CN204519026U - Flour stranding machine - Google Patents

Abstract

The utility model discloses a kind of flour stranding machine, described flour stranding machine comprises: housing; Mixing component, described mixing component is installed on the housing; Driven unit, described driven unit is connected with described mixing component and is located in described housing; Extrude assembly, described in extrude assembly and be connected with described mixing component; Bolster, described bolster is folded between described housing and described driven unit to slow down the vibrations of described housing and described driven unit.According to the flour stranding machine of the utility model embodiment, shake little, noise is little.

Description

Flour stranding machine

Technical field

The utility model relates to small household appliances field, in particular to a kind of flour stranding machine.

Background technology

In correlation technique, during flour stranding machine work, vibrations are large, and noise is large, cause consumer's use sense by poor, there is room for improvement.

Utility model content

The utility model is intended to solve one of technical problem in correlation technique at least to a certain extent.For this reason, the utility model proposes a kind of vibrations little, the flour stranding machine that noise is little.

Comprise according to flour stranding machine of the present utility model: housing; Mixing component, described mixing component is installed on the housing; Driven unit, described driven unit is connected with described mixing component and is located in described housing; Extrude assembly, described in extrude assembly and be connected with described mixing component; Bolster, described bolster is folded between described housing and described driven unit to slow down the vibrations of described housing and described driven unit.

According to flour stranding machine of the present utility model, by sandwiched bolster between driven unit and housing, the vibrations produced when driven unit is worked and noise are slowed down by bolster and pass to housing after absorbing, reduce the impact of vibrations to housing thus, extend service life of housing, and the vibrations of flour stranding machine are little, noise is low, easy to use, user's use sense is subject to.

Described housing comprises upper casing and lower casing, and described upper casing is removably connected with described lower casing; The reductor that described driven unit comprises drive motors and is connected with described drive motors; Described bolster comprises the first bolster, and described first bolster is folded between described upper casing and described reductor.

Described bolster also comprises the second bolster, and described second bolster is folded between described lower casing and described drive motors.

Described first bolster is tabular and is folded between the inner surface of described upper casing and the side of described reductor.

Described flour stranding machine also comprises: seal, and described seal is set on the output shaft of described reductor; Fixture, described fixture to be connected with described reductor by threaded fastener and to be folded in by described seal between the outer surface of described fixture and described upper casing, and the shaft of described mixing component is connected with described output shaft through described fixture.

The side of described reductor is provided with towards described mixing component protrusion and stretches out multiple projections of described upper casing, and described multiple projection is evenly arranged around the circumference of described output shaft, and described fixture is fastened on described projection by described threaded fastener.

Described first bolster comprises: flat part, and described flat part is folded between the inner surface of described upper casing and the side of described reductor; Multiple cylindrical part, multiple described cylindrical part to be located on described flat part and to be set in correspondingly on multiple described projection, and described cylindrical part is folded between described fixture and described projection.

Described housing comprises upper casing and lower casing, and described upper casing is removably connected with described lower casing; The reductor that described driven unit comprises drive motors and is connected with described drive motors; Described bolster comprises the second bolster, and described second bolster is folded between described lower casing and described drive motors.

Described second bolster is formed as tubbiness, and described second bolster is folded between the bottom of described drive motors and described lower casing.

Described upper casing is provided with fixture mounting groove, and described fixture is arranged in described fixture mounting groove.

Described bolster is rubber parts or silica gel part.

Described flour stranding machine also comprises: Control Component, and described Control Component is removably established on the housing, and described Control Component is connected with described driven unit.

Accompanying drawing explanation

Fig. 1 is the sectional view of the flour stranding machine according to the utility model embodiment;

Fig. 2 is according to flour stranding machine of the present utility model, shows the STRUCTURE DECOMPOSITION figure of the first bolster of the first embodiment;

Fig. 3 is according to flour stranding machine of the present utility model, shows the STRUCTURE DECOMPOSITION figure of the first bolster of the second embodiment;

Fig. 4 is according to flour stranding machine of the present utility model, shows the STRUCTURE DECOMPOSITION figure of the second bolster;

Fig. 5 is the sectional perspective exploded view showing seal according to the flour stranding machine of the utility model embodiment;

Fig. 6 is the partial sectional view of the flour stranding machine according to a kind of embodiment of the utility model;

Fig. 7 is the partial sectional view of the flour stranding machine according to the another kind of embodiment of the utility model;

Fig. 8 is the sectional perspective exploded view showing Control Component according to the flour stranding machine of the utility model embodiment.

Description of reference numerals:

Flour stranding machine 100,

The end face 113 of the inner surface 111 of housing 1, upper casing 11, upper casing 11, the outer surface 112 of upper casing 11, housing 1, fixture mounting groove 114, ledge structure 115, lower casing 12, opening 13,

Mixing component 2, stirring shell 21, shaft 22, stirring vane 23,

The side 321 of driven unit 3, drive motors 31, reductor 32, output shaft 320, reductor 32, projection 33,

Bolster 4, first bolster 41, through hole 410, flat part 411, cylindrical part 412,

Second bolster 42,

Seal 5, annular body portion 51, groove 511, protruding pinna 52,

Fixture 6, seal mounting groove 61, installing hole 62,

The upper surface 711 of Control Component 7, control panel 71, control panel 71, circuit board 72, support 73, block tongue 731, card convex 7311,

Extrude assembly 8, extrude housing 81, shaping aperture plate 82, forming hole 821, extrude axle 83.

Detailed description of the invention

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings.Be exemplary below by the embodiment be described with reference to the drawings, be intended to for explaining the utility model, and can not be interpreted as restriction of the present utility model.

The flour stranding machine 100 according to some embodiments of the utility model is described in detail referring to Fig. 1-Fig. 8.Flour stranding machine 100 is for the production of the noodles of various shape.

As Figure 1-Figure 4, comprise housing 1, mixing component 2, driven unit 3 according to the flour stranding machine 100 of an embodiment of the present utility model, extrude assembly 8 and bolster 4.

Mixing component 2 is arranged on housing 1, and driven unit 3 is located in housing 1.That is, housing 1 is the installation carrier of mixing component 2 and driven unit 3, for mixing component 2 and driven unit 3 provide support and installing space.

Driven unit 3 is connected to drive mixing component 2 to move thus stirs the flour in mixing component 2 and water (such as pure water, vegetable juice, fruit juice etc.) with mixing component 2.With reference to shown in Fig. 1, mixing component 2 can comprise stirring shell 21, shaft 22 and stirring vane 23.Stirring vane 23 is arranged on shaft 22, and shaft 22 is located in stirring shell 21 rotationally.Stirring shell 21 is arranged on housing 1.Advantageously, shaft 22 and stirring vane 23 are integrally formed.

Further, as shown in Figure 1, driven unit 3 can comprise drive motors 31 and reductor 32.Drive motors 31 is connected with reductor 32, the output shaft 320 of reductor 32 is connected with shaft 22, particularly, the cross section of one end of the contiguous output shaft 320 of shaft 22 can be configured to polygon, such as hexagon, it is polygon that one end of the contiguous shaft 22 of output shaft 320 can be provided with cross section, such as hexagonal axis hole, this axis hole is stretched in one end of shaft 22 makes shaft 22 be connected with output shaft 320, and shaft 22 and output shaft 320 can synchronous axial system.The power that drive motors 31 exports is exported to shaft 22 through the output shaft 320 of reductor 32 and drives shaft 22 to rotate, and stirring vane 23 rotates with shaft 22.Be placed on flour in stirring shell 21 and water thus to stir under the effect of stirring vane 23 and form dough.In concrete example as Figure 1-Figure 4, drive motors 31 is positioned at the bottom of reductor 32.

With reference to shown in Fig. 1, extrude assembly 8 and be connected with mixing component 2.Particularly, extrude assembly 8 and can be arranged in stirring shell 21, extrude assembly 8 and can comprise and extrude housing 81, shaping aperture plate 82 and extrude axle 83.Extrude axle 83 to be arranged on and to extrude on housing 81, and extrude axle 83 and be connected with shaft 22, shaping aperture plate 82 is arranged on to be extruded on housing 81.Extrude axle 83 thus to rotate with shaft 22, and constantly pressing surface group makes dough squeeze out from shaping aperture plate 82, thus form noodles.Alternatively, the shape of the forming hole 821 on shaping aperture plate 82 can be square, circular, rectangle or triangle, can process difform noodles thus.

As shown in Figure 1 and Figure 4, bolster 4 is folded between housing 1 and driven unit 3 to slow down the vibrations of housing 1 and driven unit 3.Alternatively, bolster 4 can be rubber parts or silica gel part, such material not only low cost of manufacture, and damping noise reduction is effective.

Be understandable that, when flour stranding machine 100 works, driven unit 3 starts to drive mixing component 2 to work, and vibrations and noise in driven unit 3 course of work, can be produced, according to the flour stranding machine 100 of the utility model embodiment, by sandwiched bolster 4 between driven unit 3 and housing 1, the vibrations produced when driven unit 3 is worked and noise are slowed down by bolster 4 and pass to housing 1 after absorbing, reduce the impact of vibrations to housing 1 thus, extend service life of housing 1, and the vibrations of flour stranding machine 100 are little, noise is low, easy to use, user's use sense is subject to.

As shown in Fig. 1, Fig. 5-Fig. 7, comprise housing 1, mixing component 2, driven unit 3 according to the flour stranding machine 100 of another embodiment of the utility model, extrude assembly 8 and seal 5.

Mixing component 2 is arranged on housing 1, and driven unit 3 is located in housing 1.That is, housing 1 is the installation carrier of mixing component 2 and driven unit 3, for mixing component 2 and driven unit 3 provide support and installing space.

Driven unit 3 has output shaft 320, and mixing component 2 has shaft 22, and output shaft 320 is connected to drive shaft 22 to move thus stirs the flour in mixing component 2 and water (such as pure water, vegetable juice, fruit juice etc.) with shaft 22.With reference to shown in Fig. 1, mixing component 2 can comprise stirring shell 21, shaft 22 and stirring vane 23.Stirring vane 23 is arranged on shaft 22, and shaft 22 is located in stirring shell 21 rotationally.Stirring shell 21 is arranged on housing 1.

Further, as shown in Figure 1, driven unit 3 can comprise drive motors 31 and reductor 32.Wherein the output shaft 320 of driven unit 3 is the output shaft 320 of reductor 32.Drive motors 31 is connected with reductor 32, and the output shaft 320 of reductor 32 is connected with shaft 22.The power that drive motors 31 exports is exported to shaft 22 through the output shaft 320 of reductor 32 and drives shaft 22 to rotate, and stirring vane 23 rotates with shaft 22.Be placed on flour in stirring shell 21 and water thus to stir under the effect of stirring vane 23 and form dough.In concrete example as Figure 1-Figure 4, drive motors 31 is positioned at the bottom of reductor 32.

With reference to shown in Fig. 1, extrude assembly 8 and be connected with mixing component 2.Particularly, extrude assembly 8 and can be arranged in stirring shell 21, extrude assembly 8 and can comprise and extrude housing 81, shaping aperture plate 82 and extrude axle 83.Extrude axle 83 to be arranged on and to extrude on housing 81, and extrude axle 83 and be connected with shaft 22, shaping aperture plate 82 is arranged on to be extruded on housing 81.Extrude axle 83 thus to rotate with shaft 22, and constantly pressing surface group makes dough squeeze out from shaping aperture plate 82, thus form noodles.Alternatively, the shape of the forming hole 821 on shaping aperture plate 82 can be square, circular, rectangle or triangle, can process difform noodles thus.

As shown in Figure 6 and Figure 7, seal 5 is located in driven unit 3 and mixing component 2 at least one to cut off mixing component 2 and housing 1.That is, seal 5 is for cutting off mixing component 2 and housing 1, namely seal 5 is not communicated with between mixing component 2 with housing 1 for making, thus prevent the flour in mixing component 2 and water from entering in housing 1 and/or in driven unit 3, and can prevent the grease in driven unit 3 from entering in mixing component 2.Alternatively, seal 5 can be the one in silica gel part, rubber parts, fluorubber and gas phase glue, the thus low cost of manufacture of seal 5.

In some optional embodiments, seal 5 can be located on driven unit 3, as shown in figures 1 to 6, a part for output shaft 320 can stretch out housing 1, and a part of stretching out housing 1 for output shaft 320 can be connected with shaft 22, gap in the part that seal 5 is set in output shaft 320 and between sealing output shaft 320 and housing 1, thus cut off mixing component 2 and housing 1, mixing component 2 is not communicated with housing 1.

In other optional embodiments, seal 5 can also be located on mixing component 2, and as shown in Figure 7, seal 5 can be set on the shaft 22 and gap sealed between shaft 22 and housing 1, thus cut off mixing component 2 and housing 1, mixing component 2 is not communicated with housing 1.In concrete example as shown in Figure 7, output shaft 320 does not stretch out outside housing 1.

In other optional embodiment, seal 5 can be located on driven unit 3 and mixing component 2 simultaneously.

According to the flour stranding machine 100 of the utility model embodiment, by at least one in driven unit 3 and mixing component 2 being arranged the seal 5 for cutting off mixing component 2 and housing 1, thus can prevent the flour in mixing component 2 and water from entering in driven unit 3, service life extending driven unit 3 of break-in and avoid occurring making driven unit 3 produce abnormal sound phenomenon because flour and water enter driven unit 3, seal 5 can prevent flour and water from entering in housing 1 simultaneously, thus avoid occurring producing foul odour phenomenon because flour and water enter in housing 1 cannot remove for a long time, also can prevent the grease in driven unit 3 from entering in mixing component 2, avoid the noodles peculiar smell occurring that grease contamination flour causes, the phenomenons such as mouthfeel difference.

As illustrated in figures 1 and 8, housing 1, mixing component 2, driven unit 3 and Control Component 7 is comprised according to the flour stranding machine 100 of another embodiment of the present utility model.

Mixing component 2 is arranged on housing 1, and driven unit 3 is located in housing 1.That is, housing 1 is the installation carrier of mixing component 2 and driven unit 3, for mixing component 2 and driven unit 3 provide support and installing space.

Driven unit 3 has output shaft 320, and mixing component 2 has shaft 22, and output shaft 320 is connected to drive shaft 22 to move thus stirs the flour in mixing component 2 and water (such as pure water, vegetable juice, fruit juice etc.) with shaft 22.With reference to shown in Fig. 1, mixing component 2 can comprise stirring shell 21, shaft 22 and stirring vane 23.Stirring vane 23 is arranged on shaft 22, and shaft 22 is located in stirring shell 21 rotationally.Stirring shell 21 is arranged on housing 1.

Further, as shown in Figure 1, driven unit 3 can comprise drive motors 31 and reductor 32.Wherein the output shaft 320 of driven unit 3 is the output shaft 320 of reductor 32.Drive motors 31 is connected with reductor 32, and the output shaft 320 of reductor 32 is connected with shaft 22.The power that drive motors 31 exports is exported to shaft 22 through the output shaft 320 of reductor 32 and drives shaft 22 to rotate, and stirring vane 23 rotates with shaft 22.Be placed on flour in stirring shell 21 and water thus to stir under the effect of stirring vane 23 and form dough.In concrete example as Figure 1-Figure 4, drive motors 31 is positioned at the bottom of reductor 32.

With reference to shown in Fig. 1, flour stranding machine 100 can also comprise extrudes assembly 8, extrudes assembly 8 and can be arranged in stirring shell 21.Particularly, extrude assembly 8 can comprise and extrude housing 81, shaping aperture plate 82 and extrude axle 83.Extrude axle 83 to be arranged on and to extrude on housing 81, and extrude axle 83 and be connected with shaft 22, shaping aperture plate 82 is arranged on to be extruded on housing 81.Extrude axle 83 thus to rotate with shaft 22, and constantly pressing surface group makes dough squeeze out from shaping aperture plate 82, thus form noodles.Alternatively, the shape of the forming hole 821 on shaping aperture plate 82 can be square, circular, rectangle or triangle.Difform noodles can be processed thus.

As illustrated in figures 1 and 8, Control Component 7 is removably located on housing 1, and such as Control Component 7 removably can be located on housing 1 by buckle structure or threaded fastener.Control Component 7 is connected with driven unit 3, thus Control Component 7 can according to the startup of the operation control driven unit 3 of user, stopping and power output etc.

According to the flour stranding machine 100 of the utility model embodiment, by Control Component 7 is removably located on housing 1, thus adopt same housing 1 can mate the various control assembly 7 of difference in functionality, namely adopt same housing 1, meet user to demand that is multi-functional, multiscale flour stranding machine 100 by the 26S Proteasome Structure and Function changing Control Component 7, thus housing 1 mould structure is simple, do not need out many set of shells 1 moulds, development cost is low, low cost of manufacture, and the construction cycle is short and production efficiency is high.

Some specific embodiments according to flour stranding machine 100 of the present utility model are described in detail referring to Fig. 1-Fig. 8.As Figure 1-Figure 8, comprise housing 1, mixing component 2, driven unit 3 according to flour stranding machine 100 of the present utility model, extrude assembly 8, bolster 4, seal 5, fixture 6 and Control Component 7.

As shown in Fig. 1-Fig. 4, Fig. 5 and Fig. 8, housing 1 can comprise upper casing 11 and lower casing 12, and upper casing 11 is removably connected with lower casing 12, and such as upper casing 11 can be connected by housing 1 securing member with lower casing 12, and housing 1 securing member can be threaded fastener.The assembling of housing 1 is more convenient thus.Upper casing 11 and lower casing 12 limit installation cavity jointly, and driven unit 3 is arranged in installation cavity, and mixing component 2 is located on upper casing 11.

Bolster 4 can comprise the first bolster 41 and/or the second bolster 42.That is, in optional embodiments more of the present utility model, bolster 4 can comprise the first bolster 41; In other optional embodiments of the utility model, bolster 4 can comprise the second bolster 42; Have in some optional embodiments at the utility model, as Figure 1-Figure 4, bolster 4 can comprise the first bolster 41 and the second bolster 42.

Alternatively, the first bolster 41 can be rubber parts or silica gel part, and the second bolster 42 can be rubber parts or silica gel part.

As Figure 1-Figure 4, first bolster 41 can be folded between reductor 32 and housing 1, particularly, first bolster 41 can be folded between upper casing 11 and reductor 32, thus by the counteracting of the shaking part of reductor 32, avoid vibrations be directly passed on upper casing 11, reduce vibrations and noise and can prevent resonate, alleviate the impact of reductor 32 pairs of upper casings 11, extend the service life of upper casing 11.

In the optional concrete examples of some as shown in Figure 1, Figure 2, shown in Fig. 6 and Fig. 7, the first bolster 41 can be tabular, and the first bolster 41 being formed as tabular is folded between the inner surface 111 of upper casing 11 and the side 321 of reductor 32.Simple, the low cost of manufacture of the structure of the first bolster 41 thus.

As depicted in figs. 1 and 2, seal 5 can be set on the output shaft 320 of reductor 32, and more specifically, a part for output shaft 320 is stretched out housing 1 and is connected with shaft 22, and seal 5 is set in a part for output shaft 320.

Fixture 6 can be fastened on driven unit 3 by threaded fastener, specifically, fixture 6 to be connected with reductor 32 by threaded fastener and to be folded in by seal 5 between the outer surface of fixture 6 and housing 1 (such as upper casing 11), thus the gap between sealing output shaft 320 and upper casing 11, wherein the shaft 22 of mixing component 2 is connected with output shaft 320 through fixture 6.

Because seal 5 can gap between the output shaft 320 of seal speed reducer 32 and upper casing 11, thus can prevent the flour in mixing component 2 and water from entering in driven unit 3, service life extending driven unit 3 of break-in and avoid occurring making driven unit 3 produce abnormal sound phenomenon because flour and water enter driven unit 3, seal 5 can prevent flour and water from entering in housing 1 simultaneously, thus avoid occurring producing foul odour phenomenon because flour and water enter in housing 1 cannot remove for a long time, also can prevent the grease in driven unit 3 from entering in mixing component 2, avoid the noodles peculiar smell occurring that grease contamination flour causes, the phenomenons such as mouthfeel difference.

Advantageously, as shown in Figure 5-Figure 7, fixture 6 can be provided with seal mounting groove 61, seal 5 can be arranged in seal mounting groove 61.Seal 5 is fixing more firm thus, and it is little to take up room, and reduces the length (namely as the distance between the side of the leftmost side of flour stranding machine 100 in Fig. 1-Fig. 8 and the side of the rightmost side) of flour stranding machine 100, makes the more compact structure of flour stranding machine 100.

As shown in Figure 5, seal 5 can comprise annular body portion 51 and protruding pinna 52, and protruding pinna 52 extends radially outward from annular body portion 51.Correspondingly, the shape of seal mounting groove 61 and the form fit of seal 5, can be fixed on seal 5 more firmly in seal mounting groove 61 by arranging protruding pinna 52, avoiding seal 5 to rotate under the drive of output shaft 320.

Advantageously, as shown in Figure 5-Figure 7, the inner peripheral surface of annular body portion 51 is provided with groove 511, thus alleviates the weight of seal 5, and grease can be stored with the junction of lubrication and seal part 5 with output shaft 320 or the junction of lubrication and seal part 5 and shaft 22, extend the service life of seal 5.Further, groove 511 is around the inner peripheral surface one week of seal 5.Alternatively, the cross section of groove 511 can be semicircle, triangle or square.

Further alternatively, as Figure 1-Figure 4, upper casing 11 is provided with fixture 6 mounting groove 114, and fixture 6 can be arranged in fixture 6 mounting groove 114.Particularly, the outer surface 112 of upper casing 11 is provided with fixture 6 mounting groove 114, and the maximum (distance between the side of the leftmost side of fixture 6 and the side of the rightmost side) of the thickness of fixture 6 is less than or equal to the degree of depth (distance between the diapire of fixture 6 mounting groove 114 and the outer surface 112 of upper casing 11) of fixture 6 mounting groove 114.The installation of fixture 6 is firm thus, and it is little to take up room, and reduces the length (namely as the distance between the side of the leftmost side of flour stranding machine 100 in Fig. 1-Fig. 8 and the side of the rightmost side) of flour stranding machine 100, makes the more compact structure of flour stranding machine 100.

Known by foregoing description, fixture 6 is connected by threaded fastener with reductor 32, and seal 5 is clamped between the outer surface 112 of upper casing 11 and fixture 6 in fixture 6 and reductor 32 are by threaded fastener fastener cycle, that is, seal 5 is folded between the outer surface 112 of fixture 6 and upper casing 11 by fixture 6.

Further, as shown in Figure 1, Figure 2, shown in Fig. 5-Fig. 7, the side 321 of reductor 32 is provided with to protrude towards mixing component 2 and to stretch out multiple projections 33 of upper casing 11, and multiple projection 33 can be evenly arranged around the circumference of output shaft 320.

As shown in Figure 5, fixture 6 is provided with and multiple projection 33 multiple installing hole 62 one to one, and as depicted in figs. 1 and 2, the first bolster 41 is provided with and multiple installing hole 62 multiple through hole 410 one to one.That is, projection 33, installing hole 62, through hole 410 are coaxially arranged, and the quantity of installing hole 62 is equal with the quantity of projection 33, and the quantity of installing hole 62 is also equal with the quantity of through hole 410, an installing hole 62 is corresponding with a projection 33, and this installing hole 62 is corresponding with a through hole 410.

When assembling the flour stranding machine 100 as shown in Fig. 1-Fig. 2 and Fig. 6, the through hole 410 of the first bolster 41 is set on corresponding projection 33, seal 5 is set on the output shaft 320 of reductor 32, fixture 6 is fastened on projection 33 by threaded fastener, fixture 6 is arranged on corresponding projection 33 through corresponding installing hole 62 by namely corresponding threaded fastener, and between the outer surface 112 seal 5 being pressed on fixture 6 and upper casing 11, and the first bolster 41 is pressed between the inner surface 111 of upper casing 11 and the side 321 of reductor 32.Seal 5 is fixing more firm thus, and the first bolster 41 is fixing more firm, and assembling process step is few, and efficiency is high.

In other optional concrete examples as Figure 3-Figure 4, the first bolster 41 can comprise plate portion and multiple cylindrical part 412.Flat part 411 can be folded between the inner surface 111 of upper casing 11 and the side 321 of reductor 32, multiple cylindrical part 412 can be located on flat part 411, and multiple cylindrical part 412 is set on multiple projection 33 correspondingly, and cylindrical part 412 can be folded between fixture 6 and projection 33.

That is, as shown in Figure 3 and Figure 4, flat part 411 is provided with and the multiple through hole 410 one to one of the multiple installing holes 62 on fixture 6.Multiple through hole 410 and multiple cylindrical part 412 one_to_one corresponding, and the through hole 410 of correspondence is communicated with the middle vacancy of cylindrical part 412.The quantity of cylindrical part 412 is equal with the quantity of projection 33, and the quantity of projection 33 is equal with the quantity of installing hole 62, and the quantity of installing hole 62 is equal with the quantity of through hole 410.

When assembling flour stranding machine 100 as shown in Figure 3 and Figure 4, the through hole 410 of the flat part 411 of the first bolster 41 is set on corresponding projection 33, the middle vacancy of cylindrical part 412 is set on corresponding projection 33, corresponding threaded fastener is successively through corresponding installing hole 62, fixture 6 is arranged on corresponding projection 33 by the middle vacancy of cylindrical part 412, and between the outer surface 112 seal 5 being pressed on fixture 6 and upper casing 11, and flat part 411 is pressed between the inner surface 111 of upper casing 11 and the side 321 of reductor 32, and cylindrical part 412 is pressed between fixture 6 and projection 33.First bolster 41 is fixing more firm thus, and the first bolster 41 not only can the vibrations of buffered-display driver assembly 3 and housing 1 junction, can also the vibrations of buffered-display driver assembly 3 and fixture 6 junction, and effect of vibration and noise reduction is better.

As Figure 1-Figure 4, second bolster 42 can be folded between drive motors 31 and housing 1, particularly, second bolster 42 can be folded between lower casing 12 and drive motors 31, specifically, second bolster 42 can be formed as tubbiness, and the second bolster 42 can be folded between the bottom of drive motors 31 and lower casing 12, more specifically, upper casing 11 can be connected by threaded fastener with lower casing 12, and when upper casing 11 and lower casing 12 are fixed by threaded fastener, second bolster 42 is clamped between the bottom of drive motors 31 and lower casing 12, thus the vibrations of drive motors 31 inner rotator are offset, avoid the vibrations of the unsettled generation of drive motors 31, while reducing vibrations, cushion the damage of drive motors 31 pairs of lower casings 12, extend the service life of lower casing 12.

As shown in Figure 8, Control Component 7 is removably located on housing 1, and housing 1 thickness direction be provided with along housing 1 runs through the opening 13 of housing 1, and Control Component 7 is removably located at opening 13 place.Advantageously, opening 13 can be positioned at the top of housing 1, and Control Component 7 can more easily be arranged on housing 1 thus, and user is to the more convenient operation of flour stranding machine 100.

Further, the end face of Control Component 7 is concordant with the end face 113 of housing 1, the outward appearance of flour stranding machine 100 is cleaner and tidier thus, certainly, " concordant " mentioned here can make broad understanding, comprise the situation that the end face 113 of the end face of Control Component 7 and housing 1 is in the same plane, the situation that the end face 113 of the end face and housing 1 that also comprise Control Component 7 seamlessly transits.

In concrete examples more of the present utility model, as shown in Figure 8, Control Component 7 can comprise control panel 71, circuit board 72 and support 73.Circuit board 72 is connected with control panel 71, and the control button namely on control panel 71 can touch can be connected to the corresponding function button on circuit board 72.Control panel 71 can be arranged on support 73, circuit board 72 is also arranged on support 73, namely support 73 is the installation carrier of control panel 71 and circuit board 72, thus make the installation of control panel 71 and circuit board 72 more firm, indirectly ensure that circuit board 72 and the annexation of control panel 71, make the manipulation of flour stranding machine 100 more convenient.The upper surface 711 of control panel 71 is concordant with the end face 113 of housing 1, thus the outward appearance making flour stranding machine 100 is cleaner and tidier, and " concordant " here also can be broad understanding, at this no longer repeated description.

Specifically, Control Component 7 is removably located on upper casing 11, and upper casing 11 is provided with ledge structure 115, support 73 is provided with block tongue 731, one end of block tongue 731 is provided with card convex 7311, and card convex 7311 is connected on ledge structure 115, thus Control Component 7 is arranged on housing 1 easily.

Certainly, the version of Control Component 7 is not limited to this, and Control Component 7 can also be digital tubular type, liquid crystal type, indicating lamp type, knob or touch, thus meets different user's requests.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", " outward ", " clockwise ", " counterclockwise ", " axis ", " radial direction ", orientation or the position relationship of the instruction such as " circumference " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise at least one this feature.In description of the present utility model, the implication of " multiple " is at least two, such as two, three etc., unless otherwise expressly limited specifically.

In the utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection or each other can communication; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements, unless otherwise clear and definite restriction.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature " on " or D score can be that the first and second features directly contact, or the first and second features are by intermediary mediate contact.And, fisrt feature second feature " on ", " top " and " above " but fisrt feature directly over second feature or oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " can be fisrt feature immediately below second feature or tiltedly below, or only represent that fisrt feature level height is less than second feature.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, to the schematic representation of above-mentioned term not must for be identical embodiment or example.And the specific features of description, structure, material or feature can combine in one or more embodiment in office or example in an appropriate manner.In addition, when not conflicting, the feature of the different embodiment described in this description or example and different embodiment or example can carry out combining and combining by those skilled in the art.

Although illustrate and described embodiment of the present utility model above, be understandable that, above-described embodiment is exemplary, can not be interpreted as restriction of the present utility model, those of ordinary skill in the art can change above-described embodiment, revises, replace and modification in scope of the present utility model.

Claims (12)

1. a flour stranding machine, is characterized in that, comprising:

Housing;

Mixing component, described mixing component is installed on the housing;

Driven unit, described driven unit is connected with described mixing component and is located in described housing;

Extrude assembly, described in extrude assembly and be connected with described mixing component;

Bolster, described bolster is folded between described housing and described driven unit to slow down the vibrations of described housing and described driven unit.

2. flour stranding machine according to claim 1, is characterized in that, described housing comprises upper casing and lower casing, and described upper casing is removably connected with described lower casing;

The reductor that described driven unit comprises drive motors and is connected with described drive motors;

Described bolster comprises the first bolster, and described first bolster is folded between described upper casing and described reductor.

3. flour stranding machine according to claim 2, is characterized in that, described bolster also comprises the second bolster, and described second bolster is folded between described lower casing and described drive motors.

4. flour stranding machine according to claim 2, is characterized in that, described first bolster is tabular and is folded between the inner surface of described upper casing and the side of described reductor.

5. flour stranding machine according to claim 2, is characterized in that, also comprises:

Seal, described seal is set on the output shaft of described reductor;

Fixture, described fixture to be connected with described reductor by threaded fastener and to be folded in by described seal between the outer surface of described fixture and described upper casing, and the shaft of described mixing component is connected with described output shaft through described fixture.

6. flour stranding machine according to claim 5, it is characterized in that, the side of described reductor is provided with towards described mixing component protrusion and stretches out multiple projections of described upper casing, described multiple projection is evenly arranged around the circumference of described output shaft, and described fixture is fastened on described projection by described threaded fastener.

7. flour stranding machine according to claim 6, is characterized in that, described first bolster comprises:

Flat part, described flat part is folded between the inner surface of described upper casing and the side of described reductor;

Multiple cylindrical part, multiple described cylindrical part to be located on described flat part and to be set in correspondingly on multiple described projection, and described cylindrical part is folded between described fixture and described projection.

8. flour stranding machine according to claim 1, is characterized in that, described housing comprises upper casing and lower casing, and described upper casing is removably connected with described lower casing;

The reductor that described driven unit comprises drive motors and is connected with described drive motors;

Described bolster comprises the second bolster, and described second bolster is folded between described lower casing and described drive motors.

9. the flour stranding machine according to claim 3 or 8, is characterized in that, described second bolster is formed as tubbiness, and described second bolster is folded between the bottom of described drive motors and described lower casing.

10. flour stranding machine according to claim 5, is characterized in that, described upper casing is provided with fixture mounting groove, and described fixture is arranged in described fixture mounting groove.

11. flour stranding machines according to claim 1, is characterized in that, described bolster is rubber parts or silica gel part.

12. flour stranding machines according to claim 1, is characterized in that, also comprise:

Control Component, described Control Component is removably established on the housing, and described Control Component is connected with described driven unit.