CN214382358U - Novel stirring machine - Google Patents

Abstract

The utility model discloses a novel stirrer, which comprises a cup body component, a motor component and a base component, the cup body component comprises an upper connector and a blade component for stirring, the motor component comprises a motor, a lower connector and a heat dissipation hole, the base component comprises a vent hole, a ventilation cavity and at least two groups of shock absorption pads, the cup body component, the motor component and the base component are detachably connected through a coupler device, the upper connector is connected with the lower connector, the shock pad is matched with the motor component for shock absorption, the ventilation holes and the heat dissipation holes are communicated and form a heat dissipation loop with the ventilation cavity, the utility model adopts the design that the equipment is detachably connected, other accessories can be added to replace the cup body assembly, the motor assembly is used as an integral part in other equipment, the base component is assembled with other accessories for use, and the combination of a single part realizes the diversification of functions.

Description

Novel stirring machine

Technical Field

The utility model belongs to the mixer field relates to a novel mixer.

Background

The host computer is put into as a whole with the motor on the existing market, both can not separate, and the motor can only use in the host computer, and application range, the function singleness of realization, for guaranteeing the radiating effect, current mixer need design the wind channel in motor module and dispels the heat, and manufacturing procedure is complicated, has increased the processing cost.

The noise height of mixer is one of the important index that the user selected, generally solves the noise problem that motor element during operation and host computer produced through increasing the shock pad, but current mixer adopts the shock pad of integral type usually, and the shock pad materials consume greatly, and the shock attenuation effect is general, and this utility model has solved this kind of problem effectively.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome prior art not enough, provide a novel mixer.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a novel mixer which characterized in that: including cup body component, motor element and base subassembly, cup body component includes the connector and is used for the blade subassembly of stirring, motor element includes motor, lower connector and louvre, base subassembly includes ventilation hole, ventilation chamber and at least two sets of shock pads, cup body component, motor element and base subassembly pass through the coupler device and can dismantle the connection, it is connected with lower connector to go up the connector, shock pad and motor element cooperation shock attenuation, ventilation hole and louvre intercommunication and with ventilation chamber formation heat dissipation loop.

Further, the method comprises the following steps of; the coupler device comprises a first upper coupler positioned on the cup body assembly, a second lower coupler positioned on the base assembly, and a first lower coupler and a second upper coupler positioned on the motor assembly, wherein the joint of the first upper coupler and the first lower coupler controls the connection of the cup body assembly and the motor assembly, and the joint of the second upper coupler and the second lower coupler controls the connection of the motor assembly and the base assembly.

Further, the method comprises the following steps of; the motor component comprises an upper cover and a lower cover, the upper cover and the lower cover are arranged into a shell structure, an upper cover through hole is fixedly formed in the upper cover, the lower connector penetrates through the upper cover through hole and extends to the outside, the upper end of the lower connector is connected with the upper connector of the cup body component, the lower end of the lower connector is connected with a motor, the motor is stirred with an upper connector driving blade component through the lower connector, four groups of lower cover connecting columns which are distributed in a rectangular shape are fixedly arranged on the lower cover, an upper cover connecting column opposite to the lower cover connecting column is fixedly arranged on the upper cover, the upper cover and the lower cover are fixedly arranged through the connection of the upper cover connecting column and the lower cover connecting column, an inner damping pad used for damping between the upper cover and the lower cover is arranged between the upper cover connecting column and the lower cover connecting column, the adjacent lower cover connecting columns are connected with connecting plates, the lower cover connecting columns and the connecting plates form an installation cavity, the motor is arranged in the installation cavity, the heat dissipation holes are distributed in an annular mode and are fixedly arranged at the lower end of the installation cavity, the heat dissipation holes are directly communicated with the motor, the upper end of the lower cover is fixedly provided with a lower cover convex edge, and the lower cover convex edge is matched with the inner wall of the upper cover to provide an acting point for the movement of the motor assembly.

Further, the method comprises the following steps of; the shock absorption installation piece is fixedly arranged on the upper cover and is of an integrated structure with the upper cover, the shock absorption installation piece is used for installing a shock absorber, four groups of shock absorption installation pieces are distributed annularly, the shock absorption installation piece comprises a shock absorption shell, shock absorption press blocks are symmetrically and fixedly arranged on two sides of the shock absorption shell, a containing cavity for placing the shock absorber is formed by the shock absorption press blocks and the shock absorption shell, the containing cavity is communicated with a shock absorption positioning cavity for positioning the shock absorber installation, a shock absorption conductor of a cylindrical structure is fixedly arranged in the shock absorption positioning cavity, the height of the shock absorption conductor is smaller than that of the shock absorption shell, a shock absorption through hole is fixedly arranged in the shock absorption positioning cavity, the shock absorber comprises a shock absorption embedded block, a shock absorption guide cavity matched with the shock absorption conductor is fixedly arranged on the shock absorption embedded block, a shock absorption abutting block is connected with a shock absorption abutting block, and a shock absorption fixing piece for fixing, the shock attenuation mounting sets up to back-off structure.

Further, the method comprises the following steps of; the base subassembly comprises base epitheca, base inferior valve, base epitheca, base inferior valve are shell structure, the base epitheca sets firmly coaxial last installation cavity and lower installation cavity, the installation cavity lower extreme has set firmly the through hole down, the ventilation chamber is located the base inferior valve, and the ventilation hole is located ventilation chamber side and the relative position of through hole, louvre, ventilation hole and ventilation chamber formation heat dissipation channel to form the return circuit through ventilation chamber and outside.

Further, the method comprises the following steps of; the shock pad is the annular and distributes in the base epitheca, the shock pad comprises vertical cushion and horizontal cushion, goes up the installation cavity lateral wall and sets firmly the location chamber that advances line location when being used for vertical cushion and horizontal cushion to install, vertical cushion and horizontal cushion set firmly solid piece and the shock attenuation connecting piece that is used for fixing the shock pad on the base epitheca, shock attenuation connecting piece and solid piece set up to the back-off structure.

Further, the method comprises the following steps of; go up the installation cavity diameter and be greater than installation cavity down, and go up the installation cavity diameter and match with the upper cover diameter, lower installation cavity diameter matches with the lower cover diameter, and the diameter range and the louvre scope of through hole match, and motor element's upper cover is located the installation cavity, and the lower cover is located lower installation cavity, and the upper cover side offsets with the vertical cushion of shock pad, the lower wall and the lower cover of installation cavity offset down, support motor element, and the lower cover chimb and the shock pad horizontal cushion of lower cover offset.

Further, the method comprises the following steps of; the cup body assembly comprises closing cap, bowl cover, cup and cup lower part, closing cap, bowl cover, cup and cup lower part set up to shell structure, cup one side has set firmly the hand (hold), the cup inner wall has set firmly the multiunit vortex muscle, and first coupler, last connector and blade subassembly set firmly inside the cup lower part.

Further, the method comprises the following steps of; the replaceable component of the cup body component is a dry grinding component, a multifunctional cup component or a cold drink cup component, the base component and the motor component are respectively used as integral components, the motor component is used in other equipment as an independent component, and the base component and the hot pot cup component are assembled for use.

Further, the method comprises the following steps of; the damping supporting block is of an L-shaped structure, the damping supporting block comprises a vertical supporting block positioned on a vertical surface and a horizontal supporting block positioned on a horizontal surface, the vertical supporting block is fixedly arranged on the end surface of the damping embedded block, the damping fixture block is fixedly arranged on the vertical supporting block, the width of the damping fixture block is smaller than that of the vertical supporting block, the vertical supporting block and the left and right side surfaces of the damping fixture block in the same direction form an installation cavity positioned at a left and right symmetrical position, the damping fixing piece comprises a first fixing column and a first guide column, the diameter of the first fixing column is smaller than the outer diameter of the first guide column and matched with the damping through hole, the first guide column is of a conical structure, the width of the vertical supporting block is matched with the distance between two groups of damping press blocks, the damping embedded block is arranged in the accommodating cavity, the damping press blocks are abutted against the two sides of the damping embedded block to limit the movement of the damper, and the opposite side surfaces of the damping press blocks are abutted against the two sides of the vertical supporting block, the shock absorption fixing piece is led into the shock absorption through hole, the shock absorber is fixedly connected with the shock absorption mounting piece through the first fixing column and the first guide column, the size of the shock absorption abutting block is matched with that of the shock absorption shell, the inner side wall of the lower portion of the cup in the cup body component is fixedly provided with clamping pieces, the distance between the two groups of clamping pieces is matched with the width of the shock absorption clamping block, the clamping pieces are arranged in the accommodating cavity and abut against the vertical abutting block and the shock absorption clamping block, and the clamping pieces are matched with the shock absorber for shock absorption between the cup body component and the motor component, the damping connecting piece is composed of a second fixing column and a second guide column, the diameter of the second fixing column is smaller than the outer diameter of the second guide column and is matched with a lower hole in the upper shell of the base, the second guide column is of a conical structure and limits the vibration of the damping pad in the longitudinal direction, the solid block is used for limiting the vibration of the shock pad in the transverse direction, and the shock absorber, the inner shock pad and the shock pad are made of elastic materials.

To sum up, the utility model discloses an useful part lies in:

1) the utility model discloses a with the equipment design for can dismantling the connection, cup body assembly is replaced to multiplicable other accessories, and motor element uses in other equipment as whole part, and base subassembly and other accessory assemblies are used, and the diversification of function has been realized in the combination of single part.

2) The utility model discloses a bumper shock absorber carries out the shock attenuation between to cup subassembly and the motor element, and the shock pad carries out the shock attenuation between to upper cover and the lower cover in the motor element in adopting, adopts the shock pad to carry out the shock attenuation between motor element and the base subassembly, and the noise of reduction equipment avoids the part contact surface to fray.

3) The utility model discloses a shock pad passes through the shock attenuation connecting piece and the solid piece of back-off structure, and simple to operate takes out the difficulty, effectively prevents that the shock pad from droing, adopts the design of a plurality of groups shock pad portion face contact simultaneously, realizes equal absorbing function, reduces the material of shock pad simultaneously, saves manufacturing cost.

4) The utility model discloses a louvre and ventilation hole are the annular and distribute, and louvre, ventilation hole and ventilation chamber form heat dissipation channel, and ventilation chamber and outside formation heat dissipation circuit have improved the radiating efficiency.

5) The utility model discloses reduce the wind channel, unite two into one wind channel and base, save manufacturing cost and reduce assembly cost.

Drawings

Fig. 1 is a schematic view of the device of the present invention.

Fig. 2 is a schematic view of the half-section of the device of the present invention.

Fig. 3 is a schematic diagram of the cup body assembly, the motor assembly and the base assembly of the device of the present invention.

Fig. 4 is a top view of the motor assembly of the present invention.

Fig. 5 is a schematic view of the middle damper of the present invention.

Fig. 6 is a schematic view of the upper cover of the present invention.

Fig. 7 is a schematic view of the middle and lower covers of the present invention.

Fig. 8 is a schematic view of a-a cut-away in fig. 4.

Fig. 9 is a schematic view of the base assembly according to the present invention.

Fig. 10 is a schematic view of a base assembly according to the present invention.

Fig. 11 is a sectional view of the view at B-B in fig. 9.

Fig. 12 is an enlarged schematic view of C in fig. 11.

Fig. 13 is a schematic view of the middle cushion of the present invention.

Fig. 14 is an assembly schematic diagram of the middle motor assembly and the base assembly of the present invention.

Figure 15 is a schematic view of the cut-away D-D in figure 14.

The labels in the figure are: the cup assembly 1, the cover 11, the cup lid 12, the cup body 13, the cup lower portion 14, the handle 15, the blade assembly 16, the upper connector 17, the first upper coupler 18, the spoiler rib 19, the motor assembly 2, the lower cover 21, the upper cover 22, the first lower coupler 23, the lower connector 24, the shock absorber 25, the shock absorbing installation member 26, the second upper coupler 27, the inner shock absorbing pad 28, the motor 29, the lower cover flange 211, the connecting plate 212, the installation cavity 213, the heat dissipation hole 214, the lower cover connection column 215, the upper cover through hole 221, the upper cover connection column 223, the shock absorbing insert 251, the shock absorbing support block 252, the shock absorbing fixture 253, the shock absorbing fixture 254, the first fixing column 2541, the first guide column 2542, the shock absorbing shell 260, the shock absorbing press block 261, the shock absorbing conductor, the shock absorbing through hole 263, the shock absorbing positioning cavity 264, the base assembly 3, the base upper shell 31, the shock absorbing pad 32, the base 33, the second lower coupler 34, the upper installation cavity 311, the shock absorbing installation cavity, The lower mounting cavity 312, the vertical cushion block 321, the horizontal cushion block 322, the shock absorption connecting piece 324, the second fixing column 3241, the second guide column 3242, the fixed block 325, the vent hole 332 and the vent cavity 331.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied through other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic concept of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the form, amount and ratio of the components in actual implementation may be changed at will, and the layout of the components may be more complicated.

All directional indicators (such as upper, lower, left, right, front, rear, horizontal, vertical … …) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture, if the specific posture changes, the directional indicator changes accordingly.

The first embodiment is as follows:

as shown in fig. 1-15, a novel mixer, including cup body assembly 1, motor element 2 and base subassembly 3, cup body assembly 1 includes connector 17 and the blade subassembly 16 that is used for the stirring, motor element 2 includes motor 29, lower connector 24 and louvre 214, base subassembly 3 includes ventilation hole 332, ventilation chamber 331 and at least two sets of shock pads 32, cup body assembly 1, motor element 2 and base subassembly 3 pass through the coupler and can dismantle the connection, it is connected with lower connector 24 to go up connector 17, shock pads 32 and motor element 2 cooperation shock attenuation, ventilation hole 332 and louvre 214 intercommunication and form heat dissipation circuit with ventilation chamber 331.

The coupler device comprises a first upper coupler 18 positioned on the cup assembly 1, a second lower coupler 34 positioned on the base assembly 3, and a first lower coupler 23 and a second upper coupler 27 positioned on the motor assembly 2, wherein the joint of the first upper coupler 18 and the first lower coupler 23 controls the connection of the cup assembly 1 and the motor assembly 2, the joint of the second upper coupler 27 and the second lower coupler 34 controls the connection of the motor assembly 2 and the base assembly 3, and the first upper coupler 18, the first lower coupler 23, the second upper coupler 27 and the second lower coupler 34 are positioned on the same straight line.

As shown in fig. 2-3, cup body assembly 1 comprises closing cap 11, bowl cover 12, cup 13 and cup lower part 14 from top to bottom, closing cap 11, bowl cover 12, cup 13 and cup lower part 14 set up to shell structure, cup 13 one side has set firmly hand (hold) 15, cup 13 inner wall has set firmly multiunit vortex muscle 19, has strengthened the intensity and the effect of vortex, improves stirring speed and quality, first coupler 18, last connector 17 and blade subassembly 16 set firmly inside cup lower part 14, in this embodiment, first coupler 18 and hand (hold) 15 homonymy on going up, and be located hand (hold) 15 under.

Motor element 2 includes upper cover 22 and lower cover 21, upper cover 22 and lower cover 21 set up to shell structure, upper cover 22 central point puts and has set firmly upper cover through-hole 221, lower connector 24 runs through upper cover through-hole 221 and extends to the exterior space, and lower connector 24 upper end is connected with cup body assembly 1's last connector 17, and the lower extreme is connected with the 29 power of the motor that is located motor element 2 inside, when lower connector 24 is connected with last connector 17, motor 29 drives blade assembly 16 through lower connector 24 and last connector 17 and rotates, realizes the stirring function.

As shown in fig. 3-8, a shock absorbing installation member 26 is fixedly arranged on the upper end surface of the upper cover 22, the shock absorbing installation member 26 is used for installing a shock absorber 25, in this embodiment, the shock absorbing installation member 26 is fixedly arranged with four groups and annularly distributed with an upper cover through hole 221 as a center, the shock absorbing installation member 26 includes a shock absorbing shell 260, shock absorbing pressing blocks 261 are symmetrically and fixedly arranged on two sides of the shock absorbing shell 260, the shock absorbing pressing blocks 261 and the shock absorbing shell 260 form an accommodating cavity (not shown) for accommodating the shock absorber 25, a shock absorbing positioning cavity 264 for installing and positioning the shock absorber 25 is arranged on the lower side of the accommodating cavity in a communicating manner, a shock absorbing conductor 262 is fixedly arranged on the lower side of the shock absorbing positioning cavity 264, in this embodiment, the shock absorbing conductor 262 is arranged as a cylinder, the height of the shock absorbing conductor 262 is smaller than that of the shock absorbing shell 260, a shock absorbing through hole 263 is fixedly arranged on the shock absorbing positioning cavity 264 outside the shock absorbing conductor 262, in this embodiment, two sets of the damping through holes 263 are provided, and the damping mounting member 26 and the upper cover 22 are integrally formed.

The shock absorber 25 is made of elastic materials and comprises a shock absorption insert 251, the shock absorption insert 251 is fixedly provided with a shock absorption guide cavity (not shown) matched with a shock absorption conductor 262, the shock absorption insert 251 is connected with a shock absorption abutting block 252, the shock absorption abutting block 252 is set to be of an L-shaped structure, the shock absorption abutting block 252 comprises a vertical abutting block located on a vertical surface and a horizontal abutting block located on a horizontal surface, the vertical abutting block is fixedly arranged on the front end surface of the shock absorption insert 251, a shock absorption clamping block 253 is fixedly arranged on the front end surface of the vertical abutting block, the width of the shock absorption clamping block 253 is smaller than that of the vertical abutting block, left and right homodromous side surfaces of the vertical abutting block and the shock absorption clamping block 253 form an installation cavity (not shown) located at a left and right symmetrical position, a shock absorption fixing piece 254 opposite to the shock absorption through hole 263 is fixedly arranged on the lower end surface of the horizontal abutting block, the shock absorption fixing piece 254 is set to be of an inverted structure, the shock absorption fixing piece 254 is composed of a first fixing column 2541 and a first guide column 2542, the diameter of the first fixing column 2541 is smaller than the outer diameter of the first guide column 2542 and is matched with the damping through hole 263, the outer diameter of the first guide column 2542 is gradually shortened from top to bottom to form a conical structure, the width of the vertical abutting block is matched with the distance between two groups of damping pressing blocks 261, when the shock absorber 25 is installed with the damping installation part 26, the damping embedding block 251 is installed in the accommodating cavity, the damping pressing blocks 261 abut against two sides of the damping embedding block 251 to limit the movement of the shock absorber 25, the opposite side surfaces of the damping pressing blocks 261 abut against two sides of the vertical abutting block, the lower end of the shock absorber 25 is matched with the damping positioning cavity 264, the damping fixing piece 254 is led into the damping through hole 263, the shock absorber 25 is fixedly connected with the damping installation part 26 through the structures of the first fixing column 2541 and the first guide column 2542, the installation is convenient, the shock absorber 25 is difficult to take out, the shock absorber 25 is effectively prevented from falling off, and the size of the damping abutting block 252 is matched with the size of the damping shell 260, the inside wall of cup lower part 14 sets firmly fastener (not shown in the figure) in cup body assembly 1, and the interval and the shock attenuation fixture block 253 width of two sets of fasteners match, and when cup body assembly 1 and motor element 2 were installed, the fastener was located the die cavity and supported with vertical piece and the shock attenuation fixture block 253 of supporting to the shock attenuation purpose between cup body assembly 1 and motor element 2 has been realized.

The lower cover 21 is fixedly provided with a cavity (not shown) with an upward opening, a lower cover connecting column 215 is fixedly arranged in the cavity, in the embodiment, the lower cover connecting column 215 is provided with four groups and is distributed in a rectangular shape by taking the middle part of the cavity as a center, the upper cover 22 is fixedly provided with an upper cover connecting column 223 opposite to the lower cover connecting column 215, the upper cover 22 and the lower cover 21 are fixedly installed through the connection of the upper cover connecting column 223 and the lower cover connecting column 215, meanwhile, an inner shock absorption pad 28 for shock absorption is arranged between the upper cover connecting column 223 and the lower cover connecting column 215, the adjacent lower cover connecting column 215 is connected with a connecting plate 212, the lower cover connecting column 215 and the connecting plate 212 form an installation cavity 213, the motor 29 is installed in the installation cavity 213, a plurality of groups of heat dissipation holes 214 which are distributed annularly are fixedly arranged at the lower end of the installation cavity 213, the 214 is communicated with the motor 29 to facilitate heat dissipation, the upper end of the lower cover 21 is fixedly provided with a lower cover flange 211, lower cover chimb 211 and the cooperation of upper cover 22 inner wall provide the impetus for motor element 2's removal, make things convenient for motor element 2's removal.

As shown in fig. 9-11, the base assembly 3 is composed of a base upper shell 31 and a base lower shell 33, the base upper shell 31 and the base lower shell 33 are of a shell structure, the base upper shell 31 is fixedly provided with an upper mounting cavity 311 and a lower mounting cavity 312 which are coaxial, the diameter of the upper mounting cavity 311 is larger than that of the lower mounting cavity 312, the diameter of the upper mounting cavity 311 is matched with that of the upper cover 22, the diameter of the lower mounting cavity 312 is matched with that of the lower cover 21, the lower end of the lower mounting cavity 312 is fixedly provided with a through hole (not shown), the diameter range of the through hole is matched with that of the heat dissipation hole 214, the lower end of the lower mounting cavity 312 is fixedly provided with a second lower coupler 34 connected with the second upper coupler 27, the ventilation cavity 331 is located on the base lower shell 33 and is of an inward concave structure according to the visual angle shown in fig. 10, a plurality of ventilation holes 332 are fixedly arranged at positions of the ventilation cavity 331 opposite to the through hole, and the ventilation holes 332 are distributed annularly, as shown in fig. 14-15, the ventilation holes 332 are communicated with the heat dissipation holes 214, that is, the heat dissipation holes 214, the ventilation holes 332 and the ventilation cavity 331 form a heat dissipation channel, and a loop is formed with the outside through the ventilation cavity 331, so that the heat dissipation efficiency is improved.

As shown in fig. 12 to 13, in this embodiment, four sets of the shock absorbing pads 32 are arranged and annularly distributed in the upper base shell 31, each shock absorbing pad 32 is composed of a vertical pad 321 and a horizontal pad 322, a positioning cavity (not shown) for positioning when the vertical pad 321 and the horizontal pad 322 are installed is fixedly arranged on a side wall of the upper installation cavity 311, a fixing block 325 and a shock absorbing connecting piece 324 for fixing the shock absorbing pad 32 on the upper base shell 31 are fixedly arranged on the vertical pad 321 and the horizontal pad 322, the shock absorbing connecting piece 324 and the fixing block 325 are arranged in an inverted structure, the shock absorbing connecting piece 324 is composed of a second fixing column 3241 and a second guiding column 3242, the diameter of the second fixing column 3241 is smaller than the outer diameter of the second guiding column 3242 and matches with a lower hole (not shown) fixedly arranged on the positioning cavity, the outer diameter of the second guiding column 3242 is gradually shortened from top to bottom, form the toper structure, simple to operate takes out the difficulty, effectively prevents that shock pad 32 from rocking in the longitudinal direction and droing, solid piece 325 runs through the side opening (not sign in the figure) that sets firmly in the location chamber, solid piece 325 includes connecting portion and bellying (not sign in the figure), connecting portion match with the side opening, and the bellying width is greater than the connecting portion width, connecting portion and bellying constitute the back-off structure, and then effectively prevent shock pad 32 from rocking in the transverse direction and droing, and the design through the overall contact of bold shock pad is abandoned to this embodiment, and designs the shock pad into a plurality of fritters, improves the overall contact into partial surface contact, all the other positions that do not have shock pad 32 again, motor element 2 has certain space with base epitheca 31, can not take place vibrations conduction between them in this position, realizes equal absorbing function through multiunit shock pad promptly, reduces the material of shock pad simultaneously, the manufacturing cost is saved.

When base module 3 and motor element 2 are installed, motor element 2's upper cover 22 is located installation cavity 311, and lower cover 21 is located installation cavity 312 down, and the upper cover 22 side offsets with shock pad 32's vertical cushion 321, the lower wall and the lower cover 21 of installation cavity 312 offset down, and then support motor element 2, and lower cover chimb 211 and the horizontal cushion 322 of shock pad 32 of lower cover 21 offset, effectively prevent the frostbite of part contact surface when the absorbing, coupler 27 joint on coupler 34 and the second under the second.

In the implementation process of this embodiment, after the cup body assembly 1, the motor assembly 2 and the base assembly 3 are detachably assembled, the first upper coupler 18 is connected with the first lower coupler 23, the second lower coupler 34 is connected with the second upper coupler 27, the upper connector 17 is connected with the lower connector 24, when stirring operation is required, the motor 29 controls the blade assembly 16 to rotate to realize the stirring function of the cup body assembly 1, when the first upper coupler 18, the first lower coupler 23 and the upper connector 17 are disconnected with the lower connector 24, the cup body assembly 1 is separated from the motor assembly 2, at this time, the dry grinding assembly, the multifunctional cup assembly (for shredding, slicing, mincing meat and the like) or the cold drink cup assembly is connected with the motor assembly 2 to realize the diversification of functions, in addition, the second lower coupler 34 is disconnected with the second upper coupler 27, and the base assembly 3 and the motor assembly 2 are in a separated state, make base subassembly 3 and motor element 2 mutually independent and respectively as integral part, wherein motor element 2 can regard as solitary part application in other equipment, and base subassembly 3 can realize the chafing dish function with chafing dish cup subassembly assembly, through the coupler cooperation between them, has realized the diversification of function promptly through the combination of single part.

In addition, the damper 25, the inner cushion 28, and the cushion 32 are made of an elastic material, and have a function of preventing the contact surface of the components from being worn.

In other embodiments, the number of the shock absorbing pads 32 can be designed according to actual needs.

It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a novel mixer which characterized in that: including cup body component, motor element and base subassembly, cup body component includes the connector and is used for the blade subassembly of stirring, motor element includes motor, lower connector and louvre, base subassembly includes ventilation hole, ventilation chamber and at least two sets of shock pads, cup body component, motor element and base subassembly pass through the coupler device and can dismantle the connection, it is connected with lower connector to go up the connector, shock pad and motor element cooperation shock attenuation, ventilation hole and louvre intercommunication and with ventilation chamber formation heat dissipation loop.

2. The novel mixer of claim 1 wherein: the coupler device comprises a first upper coupler positioned on the cup body assembly, a second lower coupler positioned on the base assembly, and a first lower coupler and a second upper coupler positioned on the motor assembly, wherein the joint of the first upper coupler and the first lower coupler controls the connection of the cup body assembly and the motor assembly, and the joint of the second upper coupler and the second lower coupler controls the connection of the motor assembly and the base assembly.

3. The novel mixer of claim 1 wherein: the motor component comprises an upper cover and a lower cover, the upper cover and the lower cover are arranged into a shell structure, an upper cover through hole is fixedly formed in the upper cover, the lower connector penetrates through the upper cover through hole and extends to the outside, the upper end of the lower connector is connected with the upper connector of the cup body component, the lower end of the lower connector is connected with a motor, the motor is stirred with an upper connector driving blade component through the lower connector, four groups of lower cover connecting columns which are distributed in a rectangular shape are fixedly arranged on the lower cover, an upper cover connecting column opposite to the lower cover connecting column is fixedly arranged on the upper cover, the upper cover and the lower cover are fixedly arranged through the connection of the upper cover connecting column and the lower cover connecting column, an inner damping pad used for damping between the upper cover and the lower cover is arranged between the upper cover connecting column and the lower cover connecting column, the adjacent lower cover connecting columns are connected with connecting plates, the lower cover connecting columns and the connecting plates form an installation cavity, the motor is arranged in the installation cavity, the heat dissipation holes are distributed in an annular mode and are fixedly arranged at the lower end of the installation cavity, the heat dissipation holes are directly communicated with the motor, the upper end of the lower cover is fixedly provided with a lower cover convex edge, and the lower cover convex edge is matched with the inner wall of the upper cover to provide an acting point for the movement of the motor assembly.

4. The novel mixer of claim 3 wherein: the shock absorption installation piece is fixedly arranged on the upper cover and is of an integrated structure with the upper cover, the shock absorption installation piece is used for installing a shock absorber, four groups of shock absorption installation pieces are distributed annularly, the shock absorption installation piece comprises a shock absorption shell, shock absorption press blocks are symmetrically and fixedly arranged on two sides of the shock absorption shell, a containing cavity for placing the shock absorber is formed by the shock absorption press blocks and the shock absorption shell, the containing cavity is communicated with a shock absorption positioning cavity for positioning the shock absorber installation, a shock absorption conductor of a cylindrical structure is fixedly arranged in the shock absorption positioning cavity, the height of the shock absorption conductor is smaller than that of the shock absorption shell, a shock absorption through hole is fixedly arranged in the shock absorption positioning cavity, the shock absorber comprises a shock absorption embedded block, a shock absorption guide cavity matched with the shock absorption conductor is fixedly arranged on the shock absorption embedded block, a shock absorption abutting block is connected with a shock absorption abutting block, and a shock absorption fixing piece for fixing, the shock attenuation mounting sets up to back-off structure.

5. The novel mixer of claim 1 wherein: the base subassembly comprises base epitheca, base inferior valve, base epitheca, base inferior valve are shell structure, the base epitheca sets firmly coaxial last installation cavity and lower installation cavity, the installation cavity lower extreme has set firmly the through hole down, the ventilation chamber is located the base inferior valve, and the ventilation hole is located ventilation chamber side and the relative position of through hole, louvre, ventilation hole and ventilation chamber formation heat dissipation channel to form the return circuit through ventilation chamber and outside.

6. The novel mixer of claim 4 wherein: the shock pad is the annular and distributes in the base epitheca, the shock pad comprises vertical cushion and horizontal cushion, goes up the installation cavity lateral wall and sets firmly the location chamber that advances line location when being used for vertical cushion and horizontal cushion to install, vertical cushion and horizontal cushion set firmly solid piece and the shock attenuation connecting piece that is used for fixing the shock pad on the base epitheca, shock attenuation connecting piece and solid piece set up to the back-off structure.

7. The novel mixer of claim 5 wherein: go up the installation cavity diameter and be greater than installation cavity down, and go up the installation cavity diameter and match with the upper cover diameter, lower installation cavity diameter matches with the lower cover diameter, and the diameter range and the louvre scope of through hole match, and motor element's upper cover is located the installation cavity, and the lower cover is located lower installation cavity, and the upper cover side offsets with the vertical cushion of shock pad, the lower wall and the lower cover of installation cavity offset down, support motor element, and the lower cover chimb and the shock pad horizontal cushion of lower cover offset.

8. The novel mixer of claim 1 wherein: the cup body assembly comprises closing cap, bowl cover, cup and cup lower part, closing cap, bowl cover, cup and cup lower part set up to shell structure, cup one side has set firmly the hand (hold), the cup inner wall has set firmly the multiunit vortex muscle, and first coupler, last connector and blade subassembly set firmly inside the cup lower part.

9. The novel mixer of claim 1 wherein: the replaceable component of the cup body component is a dry grinding component, a multifunctional cup component or a cold drink cup component, the base component and the motor component are respectively used as integral components, the motor component is used in other equipment as an independent component, and the base component and the hot pot cup component are assembled for use.

10. The novel mixer of claim 6 wherein: the damping supporting block is of an L-shaped structure, the damping supporting block comprises a vertical supporting block positioned on a vertical surface and a horizontal supporting block positioned on a horizontal surface, the vertical supporting block is fixedly arranged on the end surface of the damping embedded block, the damping fixture block is fixedly arranged on the vertical supporting block, the width of the damping fixture block is smaller than that of the vertical supporting block, the vertical supporting block and the left and right side surfaces of the damping fixture block in the same direction form an installation cavity positioned at a left and right symmetrical position, the damping fixing piece comprises a first fixing column and a first guide column, the diameter of the first fixing column is smaller than the outer diameter of the first guide column and matched with the damping through hole, the first guide column is of a conical structure, the width of the vertical supporting block is matched with the distance between two groups of damping press blocks, the damping embedded block is arranged in the accommodating cavity, the damping press blocks are abutted against the two sides of the damping embedded block to limit the movement of the damper, and the opposite side surfaces of the damping press blocks are abutted against the two sides of the vertical supporting block, the shock absorption fixing piece is led into the shock absorption through hole, the shock absorber is fixedly connected with the shock absorption mounting piece through the first fixing column and the first guide column, the size of the shock absorption abutting block is matched with that of the shock absorption shell, the inner side wall of the lower portion of the cup in the cup body component is fixedly provided with clamping pieces, the distance between the two groups of clamping pieces is matched with the width of the shock absorption clamping block, the clamping pieces are arranged in the accommodating cavity and abut against the vertical abutting block and the shock absorption clamping block, and the clamping pieces are matched with the shock absorber for shock absorption between the cup body component and the motor component, the damping connecting piece is composed of a second fixing column and a second guide column, the diameter of the second fixing column is smaller than the outer diameter of the second guide column and is matched with a lower hole in the upper shell of the base, the second guide column is of a conical structure and limits the vibration of the damping pad in the longitudinal direction, the solid block is used for limiting the vibration of the shock pad in the transverse direction, and the shock absorber, the inner shock pad and the shock pad are made of elastic materials.

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