Disclosure of Invention
Based on this, it is necessary to provide a food processor in order to solve the problem that the existing food processor cannot cut out continuous long sheets or filaments.
The invention provides a food processor, which comprises a power assembly and a shell, wherein the food processor further comprises a slicing accessory, the slicing accessory comprises a feeding assembly, a supporting shell, a transmission assembly and a cutter head assembly, the supporting shell is arranged on the shell, the transmission assembly and the cutter head assembly are arranged in the supporting shell, and the transmission assembly can transmit the power of the power assembly to the cutter head assembly;
The support shell comprises an upper support shell and a lower support shell, wherein the upper support shell is provided with a first through hole, the lower support shell is provided with a second through hole, the first through hole is opposite to the second through hole, the cutter head assembly is arranged between the first through hole and the second through hole, the feeding assembly can be fixed above the first through hole, and the feeding assembly and the center of the cutter head assembly are correspondingly arranged.
In one embodiment, the first through hole center and the second through hole center are coincident with the rotation axis of the cutterhead assembly, and the diameter of the first through hole is equal to the diameter of the cutterhead assembly.
In one embodiment, the cutterhead assembly comprises a cutterhead and blades or the cutterhead assembly comprises a cutterhead, blades and a cutter thorn, a blade mounting opening and a cutter thorn mounting groove are formed in the radius of the cutterhead, the blades can be mounted in the blade mounting opening, and the cutter thorns can be mounted in the cutter thorn mounting groove.
In one embodiment, the upper support shell is provided with a first flanging protruding towards the inside of the support shell around the first through hole, and the lower support shell is provided with a second flanging protruding towards the inside of the support shell around the second through hole.
In one embodiment, the housing is provided with a support rotation shaft extending below the second through hole, and the support rotation shaft abuts against the rotation center of the cutterhead assembly.
In one embodiment, the housing is provided with a food cup at a position opposite to the second through hole.
In one embodiment, the shaving attachment is removably mounted to the housing of the food processor by the support housing.
In one embodiment, the transmission assembly includes a gear bar, a large gear, and a pulley member including a timing belt, a large pulley, a small pulley, and a small pulley shaft centered on the small pulley;
the lower end of the gear rod is provided with a concave hole, and the concave hole is sleeved on an output shaft of the power assembly;
The gear rod is meshed with the large gear;
The small belt pulley shaft is fixed at the center of the large gear;
the synchronous belt is sleeved on the large belt pulley and the small belt pulley, so that the large belt pulley rotates under the drive of the small belt pulley.
In one embodiment, the rotation axis of the large pulley is not collinear with the rotation axis of the power assembly.
In one embodiment, the large belt pulley is of a hollow structure, and the cutterhead assembly is clamped in the large belt pulley.
In one embodiment, the transmission assembly further comprises a tensioning wheel assembly, and a tensioning wheel of the tensioning wheel assembly is pressed on the synchronous belt.
Above-mentioned food processor, the blade disc subassembly of slicing accessory is installed on the casing through supporting the shell, the feeding subassembly is installed in the top of blade disc subassembly, and the feeding subassembly corresponds the setting with the center of blade disc subassembly, power pack passes through drive assembly and drives the blade disc subassembly and rotate, thereby the blade disc subassembly is rotatory to cut from the food that the feeding subassembly was impressed, because the feeding subassembly corresponds the setting with the center of blade disc subassembly, when the food was pressed to the blade disc subassembly under the effort that the feeding subassembly was lasting, the blade disc subassembly can carry out the continuous cutting of spiral advancing to the food of impressing, form continuous piece or silk, realize cutting long piece or long filament function.
Above-mentioned food processor, support shell lower cover with blade disc subassembly relative position is equipped with the second through-hole, the casing is equipped with and extends to the support rotation axis of second through-hole below, support the rotation axis butt be in on the rotation center of blade disc subassembly, support the rotation axis be used for supporting the blade disc subassembly, reduce the friction with the support shell when the blade disc subassembly rotates.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.
FIG. 1 is an exploded view of a planing attachment according to an embodiment of the present invention.
Fig. 2A is a schematic perspective view of a planing attachment according to an embodiment of the present invention.
Fig. 2B is a schematic perspective view of another angle of the planing attachment according to an embodiment of the present invention.
Fig. 3 is a schematic cross-sectional view of a food processor in accordance with an embodiment of the invention.
FIG. 4 is a schematic view of the structure of the planing attachment with the support housing removed according to the present invention;
Wherein,
Planing attachment-100;
the feeding assembly-110, the pushing rod-111 and the charging barrel-112;
The device comprises a supporting shell-120, an upper supporting shell-121, a first flanging-122, a lower supporting shell-123 and a second flanging-124;
The device comprises a transmission assembly-130, a gear rod-131, a large gear-133, a belt pulley component-134, a synchronous belt-1341, a large belt pulley-1342, a small belt pulley-1343, a small belt pulley shaft-1344, a tensioning wheel assembly-135, a tensioning wheel-1351, a tensioning wheel frame-1352 and a tensioning wheel shaft-1353;
The cutter comprises a cutter head assembly-140, a cutter head-141, a cutter blade mounting port-142, a cutter blade-143, a cutter thorn mounting groove-144, a cutter thorn-145 and a cutter thorn mounting strip-146;
an output shaft-210;
A housing-300, a power base cavity-310, a food cup cavity-320, and a support rotating shaft-330;
first via-K1, second via-K2.
Detailed Description
In order to make the technical scheme of the invention clearer, the invention is further described in detail below with reference to the attached drawings and specific embodiments.
In order to make the objects, technical solutions and advantages of the present invention more apparent, the following detailed description of the food processor of the present invention will be given by way of example with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.
Referring to fig. 1 to 4, the food processor of the present invention includes a power assembly, a housing 210 and a slicing accessory 100, wherein the slicing accessory 100 includes a feeding assembly 110, a supporting housing 120, a driving assembly 130 and a cutter assembly 140, the supporting housing 120 is detachably mounted on the housing 210 of the food processor, the driving assembly 130 and the cutter assembly 140 are mounted in the housing 210, the driving assembly 130 drives the power to the cutter assembly 140, and the feeding assembly 110 is mounted above the supporting housing 120.
The housing 210 of the food processor includes a power base cavity 310 at a lower portion and a food cup cavity 320 at an upper portion, wherein the power assembly is rotatably mounted in the power base cavity 310, and an output shaft 210 of the power assembly extends out of the power base cavity 310 so as to facilitate the transmission connection of the slicing accessory 100, and the upper end of the output shaft 210 is preferably square so as to drive the gear rod 131 to move.
The support housing 120 includes an upper support housing 121 and a lower support housing 123, and the upper support housing 121 and the lower support housing 123 are snapped together to form the support housing 120 capable of housing the drive assembly 130 and the cutterhead assembly 140. The upper supporting shell 121 is provided with a first through hole K1, the position of the lower supporting shell 123 opposite to the first through hole K1 of the upper supporting shell 121 is provided with a second through hole K2, and the diameters of the second through hole K2 and the second through hole K2 are matched with the size of the cutterhead assembly 140.
The feeding assembly 110 comprises a charging barrel 112 and a pushing rod 111, the size of the pushing rod 111 is matched with that of the charging barrel 112, and the feeding assembly 110 is fixedly arranged above the first through hole K1.
The cutter head assembly 140 comprises a cutter head 141, a blade mounting opening 142 and a blade mounting groove 144 which are formed in the cutter head 141, the blade 143 is fixed on the cutter head 141 through the blade mounting opening 142, the blade 145 is fixed on a blade mounting strip 146, the blade mounting strip 146 enables the blade 145 to face the feeding opening direction and to be fixed on the cutter head 141 through the blade mounting groove 144, and therefore the blade 145 is fixed on the cutter head 141. Wherein blades 143 and knife-stab mounting bars 146 are disposed outwardly from the center of cutterhead 141, such as radially or non-radially along cutterhead 141.
As an alternative embodiment, the cutter head 141 is provided with a plurality of positions, a plurality of specifications of blade mounting openings 142 and a plurality of cutter thorn mounting bars 146 to realize a plurality of cutting requirements.
The transmission assembly 130 includes a gear bar 131, a large gear 133, and a pulley member 134, the pulley member 134 including a timing belt 1341, a large pulley 1342, a small pulley 1343, and a small pulley shaft 1344 located at the center of the small pulley 1343. The gear rod 131 is provided with a concave hole at the lower end, the gear rod 131 is meshed with the large gear 133, the small belt pulley shaft 1344 is fixed at the center of the large gear 133, and the synchronous belt 1341 is sleeved on the large belt pulley 1342 and the small belt pulley 1343, so that the large belt pulley 1342 is driven by the small belt pulley 1343 to rotate. The shrinkage pool of gear stick 131 lower extreme can overlap and establish on power pack's output shaft 210 to power pack can provide power for drive assembly 130, and drive assembly 130 is with power transmission to cutter head assembly 140 on, in addition realizes the adjustment of transmission rotational speed through the relative size of adjustment gear stick 131 and bull gear 133 and the relative size of small belt pulley 1343 and big belt pulley 1342, in addition, through small belt pulley 1343, big belt pulley 1342 and timing belt 1341, can adjust cutter head assembly 140 for power pack's vertical position to have the space below the cutter head assembly 140 and hold the food after the processing.
The large belt pulley 1342 is of a hollow structure, the cutter disc 141 of the cutter disc assembly 140 can be clamped between the large belt pulley 1342, and the large belt pulley 1342 is installed between the first through hole K1 and the second through hole K2 of the supporting shell 120, so that the centers of the first through hole K1 and the second through hole K2 are overlapped with the center of the cutter disc assembly 140; meanwhile, the feeding assembly 110 is installed above the first through hole K1 such that the feeding assembly 110 corresponds to the center of the cutterhead assembly 140.
As an alternative embodiment, the housing 210 is provided with a supporting rotation shaft 330 below the second through hole K2, and the supporting rotation shaft 330 abuts on the rotation center of the cutterhead assembly 140. When the cutterhead assembly 140 rotates, the supporting rotating shaft 330 can support the cutterhead assembly 140, friction resistance caused by contact between the cutterhead assembly 140 and the large belt pulley 1342 for fixing the cutterhead assembly 140 and other components is reduced, on one hand, power applied by the power assembly can be reduced, electric quantity is saved, and on the other hand, abrasion of the food processor can be reduced.
As an alternative embodiment, the upper supporting shell 121 is provided with a first flange 122 protruding into the supporting shell 120 around the first through hole K1, the lower supporting shell 123 is provided with a second flange 124 protruding into the supporting shell 120 around the second through hole K2, the large pulley 1342 is installed between the first through hole K1 and the second through hole K2, and the first flange 122 and the second flange 124 are clamped in the large pulley 1342, so that the large pulley 1342 can be positioned, thereby further defining the position of the cutterhead assembly 140.
It should be noted that, a movement space of the cutterhead assembly 140 and the timing belt 1341 is reserved between the first flange 122 and the second flange 124.
As an alternative embodiment, the rotation axes of the large pulley 1342 and the small pulley 1343 are not aligned, thereby enabling the power assembly not to be disposed under the cutterhead assembly 140, leaving a space under the cutterhead assembly 140, i.e., a food cup can be disposed on the housing 210 at a position opposite to the second through hole K2 so as to accommodate food processed by the cutterhead assembly 140.
As an alternative embodiment, the transmission assembly 130 is further provided with a tensioning wheel assembly 135, the tensioning wheel assembly 135 includes a tensioning wheel 1351, a tensioning wheel frame 1352 and a tensioning wheel shaft 1353, the tensioning wheel 1351 is fixed on the tensioning wheel frame 1352 through the tensioning wheel shaft 1353, the tensioning wheel frame 1352 is mounted on the supporting shell 120, and adjusting the position of the tensioning wheel frame 1352 can enable the tensioning wheel 1351 to be pressed on the synchronous belt 1341, so that the synchronous belt 1341 has appropriate tensioning force to drive the small belt pulley 1343 and the large belt pulley 1342 to rotate.
As an alternative embodiment, the bottom of the pushing bar 111 is provided with a needle-like fixture to fix the food. More preferably, the barrel 112 and the push rod 111 are of non-circular cross-sectional configuration to avoid rotation of the push rod 111 relative to the barrel 112.
As an alternative embodiment, the cartridge 112 of the feeding assembly 110 is provided with a securing rib, the food processor housing 210 is provided with a rib groove, and when the cutting attachment is mounted on the housing 210 through the support housing 120, the securing rib on the cartridge 112 can be snapped into the rib groove on the housing 210, thereby preventing the cutting attachment 100 from rotating relative to the housing 210.
When the food processor of the present invention is used to process food, for example, when food filaments are to be obtained, a slicing accessory with a blade 143 and a knife 145 is selected, the slicing accessory 100 is mounted on a housing 210 of the food processor through a supporting shell 120, so that a concave hole of a gear rod 131 is sleeved on an output shaft 210, a second through hole K2 is positioned above a food cup cavity 320, a fixing rib of a feed cylinder 112 is clamped into a rib groove of the housing 210, and a rotation center of a cutterhead assembly 140 is abutted on a supporting rotation shaft. The food to be processed is fixed by the fixing piece of the pushing rod 111 and then is filled into the charging barrel 112, meanwhile, certain continuous pressure is applied to the food by the pushing rod 111, the processor is started, the power assembly drives the gear rod 131 to rotate by the output shaft 210, the gear rod 131 drives the large gear 133 to rotate by being meshed with the large gear 133, the large gear 133 drives the small pulley shaft 1344 fixed at the center of the large gear rod 133 to rotate, the small pulley 1343 drives the large pulley 1342 to rotate by the synchronous belt 1341, the large pulley 1342 drives the cutter head assembly 140 fixed on the small pulley 1343 to rotate, primary speed reduction is realized by meshing of the gear rod 131 and the large gear 133 with different diameters, and secondary speed reduction is further realized by the small pulley 1343 and the large pulley 1342 with different diameters, so that the cutter head assembly 140 achieves the rotating speed required by planing. Because the feeding component 110 corresponds to the center of the cutterhead component 140, the rotating cutterhead component 140 drives the knife 145 to etch a circle of concentric circular grooves on the food to be processed, then the blade 143 cuts the food to be processed to form a strip of threads, and as the food to be processed is continuously forced, the food to be processed continuously presses down against the knife 145 and the blade 143 along with the rotation of the cutterhead component 140, so that the knife 145 and the blade 143 spirally upwards travel relative to the food to be processed, and thus a plurality of threads similar to coil springs are cut, and the threads have a longer length, namely, the purpose of cutting continuous threads is achieved.
When the cutter head 141 is required to cut long sheets, only the cutter blade 143 is required to be installed, and the cutter 145 is not required to be installed. The slicing accessory 100 is mounted on the housing 210 of the food processor through the supporting shell 120, so that the concave hole of the gear rod 131 is sleeved on the output shaft 210, the second through hole K2 is positioned above the food cup cavity 320, the fixed rib of the feed cylinder 112 is clamped into the rib groove of the housing 210, and the rotation center of the cutterhead assembly 140 is abutted on the supporting rotation shaft. The food to be processed is fixed by the fixing piece of the pushing rod 111 and then is filled into the charging barrel 112, meanwhile, certain continuous pressure is applied to the food by the pushing rod 111, the processor is started, the power assembly drives the gear rod 131 to rotate by the output shaft 210, the gear rod 131 drives the large gear 133 to rotate by being meshed with the large gear 133, the large gear 133 drives the small pulley shaft 1344 fixed at the center of the large gear rod 133 to rotate, the small pulley 1343 drives the large pulley 1342 to rotate by the synchronous belt 1341, the large pulley 1342 drives the cutter head assembly 140 fixed on the small pulley 1343 to rotate, primary speed reduction is realized by meshing of the gear rod 131 and the large gear 133 with different diameters, and secondary speed reduction is further realized by the small pulley 1343 and the large pulley 1342 with different diameters, so that the cutter head assembly 140 achieves the rotating speed required by planing. Since the feeding assembly 110 corresponds to the center of the cutterhead assembly 140, the rotating cutterhead assembly 140 drives the blades 143 to cut on the food to be processed, and since the food to be processed is subjected to a continuous force, the food to be processed is continuously pressed down against the blades 143 as the cutterhead assembly 140 rotates, so that the blades 143 spiral upward with respect to the food to be processed, thereby cutting out a spiral, continuous long sheet.
In the description of the present invention, the terms "upper", "lower", "bottom" and the like indicate orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and the terms "large", "small" and the like indicate relative sizes of the relevant parts, merely for convenience of description of the present invention, and do not require that the present invention must be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.
The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.