (557) fixed to the supporting base (52) are clamped in the supporting grooves (556) and connected in a sliding mode, and the supporting grooves (556) and the buffering grooves (555) are all dovetail grooves or T-shaped grooves.

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