CN107581775A - The torsion regulating system of Intelligent dining table rotary top - Google Patents

Abstract

The invention discloses the torsion regulating system of Intelligent dining table rotary top, including desk body, desk body includes the desktop for bearing article, contacted with ground for supporting desktop feet and be arranged between desktop and feet and be used to connect desktop and feet and transmit the table leg of support force, desktop is provided centrally with rotating disk, rotating disk is coaxially arranged with desktop and rotating disk can carry out 360 degree of rotations around the central axis of desktop, rotating disk matching has upper cover plate, rotating disk cooperatively forms closed accommodating cavity with upper cover plate, the pressure control mechanism for switching working mode is provided with accommodating cavity, the first power set and controller that driving rotating disk rotates, pressure control mechanism is used for the cleaning dynamics for controlling clearing apparatus, controller is used for the switching for controlling cleaning modes；Friction boss is provided with the center of described desktop and friction boss is coaxially socketed on the outside of friction projection platform towards friction striped, rotating disk is provided with the end face of rotating disk and can carry out 360 degree of rotary motions with respect to desktop around friction boss.

Description

The torsion regulating system of Intelligent dining table rotary top

Technical field

The present invention relates to a kind of table ware, and in particular to a kind of dining table that can clear up swill automatically.

Background technology

With the development of modern catering trade, quick service is more and more important for consumer, and good dining room often occurs Consumer is lined up dining phenomenon, and the generation of this phenomenon is reclaimed in part because of tableware, dining table top is cleared up not in time It is caused, in addition, waiter as human cost as the development of society is also improving constantly, dining table on the market needs now Artificial recovery tableware, and need manual cleaning desktop in real time, this, which not only greatly reduces dining room, can receive the quantity of customer, reduce The profit in dining room, while a large amount of employment service persons, also increase the expenditure cost in dining room.

The content of the invention

For solve the deficiencies in the prior art, it is an object of the invention to provide it is a kind of can be automatically to being entered with postprandial desktop The dining table of row cleaning, and there are this dining table various modes can select, and have the characteristics that easy to operate, cleaning effect is good.

To realize above-mentioned technical purpose, the technical solution adopted in the present invention is as follows.

The torsion regulating system of Intelligent dining table rotary top, including desk body, desk body include the desktop and ground for bearing article Contact for supporting desktop feet and be arranged between desktop and feet and be used to connect desktop and feet and transmit support force Table leg, desktop is provided centrally with rotating disk, and rotating disk is coaxially arranged with desktop and rotating disk can carry out 360 around the central axis of desktop Degree rotation, rotating disk matching have upper cover plate, and rotating disk cooperatively forms closed accommodating cavity with upper cover plate, and use is provided with accommodating cavity The first power set and controller that pressure control mechanism, driving rotating disk in switching working mode rotate, Stress control machine Structure is used for the cleaning dynamics for controlling clearing apparatus, and controller is used for the switching for controlling cleaning modes.

More optimally, friction boss is provided with the center of described desktop and friction boss is towards setting on the end face of rotating disk Friction striped is equipped with, rotating disk is coaxially socketed on the outside of friction projection platform and can carry out 360 degree of rotation fortune relative to desktop around friction boss It is dynamic.

More optimally, the first described power set include being installed on the motor one of rotating disk inwall, to be socketed on motor one defeated Go out the power input part of shaft end, the first mediation member, slip gear for transmitting revolving force（First power output portion Part）, motor one drive the first power input part rotation, the first power input part pass through the first mediation member driving friction Gear rotates, and described slip gear is arranged at the pivot of rotating disk and can rotate around its center axis, slip gear and Form friction pattern is additionally provided with the mating surface of friction boss, is matched somebody with somebody between rotating disk and desktop by the friction of slip gear and the boss that rubs Close the rotary motion for realizing that rotating disk carries out 360 degree around desktop-centric with respect to desktop.

More optimally, pressure control mechanism is provided with above slip gear, pressure control mechanism can control slip gear With the normal pressure between friction boss.

More specifically, pressure control mechanism includes motor three, and the output end matching of motor three has a chute, motor three it is defeated Going out shaft end and be connected with threaded rod, threaded rod is arranged in chute and is provided with matched thread slider on threaded rod, wherein The central axial direction of threaded rod and the length direction of chute are consistent, and the revolving force that threaded rod provides causes thread slider to exist Moved on threaded rod along the guide direction of chute, pushing block be additionally provided with threaded rod suspension end in chute, thread slider and Second spring is provided between pushing block, the coaxial pivot bush unit of second spring is outside threaded rod, one end of second spring and screw thread Sliding block connection, the other end and pushing block connect, and second spring is used to promote pushing block along track length direction to the side away from motor three To motion, side of the pushing block away from motor three is connected with trim ring, and trim ring includes being connected to pushing block and for receiving thrust Drive section, the hold-down segment being arranged above slip gear, drive section is located inside chute and edge can be perpendicular to chute guide direction Motion.

The beneficial effect of the present invention compared with prior art is that the automatic cleaning to desktop, and this can be achieved in the present invention Invention, which possesses various modes, to be switched, and according to actual conditions optimal pattern can be selected to clear up desktop, and not With under pattern, the torsion of rotating disk itself is different, can suitably adjust torsion according to the weight of dress dish.

Brief description of the drawings

In order to illustrate the embodiments of the present invention more clearly, the required accompanying drawing used in embodiment will be done simply below Introduce, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for ordinary skill people For member, on the premise of not paying creative work, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of invention.

Fig. 2 is the internal structure schematic diagram of the present invention.

Fig. 3 is the upper cover plate structural representation of the present invention.

Fig. 4 is the cooperation schematic diagram of rotating disk of the invention, slip gear and desktop.

Fig. 5 is the cooperation sectional view of rotating disk of the invention, slip gear and desktop.

Fig. 6 is the first powerplant configuration schematic diagram of the invention.

Fig. 7 is table top set-ups schematic diagram of the present invention.

Fig. 8 is the structural representation of slip gear of the present invention.

Fig. 9 is the sectional view that conducting slip ring of the present invention coordinates with desktop, rotating disk and the first power set.

Figure 10 is the sectional view that conducting slip ring of the present invention coordinates with desktop, rotating disk and the first power set.

Figure 11 is the explosive view of conducting slip ring of the present invention.

Figure 12 is the sectional view of conducting slip ring of the present invention.

Figure 13 is the conductive bush structure schematic diagram of the present invention.

Figure 14 is clearing apparatus schematic diagram of the present invention.

Figure 15 is the cooperation schematic diagram of motor two of the present invention, coil holder and housing two.

Figure 16 is the structural representation of the second power set of the invention.

Figure 17 is the structural representation of the second power set of the invention.

Figure 18 is that telescopic component of the present invention is under extended configuration the structural representation to match with telescopic traction device.

Figure 19 is the structural representation of telescopic joint of the present invention.

Figure 20 is cleansing bar of the present invention band memory device structure schematic diagram.

Figure 21 is cleansing bar of the present invention band memory device structure schematic diagram.

Figure 22 is pressure control mechanism schematic diagram of the present invention.

Figure 23 is pressure control mechanism sectional view of the present invention.

Figure 24 is ring pressing construction schematic diagram of the present invention.

Figure 25 is ring pressing construction schematic diagram of the present invention.

Figure 26 is buckle structure schematic diagram of the present invention.

Figure 27 is buckle structure schematic diagram of the present invention.

Figure 28 is the buckle structure schematic diagram of the present invention.

It is denoted as in figure：10th, desktop；110th, rub boss；

20th, upper cover plate；210th, controlling switch；211st, power knob；212nd, steady mode button；213rd, cleaning mode button； 214th, cleaning modes button；

30th, rotating disk；310th, telescoping mechanism；311st, the second power set；311a, housing two；311b, motor two；311c, second move Power input block；311d, coil holder；311f, clockwork spring one；311g, cover plate；311h, gear one；311h1, gear two；311i, gear Three；311j, gear four；311k, the second power output part；311L, friction roller one；311m, the first spring；311n, fixture block； 311p, friction roller two；312nd, telescopic component；312d, head end telescopic joint；312b, intermediate warp section b；312c, intermediate warp section c； 312a, tail end telescopic joint；312e, external step；312f, built-in step；

40th, the first power set；410th, motor one；411st, the first power input part；412nd, first gear；413rd, the second tooth Wheel；414th, slip gear；414a, form friction pattern；416th, support；416a, conductive bushing；416a1, brush；416b, conducting ring； 416c, fixed mount；416c1, external step one；

50th, controller；

60th, pressure control mechanism；610th, trim ring；611st, pressure roller one；612nd, drive section；613rd, dashpot；620th, pushing block；630th, spiral shell Line sliding block；640th, second spring；650th, motor three；660th, housing three；670th, threaded rod；

70th, strainer；710th, support one；720th, the 3rd spring；730th, pressure roller two；

80th, cleaning mechanism；810th, housing one；820th, bushing is fastened；821st, bayonet socket one；822nd, bayonet socket two；830th, clockwork spring two；831、 Head end buckle；832nd, tail end buckle；840th, cleansing bar band；841st, buckle；842nd, hitch；

90th, latch；910th, closing piece；920th, lock core；930th, the 4th spring；940th, the first locked groove；950th, the second locked groove.

Embodiment

With reference to the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Ground describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.Based on this hair Embodiment in bright, those of ordinary skill in the art are not under the premise of creative work is made, the every other reality that is obtained Example is applied, belongs to the scope of the present invention.

Referring to accompanying drawing 1,2,4,5, a kind of intelligent table, including desk body, desk body include for bearing article desktop 10, with Ground contact for supporting desktop feet and be arranged between desktop 10 and feet and be used to connect desktop 10 and feet and pass The table leg of support force is passed, desktop 10 is provided centrally with rotating disk 30, and rotating disk 30 is coaxially arranged with desktop 10 and rotating disk 30 can be around table The central axis in face 10 carries out 360 degree of rotations, and the matching of rotating disk 30 has upper cover plate 20, and rotating disk 30 cooperatively forms closed with upper cover plate 20 Accommodating cavity, be provided with accommodating cavity for desktop 10 is cleaned clearing apparatus, for switching working mode The first power set 40 and controller 50 that pressure control mechanism 60, driving rotating disk rotate.

Referring to accompanying drawing 2,14, clearing apparatus is including for the cleaning mechanism 80 cleaned to desktop 10 and for driving The telescoping mechanism 310 that cleaning mechanism 80 works, telescoping mechanism 310 includes telescopic component 312, driving telescopic component 312 is extending And shorten two states under switch over the second power set 311, for receive the second power set 311 caused by power Telescopic traction device, wherein telescopic traction device be arranged for control telescopic component 312 in elongation state and contraction state Between switch over.

The torsion regulating system of Intelligent dining table rotary top provided by the invention possesses three kinds of mode of operations, and one is：Gentle mould Formula（Have dinner pattern）, turn on the power switch button 211 and open gentle mode button 212, controller 50 controls the first power Simultaneously driving rotating disk 30 slowly rotates the operating of device 40 relative to desktop 10, and now controller 50 controls clearing apparatus, Stress control machine Structure 60 is in off working state, and vegetable is positioned over upper cover plate 20, the rotating disk 30 slowly rotated conveniently have dinner personnel clamp vegetable；Its Two are：Cleaning modes, i.e. dining finish and by tableware after desktop 10 is removed, and open cleaning modes button 214, controller 50 is controlled Make the first power set 40 to operate, the driving rotating disk 30 of the first power set 40 rotates relative to desktop 10, and the control pressure of controller 50 Power controlling organization 60 operates, and at the same time, it is flexible that controller 50 controls the second power set 311 driving telescoping mechanism 310 to cause Component 312 extend out to desktop 10 and with tentatively being cleared up desktop 10 with cleaning mechanism 80 from accommodating cavity；Thirdly it is：It is situated between Cleaning mode between gentle pattern and cleaning modes, that is, after realizing the preliminary cleaning to desktop 10, open cleaning mode and press Button 213, controller 50 control the first power set 40 to operate, and the driving rotating disk 30 of the first power set 40 rotates relative to desktop 10, And the control pressure controlling organization 60 of controller 50 operates, at the same time, controller 50 controls the driving of the second power set 311 flexible Mechanism 310 causes telescopic component 312 to extend out to desktop 10 and with being carried out with cleaning mechanism 80 to desktop 10 just from accommodating cavity Step is cleared up, and the rotary speed of rotating disk 30 in this pattern cleans dynamics and be less than cleaning between gentle pattern and cleaning modes The cleaning dynamics of pattern.

Referring to accompanying drawing 4-8, friction boss 110 is provided with the center of desktop 10 and friction boss 110 is towards rotating disk 30 Friction striped is provided with end face, rotating disk 30 is coaxially socketed on the outside of friction projection platform 110 and can be around friction boss 110 with respect to desktop 10 carry out 360 degree of rotary motions, and the first power set 40 include being installed on the motor 1 of the inwall of rotating disk 30, are socketed on motor The power input part 411 of one 410 output shaft ends, the first mediation member for transmitting revolving force, slip gear 414（The One power output part）, motor 1 drive the first power input part 411 rotate, the first power input part 411 passes through First mediation member driving slip gear 414 rotates, it is preferred that the first power input part and the first mediation member are Can be first gear 412 and second gear 413 around the first mediation member in the gear that own axes rotate, the present embodiment, Wherein first gear 412 and second gear 413 are using being coaxially disposed and being synchronized with the movement, specifically, the driving power of motor 1 is defeated Enter part 411 to rotate, power input part 411 engages with first gear 412 and drives first gear 412 to rotate, second gear 413 engage with slip gear 414 with the synchronous axial system of first gear 412, second gear 413 and drive slip gear 414 to rotate, institute The slip gear 414 stated is arranged at the pivot of rotating disk 30 and can rotated around its center axis, slip gear 414 and friction Form friction pattern 414a is additionally provided with the mating surface of boss 110, passes through slip gear 414 and friction projection between rotating disk 30 and desktop 10 The frictional fit of platform 110 realizes that rotating disk 30 carries out 360 degree of rotary motion around the center of desktop 10 with respect to desktop, is rubbed specifically, working as The direction of rotation for wiping gear 414 is rotate counterclockwise, and end face of the slip gear 414 with form friction pattern carries with friction boss 110 The end face of form friction pattern is fitted close, slip gear 414 by with the friction pressure contact of boss 110 caused by frictional force desktop 10 have it is in the same direction around itself pivot and slip gear 414（Counterclockwise）Rotary motion trend, because desktop 10 passes through Table leg is connected to feet, and feet is fixed and ground, therefore desktop 10 keeps geo-stationary, now due to motion composition, turns Disk 30 will carry out the direction opposite with slip gear 414 around the center of desktop 10（Clockwise）Rotation.

Referring to accompanying drawing 2,22-25, the top of slip gear 414 is provided with pressure control mechanism 60, pressure control mechanism 60 Normal pressure between controllable slip gear 414 and the boss 110 that rubs, by friction formula F=Fn × u, (wherein Fn represents two and connect Normal pressure between contacting surface, u represent the coefficient of friction of two contact surfaces), slip gear 414 rubs with the friction contact surface of boss 110 Wiping coefficient is certain, as caused frictional force also increases therewith between the increase slip gear 414 and friction boss 110 of normal pressure, Further, the size of frictional force between control slip gear 414 and the boss 110 that rubs is realized, realizes the relative desktop of rotating disk 30 Revolving force it is adjustable, so as to realize three kinds of mode of operations hereinbefore of the invention, specifically, during gentle pattern, controller 50 is controlled Make the first power set 40 operate and driving rotating disk 30 slowly rotates relative to desktop 10, now controller 50 control clearing apparatus, Pressure control mechanism 60 is in off working state, and pressure control mechanism 60 is by the support 416 that is connected on rotating disk 30 to friction Gear 414 produces preliminary pressure so that slip gear 414 and the friction pressure contact of boss 110 simultaneously produce frictional force, realize and turn Slow rotation of the disk 30 relative to desktop 10；During cleaning modes, controller 50 controls the first power set 40 to operate, the first power dress Put 40 driving rotating disks 30 to rotate relative to desktop 10, and the control pressure controlling organization 60 of controller 50 operates, pressure control mechanism 60 So that the normal pressure between slip gear 414 and friction boss 110 increases and reaches maximum, slip gear 414 and friction projection Frictional force between platform 110 also reaches maximum, and at the same time, controller 50 controls the second power set 311 driving telescoping mechanism 310 cause telescopic component 312 to extend out to desktop 10 and with being carried out with cleaning mechanism 80 to desktop 10 tentatively clearly from accommodating cavity Reason, the revolving force that such a pattern lower rotary table 30 obtains is maximum, is advantageous to clear up the abundance of food residue on desktop 10；Clearly During clean pattern, controller 50 controls the first power set 40 to operate, and 40 driving rotating disk of the first power set, 30 relative desktop 10 revolves Turn, and the control pressure controlling organization 60 of controller 50 operates, pressure control mechanism 60 causes slip gear 414 and friction boss Normal pressure between 110 increases and is located between gentle pattern and cleaning modes, and at the same time, controller 50 controls the second power Device 311 drive telescoping mechanism 310 cause telescopic component 312 from accommodating cavity extend out to desktop 10 and with cleaning mechanism 80 Desktop 10 is further cleared up, such a pattern is applied to the less situation of the swill amount of desktop 10 or coordinated clean Pattern is further cleared up desktop.

Referring to accompanying drawing 15,16,17, the second power set 311 include the 311a of housing two, and receiving is offered on the 311a of housing two The 311b of motor two installation circular groove, the outer, coaxial movable sleeve for installing circular groove are connected to telescopic traction device, described telescopic traction Device includes coil holder 311d, and wherein coil holder 311d can be around the central rotation of installation circular groove, and the 311f one ends wounds of clockwork spring one are in coil holder 311d is upper, the other end and telescopic component 312 connect, and the 311f of clockwork spring one can drive telescopic component 312 to be shunk and stretched, line Frame 311d matchings have the cover plate that the 311f of clockwork spring one is sealed in coil holder 311d, and the 311f of clockwork spring one suspension end is arranged in telescopic component It is connected in 312 inner chambers and with the head end telescopic joint 312d of telescopic component 312, the 311f of clockwork spring one other end and coil holder 311d connect Connect, the matching of the 311b of motor two output shaft end has the second power input part 311c, the second power input part 311c by the Two intermediate transmission parts drive the second power output part 311k to rotate, and the second power output part 311k can control clockwork spring one Shrink and stretch, it is preferred that the 311b of motor two is installed at the center of installation circular groove, the second above-mentioned power input part 311c, the second intermediate transmission part and the second power output part 311k are can be around the gear that own axes rotate, this reality It is the 311h of gear one, the 311h1 of gear two, the 311i of gear three, the wherein 311j of gear four, tooth to apply the second intermediate transmission part in example It is coaxially arranged and synchronous axial system to take turns a 311h and 311h1 of gear two, and the 311j of three 311i gears of gear four is coaxially arranged and same Step rotates, specifically, the second power input part 311c is engaged with the 311h of gear one and the 311h of drive gear one rotations, gear two 311h1 is with the 311h synchronous rotaries of gear one, and the 311h1 of gear two is engaged with the 311i of gear three and the 311i of drive gear three rotations, tooth Four 311j are taken turns with the 311i synchronous rotaries of gear three, the 311j of gear four engages with the second power output part 311k and driving power is defeated Go out part 311k rotations, the second power output part 311k is coaxially arranged with the 311L of friction roller one, and the 311L of friction roller one and the Two power output part 311k synchronous axial systems, friction conveyor structure is relatively set with the 311L of friction roller one on the 311a of housing two, Friction conveyor structure includes chute one, the fixture block 311n that can be slided in chute one, is arranged in fixture block 311n and can be in fixture block The first spring is provided between friction roller two 311p, fixture block 311n and the 311a of housing two that are rotated in 311n around own axes 311m, the first spring 311m tension force promote fixture block 311n to be moved along chute one towards the 311L of friction roller one so that friction roller one Pressure contact is kept between 311L and the 311p of friction roller two, wherein the 311L of friction roller one central axis is with the 311p's of friction roller two Centerline axis parallel, the 311f of clockwork spring one one end is connected with coil holder 311d, the other end passes through the 311L of friction roller one and friction roller two It is connected between 311p and by the inner chamber of telescopic component 312 with the head end telescopic joint 312d of telescopic component 312, passes through friction roller one The 311L and 311p of friction roller two realizes the 311f of clockwork spring one elongation and contraction, specifically, the 311L of friction roller one and the second power are defeated Go out part 311k synchronous axial systems, the 311f of clockwork spring one between the 311L of friction roller one and the 311p of friction roller two is in the first spring Keep pressure contact with the 311L of friction roller one and the 311p of friction roller two in the presence of 311m, further, the 311L of friction roller one with Frictional force is produced between friction raised line and the 311f of clockwork spring one that the 311p of friction roller two passes through its own face, described frictional force can push away The dynamic 311f of clockwork spring one perpendicular to the 311L of friction roller one tangential directions tangent with the 311p of friction roller two along moving, with motor two 311b rotating can realize that the 311f of clockwork spring one is extending and shunk the switching of two states, so as to realize telescopic component 312 Extending and shrinking the switching under two states.

Referring to accompanying drawing 18, telescopic component 312 is to be socketed the scalable shaft-like knot formed successively by multiple hollow telescopic joints Structure, two telescopic joints of socket can relatively move along its length, in multiple hollow telescopic joints, be inserted in the 311a of housing two The hollow telescopic joint being connected with the 311a of housing two be tail end telescopic joint 312a, the hollow telescopic joint positioned at the distalmost end of housing two is Head end telescopic joint 312d, the hollow telescopic joint being arranged between tail end telescopic joint and head end telescopic joint are intermediate warp section, tail end Telescopic joint 312a and head end telescopic joint 312d set one respectively, and intermediate warp section is at least provided with one.

Referring to shown in accompanying drawing 1,2,14,18, in the present embodiment, telescopic joint sets four altogether, and intermediate warp section sets two Individual, telescopic component 312 includes tail end telescopic joint 312a, the head end telescopic joint 312d away from housing two being connected with the 311a of housing two And intermediate warp section b, intermediate warp section c between tail end telescopic joint 312d and head end telescopic joint 312a are arranged at, tail end is stretched For casing coupling 312a with the 311a of housing two to be fixedly connected, intermediate warp section b is socketed on head end telescopic joint 312d outside, intermediate warp Section c is socketed on intermediate warp section b outside, and tail end telescopic joint 312a is socketed on intermediate warp section c outside, tail end telescopic joint 312a is fixedly mounted on the 311a of housing two inside, and tail end telescopic joint 312a position is fixed, and ensures that telescopic component 312 is stretching During, avoid the 311f of clockwork spring one from losing the support force of tail end telescopic joint 312a inwalls in contraction process, and cause to bend.

Referring to accompanying drawing 19, telescopic joint is both ends open, the rectangular cylindrical component of inner hollow, one end of telescopic joint be provided with to Protrude and set for the built-in step 312f to another telescopic joint position-limiting action inside insertion, the other end of telescopic joint in inside It is outwardly convex go out and the external steps that are engaged of set built-in step 312f on another telescopic joint to outside socket 312e, during telescopic component 312 is extended, built-in step 312f is engaged with external step 312e, to socket-connecting Two telescopic joints play position-limiting action, when the external step 312e set by the end of internally positioned telescopic joint and outside stretch After built-in step 312f contacts set by the end of casing coupling, two telescopic joints to socket-connect stop relative movement, intermediate warp section B, intermediate warp section c head end（One end away from the 311a of housing two）The built-in step 312f to contract is provided with, centre is stretched Casing coupling b, intermediate warp section c afterbody（Close to the 311a of housing two one end）It is provided with outwardly external step 312e, tail Hold telescopic joint 312a head end（One end away from the 311a of housing two）The built-in step 312f to contract should be provided with, head end is stretched Casing coupling 312d afterbody（Close to the 311a of housing two one end）Outwardly external step 312e should be provided with, i.e., previous section is stretched The afterbody external diameter of casing coupling is more than the head end internal diameter of later section telescopic joint（Previous section telescopic joint " and " later section telescopic joint " are relative Location expression, i.e. " previous section telescopic joint " are the nearer telescopic joints of two neighboring telescopic joint middle-range shrinking away from theshell body 311a, and " later section is stretched Casing coupling " is the telescopic joints of the two neighboring 311a of telescopic joint middle-range shrinking away from theshell body two farther out）, thus form position limiting structure；Tail end stretches Section 312a afterbody can also be provided with outwardly external step 312e, using being arranged at tail end telescopic joint 312a afterbodys Tail end telescopic joint 312a is arranged in the 311a of housing two by external step 312e, is offered on the 311a of housing two and is allowed tail end telescopic joint The avoid holes that 312a is passed through, the diameter of the avoid holes are less than the overall diameter of the external step 312e on tail end telescopic joint 312a, made External step 312e on tail end telescopic joint 312a is in the 311a of housing two all the time, avoid telescopic component 312 extend after with The 311a of housing two departs from.

Referring to accompanying drawing 14,20,21, cleaning mechanism 80 includes housing 1, and housing 1 is provided centrally with cylinder, and Offer the bayonet socket through wall thickness on cylinder barrel, the coaxial movable sleeve of cylindrical outer is connected to clockwork spring 2 830, clockwork spring 2 830 with The mode multi-lay winding of concentric circles on the external cylindrical surface of cylinder, wherein clockwork spring 2 830 be located at innermost layer one end be provided with The tail end buckle 832 of bayonet socket matching, clockwork spring 2 830 by the cooperation of tail end buckle 832 and cylinder upper latch notch realize clockwork spring two with Housing 1 is fixedly connected so that clockwork spring 2 830 can complete that energy storage, clockwork spring 2 830 and housing one are wound and completed around cylinder Be additionally provided with the fastening bushing 820 for clockwork spring 2 830 being sealed in housing 1, described fastening bushing between 810 820 wall portion is circumferentially spaced to offer bayonet socket 1 and bayonet socket 2 822, and wherein bayonet socket 2 822 is with being arranged at clockwork spring 2 830 The head end buckle 831 of outermost layer side coordinates so that clockwork spring 2 830 remains energy storage state, is additionally provided with housing 1 With fastening the coaxially arranged cleansing bar band 840 of bushing 820, described cleansing bar band 840 in concentric circles multi-lay winding in Fasten the outside of bushing 820, wherein cleansing bar 840 is with being provided with the buckle that is matched with bayonet socket 1 positioned at the side of innermost layer 841, cleansing bar band 840 realizes cleansing bar band 840 by fastening bushing by the cooperation of buckle 841 and cylinder upper latch notch 1 820 are fixedly connected with housing 1 so that cleansing bar band 840 can realize around fasten bushing 820 be completely wound while, lead to Cross the energy storage of clockwork spring 2 830 and exoergic realizes the winding and release of cleansing bar band 840.

Strainer 70 is additionally provided with housing 1, strainer 70 is located at the exit of cleansing bar band 840, tensioning Mechanism 70 include support 1, be arranged in support 1 and can around the pressure roller 2 730 that own axes rotate, be arranged at housing It is used for what is promoted pressure roller 2 730 to be moved towards cleansing bar band 840 and be tensioned cleansing bar band 840 between one 810 and support 1 3rd spring 720, the width of the central axis and cleansing bar band 840 of described pressure roller 2 730 are consistent, cleansing bar band 840 suspension end Matching installation has hitch 842, and hitch 842 is removably socketed on head end telescopic joint 312d suspension end；Cleaning Band 840 possesses three kinds of states, and one is：Telescoping mechanism 310 is in off working state, work of the cleansing bar band in clockwork spring 2 830 With the inside of the lower housing 1 positioned at cleaning mechanism 80, secondly being：Telescoping mechanism 310 is in running order and telescoping mechanism 310 telescopic component 312 extend out to desktop 10 by rotating disk 30, and now cleansing bar band 840 stretches out with the stretching of telescopic component 312 Housing 1 is simultaneously brought into close contact in telescopic component 312 perpendicular to desktop 10 and close to housing one in the presence of strainer 70 810 outer wall, thirdly being：Telescoping mechanism 310 is in running order and the telescopic component of telescoping mechanism 310 312 is received by desktop 10 Accommodating cavity inside is reduced to, now, cleansing bar band 840 shrinks with the contraction of telescopic component 312 and in the work of clockwork spring 2 830 The inside of housing 1 is collapsed under and is wound in the outside for fastening bushing 820.

Referring to accompanying drawing 2,26,27,28, cleaning mechanism 80 is mounted at rotating disk 30, the bag of lock 90 by lock 90 The first locked groove 940 for being arranged at rotating disk 30 is included, the closing piece that can be slided along the first locked groove length direction is provided with the first locked groove 940 910, the 4th spring 930 is provided between the locked groove 940 of closing piece 910 and first, the reply tension force of the 4th spring 940, which is used to promote, to be locked Block 910 is moved along the length direction of the first locked groove 940 to the direction close to cleaning mechanism 80, and the second locked groove is additionally provided with rotating disk 30 950, the second locked groove 950 is mutually perpendicular to the first locked groove 940 and the second locked groove 950 is mutually connected with the first locked groove 940, the second lock Matching has lock core 920 in groove 950, and lock core 920 can be transported in the interior edge of the second locked groove 950 perpendicular to the length direction of the first locked groove 940 Dynamic, wherein closing piece 910 is towards the lockhole through closing piece 910 is offered on the end face of lock core 920, close to the 4th spring in lockhole 930 side is provided with the first inclined-plane, and the distance between the first described inclined-plane and lock core 920 are along lockhole depth direction by closing piece 910 point to end face relative with the end face on closing piece 910 towards the end face of lock core 920 gradually increases, described lock core 920 and lock The mating end in hole is provided with the second inclined-plane matched with the inclined-plane of lockhole first, the distance edge between the second inclined-plane and the 4th spring 930 Lockhole depth direction points to end face relative with the end face on closing piece 910 towards the end face of lock core 920 by closing piece 910 and gradually increased Greatly, the breach to match with closing piece 910 is offered on the housing 1 of cleaning mechanism 80, by way of manpower pressing, to lock Core 920 applies the pressure along the axis direction of lock core 920 so that lock core 920 is along the second locked groove 950 to close to the first locked groove 940 Direction is moved, further, the second inclined-plane and the first contact of incline plane on lockhole, the second inclined-plane of lock core 920 on lock core 920 Slided on the first inclined-plane on closing piece 910 and promote length direction of the closing piece 910 along the first locked groove 940 to away from cleaning mechanism 80 direction motion, coordinates until closing piece 910 departs from the breach on housing 1, now can be by cleaning structure from rotating disk Disassemble, when external force removes, closing piece 910 is in the presence of the back stretch of the 4th spring, along the length of the first locked groove 940 Direction is moved to the direction of close cleaning mechanism 80 and the completion that is finally engaged with the breach on housing 1 is to cleaning mechanism 80 are locked.

Referring to accompanying drawing 22,23,24,25, pressure control mechanism includes motor 3 650, and the output end matching of motor 3 650 has Chute 660, the output shaft end of motor 3 650 are connected with threaded rod 670, and threaded rod 670 is arranged in chute 660 and threaded rod Matched thread slider 630, the wherein central axial direction of threaded rod 670 and the length side of chute 660 are provided with 670 To being consistent, the revolving force that threaded rod 670 provides causes guiding side of the thread slider 630 along chute 660 on threaded rod 670 Suspended to motion, in chute 660 close to threaded rod 670 and be additionally provided with pushing block 620 at end, between thread slider 630 and pushing block 620 Be provided with second spring 640,640 coaxial pivot bush unit of second spring outside threaded rod 670, one end of second spring 640 with Thread slider 630 connects, the other end and pushing block 620 connect, and second spring 640 is used to promote pushing block 620 along the length side of chute 660 Moved to the direction away from motor 3 650, side of the pushing block 620 away from motor 3 650 is connected with trim ring 610, trim ring 610 include being connected to pushing block 620 and the hold-down segment for receiving the drive section 612 of thrust, being arranged at the top of slip gear 414, Drive section 612 is located at the inside of chute 660 and along can be moved perpendicular to the guide direction of chute 660, and described hold-down segment is and friction The ring-type circle body that gear 414 coaxially be arranged in parallel, support 416 is additionally provided with above-mentioned center of turntable, described support 416 wraps Pressure stage and canned paragraph are included, wherein pressure stage is circle coaxially arranged with slip gear 414 and above slip gear 414 Shape pressing plate, is provided with canned paragraph between circular pressing plate and rotating disk 30, one end of canned paragraph is fixedly connected with the bottom of rotating disk 30, is another End is connected with circular pressing plate, and slip gear 414 is between circular pressing plate, friction boss, and circular pressing plate rubs to control The largest interval of gear 414 and friction boss, wherein, trim ring 610 is arranged with circular pressing plate coaxial line and trim ring 610 may pass through Circular pressing plate and the downward pressure of vertical direction that applies to slip gear 414；More optimally, the bottom surface of circular pressing plate and friction Interval between boss upper surface is equal to the thickness of slip gear 414；Trim ring 610 is towards symmetrical on the end face of slip gear 414 It is provided with pressure roller 1, the minimum point on pressure roller 1 is located at the lower section of the place plane of trim ring 610, described pressure roller 1 It can be rotated around own axes, described drive section is flexibly connected with pushing block 620, is provided with pushing block 620 and is connected with drive section 612 Tactile inclined-plane one, inclined-plane one to the distance of the bottom of chute 660 is along the length direction of chute 660 by close to motor 3 650 to remote electricity Machine 3 650 gradually increases, and the inclined-plane two corresponding with inclined-plane one, the inclined plane part and chute on inclined-plane two are provided with drive section 612 Interval between 660 trench bottom by close motor 3 650 along the length direction of chute 660 to away from motor 3 650 by gradually being increased Greatly, dashpot 613 is additionally provided between drive section and hold-down segment, the groove depth direction of the dashpot 613 is perpendicular to threaded rod 670 Central axis, the meaning for setting up dashpot 613 herein is, when the present invention is in gentle pattern（When having dinner）, dining Personnel apply to rotating disk 30 when external force forces the rotating disk 30 to stop operating or when the present invention is in cleaning mode, in cleaning process In when running into more swill, now the external resistance suffered by rotating disk 30 is more than between slip gear 414 and friction boss 110 Caused frictional force, skidding will be produced between slip gear 414 and friction boss 110, lasting skidding can be to friction teeth Wheel 414 and the form friction pattern 414a on friction boss 110 surface cause to wear, and cause to be driven showing for deficiency during subsequent normal operation As being played a protective role by setting up dashpot 613 to transmission mechanism, specifically, being rubbed when external resistance suffered by rotating disk 30 is more than When wiping the frictional force between gear 414 and friction boss 110, trim ring 610 is in the presence of slip gear 414 due to dashpot 613 presence produces beats along the central axis of slip gear 414 to the direction away from slip gear 414, now slip gear 414 Pressure, which reduces, between friction boss 110 is in slipping state, when external resistance is less than slip gear 414 and friction boss 110 Between frictional force when, trim ring 610 returns to operating position, slip gear 414 in the presence of the elastic restoring force of dashpot 613 It is driven and continues between friction boss 110, so repeatedly；During real work, motor 3 650 drives threaded rod 670 around certainly Body axis rotate, thread slider 630 threadingly bar 670 axis direction to close to motor 3 650 direction or to away from electricity The direction motion of machine 3 650, so as to promote pushing block 620 to the direction away from motor 3 650 or traction by second spring 640 Pushing block 620 moves to the direction close to motor 3 650, further so that trim ring 610 is along perpendicular to the direction of threaded rod 670 Upwardly or downwardly move, pressure control mechanism 60 is in three kinds of states in the present embodiment, and one is：At pressure control mechanism 60 In off working state（I.e. gentle pattern）, the normal pressure between slip gear 414 and friction boss 110 by support by tentatively being applied The trim ring 610 of pressure provides, and the normal pressure between slip gear 414 and friction boss 110 now is smaller, caused frictional force Also it is smaller, rotating disk 30 slowly rotate and can be in rotation in the presence of external force optional position stop operating, and removed in external force Recover slowly to rotate afterwards；Secondly it is：Pressure control mechanism 60 is in running order（That is cleaning modes）Now motor 3 650 passes through Threaded rod 670 drives thread slider 630 to move to distalmost end of the threaded rod 670 away from motor 3 650, while thread slider 630 Trim ring 610 is promoted by second spring 640, and makes trim ring 610 minimum along being moved downwardly to perpendicular to the direction of threaded rod 670 Point, now the normal pressure between trim ring 610 and slip gear 414 reach maximum, further, slip gear 414 and friction projection Normal pressure between platform 110 reaches maximum, and the frictional force between slip gear 414 and friction boss 110 reaches maximum, now turns The revolving force that disk 30 is subject to is maximum；Thirdly it is：Pressure control mechanism 60 is in running order（That is cleaning mode）, now motor three 650 drive thread slider 630 to move to centre position of the threaded rod 670 away from motor 3 650, while spiral shell by threaded rod 670 Line sliding block 630 promotes trim ring 610 by second spring 640 and trim ring 610 is transported downwards along perpendicular to the direction of threaded rod 670 It is dynamic, now, the pressure increase between trim ring 610 and slip gear 414（Between gentle pattern and cleaning modes）, friction teeth Pressure between wheel 414 and friction boss 110 increases（Between gentle pattern and cleaning modes）, the rotation suffered by rotating disk 30 Turn power increase（Between gentle pattern and cleaning modes）.

Referring to accompanying drawing 9-13, circular hole is offered at the center of rotating disk 30, desktop 10 and slip gear 414, it is same in circular hole Axle matching has conducting slip ring, and described conducting slip ring includes fixed mount 416c, conducting ring 416b, conductive bushing 416a, conducting ring Conducting ring annular groove is provided with 416b and conducting ring annular groove is connected with power lead, fixed mount 416c is installed on desktop 10, close The external 416c1 of step one, described conducting ring 416b and external 416c1, step one are provided with fixed mount 416c suspension end Matching somebody with somebody and coaxial pivot bush unit is on the outside of fixed mount 416c, described conductive bushing 416a is coaxially socketed on the outside of conducting ring 416b, Conductive bushing 416a can be rotated around conducting ring 416b central axis, and brush 416a1, brush are provided with conductive bushing 416a The convex conductive part to match with conducting ring annular groove is provided with 416a1, and is revolved in conductive bushing 416a around conducting ring 416b Pressure contact is kept with conducting ring annular groove during turning, is additionally provided with the outside of conductive bushing 416a for connecting electrical appliance wire Socket, during work, extraneous power supply is connected by wire and conducting ring annular groove, and conductive bushing 416a rotates around conducting ring 416b During connected by brush 416a1 and conducting ring 416b, electrical equipment with the socket on conductive bushing 416a by being connected Electric power is obtained, the electrical equipment in the present embodiment is motor 1, the 311b of motor two, motor 3 650 and controller 50.

A kind of torsion regulating system method of Intelligent dining table rotary top, its step are：

During dining：

Switch on power, turn on the power button 211, select gentle pattern, now, controller 50 controls the first power set 40 to operate And driving rotating disk 30 slowly rotates relative to desktop 10, now controller 50 controls clearing apparatus, pressure control mechanism 60 to be in non- Working condition, because pressure control mechanism 60 is in off working state, the malleation between slip gear 414 and friction boss 110 Power is provided by the trim ring 610 tentatively to be pressed by support, the normal pressure between slip gear 414 and friction boss 110 now Smaller, caused frictional force is also smaller, rotating disk 30 slowly rotate and can be in rotation in the presence of external force optional position stop Rotation stop is moved, and recovers slowly to rotate after external force removes, and vegetable is positioned over upper cover plate 20, slowly rotates and can stop operating Rotating disk 30 conveniently have dinner personnel clamp vegetable；

After dining finishes and removes tableware：

By the mode of operation of dining table by gentle pattern switching to cleaning modes, now, controller 50 controls the first power set 40 Operating, the driving rotating disk 30 of the first power set 40 rotates relative to desktop 10, and the control pressure controlling organization 60 of controller 50 operates, Pressure control mechanism 60 is used for the pressure for the first power output part and friction boss for adjusting the first power set 40, so as to adjust Save the torsion of rotating disk 30；At the same time, controller 50 controls the second power set 311 driving telescoping mechanism 310 to cause flexible group Part 312 extend out to desktop 10 and with tentatively being cleared up desktop 10 with cleaning mechanism 80 from accommodating cavity.

The torsion regulating system method of above-mentioned Intelligent dining table rotary top also includes cleaning mode：

The mode of operation of dining table is switched into cleaning mode by cleaning modes, now, controller 50 controls the first power set 40 Operating, the driving rotating disk 30 of the first power set 40 rotates relative to desktop 10, and the control pressure controlling organization 60 of controller 50 operates, At the same time, controller 50 controls the second power set 311 driving telescoping mechanism 310 to cause telescopic component 312 by housing cavity It extend out to desktop 10 and coordinates with cleaning mechanism 80 and desktop 10 is further cleared up, the rotating disk 30 in cleaning mode rotates Speed cleans the cleaning dynamics that dynamics is less than cleaning modes between gentle pattern and cleaning modes.

The foregoing description of the disclosed embodiments, professional and technical personnel in the field are enable to realize or using the present invention； A variety of modifications to these embodiments will be apparent for those skilled in the art, defined in the present invention General Principle can not depart from the present invention spirit or scope in the case of, realize in other embodiments.Therefore, originally Invention will not be defined to the embodiments shown herein, and be to fit to and principles disclosed herein and features of novelty Consistent most wide scope.

Claims (5)

1. the torsion regulating system of Intelligent dining table rotary top, including desk body, desk body includes the desktop for bearing article, connect with ground Touch for supporting desktop feet and be arranged between desktop and feet and be used to connect desktop and feet and transmit support force Table leg, desktop are provided centrally with rotating disk, and rotating disk is coaxially arranged with desktop and rotating disk can carry out 360 degree around the central axis of desktop Rotation, rotating disk matching have upper cover plate, and rotating disk cooperatively forms closed accommodating cavity with upper cover plate, it is characterised in that accommodating cavity Inside it is provided with the pressure control mechanism for switching working mode, the first power set and controller that driving rotating disk rotates, Pressure control mechanism is used for the cleaning dynamics for controlling clearing apparatus, and controller is used for the switching for controlling cleaning modes.

2. the torsion regulating system of Intelligent dining table rotary top according to claim 1, it is characterised in that in described desktop Friction boss is provided with the heart and friction boss is towards friction striped is provided with the end face of rotating disk, rotating disk is coaxially socketed on friction Outside the boss and can around friction boss with respect to desktop carry out 360 degree of rotary motions.

3. the torsion regulating system of Intelligent dining table rotary top according to claim 1 or 2, it is characterised in that described first Power set include being installed on the motor one of rotating disk inwall, are socketed on the power input part of the output shaft end of motor one, for passing Pass the first mediation member, the slip gear of revolving force（First power output part）, the first power input unit of driving of motor one Part is rotated, and the first power input part drives slip gear to rotate by the first mediation member, and described slip gear is set In rotating disk pivot and can be rotated around its center axis, slip gear is with being additionally provided with and rubbing in the mating surface for the boss that rubs Line is wiped, realizes rotating disk around the relative desktop of desktop-centric with the frictional fit of friction boss by slip gear between rotating disk and desktop Carry out 360 degree of rotary motion.

4. the torsion regulating system of Intelligent dining table rotary top according to claim 1 or 2, it is characterised in that slip gear Top is provided with pressure control mechanism, the normal pressure that pressure control mechanism can control slip gear between the boss that rubs.

5. the torsion regulating system of Intelligent dining table rotary top according to claim 4, it is characterised in that pressure control mechanism bag Motor three is included, the output end matching of motor three has chute, and the output shaft end of motor three is connected with threaded rod, and threaded rod is arranged in cunning Matched thread slider, wherein the length side of the central axial direction of threaded rod and chute are provided with groove and on threaded rod To being consistent, the revolving force that threaded rod provides causes thread slider to be moved on threaded rod along the guide direction of chute, chute Pushing block is additionally provided with interior close threaded rod suspension end, second spring is provided between thread slider and pushing block, second spring is same Axle pivot bush unit is outside threaded rod, and one end of second spring is connected with thread slider, the connection of the other end and pushing block, second spring For promoting pushing block to be moved along track length direction to the direction away from motor three, side of the pushing block away from motor three is flexibly connected There is trim ring, trim ring includes being connected to pushing block and drive section, the hold-down segment being arranged above slip gear for receiving thrust, driven Dynamic section is located inside chute and edge can move perpendicular to chute guide direction.