CN203978752U - For the vacuum compression device of hand-held stirrer - Google Patents

Abstract

The utility model discloses a kind of vacuum compression device for hand-held stirrer, can be connected and installed on the hand-held stirrer of single direction rotation, and possess simultaneously and vacuumize and air compressing function, comprise the chief components such as main part, cylinder, piston apparatus, cylinder head, lower end capping, the first pad, rotatable outside connecting path, the second pad and upper end capping.By described path conversion equipment is rotated to operation, can implement air-breathing operation or exhaust operation by venting gas appliance, and then realize vacuum pump function and air compressing function.

Description

For the vacuum compression device of hand-held stirrer

Technical field

The utility model relates to a kind of vacuum compression device for hand-held stirrer.On vacuum compression device of the present utility model, be connected with hand-held stirrer, in the time that the hand-held stirrer of connection drives, by the flow direction of the rotation operation change air by path conversion equipment, and then be connected in the air of the object inside on venting gas appliance by venting gas appliance discharges compressed air or suction.

Background technique

Typically, hand-held stirrer user hold and the state of supportive body under, the ground product of the pulverizing blade that is connected and installed in lower end being put into container uses, and replaceable installation pulverizing blade, to realize multiple uses such as manufacturing foam, pulverizing, stirring.

Above-mentioned hand-held stirrer handiness, is midget plant, and body interior is provided with by power supply supply and produces the motor of rotating power, and the driving force of described motor is sent to live axle carries out on running shaft that axle is connected, to rotate the instrument that is located at running shaft end.

In recent years, research and develop again and use the live axle of the hand-held stirrer of said structure is connected on the cylinder of vacuum pump, for driving the cylinder of vacuum pump, formation possesses the hand-held stirrer vacuum system of vacuum pump function, this vacuum system drives cylinder by the High Rotation Speed power of hand-held stirrer, air with suction object inside forms vacuum, food that then can long term storage object inside.

But the vacuum system in routine techniques only possesses by the function of the High Rotation Speed power air amount of hand-held stirrer, compared with the volume shared with it, its purposes is too single, and utilization efficiency is too low.

In addition, although the general compressed-air actuated operation of Family needs is more, but what adopt is all by the device of user's hand-held operation discharges compressed air, and drive the also household small-size compression set of discharges compressed air not yet to develop by motor, even if succeed in developing, also need Consumer to buy separately other device, the problem that has then caused cost to increase.

Summary of the invention

The purpose of this utility model is to provide on a kind of hand-held stirrer that is connected and installed in single direction rotation, possesses the vacuum compression device for hand-held stirrer vacuumizing with air compressing function simultaneously.

For solving the problems of the technologies described above, the utility model is achieved by the following technical solutions:

For a vacuum compression device for hand-held stirrer, comprising: for being connected with hand-held stirrer, and be provided with the main part for the venting gas appliance of connection object; Be fixedly installed in the cylinder of main part inside; Be used for being connected and installed in hand-held stirrer, by the driving force of hand-held stirrer, in cylinder, come and go straight line motion piston apparatus; Press close to be installed on the end of cylinder, and be provided with the air suction inlet that is connected with cylinder and the cylinder head of air discharge ports; Be fixedly installed in main part, be contacted with cylinder head, and have and the air suction inlet of cylinder head and suction port and the floss hole of the corresponding connection of air discharge ports, and be provided with the lower end capping of the air scoop being connected with the air flue of main part; Be arranged on the first pad between cylinder head and lower end capping; Be connected and installed in the capping of described lower end, and be provided with and the path conversion equipment of arranging the peripheral path that suction inlet is connected; Be arranged on described path conversion equipment, and for being communicated with floss hole (252) and the air scoop of lower end capping, or for being communicated with the air scoop of lower end capping and the rotatable outside connecting path of suction port; The second pad between the capping of described lower end and path conversion equipment; Insertion is installed on the upper end capping on described path conversion equipment.

Further, described main part comprises: for the top end main body being connected with hand blender; Be connected with described top end main body bolt, and the outstanding lower end main body that is formed with venting gas appliance; Wherein, described top end main body comprises: for being inserted into the stirrer mounting hole of lower end of hand-held stirrer; Be placed in described stirrer mounting hole, and its inner joint that is used for the live axle that inserts hand-held stirrer; One side of described lower end main body is connected, communicates with venting gas appliance, and opposite side is provided with the air flue being connected with the air scoop of lower end capping by the air hole of the first pad.

Preferably, described piston apparatus comprises: be positioned at the inner side of described main part, and for inserting the live axle that hand-held stirrer is installed, and be formed with the swivel plate of eccentric rod in an one side; One side end inserts the pull bar of the eccentric rod that connects described swivel plate; Be connected and installed in the end side of described pull bar, and be positioned at the piston of cylinder internal.

Further, on described cylinder head, be provided with: mounting groove, it is for being inserted into the end of cylinder; Air suction inlet, it is connected with described mounting groove, and under the driving of piston apparatus, flows into air to cylinder internal; Air discharge ports, it is connected with described mounting groove, and arranges with air suction inlet interval at a certain distance, and under the driving of piston apparatus, the air of discharge cylinder internal; Wherein, on described air suction inlet, give prominence to and be provided with suction declining lug, and the outstanding inside that is formed at air suction inlet of described suction declining lug, and there is the inclined-plane that dips down tilting towards cylinder direction in air suction inlet inside.

Preferably, be also inserted with pad in the mounting groove inside of described cylinder head, described pad is between described cylinder head and cylinder.

Further, the floss hole of described lower end capping comprises: inner outstanding the second floss hole that is formed with discharge declining lug; The first floss hole that is connected, communicates with described the second floss hole; Wherein, on described discharge declining lug, be also formed with the face that is inclined upwardly tilting towards the second pad direction in the second floss hole inside.

The air scoop of described lower end capping comprises: is connected with pad hole, and the second air scoop being connected with air flue; The first air scoop that is connected, communicates with described the second air scoop.

Preferably, on described the first pad, be provided with: the second incision cover plate between the floss hole of lower end capping and the air discharge ports of cylinder head; The first incision cover plate between the suction port of lower end capping and the air suction inlet of cylinder head; And air hole between the air scoop of lower end capping and the air flue of main part.

Preferably, on described the second pad, be provided with: for connecting floss hole and the air scoop of lower end capping, or for connecting the air scoop of lower end capping and the inner side connecting path of suction port; Interval is formed at the first inboard channel and second inboard channel of connecting path both sides, described inner side at a certain distance; And for inserting the central hole of the attachment post that connects lower end capping.

Compared with prior art, the beneficial effects of the utility model are:

Vacuum compression device of the present utility model is connected and installed on the hand-held stirrer of unidirectional drive, the flow direction of the rotation operation change air by path conversion equipment, so that user easily uses the function of vacuum pump and the function of air compressor, therefore can be widely used in, in family, realizing multiple use;

Vacuum compression device of the present utility model is to be connected and installed in the midget plant driving on hand-held stirrer, is easy to carry, and space proportion shared when storage is little, therefore can effectively increase space utilization efficiency;

Vacuum compression device of the present utility model is connected on the hand-held stirrer of family expenses, has the function of vacuum pump and the function of air compressor simultaneously, and therefore user, without buying separately other device, has saved user cost greatly;

Vacuum compression device of the present utility model possesses the function of vacuum pump, therefore can carry out in the family food vacuum packaging, facilitate stored food, and owing to possessing the function of air compressor, therefore also can be used for the wide spectrum such as indoor gap cleaning work or car room gap cleaning work.

Brief description of the drawings

Fig. 1 is the decomposition texture schematic diagram of the vacuum compression device that proposes of the utility model;

Fig. 2 is the partial cross section structural representation of the vacuum compression device that proposes of the utility model;

Fig. 3 A-Fig. 3 C is the cylinder head arrangement schematic diagram of the vacuum compression device that proposes of the utility model;

Fig. 4 A-Fig. 4 D is the lower end closure construction schematic diagram of the vacuum compression device that proposes of the utility model;

Fig. 4 E is that the A-A of Fig. 4 A is to sectional view;

Fig. 5 A-Fig. 5 D is the structural representation of the path conversion equipment of the vacuum compression device that proposes of the utility model;

Fig. 6 A-Fig. 6 B is the operation schematic diagram that the vacuum compression device that proposes of the utility model is carried out air compressor function;

Fig. 7 A-Fig. 7 B is the operation schematic diagram that the vacuum compression device that proposes of the utility model is carried out vacuum pump function;

Fig. 8 is the vacuum compression device that proposes of the utility model and the annexation schematic diagram of hand-held stirrer.

Embodiment

Referring to Fig. 1-Fig. 8, in the present embodiment for the vacuum compression device of hand-held stirrer mainly by forming with lower component:

Joint 211, for connecting hand-held stirrer 100;

Venting gas appliance 212, for connection object;

Main part 210, its inside is provided with the air flue 213 being connected with venting gas appliance 212;

Cylinder 220, is fixedly installed in the inside of described main part 210;

Piston apparatus 230, is mounted on the live axle 102 of the hand-held stirrer being connected with described main part 210, and comes and goes straight line motion in cylinder 220;

Cylinder head 240, presses close to be installed on the end of cylinder 220, to guarantee tightness, and is provided with the air suction inlet 241 and the air discharge ports 242 that are connected with cylinder 220;

Lower end capping 250, be installed on main part 210 by bolt, for fixed cylinder lid 240, and possess and air suction inlet 241 and the corresponding suction port being connected 251 of air discharge ports 242 and the floss hole 252 of cylinder head 240, and be provided with the air scoop 253 being connected with the air flue 213 of main part 240;

The first pad 260, it is arranged between described cylinder head 240 and lower end capping 250;

Path conversion equipment 270, connects described lower end capping 250, and is provided with and the peripheral path 274 of arranging suction inlet 276 and being connected;

Rotatable outside connecting path 275, is arranged on path conversion equipment 270, for being communicated with floss hole 252 and the air scoop 253 of lower end capping 250, or air scoop 253 and the suction port 251 of connection lower end capping 250;

The second pad 280, between described lower end capping 250 and path conversion equipment 270;

Upper end capping 290, its insertion is installed on described path conversion equipment 270.

As shown in Figures 1 and 2, in described main part 210, mainly comprise: the top end main body 214 being connected with hand-held stirrer; And being connected with described top end main body 214 bolts, and the outstanding lower end main body 215 that forms venting gas appliance 212.

Described top end main body 214 is mainly by forming as lower component: for being inserted into the stirrer mounting hole 216 of hand-held stirrer lower end; Be placed in described stirrer mounting hole (216), and the live axle of hand-held stirrer is inserted to its inner joint 211.

One side of described lower end main body 215 is connected with venting gas appliance 212, and opposite side is provided with the air hole 263 by the first pad 260, the air flue 213 being connected with the air scoop 253 of lower end capping 250.

Shown in Fig. 8, described joint 211 is connected and installed in the lower end 101 of hand-held stirrer 100, with together supporting hand-held stirrer 100 of stirrer mounting hole 216, as long as being connected and installed in the lower end 101 of hand-held stirrer, structure for supporting hand-held stirrer 100 can be installed, its structure is without special narrow limitation, and preferred version is exactly to be coordinated and realized being connected of joint 211 and hand-held stirrer 100 by ball and spring, so that connection and separate hand-held stirrer 100.

That is to say, described joint 211 preferably, by being inserted in 101 inside, lower end of hand-held stirrer 100, connects with the fastening means that is installed on the ball types of springs in hand-held stirrer 100.That is, utilize the elastic force of spring, make spheroid add the fastening means of mechanical-contact to a side of joint 211, be connected and installed in the lower end of hand-held stirrer.For the contact friction force that utilizes ball spring connects, be provided with multiple ball grooves 217 at the outer surface of joint 211, and be provided with the axis hole 218 for inserting hand-held stirrer live axle at the middle position of joint 211.

Described venting gas appliance 212 is connected with object, is provided with for from the inner air amount of object or to the nozzle 330 of the inner discharged air of object, as shown in Figure 8.Described nozzle 330 is divided into for the vacuum inlet nozzle 310 of air amount with for the discharge nozzle 320 to the inner discharges compressed air of object.

Described cylinder 220 is and has the cylindric of specific length, and forms one with top end main body 214, and is positioned at top end main body 214 and lower end main body 215 inside of main part.

As shown in Figures 1 and 2, described piston apparatus 230 is main adopts following structural design to form:

Swivel plate 231, it is positioned at the inside of described main part 210, and for being connected with live axle 102 plug-in mountings of hand-held stirrer, is formed with eccentric rod 232 in an one side;

Pull bar 233, connects the eccentric rod 232 of described swivel plate 231 at one side end plug-in mounting;

Piston 234, it is connected and installed in the end side of described pull bar 233, and is positioned at cylinder 220 inside.

Described swivel plate 231, for sending the driving force of hand-held stirrer 100 to pull bar 233, is mainly formed by following structural design:

Central hole 236, it carries out axle with the live axle 102 of hand-held stirrer and is connected;

Eccentric rod 232, it is isolated with predetermined distance and described central hole 236, and outstanding being formed on a side, and is connected with pull bar 233.

Described eccentric rod 232 inserts a side end that is connected to pull bar 233, and the end side of pull bar 233 connects piston 234, sends piston 234 to convert the rotating force of swivel plate 231 to straight line motion power.

Described piston 234 is positioned at cylinder 220 inside, and is provided with piston ring 235, so that it is close to the internal surface of cylinder 220, and by pull bar 233, comes and goes straight line motion in cylinder 220 inside.

Described piston ring 235 is for guaranteeing the tightness between piston 234 and cylinder 220 internal surfaces, and is connected with piston 234, so that the internal surface of cylinder 220 is pressed close to and be contacted with to piston (234).It is well-known technology already that described piston ring 235 has spring function, therefore will not be described in detail.

The piston apparatus 230 with said structure feature sends the rotating force of hand-held stirrer live axle 102 to swivel plate 231, and by the rotation of described swivel plate 231, make eccentric rod 232 centered by central hole 236, carry out circular movement, the circular movement of described eccentric rod 232 sends by pull bar 233 piston 234 that is positioned at cylinder 220 inside to, so that piston 234 comes and goes straight line motion in cylinder 220 inside.

In the present embodiment, described pull bar 233 and described piston 234 chain connections, to facilitate the back and forth movement of piston 234, or in the time that the circular motion radius of eccentric rod 232 is little, also can be connected with piston 234.

As shown in Figure 1, Figure 2, shown in Fig. 3 A-Fig. 3 C, described cylinder head 240 is mainly formed by following structural design:

Mounting groove 243, for being inserted into the end of cylinder 220;

Air suction inlet 241, it is connected with described mounting groove 243, and by the driving of piston apparatus 230, to the inner air that flows into of cylinder 220;

Air discharge ports 242, it is connected with described mounting groove 243, and arranges with air suction inlet 241 intervals at a certain distance, and by the driving of piston apparatus 230, the air of discharge cylinder 220 inside.

In the present embodiment, on described air suction inlet 241, outstanding being provided with sucks declining lug 244, and the diameter of described air suction inlet 241 should be greater than the diameter of air discharge ports 242.

The outstanding inside that is formed at air suction inlet 241 of described suction declining lug 244, and be formed with the inclined-plane 245 that dips down tilting towards cylinder 220 directions in air suction inlet 241 inside.

In addition, on described cylinder head 240, be provided with and multiplely insert with main part 210 insertion groove 246 being connected, to the position of restriction air suction inlet 241 and air discharge ports 242 is installed while being connected at itself and cylinder 220.

In addition, also insert and be provided with pad 247 in the inside of the mounting groove 243 of cylinder head 240, described pad 247 is between described cylinder head 240 and cylinder 220.

As shown in Figure 1, Figure 2, shown in Fig. 4 A-Fig. 4 E, Fig. 6 A-Fig. 6 B and Fig. 7 A-Fig. 7 B, one side of described lower end capping 250 is provided with the spacer groove 257 of the first pad 260 being installed for inserting, and being arranged at intervals with at a certain distance inflow entrance 251, floss hole 252 and air scoop 253, described inflow entrance 251, floss hole 252 and air scoop 253 are connected with spacer groove 257.

Described inflow entrance 251 has identical central shaft with the air suction inlet 241 of cylinder head 240, described floss hole 252 has identical central shaft with the air discharge ports 242 of cylinder head 240, and described air scoop 253 has identical central shaft with the air flue 213 of main part 210.

The main structure of described floss hole 252 is as follows: is connected, communicates with spacer groove 257, and inner outstanding the second floss hole 258 that is formed with discharge declining lug 254; The first floss hole 259 being connected with described the second floss hole 258.At this, the diameter of described the first floss hole 259 is less than the diameter of the second floss hole 258.

; interference when described the second floss hole 258 is not moved by the second incision cover plate 262 air pressures by discharge of the first pad 260; and the diameter of described the second floss hole 258 is identical with the diameter of the air discharge ports 242 of cylinder head 240, to guarantee that air pressure declines.

The outstanding inside that is formed at the second floss hole 258 of described discharge declining lug 254, to limit the range of operation of the second incision cover plate 262, and is formed with the face that is inclined upwardly 255 tilting towards the second pad 280 directions in the second floss hole 258 inside.

Described air scoop 253 flows into the air of air or suction (discharge) air flue 213 inside for the inside to air flue 213, mainly formed by following structural design: the second air scoop 253a that is connected with air flue 213 and is connected with spacer groove 257; And the first air scoop 253b being connected with described the second air scoop 253a.

Wherein, described the second air scoop 253a for forming the space that air moves between the first pad 260 that is installed on spacer groove 257 inside, and described the first air scoop 253b runs through lower end capping 250, and is connected with the second air scoop 253a.

In addition, in a side of described lower end capping 250, a side that does not for example form spacer groove 257 is provided with spaced first and second stopper 256a, 256b at a certain distance, described first and second stopper 256a, 256b are for the turning radius (operative radius) of control access conversion equipment 270, to change the flow direction of air.

In addition, the middle position of the outstanding side that is provided with described first and second stopper 256a, 256b in lower end capping 250, the also outstanding attachment post 256 being provided with for connecting the second pad 280 and path conversion equipment 270, inside at described attachment post 256 is provided with screw thread, and runs through the second pad 280 and path conversion equipment 270.

The lower end capping 250 with said structure feature is inserted under the state that the first pad 260 is installed in the inside of spacer groove 257, be connected with top end main body 214 and lower end main body 215 bolts of main part 210, with the position of the pad 247 on fixed cylinder 220, cylinder head 240 and the first pad 260.Now, owing to being provided with pad 247 between cylinder 220 and cylinder head 240, and between cylinder head 240 and lower end capping 250, be provided with the first pad 260, therefore can ensure that the connection between cylinder 220, cylinder head 240 and lower end capping 250 has tightness.

Described the first pad 260 is made up of elastic material, insert be installed in the spacer groove 257 of lower end capping 250, with guarantee between cylinder head 240 and lower end capping 250 and lower end capping 250 and the air flue 213 of main part 210 between tightness.

As shown in Fig. 1 and Fig. 6 A-Fig. 6 B, Fig. 7 A-Fig. 7 B, the main structure of described the first pad 260 is as follows:

Second cuts cover plate 262, and it is between the floss hole 252 of lower end capping 250 and the air discharge ports 242 of cylinder head 240;

First cuts cover plate 261, and it is between the suction port 251 of lower end capping 250 and the air suction inlet 241 of cylinder head 240;

Air hole 263, it is between the air scoop 253 of lower end capping 250 and the air flue 213 of main part 210.

Described second cuts cover plate 262 is horse-hof shape incision form in the inside of the first pad 260, for closing the air discharge ports 242 of cylinder head 240, to guarantee that air can the air discharge ports 242 from the floss hole of lower end capping 250 252 to cylinder head 240 not flow into, and in the time discharging the air of cylinder 220 inside by air discharge ports 242, utilize air pressure air to be disposed to the floss hole 252 of lower end capping 250 by air discharge ports 242, now, second cuts cover plate 262 moves to the inside of the second floss hole 258, to open the air discharge ports 242 of cylinder head 240.

Now, the the second incision cover plate 262 moving to the inside of described the second floss hole 258 will contact with the outstanding face that is inclined upwardly 255 that is formed at the discharge declining lug 254 on the second floss hole 258, in the time that the second incision cover plate 262 contacts with discharge declining lug 254, the first floss hole 259 being connected with the second floss hole 258 is open state, and air discharge ports 242 and the first floss hole (259) are also open state, and therefore the air of cylinder 220 inside can discharge to path conversion equipment 270.

Described first cuts cover plate 261 is horse-hof shape incision form in the inside of the first pad 260, for closing the suction port 251 of lower end capping 250, to guarantee that air can not flow into by the suction port 251 from the air suction inlet of cylinder head 240 241 to lower end capping 250, and in the time of suction port 251 air amount by lower end capping 250, the suction pressure of utilizing air amount to produce, make the first incision cover plate 261 inner mobile to the air suction inlet 241 of cylinder head 240, with the suction port 251 of open lower capping 250.

Now, the the first incision cover plate 261 moving to the inside of described air suction inlet 241 will contact with the inclined-plane 245 that dips down of the outstanding suction declining lug 244 that is formed at air suction inlet 241 inside, in the time that the first incision cover plate 261 contacts with suction declining lug 244, the suction port 251 of the air suction inlet 241 of cylinder head 240 and the lower end capping 250 that is connected with described air suction inlet 241 is all open state, thus can be by suction port 251 and air suction inlet 241 air amounts the inside to cylinder 220.

Described path conversion equipment 270, for changing the flow direction of air, can be selected in the middle of the air compressor function by venting gas appliance 212 discharges compressed air and the vacuum pump function by venting gas appliance 212 air amounts.As shown in Figure 1, Figure 2, shown in Fig. 5 A-Fig. 5 D, Fig. 6 A-Fig. 6 B and Fig. 7 A-Fig. 7 B, the end of main part 210 contacts with a side of capping main body 278, and be provided with the rotatable bolt supporting mouth 270c being threaded with the attachment post 256 of lower end capping 250 by bolt 270a, in addition, on described path conversion equipment 270, be also provided with the spacer groove 277 of the second pad 280 being installed for inserting, so that the second pad 280 is positioned at the inner side of capping main body 278.

Wherein, described bolt supporting mouth 270c through-out pathway conversion equipment 270, and by being connected to the bolt 270a fixed position on the attachment post 256 of lower end capping 250, between bolt 270a and attachment post 256, be provided with packing ring 270b, so that path conversion equipment 270 is connected with the attachment post 256 of lower end capping 250 by bolt 270a, and the bolt supporting mouth 270c of path conversion equipment 270 inserts and is connected on attachment post 256.Now, path conversion equipment 270 can be rotated centered by attachment post 256.

Described path conversion equipment 270 is main adopts following structural design to form:

Outside connecting path 275, it communicates with spacer groove 277, for being communicated with the floss hole 252 of lower end capping 250 and air scoop 253 or for being communicated with air scoop 253 and the floss hole 252 of lower end capping 250;

Peripheral path 274, it is connected with spacer groove 277, and is disposed at a certain distance the both sides of described outside connecting path 275, and is connected with row's suction inlet 276;

Mouth hanging 279, its outstanding inner side that is formed at path conversion equipment 270, for being inserted into first and second stopper 256a of described lower end capping 250, the inside of 256b.

Described peripheral path 274 is by forming as lower component: interval is formed at the first outboard channel 271 and second outboard channel 272 of connecting path 275 both sides, outside at a certain distance; Be connected with described first and second outboard channel 271,272, and the external path 273 being connected with row's suction inlet 276.

Described row's suction inlet 276 is provided with multiple, is connected, communicates with the outside of peripheral path 274 for a side that makes capping main body 278.

In addition, be also provided with the capping mounting groove 278a that upper end capping 290 is installed for inserting in a side of described capping main body 278, and give prominence to and be provided with handle 278b in capping main body 278, and be located at the outside of described capping mounting groove 278a.

As shown in Figure 1, Figure 2, shown in Fig. 6 A-Fig. 6 B and Fig. 7 A-Fig. 7 B, described the second pad 280 adopts following structural design to form, and comprising: for being communicated with the floss hole 252 of lower end capping 250 and air scoop 253 or for being communicated with the air scoop 253 of lower end capping 250 and the inner side connecting path 285 of suction port 251; Interval is formed at the first inboard channel 281 and second inboard channel 282 of connecting path 285 both sides, described inner side at a certain distance; And for inserting the central hole 284 of the attachment post 256 that connects described lower end capping 250.

Second pad 280 with said structure feature inserts and is installed in the spacer groove 277 of path conversion equipment 270, to guarantee that inner side connecting path 285 is communicated with the outside connecting path 275 of path conversion equipment 270; The first inboard channel 281 is communicated with the first outboard channel 271 of path conversion equipment 270; The second inboard channel 282 is communicated with the second outboard channel 272 of path conversion equipment 270, and is rotated centered by the attachment post 256 of lower end capping 250 at path conversion equipment 270 while adjustment, can together rotate with path conversion equipment 270.

As shown in Figures 1 and 2, described upper end capping 290 is located at the inside of the capping mounting groove 278a of path conversion equipment 270, to prevent that foreign matter is inserted into the connection part of the attachment post 256 of path conversion equipment 270 and lower end capping 250.

As shown in Figure 8, there is the vacuum compression device 300 of said structure feature, hand-held stirrer 100 coordinated operations with the driving of live axle single direction rotation, and by the rotation operation of path conversion equipment 270, change the path of Air Flow, thus, can suck by venting gas appliance 212 on the one hand the air of object inside, and air is discharged to row's suction inlet 276, so that object inside is vacuum state, thereby realize the function of vacuum pump; On the other hand, can compress after processing the air of discharging by row's suction inlet 276, discharge to object by venting gas appliance 212, to realize the function of air compressor.

Effect and the function of the vacuum compression device to the present embodiment are elaborated below with reference to accompanying drawings.

Fig. 6 A-Fig. 6 B is the operation schematic diagram of the vacuum compression device that proposes of the present embodiment while carrying out air compressor function (exhaust).In figure, straight arrows represents air discharge path, and dashed line arrows represents air intake path.

When holding handle 278b, rotate path conversion equipment 270 to a side, when the mouth hanging 279 of path conversion equipment 270 and the first stopper 256a of lower end capping 250 are contacted, will select air compressor function, i.e. degassing function.

As mentioned above, in the time of selected degassing function, the peripheral path 274 of the path conversion equipment 270 that is connected, communicates with row's suction inlet 276, by by the first inboard channel 281 of the second pad 280, is connected with the suction port 251 of lower end capping 250; The outside connecting path 275 of path conversion equipment 270, by the inner side connecting path 285 of the second pad 280, is connected with floss hole 252 and the air scoop 253 of lower end capping 250.

Under above-mentioned degassing function state, drive hand-held stirrer 100, in the time that cylinder 220 is operated in air-breathing mode, by the inhalation power of cylinder 220 inside, first of the first pad 260 cuts cover plate 261 inside of the air suction inlet to cylinder head 240 241 is moved, so that the suction port 251 of lower end capping 250 and the air suction inlet 241 of cylinder head 240 are connected, second of the first pad 260 cuts cover plate 262 and contacts with cylinder head 240, to close air discharge ports 242.

As mentioned above, in the time that the suction port 251 of lower end capping 250 and the air suction inlet 241 of cylinder head 240 are connected, outside air will be by row's suction inlet 276, via the peripheral path 274 of path conversion equipment 270, the first outboard channel 271 of path conversion equipment 270, the first inboard channel 281 of the second pad, the suction port 251 of lower end capping 250, the first incision cover plate 261 of the first pad 260 and the air suction inlet 241 of cylinder head 240, flow into the inside of cylinder 220.

In addition, when by the driving force of hand-held stirrer 100, while making cylinder 220 be operated in compact model, cylinder 220 inside will generate pressurized air, and in described compressed-air actuated effect, first of the first pad cuts 261 of cover plates and contacts with the suction port 251 of lower end capping 250, to close suction port 251, also make second of the first pad cut cover plate 262 inner mobile to the floss hole 252 of lower end capping 250, to guarantee that the air discharge ports 242 of cylinder head 240 and the floss hole 252 of lower end capping 250 are connected simultaneously.

As mentioned above, when the suction port 251 of lower end capping 250 is closed by the first incision cover plate 261, and when the floss hole 252 of lower end capping 250 is connected with the air discharge ports 242 of cylinder head 240, the pressurized air of cylinder 220 inside will pass through the air discharge ports 242 of cylinder head 240, second of the first pad 260 cuts cover plate 262, the floss hole 252 of lower end capping 250, and second the inner side connecting path 285 of pad 280 and the outside connecting path 275 of path conversion equipment 270, air scoop 253 to lower end capping 250 moves, and the pressurized air moving to described air scoop 253, the air hole 263 of the first pad 260 and the air flue 213 of main part 210 will be passed through, move and to outside drain (exhaust) to venting gas appliance 212.

Fig. 7 A-Fig. 7 B is the schematic diagram that the vacuum compression device that proposes of the present embodiment is carried out vacuum pump function (air-breathing).In figure, straight arrows represents air discharge path, and dashed line arrows represents air intake path.

When holding handle 278b, rotate path conversion equipment 270 to a side, when the mouth hanging 279 of path conversion equipment 270 and the second stopper 256b of lower end capping 250 are contacted, will select vacuum pump function, i.e. air suction function.

As mentioned above, in the time of selected air suction function, the peripheral path 274 of the path conversion equipment 270 that is connected, communicates with row's suction inlet 276, by by the second inboard channel 282 of the second pad 280, is connected with the floss hole 252 of lower end capping 250; The outside connecting path 275 of path conversion equipment 270, by the inner side connecting path 285 of the second pad 280, is connected with air scoop 253 and the suction port 251 of lower end capping 250.

Under above-mentioned air suction function state, drive hand-held stirrer 100, in the time that cylinder 220 is operated in air-breathing mode, by the inhalation power of cylinder 220 inside, first of the first pad 260 cuts cover plate 261 by inner the air suction inlet to cylinder head 240 241 mobile, so that the suction port 251 of lower end capping 250 and the air suction inlet 241 of cylinder head 240 are connected; Second of the first pad 260 cuts cover plate 262 under the effect of the inhalation power of cylinder 220, contacts, to close air discharge ports 242 with cylinder head 220.

As mentioned above, in the time that the air discharge ports 242 of cylinder head 240 is closed by the second incision cover plate 262 of the first pad 260, to can not be communicated with row's suction inlet 276 by the floss hole of lower end capping 250 252, thereby make air flow cylinder 220 inside, and the air of the object inside being connected with venting gas appliance 212, by venting gas appliance 212, air flue 213, the air hole 263 of the first pad 260, air scoop 253 to lower end capping 250 flows into, and flow into the air of described air scoop 253, once more by the inner side connecting path 285 of the second pad 280 and the outside connecting path 275 of path conversion equipment 270, via the suction port 251 of lower end capping 250, first of the first pad 260 cuts cover plate 261, the air suction inlet 241 of cylinder head 240, flow into cylinder 220 inside.

In addition, when by the driving force of hand-held stirrer 100, while making cylinder 220 be operated in compact model, cylinder 220 inside will generate pressurized air, and under described compressed-air actuated effect, first of the first pad 260 cuts 261 of cover plates and will contact with lower end capping 250, to close the suction port 251 of lower end capping 250, also make second of the first pad 260 cut cover plate 262 inner mobile to the floss hole 252 of lower end capping 250, to guarantee that the floss hole 252 of lower end capping 250 and the air discharge ports 242 of cylinder head 240 are connected simultaneously.

As mentioned above, when cutting cover plate 261 by first of the first pad 260, the suction port 251 of lower end capping 250 closes, and when the floss hole 252 of lower end capping 250 is connected with the air discharge ports 242 of cylinder head 240, the pressurized air of cylinder 220 inside will pass through the air discharge ports 242 of cylinder head 240, second of the first pad 260 cuts cover plate 262, the floss hole 252 of lower end capping 250, inner mobile to the second inboard channel 282 of the second pad 280 and the second outboard channel 272 of path conversion equipment 270, and the pressurized air moving to the inside of the second outboard channel 272, the external path 273 of path conversion equipment 270 will be passed through, move and pass through row's suction inlet 276 to outside drain to row's suction inlet 276.

By above-mentioned operation, the air of the object inside being connected with venting gas appliance 212, will be inhaled into the inside of cylinder 220, then by arranging suction inlet 276 to outside drain, accordingly at the inner vacuum state that forms of object.

Certainly; above-mentioned explanation is not to restriction of the present utility model; the utility model is also not limited in above-mentioned giving an example, and variation, remodeling, interpolation or replacement that those skilled in the art make in essential scope of the present utility model, also should belong to protection domain of the present utility model.

Claims (9)

1. for a vacuum compression device for hand-held stirrer, it is characterized in that, comprising:

Main part (210), it is for being connected with hand-held stirrer, and is provided with the venting gas appliance for connection object;

Cylinder (220), it is fixedly installed in the inside of main part (210);

Piston apparatus (230), it by the driving force of hand-held stirrer, comes and goes straight line motion for being connected and installed in hand-held stirrer in cylinder (220);

Cylinder head (240), it presses close to be installed on the end of cylinder (220), and is provided with the air suction inlet (241) and the air discharge ports (242) that are connected with cylinder (220);

Lower end capping (250), it is fixedly installed in main part (210), be contacted with cylinder head (240), and have and the air suction inlet (241) of cylinder head (240) and suction port (251) and the floss hole (252) of the corresponding connection of air discharge ports (242), and be provided with the air scoop (253) being connected with the air flue (213) of main part (210);

The first pad (260), it is arranged between cylinder head (240) and lower end capping (250);

Path conversion equipment (270), it is upper that it is connected and installed in described lower end capping (250), and be provided with and the peripheral path (274) of arranging suction inlet (276) and being connected;

Rotatable outside connecting path (275), be arranged on described path conversion equipment (270), and for being communicated with floss hole (252) and the air scoop (253) of lower end capping (250), or for being communicated with air scoop (253) and the suction port (251) of lower end capping (250);

The second pad (280), it is positioned between described lower end capping (250) and path conversion equipment (270);

Upper end capping (290), its insertion is installed on described path conversion equipment (270).

2. the vacuum compression device for hand-held stirrer according to claim 1, is characterized in that, described main part (210) comprising:

Top end main body (214), it is for being connected with hand blender;

Lower end main body (215), it is connected with described top end main body (214) bolt, and the outstanding venting gas appliance (212) that is formed with;

Described top end main body (214) comprising:

Stirrer mounting hole (216), it is for being inserted into the lower end of hand-held stirrer;

Joint (211), it is placed in described stirrer mounting hole (216), and it is inner for inserting the live axle of hand-held stirrer;

One side of described lower end main body (215) is connected, communicates with venting gas appliance (212), and opposite side is provided with the air flue (213) being connected with the air scoop (253) of lower end capping (250) by the air hole of the first pad (260) (263).

3. the vacuum compression device for hand-held stirrer according to claim 1, is characterized in that, described piston apparatus (230) comprising:

Swivel plate (231), it is positioned at the inner side of described main part (210), and for inserting the live axle (103) that hand-held stirrer is installed, is formed with eccentric rod (232) in an one side;

Pull bar (233), one side end inserts the eccentric rod (232) that connects described swivel plate (231);

Piston (234), it is connected and installed in the end side of described pull bar (233), and is positioned at cylinder (220) inside.

4. the vacuum compression device for hand-held stirrer according to claim 1, is characterized in that, on described cylinder head (240), is provided with:

Mounting groove (243), it is for being inserted into the end of cylinder (220);

Air suction inlet (241), it is connected with described mounting groove (243), and under the driving of piston apparatus (230), to the inner air that flows into of cylinder (220);

Air discharge ports (242), it is connected with described mounting groove (243), and arrange with air suction inlet (241) interval at a certain distance, and under the driving of piston apparatus (230), the air that discharge cylinder (220) is inner;

Wherein, suck declining lug (244) upper outstanding being provided with of described air suction inlet (241), and the outstanding inside that is formed at air suction inlet (241) of described suction declining lug (244), and have on the inner inclined-plane that dips down (245) tilting towards cylinder (220) direction of air suction inlet (241).

5. the vacuum compression device for hand-held stirrer according to claim 4, it is characterized in that, mounting groove (243) inside in described cylinder head (240) is also inserted with pad (247), and described pad (247) is positioned between described cylinder head (240) and cylinder (220).

6. the vacuum compression device for hand-held stirrer according to claim 1, is characterized in that, the floss hole (252) of described lower end capping (250) comprising:

The second floss hole (258), its inner outstanding discharge declining lug (254) that is formed with;

The first floss hole (259), it is connected, communicates with described the second floss hole (258);

Wherein, on described discharge declining lug (254), be also formed with at the inner face that is inclined upwardly (255) tilting towards the second pad (280) direction of the second floss hole (258).

7. the vacuum compression device for hand-held stirrer according to claim 1, is characterized in that, the air scoop (253) of described lower end capping (250) comprising:

The second air scoop (253a), it is connected with pad hole (257), and is connected with air flue (213);

The first air scoop (253b), it is connected, communicates with described the second air scoop (253a).

8. the vacuum compression device for hand-held stirrer according to claim 1, is characterized in that, on described the first pad (260), is provided with:

Second cuts cover plate (262), and it is positioned between the floss hole (252) of lower end capping (250) and the air discharge ports (242) of cylinder head (240);

First cuts cover plate (261), and it is positioned between the suction port (251) of lower end capping (250) and the air suction inlet (241) of cylinder head (240);

Air hole (263), it is positioned between the air scoop (253) of lower end capping (250) and the air flue (213) of main part (210).

9. the vacuum compression device for hand-held stirrer according to claim 1, is characterized in that, on described the second pad (280), is provided with:

Inner side connecting path (285), be used for connecting floss hole (252) and the air scoop (253) of lower end capping (250), or for connecting air scoop (253) and the suction port (251) of lower end capping (250);

The first inboard channel (281) and the second inboard channel (282), interval is formed at the both sides of described inner side connecting path (285) at a certain distance;

Central hole (284), for inserting the attachment post (256) that connects lower end capping (250).