CN109114700A - Clarifier built-in lock clamping method for house inner air-cleaning - Google Patents

Abstract

The invention discloses the clarifier built-in lock clamping methods for house inner air-cleaning comprising: process is locked in the insertion of (one) air cleaning unit；Manually apply the thrust on insertion enclosure body inner cavity groove depth direction to air cleaning unit, air cleaning unit is moved to insertion enclosure body inner cavity, when the locking section and touch shoe contact for locking snap-gauge, locking snap-gauge pushes the depth direction for touching sliding block along guide hole to move to the direction close to shell, the final locking hole for pushing the first locking post, the second locking post to pass through on closing shell is protruding, in the process, second spring completes the storage of elastic potential energy；(2) process is locked in the releasing of air cleaning unit；Manually stir the folding section of locking snap-gauge, so that the first locking post, the second locking post are detached from the cooperation with arc guiding hole, finally, the first locking post, the second locking post are collapsed into closing shell by locking hole, at this point, the lock release between air cleaning unit and insertion shell.

Description

Clarifier built-in lock clamping method for house inner air-cleaning

The present invention be the applying date be on 09 25th, 2017, application No. is: 2017108742003, entitled " air The divisional application of the patent of invention of the insertion locking and lock release method of clarifier ".

Technical field

The present invention relates to a kind of installation methods of air purifier, and in particular to a kind of for the net of house inner air-cleaning Change device built-in lock clamping method.

Background technique

With the raising of people's daily life level, the problem of people are to air quality, is increasingly paid attention to, and possesses health Indoor air environment is particularly significant to human health, and most of household mosaic air purifier currently on the market usually requires Mounting groove is opened up on wall, has not only broken up the mechanical property of building, while after installation, later period disassembly is not easy, because The filter core of this air purifier is difficult to obtain effective cleaning, so that filter material is obtained because being difficult to when long-time service results in blockage Timely cleaning or replace causes the ability of complete machine purification air smaller and smaller or even filter material bacterium severe overweight, the sky of filtering Makings amount degradation, brings potential hazard to family.

Summary of the invention

To solve the deficiencies in the prior art, the object of the present invention is to provide a kind of, and the air cleaning with self-locking function fills It sets.

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

For the clarifier built-in lock clamping method of house inner air-cleaning, method is:

(1) process is locked in the insertion of air cleaning unit；

S1: the thrust on insertion enclosure body inner cavity groove depth direction, air cleaning unit manually are applied to air cleaning unit It is moved to insertion enclosure body inner cavity, the locking section for locking snap-gauge is contacted with the closing housing sidewall of air cleaning unit, locking The inner cavity of snap-gauge towards insertion enclosure body rotates clockwise, and locking clamp strip is moved torsion bar ontology and rotated clockwise, torsion bar sheet Body drives release link to be moved from the bottom of arc guide barrel along cell wall to notch direction, so that release link, which pushes, stores power sleeve along torsion bar Body central axis is moved to the direction close to third spring, stores power sleeve compresses third spring, and third spring is in energy storage shape State continues to be packed into air cleaning unit, and locking snap-gauge continues to be rotated in the clockwise direction, so that release link continues along arc The cell wall of shape guide groove is moved to notch, when release link moves to notch, is locked the locking section of snap-gauge and is touched shoe contact, this When third spring stroke be compressed into it is most short；

S2: when the locking section and touch shoe contact for locking snap-gauge, locking snap-gauge, which pushes, touches sliding block along the depth side of guide hole It is moved to the direction close to shell, further, touches sliding block and push sliding block to the direction close to shell by the first push rod Movement, link mechanism moves with sliding block to close to the direction of shell, link mechanism when being moved to shell, positioned at guide pad it Between connecting rod around the hinged axial azimuthal rotational motion close to each other of connecting rod, meanwhile, the first hinge joint and the second hinge joint are the One connecting rod, second connecting rod, third connecting rod, fourth link and position-limit mechanism collective effect under moved to direction close to each other And the first spring is compressed, so that the first spring completes the storage of elastic potential energy, in the process, link mechanism is perpendicular to guide groove Length elongation in guide direction, the guide rod slide in offset guide hole, and then push eccentric wheel in itself rotation The heart carries out clockwise rotation, and the eccentric wheel of rotation drives arc-shaped guide plate rotation, and further, arcuately guide plate rolls guide wheel So that the second push rod is moved along the guide direction of guide groove to the direction far from shell, it is final to push the first locking post, the second locking The locking hole that column passes through on closing shell is protruding, and in the process, second spring completes the storage of elastic potential energy；

The eccentric wheel includes eccentric wheel ontology, and eccentric setting offsets guide hole, the offset guide hole on eccentric wheel ontology Match with above-mentioned guide rod, guide rod can move in offset guide hole along the offset direction for deviating guide hole, the bias Wheel is installed on shell and can make rotating motion around own axes, and wherein the rotation center of eccentric wheel is located at link mechanism stretching, extension side To side, be also provided with mounting hole on the shell, the center of the mounting hole is located at link mechanism direction of extension The right, offers the connecting hole to match with mounting hole at the rotation center of the eccentric wheel, in mounting hole and connecting hole Equipped with connecting shaft, the central axial direction of connecting shaft and the guide direction of guide groove are consistent, are additionally provided with arc on the eccentric wheel and lead Plate is provided with driven locking assembly between arc directing plate and closing shell, the driven locking assembly include the second push rod, Second spring, one end of the second push rod and arc-shaped guide plate sliding contact, the other end pass through closing shell and stretch out outside locking device, The central axial direction of second push rod and the guide direction of guide groove are consistent, are provided with the second bullet between the second push rod and closing shell The second push rod of resilient force of spring, second spring is moved along center axis direction to the direction close to eccentric wheel, described Arc directing plate moved along center axis direction far from the direction of eccentric wheel with the second push rod of rotation forces of eccentric wheel；

The link mechanism is the mobilizable four-bar mechanism being made of four connecting rods, and four connecting rods are respectively One connecting rod, second connecting rod, third connecting rod, fourth link, it is wherein hinged between first connecting rod, second connecting rod and sliding block three and should The core wire direction of articulated shaft is consistent with the guide direction of guide groove, hinged between third connecting rod, fourth link and eccentric wheel three, and The core wire direction of the articulated shaft is consistent with the guide direction of guide groove, and the first connecting rod and fourth link are hinged, and this is hinged The core wire direction of axis is consistent with the guide direction of guide groove, and the second connecting rod and third connecting rod are hinged, and the core of the articulated shaft Line direction is consistent with the guide direction of guide groove, and the hinge joint between the first connecting rod and fourth link is the first hinge joint, Hinge joint between second connecting rod and third connecting rod is the second hinge joint, is provided with bullet between the first hinge joint and the second hinge joint Property part, the first hinge joint of resilient force of elastic component and the second hinge joint towards moving in the direction away from each other；

It is offered in insertion enclosure body and tightens hole with what the first locking post, the second locking post matched, air cleaning unit exists During being packed into insertion shell, the locking hole that the first locking post, the second locking post pass through on closing shell is protruding；

When tightening hole and when locking hole coaxial line, the first locking post, the second locking post elongation reach maximum value, at this point, the One locking post, the second locking post insertion it is corresponding tighten in hole, air cleaning unit be fixed is locked at insertion shell in；

S3: continuing to be packed into air cleaning unit, the bottom of air cleaning unit and blinds baffle contacts, further, The bottom of air cleaning unit push the first mounting post in blinds clapboard body around the second mounting post in arc guiding hole to leaning on The direction of nearly insertion enclosure body bottom rotates, at this point, there is vacancy at the separate insertion enclosure body bottom of arc guiding hole, it is described The first locking post, the second locking post stretch out closing and shell and be inserted into arc guiding hole, remove external force, air cleaning unit at this time It is fixed and is locked at insertion enclosure interior；

(2) process is locked in the releasing of air cleaning unit；

S4: manually stirring the folding section of locking snap-gauge, so that locking snap-gauge continues around rotationally clockwise, finally to lock The locking section and touch sliding block of snap-gauge are detached from and cooperate, at this point, trigger force disappears, the first spring discharges elastic potential energy, the first spring The first hinge joint of resilient force and the second hinge joint towards moving in the direction away from each other, further, link mechanism edge The guide direction of guide groove is moved to the direction far from shell, and the connecting rod between guide pad is detached from the constraint of guide pad, is located at Connecting rod between guide pad is around the rotary motion in the direction away from each other of connecting rod articulated shaft, and in the process, link mechanism is hanging down Directly in the Length Contraction in guide groove guide direction, the guide rod slides in offset guide hole, and then pushes eccentric wheel around certainly Body rotation center carries out counter-clockwise rotary motion；The eccentric wheel driving arc-shaped guide plate rotation of rotation, second spring discharge elastic potential Can, the elastic force of second spring drives guide wheel by the second push rod, and arcuately guide plate rolls so that the second push rod is along guide groove guide wheel Guide direction is moved to the direction close to shell, and mounting blocks move synchronously, further, so that the first locking post, the second locking Column is detached from the cooperation with arc guiding hole, and finally, the first locking post, the second locking post are collapsed into closing shell by locking hole, At this point, the lock release between air cleaning unit and insertion shell；

S5: sliding block is moved along the guide direction of guide groove to the direction far from shell with the movement of link mechanism, further, sliding Block pushes the guide direction for touching sliding block along guide groove to move to the direction far from shell by the first push rod, finally, touches sliding block Restore initial position under the cooperation of limiting slot and spacing block set, after air cleaning unit is taken out out of insertion shell, unclamps Snap-gauge is locked, third spring discharges elastic potential energy, and the resilient force of third spring stores power sleeve along the central axis of torsion bar ontology Line direction is moved to close to the direction of release link, so that the cell wall of release link arcuately guide groove is moved from notch to slot bottom, simultaneously Torsion bar is flipped, and under the cooperation of limit arc groove and limited block, torsion bar is restored to initial position.

The beneficial effect of the present invention compared with prior art is, when using the present invention, without by air purifier with build It builds object wall to be directly connected to, air purifier is installed additional in insertion shell, insertion shell is connect with building masonry wall, is replaced When filter core in air purifier, air purifier is taken out from insertion shell, installation, replacement are convenient, while will not Building masonry wall is destroyed repeatedly.

Detailed description of the invention

In order to illustrate the embodiments of the present invention more clearly, attached drawing needed in the embodiment will be done simply below It introduces, it should be apparent that, drawings in the following description are only some embodiments of the invention, for ordinary skill people For member, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is overall structure diagram of the invention.

Fig. 2 is the cooperation schematic diagram of air cleaning unit and insertion shell of the invention.

Fig. 3 is the cooperation schematic diagram of locking device and purification device of the invention.

Fig. 4 is locking device schematic diagram of the invention.

Fig. 5 is the arrangement schematic diagram of retaining mechanism of the invention in locking device.

Fig. 6 is retaining mechanism schematic diagram of the invention.

Fig. 7 is retaining mechanism schematic diagram of the invention.

Fig. 8 is sliding block of the invention, link mechanism, eccentric wheel cooperation schematic diagram.

Fig. 9 is the cooperation schematic diagram of eccentric wheel and driven locking assembly in retaining mechanism of the invention.

Figure 10 is the arrangement schematic diagram of retaining mechanism of the invention in locking device.

Figure 11 is the arrangement schematic diagram of retaining mechanism of the invention in locking device.

Figure 12 is the arrangement schematic diagram of retaining mechanism of the invention in locking device.

Figure 13 is insertion schematic diagram of housing structure of the invention.

Figure 14 is insertion shell cross-sectional view of the invention.

Figure 15 is driven locking structural scheme of mechanism of the invention.

Figure 16 is torsion bar ontology of the invention, clamps reset assembly, third spring cooperation schematic diagram.

Figure 17 is torsion bar ontology of the invention, clamps reset assembly, third spring cooperation cross-sectional view.

Figure 18 is torsion bar ontology of the invention, clamps reset assembly, third spring cooperation cross-sectional view.

Figure 19 is torsion bar ontology of the invention, clamps reset assembly, third spring fit structure schematic diagram.

Figure 20 is that air cleaning unit of the invention installs the cross-sectional view in insertion shell.

Figure 21 is the enlarged diagram of A in Figure 20.

It is denoted as in figure:

100, air cleaning unit；

110, locking device；111, shell；112, guiding mechanism；112a, the first guide pad；112b, the second guide pad；112c, Third guide pad；112d, the 4th guide pad；113, position-limit mechanism；113a, the first position stopping arch plate；113b, the second position stopping arch plate； 114, guide groove；115, mounting hole；116, shell is closed；116a, locking hole；

120, purification device；

200, it is embedded in shell；

210, it is embedded in enclosure body；211, arc guiding hole；

220, blinds partition；221, blinds clapboard body；221a, the first mounting post；221b, the second mounting post；

300, retaining mechanism；

310, trigger assembly；311, sliding block is touched；312, the first push rod；313, idler wheel；

320, sliding block；

330, link mechanism；331, connecting rod；331a, first connecting rod；331b, second connecting rod；331c, third connecting rod；331d, the 4th Connecting rod；332, the first connection frame；333, the second connection frame；334, the first spring；335, third connection frame；335a, guide rod；

340, eccentric wheel；341, eccentric wheel ontology；342, guide hole is deviated；343, connecting hole；344, arc-shaped guide plate；

350, driven locking assembly；351, guide wheel；352, the second push rod；353, second spring；354, mounting blocks；354a, first Locking post；354b, the second locking post；

400, driven retaining mechanism；

410, torsion bar, 411, torsion bar ontology；411a, limit arc groove；412, snap-gauge is locked；413, release link；420, it clamps multiple Hyte part；

430, third spring.

Specific embodiment

With reference to the attached drawing in the embodiment of the present invention, technical solution in the embodiment of the present invention carries out clear, complete Ground description, it is clear that described embodiments are only a part of the embodiments of the present invention, rather than whole embodiments.Based on this hair Embodiment in bright, those of ordinary skill in the art without making creative work, every other reality obtained Example is applied, the scope of the present invention is belonged to.

The first embodiment of the present invention.

As shown in Fig. 1-2 0, wall inserting air purifier, including air cleaning unit 100, insertion shell 200, lock Tight mechanism 300 and driven retaining mechanism 400, air cleaning unit 100 is mounted inside insertion shell 200, empty For filtering the air purification, retaining mechanism 300 is set on air cleaning unit 100 air purifying apparatus 100, locks machine Structure 300 is used to air cleaning unit 100 be locked in insertion shell 200, and retaining mechanism 300 is arranged to lock Switch between state and opening state, driven retaining mechanism 400 is installed on insertion shell 200, and driven retaining mechanism 400 is used for It locks mechanism 300 air cleaning unit 100 is locked in insertion shell 200, and driven retaining mechanism 400 is arranged For that can switch between locking state and opening state.

The air cleaning unit 100 includes locking device 110, purification device 120, and locking device 110 and purification fill It sets and is detachably connected between 120, its significance lies in that, locking device 110 and purification device 120, can when wherein any one is damaged Independent dismounting and change saves maintenance cost, is provided in the purification device 120 for filtering the air purification Air purifying mechanism, the locking device 110 include shell 111, closing shell 116, retaining mechanism 300, retaining mechanism 300 It is set to shell 111 and closes the accommodating cavity inside that shell is formed.

The retaining mechanism 300 includes trigger assembly 310, locking assembly, driven locking assembly 350, trigger assembly 310 For receiving and transmitting trigger force, the locking assembly is between trigger assembly 310 and driven locking assembly 350 for connecing It receives the trigger force that trigger assembly 310 transmits and trigger force is transferred to driven locking assembly 350, the driven locking assembly 350 for receiving the trigger force of locking assembly transmitting and being locked using trigger force.

More specifically, the trigger assembly 310 includes touching sliding block 311, sliding block 320, touches sliding block 311 and sliding block Be provided with the first push rod 312 between 320, one end of the first push rod 312 with touch sliding block 311 be fixedly connected, the other end and sliding block 320 sliding contacts, are provided with guide groove 114 on the shell 111, and the guide direction of guide groove 114 is perpendicular to shell 111, and first The central axial direction of push rod 312 is consistent with the guide direction of guide groove 114, offers guide hole on the closing shell 116, institute The guide hole stated matches with sliding block 311 is touched, touch sliding block 311 can the depth direction in guide hole along guide hole slide and push the One push rod 312 is moved along the guide direction of guide groove 114, and the sliding block 320 is located at 312 free end of the first push rod, and (i.e. first pushes away The end that bar 312 is contacted with sliding block 320) and shell 111 between, gap is provided between sliding block 320 and shell 111, first pushes away Bar 312 can push sliding block 320 to move along the guide direction of guide groove 114 to the direction close to shell 111.

It is more perfect, it is additionally provided with guide and limit mechanism between the touch sliding block 311 and guide groove 114, it is described Guide and limit mechanism is to be opened in the limiting slot touched on sliding block 311 and be set on guide groove 114 and the matched limit of limiting slot Convex block, the groove depth direction of the limiting slot is perpendicular to the guide direction of guide groove 114, and limiting slot is along 114 guide direction of guide groove Between width and sliding block 320 and shell 111 difference in gap be 5-10mm, preferably 8-9mm, its significance lies in that, Ke Yibao Card, which touches sliding block 311, has enough sliding distances along 114 guide direction of guide groove, so that sliding block 320 is compacted by the first push rod 312 On shell 111, the end that first push rod 312 is contacted with sliding block 320 is provided with idler wheel 313, and idler wheel 313 passes through hinged Mode is installed on the first push rod 312, and the core wire direction of the articulated shaft is vertical with the central axial direction of the first push rod 312.

The locking assembly includes link mechanism 330, eccentric wheel 340, is additionally provided with Guiding machine on the shell 111 Structure 112 and position-limit mechanism 113, link mechanism 330 between sliding block 320 and eccentric wheel 340, one end of link mechanism 330 with Sliding block 320 is flexibly connected, the other end is flexibly connected with eccentric wheel 340, when sliding block 320 is led in the promotion lower edge of the first push rod 312 When the guide direction of slot 114 is moved to the direction close to shell 111, link mechanism 330 is in guiding mechanism 112 and position-limit mechanism Eccentric wheel 340 is pushed to do clockwise rotation around itself rotation center under 113 collective effect.

More specifically, the link mechanism 330 is the mobilizable four-bar mechanism being made of four connecting rods 331, Four connecting rods are respectively first connecting rod 331a, second connecting rod 331b, third connecting rod 331c, fourth link 331d, wherein Hinged and the articulated shaft core wire direction and guide groove 114 between first connecting rod 331a, second connecting rod 331b and 320 three of sliding block Guide direction is consistent, hinged between third connecting rod 331c, fourth link 331d and 340 three of eccentric wheel, and the core of the articulated shaft Line direction is consistent with the guide direction of guide groove 114, and the first connecting rod 331a and fourth link 331d are hinged, and the articulated shaft Core wire direction it is consistent with the guide direction of guide groove 114, the second connecting rod 331b and third connecting rod 331c is hinged, and the hinge The core wire direction of spindle is consistent with the guide direction of guide groove 114, between the first connecting rod 331a and fourth link 331d Hinge joint is the first hinge joint, and the hinge joint between second connecting rod 331b and third connecting rod 331c is the second hinge joint, the first hinge Elastic component, the first hinge joint of resilient force and the second hinge joint direction of elastic component are provided between contact and the second hinge joint The direction movement being located remotely from each other, when under promotion of the sliding block 320 in the first push rod 312 along the guide direction of guide groove 114 to close to shell When the direction movement of body 111, first connecting rod 331a and second connecting rod 331b are under the action of guiding mechanism 112 around first connecting rod Hinged axial direction between 331a and second connecting rod 331b direction close to each other rotates, third connecting rod 331c and fourth link 331d Connect under the collective effect of first connecting rod 331a, second connecting rod 331b and guiding mechanism 112 around third connecting rod 331c and the 4th The direction that the hinged axial direction of bar 331d is close to each other rotates, and at the same time, the first hinge joint and the second hinge joint are in first connecting rod 331a, second connecting rod 331b, third connecting rod 331c, fourth link 331d and position-limit mechanism 113 collective effect under to mutual Close direction moves and compression elastic piece, so that elastic component completes the storage of elastic potential energy, in the process, link mechanism 330 perpendicular to the length elongation in 114 guide direction of guide groove, and then it is suitable to push eccentric wheel 340 to carry out around itself rotation center Hour hands rotary motion.

The guiding mechanism 112 is four pieces of guide pads, respectively the first guide pad 112a, the second guide pad 112b, the Three guide pad 112c, the 4th guide pad 112d, the first connecting rod 331a and second connecting rod 331b are located at the first guide pad Between 112a and the second guide pad 112b, the third connecting rod 331c and fourth link 331d be located at third guide pad 112c and Between 4th guide pad 112d, the position-limit mechanism 113 is two pieces of position stopping arch plates, respectively the first position stopping arch plate 113a, the Two position stopping arch plate 113b, first hinge joint and the second hinge joint are located at the first position stopping arch plate 113a and the second position stopping arch plate Between 113b, the wall portion that guide pad is contacted with connecting rod 331 is provided with arcuate guide surface, and arcuate guide surface makes link mechanism 330 Connecting rod 331 when being moved along the guide direction of guide groove 114 to close housing direction with sliding block 320, between guide pad Around the hinged axial azimuthal rotational motion close to each other of connecting rod 331, position stopping arch plate includes vertical limit section and Horizontal limiting section, institute The vertical limit section stated is for limiting the first hinge joint, the second hinge joint edge perpendicular to 114 guide direction of guide groove to far from shell 111 direction movement, the Horizontal limiting section is used to limit the first hinge joint, the second hinge joint edge is parallel to guide groove 114 and leads Movement is located remotely from each other to direction.

More specifically, the first connection frame 332, first connecting rod 331a, first are additionally provided at first hinge joint It is hinged between connection frame 332, fourth link 331d three, and the core wire of the articulated shaft is consistent with the guide direction of guide groove 114, institute The second connection frame 333, second connecting rod 331b, the second connection frame 333, third connecting rod 331c tri- are provided at the second hinge joint stated It is hinged between kind, and the core wire of the articulated shaft is consistent with the guide direction of guide groove 114, the first above-mentioned connection frame is led including first Bar and the first limit plate, the second connection frame include the second guide rod and the second limit plate, and the elastic component is the first spring 334, One end of first spring 334 is sheathed on the first loop bar and contacts with the first limit plate, and the other end of the first spring 334 is sheathed on Second guide rod is simultaneously contacted with the second limit plate, and first spring 334 is cylindrically coiled spring and is compressed spring, described Third connecting rod 331c, fourth link 331d, eccentric wheel 340 hinged place be provided with third connection frame 335, third connection frame 335 Including support frame and guide rod 335a, guide rod 335a and support frame cooperate third connecting rod 331c, fourth link 331d, bias 340 threes articulated connection is taken turns, wherein the central axis of guide rod 335a is consistent with the guide direction of guide groove 114.

The eccentric wheel 340 includes eccentric wheel ontology 341, and eccentric setting offsets guide hole on eccentric wheel ontology 341 342, the offset guide hole 342 matches with above-mentioned guide rod 335a, and guide rod 335a can be in offset guide hole 342 along inclined The offset direction movement of guide hole 342 is moved, the eccentric wheel 340 is installed on shell 111 and can do rotation fortune around own axes Dynamic, wherein the rotation center of eccentric wheel 340 is located at the side of 330 direction of extension of link mechanism, in the present embodiment, eccentric wheel 340 Rotation center be located at the right of 330 direction of extension of link mechanism, its significance lies in that, when link mechanism 330 does stretching routine, Offset direction of the guide rod 335a in offset guide hole 342 along offset guide hole 342 moves, so that eccentric wheel 340 be pushed to do up time Needle rotary motion.

More specifically, mounting hole 115 is also provided on the shell 111, the center of the mounting hole 115 is located at The right of 330 direction of extension of link mechanism offers at the rotation center of the eccentric wheel 340 and matches with mounting hole 115 Connecting hole 343, be matched with connecting shaft, the central axial direction of connecting shaft and leading for guide groove 114 in mounting hole 115 and connecting hole 343 It is consistent to direction.

It is additionally provided with arc-shaped guide plate 344 on the eccentric wheel 340, is arranged between arc-shaped guide plate 344 and closing shell 116 There is driven locking assembly 350, the driven locking assembly 350 includes the second push rod 352, second spring 353, the second push rod 352 one end and 344 sliding contact of arc-shaped guide plate, the other end pass through closing shell 116 and stretch out outside locking device 110, and second The central axial direction of push rod 352 is consistent with the guide direction of guide groove 114, is arranged between the second push rod 352 and closing shell 116 There is second spring 353, the second push rod of resilient force 352 of second spring 353 is along center axis direction to close to eccentric The direction movement of wheel 340, the arc-shaped guide plate is with the second push rod of rotation forces 352 of eccentric wheel 340 along center axis Direction is moved far from the direction of eccentric wheel 340.

More specifically, the driven locking assembly 350 further includes guide wheel 351, and the guide wheel 351 is set to second The end that push rod 352 is contacted with arc-shaped guide plate 344, guide wheel 351 are installed on the second push rod 352 by hinged mode, and should The core wire of articulated shaft is consistent with the direction of extension of link mechanism 330, and second push rod 352 is close to the end of closing shell 116 Portion is provided with mounting blocks 354, the central axial direction of the length extending directions of mounting blocks 354 both perpendicular to the second push rod 352 And the direction of extension of link mechanism 330, the end side of mounting blocks 354 towards closing shell 116 are arranged there are two locking post, distinguish For the first locking post 354a, the second locking post 354b, the first locking post 354a, the second locking post 354b along mounting blocks 345 length Degree direction is spaced apart, and the length of the first locking post 354a, the second locking post 354b are along the central axis side of the second push rod 352 Extend to close to the direction of closing shell 116, is offered and the first locking post 354a, second on the closing shell 116 Locking post 354b is corresponding and matched locking hole 116a, and the first locking post 354a, the second locking post 354b can pass through locking hole 116a stretches out closing hull outside.

The insertion shell 200 includes insertion enclosure body 210, and insertion enclosure body 210 is the rectangle of both ends open Shell, being embedded in Matching installation at the bottom opening of enclosure body 210 has mobilizable blinds partition 220, is embedded in enclosure body 210 Top open part be provided with the driven retaining mechanism 400 cooperated with retaining mechanism 300, the driven retaining mechanism 400 wraps Torsion bar 410 is included, torsion bar 410 is arranged between the both ends of the surface on insertion 210 length direction of enclosure body and torsion bar 410 can be around itself Axis rotation, the torsion bar 410 include torsion bar ontology 411, and locking snap-gauge 412 is provided on torsion bar ontology 411, locks snap-gauge 412 be rectangular panel body, and the length for locking snap-gauge 412 extends perpendicularly to the central axis of torsion bar ontology 411, torsion bar ontology It is additionally provided on 411 and clamps reset assembly 420.

More specifically, the blinds partition 220 includes blinds clapboard body 221, and blinds clapboard body 221 is rectangular Shape plate body and the length direction of blinds clapboard body 221 are consistent with the insertion width direction of enclosure body 210, blinds clapboard body End on 221 length directions is provided with mounting post, and mounting post is set as two, respectively the first mounting post 221a, the second peace Column 221b is filled, wherein the width direction interval cloth of the first mounting post 221a, the second mounting post 221b along blinds clapboard body 221 It sets, arc guiding hole 211, through-hole is offered in the insertion enclosure body 210, the first mounting post 221a is led with arc The matching connection of hole 211, the second mounting post 221b connect with through-hole, wherein the diameter of the first mounting post 221a and above-mentioned the The diameter of the diameter of one locking post 354a and the second locking post 354b equal (i.e. the first locking post 354a and the second locking post 354b Can match with arc guiding hole 211), the first mounting post 221a can be around the second mounting post 221b in arc guiding hole 211 The introversive direction close to insertion 210 bottom of enclosure body rotates.

More specifically, the locking snap-gauge 412 divides for locking section and folding section, it is preferred that the length of locking section is big In the length of folding section, the locking section and folding section are placed in the side of torsion bar ontology 411, and wherein locking section is for cooperating Trigger assembly 310 completes the transmitting of trigger force, and folding section is for completing driven retaining mechanism from locking state to opening state Switching, 210 open end of insertion enclosure body offer accommodation groove, and it is wide that accommodation groove is opened in insertion enclosure body 210 The side wall on direction is spent, there are two notch, one of notch is interior towards insertion enclosure body 210 for the accommodation groove setting Chamber and connected with the inner cavity, another notch of accommodation groove towards insertion enclosure body 210 opening and connected with the external world, institute Groove depth and locking snap-gauge 412 of the accommodation groove stated in insertion 210 width direction of enclosure body open and close the difference between segment length For 2-5mm, preferably 3-4mm；Groove depth and locking snap-gauge 412 of the accommodation groove in insertion 210 short transverse of enclosure body are locked Difference between tight segment length is 4-10mm, preferably 6-8mm, its significance lies in that, so that locking snap-gauge 412 may be done to Few 90 ° of rotation, to more effectively realize switching of the driven retaining mechanism 400 under locking state and opening state.

Release link 413 is additionally provided on the torsion bar ontology 411, the length direction of release link 413 is perpendicular to torsion bar sheet The central axial direction of body 411 is provided between release link 413 and insertion enclosure body 210 and clamps reset assembly 420, clamps Reset assembly 420 rotates required torsion for generating torsion bar ontology 411 under locking state and opening state.

More specifically, the clamping reset assembly 420 includes storing power sleeve, third spring 430, the storage power set Cylinder coaxial sleeve is set on torsion bar ontology 411, and the third spring 430 is located at insertion enclosure body 210 and stores between power sleeve, Third spring 430 is coaxially arranged on torsion bar ontology 411 and one end of third spring 430 is supported with insertion enclosure body 210 and connect in fact Touching, the other end and storage power barrel contacts, the storage power sleeve is between release link 413 and third spring 430, third spring 430 resilient force stores power sleeve and moves along the central axial direction of torsion bar ontology 411 to the direction close to release link 413.

The end of storage power sleeve towards the release link 413 offers arc guide barrel, the groove depth direction of arc guide barrel with The central axial direction of torsion bar ontology 411 is consistent, and groove depth extending direction, far from release link 413, release link 413 can be with torsion bar sheet The rotation of body 411 moves to slot bottom by notch along a wherein cell wall and moves to notch along another cell wall by slot bottom, herein mistake Cheng Zhong, when release link 413 with torsion bar ontology 411 rotation along wherein a cell wall moves to slot bottom by notch when, third spring 430 release elastic potential energys, third spring 430, which pushes, stores power sleeve along torsion bar ontology 411 to close to the direction of release link 413 fortune It is dynamic, when release link moves to notch along another cell wall by slot bottom, release link 413 push store power sleeve along torsion bar ontology 411 to It is moved close to the direction of third spring 430, stores power sleeve compresses third spring 430, third spring 430 completes the storage of elastic potential energy It deposits, more preferably, is provided with limited step in the storage power sleeve, described 430 one end of third spring and store in power sleeve Limited step supports real contact, the other end and supports real contact with insertion enclosure body 210.

More perfect, the torsion bar ontology 411 offers limit arc groove close to the end side for clamping reset assembly 420 411a, limit arc groove 411a and setting cooperate with the limited block in insertion enclosure body 210, to the rotation to torsion bar 410 Angle is limited.

When air cleaning unit 100 of the invention is installed into insertion shell 200: manually applying to air cleaning unit 100 Thrust in insertion 210 short transverse of enclosure body, air cleaning unit 100 are moved to insertion 210 inner cavity of enclosure body, are locked The tight locking section of snap-gauge 412 is contacted with 116 side wall of closing shell of air cleaning unit 100, locks snap-gauge 412 towards insertion shell The inner cavity of body ontology 210 rotates clockwise, and locking snap-gauge 412 drives torsion bar ontology 411 to rotate clockwise, torsion bar ontology 411 Release link 413 is driven to be moved from the bottom of arc guide barrel along cell wall to notch direction, so that release link 413, which pushes, stores power sleeve edge 411 central axis of torsion bar ontology is moved to the direction close to third spring 430, stores power sleeve compresses third spring 430, third bullet Spring 430 is in energy storage state, continues to be packed into air cleaning unit 100, and the locking continuation of snap-gauge 412 turns along clockwise direction It is dynamic, so that the cell wall that release link 413 continues arcuately guide groove is moved to notch, it is preferred that when release link 413 moves to notch When, the locking section for locking snap-gauge 412 is contacted with sliding block 311 is touched, and the stroke of third spring 430 is compressed into most short (i.e. at this time The elastic potential energy of third spring 430 reaches maximum value).

When the locking section and touch sliding block 311 of locking snap-gauge 412 contact, locking snap-gauge 412, which pushes, touches 311 edge of sliding block The depth direction of guide hole is moved to the direction close to shell 111, further, is touched sliding block 311 and is pushed by the first push rod 312 Sliding block 320 is moved to the direction close to shell 111, and link mechanism 330 is moved with sliding block 320 to the direction close to shell 111, For link mechanism 330 when moving to shell 111, the connecting rod 331 between guide pad is hinged axial close to each other around connecting rod 331 Azimuthal rotational motion, meanwhile, the first hinge joint and the second hinge joint connect in first connecting rod 331a, second connecting rod 331b, third It is moved under the collective effect of bar 331c, fourth link 331d and position-limit mechanism 113 to direction close to each other and compresses first Spring 334, so that the first spring 334 completes the storage of elastic potential energy, in the process, link mechanism 330 is perpendicular to guide groove Length elongation in 114 guide directions, the guide rod 335a is slided in offset guide hole 342, and then pushes eccentric wheel 340 Clockwise rotation is carried out around itself rotation center.

The eccentric wheel 340 of rotation drives arc-shaped guide plate 344 to rotate, and further, arcuately guide plate 344 rolls guide wheel 351 So that the second push rod is moved along the guide direction of guide groove 114 to the direction far from shell 111, it is final to push the first locking post The locking hole 116a that 354a, the second locking post 354b are passed through on closing shell 116 is protruding, in the process, second spring 353 complete the storage of elastic potential energy.

To continue to be packed into air cleaning unit 100, the bottom of air cleaning unit 100 is contacted with blinds partition 220, Further, the bottom of air cleaning unit 100 pushes the first mounting post 221a in blinds clapboard body 210 around the second installation Column 221b rotates in arc guiding hole 211 to close to the direction of insertion 210 bottom of enclosure body, at this point, arc guiding hole 211 is separate Occurs vacancy at insertion 210 bottom of enclosure body, the first locking post 354a, the second locking post 354b stretch out closing shell It 116 and is inserted into arc guiding hole 211, removes external force at this time, air cleaning unit 100, which is fixed, to be locked in insertion shell 200 Portion.

When air cleaning unit 100 of the invention takes out from insertion shell 200: manually stirring the folding of locking snap-gauge 412 Section finally makes the locking section for locking snap-gauge 412 and touches sliding block so that locking snap-gauge 412 continues around rotationally clockwise 311 are detached from cooperation, at this point, trigger force disappears, the first spring 334 discharges elastic potential energy, the resilient force of the first spring 344 the One hinge joint and the second hinge joint towards moving in the direction away from each other, and further, link mechanism 330 is led along guide groove 114 Move to direction to far from the direction of shell 111, the constraint of the disengaging guide pad of connecting rod 331 between guide pad, positioned at leading To the connecting rod 331 between block around the rotary motion in the direction away from each other of 331 articulated shaft of connecting rod, in the process, link mechanism 330 perpendicular to the Length Contraction in 114 guide direction of guide groove, and the guide rod 335a is slided in offset guide hole 342, into And eccentric wheel 340 is pushed to carry out counter-clockwise rotary motion around itself rotation center；The eccentric wheel 340 of rotation drives arc-shaped guide plate 344 rotations, second spring 353 discharge elastic potential energy, and the elastic force 353 of second spring drives guide wheel by the second push rod 352 351, guide wheel 351 arcuately guide plate 344 roll so that the second push rod 352 along 114 guide direction of guide groove to close to shell 111 side To movement, mounting blocks 354 are moved synchronously, further, so that the first locking post 354a, the second locking post 354b are detached from and arc The cooperation of guide hole 211, finally, the first locking post 354a, the second locking post 354b collapse into closing shell by locking hole 116a In 116, at this point, the lock release between air cleaning unit 100 and insertion shell 200, while sliding block 320 is with link mechanism 330 movement is moved along the guide direction of guide groove 114 to the direction far from shell 111, and further, sliding block 320 passes through first Push rod 312 pushes the guide direction for touching sliding block along guide groove 114 to move to the direction far from shell 111, finally, touches sliding block 320 restore initial position under the cooperation of limiting slot and spacing block set.

After air cleaning unit 100 is taken out out of insertion shell 200, locking snap-gauge 412 is unclamped, third spring 430 is released Elastic potential energy is put, the resilient force of third spring 430 stores power sleeve and answers along the central axial direction of torsion bar ontology 411 to close The direction movement of position bar 413, so that the cell wall of the arcuately guide groove of release link 413 move from notch to slot bottom, while the hair of torsion bar 410 Raw overturning, under the cooperation of limit arc groove 411a and limited block, torsion bar 410 is restored to initial position.

The second embodiment of the present invention.

There are two the settings of retaining mechanism 300, and retaining mechanism 300 is set to the two sides of shell 111 and about shell 111 center lines are symmetrical, and the driven retaining mechanism 400 is set as two, and driven retaining mechanism 400 is about insertion shell sheet The central axis of body 210 is symmetrical；Its significance lies in that 300 stress of retaining mechanism of the present embodiment is more for compared to embodiment one Add balance and locking effect is more preferably.

The third embodiment of the present invention.

It is offered in insertion enclosure body 210 and tightens hole with what the first locking post 354a, the second locking post 354b matched, For air cleaning unit 100 during being packed into insertion shell 200, the first locking post 354a, the second locking post 354b pass through envelope Locking hole 116a on closed shell body 116 is protruding, it is preferred that when tightening hole and locking hole 116a coaxial line, the first locking Column 354a, the second locking post 354b elongation reach maximum value, at this point, the first locking post 354a, the second locking post 354b insert Enter it is corresponding tighten in hole, air cleaning unit 100 be fixed is locked at insertion shell 200 in.

For the clarifier built-in lock clamping method of house inner air-cleaning, method is:

(1) process is locked in the insertion of air cleaning unit；

S1: the thrust in insertion 210 short transverse of enclosure body, air cleaning dress manually are applied to air cleaning unit 100 It sets 100 to move to insertion 210 inner cavity of enclosure body, locks the locking section of snap-gauge 412 and the closing shell of air cleaning unit 100 The contact of 116 side walls, the inner cavity of locking snap-gauge 412 towards insertion enclosure body 210 rotate clockwise, and locking snap-gauge 412, which drives, to be turned round Bar body 411 rotates clockwise, torsion bar ontology 411 drive release link 413 from the bottom of arc guide barrel along cell wall to notch side To movement, so that release link 413, which pushes, stores power sleeve along 411 central axis of torsion bar ontology to the direction close to third spring 430 Movement stores power sleeve compresses third spring 430, third spring 430 is in energy storage state, with air cleaning unit 100 after Continuous to be packed into, locking snap-gauge 412 continues to be rotated in the clockwise direction, so that release link 413 continues the cell wall of arcuately guide groove to slot Mouth movement, it is preferred that when release link 413 moves to notch, the locking section for locking snap-gauge 412 is contacted with sliding block 311 is touched, this When third spring 430 stroke be compressed into most short (i.e. the elastic potential energy of third spring 430 reaches maximum value)；

S2: when the locking section and touch sliding block 311 of locking snap-gauge 412 contact, locking snap-gauge 412, which pushes, touches 311 edge of sliding block The depth direction of guide hole is moved to the direction close to shell 111, further, is touched sliding block 311 and is pushed by the first push rod 312 Sliding block 320 is moved to the direction close to shell 111, and link mechanism 330 is moved with sliding block 320 to the direction close to shell 111, For link mechanism 330 when moving to shell 111, the connecting rod 331 between guide pad is hinged axial close to each other around connecting rod 331 Azimuthal rotational motion, meanwhile, the first hinge joint and the second hinge joint connect in first connecting rod 331a, second connecting rod 331b, third It is moved under the collective effect of bar 331c, fourth link 331d and position-limit mechanism 113 to direction close to each other and compresses first Spring 334, so that the first spring 334 completes the storage of elastic potential energy, in the process, link mechanism 330 is perpendicular to guide groove Length elongation in 114 guide directions, the guide rod 335a is slided in offset guide hole 342, and then pushes eccentric wheel 340 Clockwise rotation is carried out around itself rotation center, the eccentric wheel 340 of rotation drives arc-shaped guide plate 344 to rotate, further, Arcuately guide plate 344 rolls so that the second push rod is transported along the guide direction of guide groove 114 to the direction far from shell 111 guide wheel 351 Dynamic, the final locking hole 116a for pushing the first locking post 354a, the second locking post 354b to pass through on closing shell 116 is to overhanging Out, in the process, second spring 353 completes the storage of elastic potential energy；

S3: continuing to be packed into air cleaning unit 100, and the bottom of air cleaning unit 100 is contacted with blinds partition 220, Further, the bottom of air cleaning unit 100 pushes the first mounting post 221a in blinds clapboard body 210 around the second installation Column 221b rotates in arc guiding hole 211 to close to the direction of insertion 210 bottom of enclosure body, at this point, arc guiding hole 211 is separate Occurs vacancy at insertion 210 bottom of enclosure body, the first locking post 354a, the second locking post 354b stretch out closing shell It 116 and is inserted into arc guiding hole 211, removes external force at this time, air cleaning unit 100, which is fixed, to be locked in insertion shell 200 Portion；

(2) process is locked in the releasing of air cleaning unit；

S4: manually stirring the folding section of locking snap-gauge 412, so that locking snap-gauge 412 continues around rotationally clockwise, finally makes The locking section of snap-gauge 412 must be locked and touch sliding block 311 and be detached from and cooperated, at this point, trigger force disappears, the first spring 334 discharges bullet Property potential energy, the first hinge joint of resilient force of the first spring 344 and the second hinge joint towards moving in the direction away from each other, into One step, link mechanism 330 is moved along the guide direction of guide groove 114 to the direction far from shell 111, between guide pad Connecting rod 331 is detached from the constraint of guide pad, and the connecting rod 331 between guide pad is around the side that connecting rod 331 is hingedly axially located remotely from each other To rotary motion, in the process, perpendicular to the Length Contraction in 114 guide direction of guide groove, described leads link mechanism 330 It is slided in offset guide hole 342 to bar 335a, and then eccentric wheel 340 is pushed to carry out rotation fortune counterclockwise around itself rotation center It is dynamic；The eccentric wheel 340 of rotation drives arc-shaped guide plate 344 to rotate, and second spring 353 discharges elastic potential energy, the elasticity of second spring Power 353 drives guide wheel 351 by the second push rod 352, and arcuately guide plate 344 rolls so that the second push rod 352 is along guide groove guide wheel 351 114 guide directions are moved to the direction close to shell 111, and mounting blocks 354 move synchronously, further, so that the first locking post 354a, the second locking post 354b are detached from the cooperation with arc guiding hole 211, finally, the first locking post 354a, the second locking post 354b It is collapsed into closing shell 116 by locking hole 116a, at this point, the locking between air cleaning unit 100 and insertion shell 200 It releases；

S5: sliding block 320 is transported along the guide direction of guide groove 114 to the direction far from shell 111 with the movement of link mechanism 330 Dynamic, further, sliding block 320 pushes the guide direction for touching sliding block along guide groove 114 to far from shell by the first push rod 312 111 direction movement finally touches sliding block 320 and restores initial position under the cooperation of limiting slot and spacing block set, and air is net Makeup sets 100 and after taking-up, unclamps locking snap-gauge 412 out of insertion shell 200, and third spring 430 discharges elastic potential energy, third bullet The resilient force of spring 430 stores power sleeve and transports along the central axial direction of torsion bar ontology 411 to the direction close to release link 413 Dynamic, so that the cell wall of the arcuately guide groove of release link 413 move from notch to slot bottom, while torsion bar 410 is flipped, in limit circle Under the cooperation of arc slot 411a and limited block, torsion bar 410 is restored to initial position.

The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention； Various modifications to these embodiments will be readily apparent to those skilled in the art, defined in the present invention General Principle can be realized in other embodiments in the case where not departing from spirit or scope of the invention.Therefore, originally Invention will not be defined to the embodiments shown herein, and be to fit to and the principles and novel features disclosed herein Consistent widest scope.

Claims (1)

1. being used for the clarifier built-in lock clamping method of house inner air-cleaning, method is:

(1) process is locked in the insertion of air cleaning unit；

S1: the thrust on insertion enclosure body inner cavity groove depth direction, air cleaning unit manually are applied to air cleaning unit It is moved to insertion enclosure body inner cavity, the locking section for locking snap-gauge is contacted with the closing housing sidewall of air cleaning unit, locking The inner cavity of snap-gauge towards insertion enclosure body rotates clockwise, and locking clamp strip is moved torsion bar ontology and rotated clockwise, torsion bar sheet Body drives release link to be moved from the bottom of arc guide barrel along cell wall to notch direction, so that release link, which pushes, stores power sleeve along torsion bar Body central axis is moved to the direction close to third spring, stores power sleeve compresses third spring, and third spring is in energy storage shape State continues to be packed into air cleaning unit, and locking snap-gauge continues to be rotated in the clockwise direction, so that release link continues along arc The cell wall of shape guide groove is moved to notch, when release link moves to notch, is locked the locking section of snap-gauge and is touched shoe contact, this When third spring stroke be compressed into it is most short；

S2: when the locking section and touch shoe contact for locking snap-gauge, locking snap-gauge, which pushes, touches sliding block along the depth side of guide hole It is moved to the direction close to shell, further, touches sliding block and push sliding block to the direction close to shell by the first push rod Movement, link mechanism moves with sliding block to close to the direction of shell, link mechanism when being moved to shell, positioned at guide pad it Between connecting rod around the hinged axial azimuthal rotational motion close to each other of connecting rod, meanwhile, the first hinge joint and the second hinge joint are the One connecting rod, second connecting rod, third connecting rod, fourth link and position-limit mechanism collective effect under moved to direction close to each other And the first spring is compressed, so that the first spring completes the storage of elastic potential energy, in the process, link mechanism is perpendicular to guide groove Length elongation in guide direction, the guide rod slide in offset guide hole, and then push eccentric wheel in itself rotation The heart carries out clockwise rotation, and the eccentric wheel of rotation drives arc-shaped guide plate rotation, and further, arcuately guide plate rolls guide wheel So that the second push rod is moved along the guide direction of guide groove to the direction far from shell, it is final to push the first locking post, the second locking The locking hole that column passes through on closing shell is protruding, and in the process, second spring completes the storage of elastic potential energy；

The eccentric wheel includes eccentric wheel ontology, and eccentric setting offsets guide hole, the offset guide hole on eccentric wheel ontology Match with above-mentioned guide rod, guide rod can move in offset guide hole along the offset direction for deviating guide hole, the bias Wheel is installed on shell and can make rotating motion around own axes, and wherein the rotation center of eccentric wheel is located at link mechanism stretching, extension side To side, be also provided with mounting hole on the shell, the center of the mounting hole is located at link mechanism direction of extension The right, offers the connecting hole to match with mounting hole at the rotation center of the eccentric wheel, in mounting hole and connecting hole Equipped with connecting shaft, the central axial direction of connecting shaft and the guide direction of guide groove are consistent, are additionally provided with arc on the eccentric wheel and lead Plate is provided with driven locking assembly between arc directing plate and closing shell, the driven locking assembly include the second push rod, Second spring, one end of the second push rod and arc-shaped guide plate sliding contact, the other end pass through closing shell and stretch out outside locking device, The central axial direction of second push rod and the guide direction of guide groove are consistent, are provided with the second bullet between the second push rod and closing shell The second push rod of resilient force of spring, second spring is moved along center axis direction to the direction close to eccentric wheel, described Arc directing plate moved along center axis direction far from the direction of eccentric wheel with the second push rod of rotation forces of eccentric wheel；

The link mechanism is the mobilizable four-bar mechanism being made of four connecting rods, and four connecting rods are respectively One connecting rod, second connecting rod, third connecting rod, fourth link, it is wherein hinged between first connecting rod, second connecting rod and sliding block three and should The core wire direction of articulated shaft is consistent with the guide direction of guide groove, hinged between third connecting rod, fourth link and eccentric wheel three, and The core wire direction of the articulated shaft is consistent with the guide direction of guide groove, and the first connecting rod and fourth link are hinged, and this is hinged The core wire direction of axis is consistent with the guide direction of guide groove, and the second connecting rod and third connecting rod are hinged, and the core of the articulated shaft Line direction is consistent with the guide direction of guide groove, and the hinge joint between the first connecting rod and fourth link is the first hinge joint, Hinge joint between second connecting rod and third connecting rod is the second hinge joint, is provided with bullet between the first hinge joint and the second hinge joint Property part, the first hinge joint of resilient force of elastic component and the second hinge joint towards moving in the direction away from each other；

It is offered in insertion enclosure body and tightens hole with what the first locking post, the second locking post matched, air cleaning unit exists During being packed into insertion shell, the locking hole that the first locking post, the second locking post pass through on closing shell is protruding；

When tightening hole and when locking hole coaxial line, the first locking post, the second locking post elongation reach maximum value, at this point, the One locking post, the second locking post insertion it is corresponding tighten in hole, air cleaning unit be fixed is locked at insertion shell in；

S3: continuing to be packed into air cleaning unit, the bottom of air cleaning unit and blinds baffle contacts, further, The bottom of air cleaning unit push the first mounting post in blinds clapboard body around the second mounting post in arc guiding hole to leaning on The direction of nearly insertion enclosure body bottom rotates, at this point, there is vacancy at the separate insertion enclosure body bottom of arc guiding hole, it is described The first locking post, the second locking post stretch out closing and shell and be inserted into arc guiding hole, remove external force, air cleaning unit at this time It is fixed and is locked at insertion enclosure interior；

(2) process is locked in the releasing of air cleaning unit；

S4: manually stirring the folding section of locking snap-gauge, so that locking snap-gauge continues around rotationally clockwise, finally to lock The locking section and touch sliding block of snap-gauge are detached from and cooperate, at this point, trigger force disappears, the first spring discharges elastic potential energy, the first spring The first hinge joint of resilient force and the second hinge joint towards moving in the direction away from each other, further, link mechanism edge The guide direction of guide groove is moved to the direction far from shell, and the connecting rod between guide pad is detached from the constraint of guide pad, is located at Connecting rod between guide pad is around the rotary motion in the direction away from each other of connecting rod articulated shaft, and in the process, link mechanism is hanging down Directly in the Length Contraction in guide groove guide direction, the guide rod slides in offset guide hole, and then pushes eccentric wheel around certainly Body rotation center carries out counter-clockwise rotary motion；The eccentric wheel driving arc-shaped guide plate rotation of rotation, second spring discharge elastic potential Can, the elastic force of second spring drives guide wheel by the second push rod, and arcuately guide plate rolls so that the second push rod is along guide groove guide wheel Guide direction is moved to the direction close to shell, and mounting blocks move synchronously, further, so that the first locking post, the second locking Column is detached from the cooperation with arc guiding hole, and finally, the first locking post, the second locking post are collapsed into closing shell by locking hole, At this point, the lock release between air cleaning unit and insertion shell；

S5: sliding block is moved along the guide direction of guide groove to the direction far from shell with the movement of link mechanism, further, sliding Block pushes the guide direction for touching sliding block along guide groove to move to the direction far from shell by the first push rod, finally, touches sliding block Restore initial position under the cooperation of limiting slot and spacing block set, after air cleaning unit is taken out out of insertion shell, unclamps Snap-gauge is locked, third spring discharges elastic potential energy, and the resilient force of third spring stores power sleeve along the central axis of torsion bar ontology Line direction is moved to close to the direction of release link, so that the cell wall of release link arcuately guide groove is moved from notch to slot bottom, simultaneously Torsion bar is flipped, and under the cooperation of limit arc groove and limited block, torsion bar is restored to initial position.