CN106284616B - A kind of water source storage facilities - Google Patents

Abstract

The invention discloses a kind of water source storage facilities, and including the cavity body below physics water storage cavity is arranged in, cavity body is connected to physics water storage cavity；The side of cavity body is equipped with ice cube and is superimposed volume up and down, ice cube is superimposed the outlet of the bottom inlet face cavity body of volume up and down, the pushing meanss that ice cube push-in ice cube is superimposed to volume bottom inlet up and down are equipped in cavity body, ice cube is superimposed the stacking apparatus for being equipped with and being superimposed in volume above and below ice cube up and down.Rainwater in physics water storage cavity injects cavity body, and cooling device cools down to cavity body, and the intracorporal water of cavity becomes ice cube, and ice cube push-in ice cube is superimposed volume by pushing meanss up and down, and ice cube is superimposed upon ice cube up and down and is superimposed in volume up and down by stacking apparatus.

Description

A kind of water source storage facilities

Technical field

The present invention relates to urban infrastructures, and in particular to the design of city water storage apparatus.

Background technique

Rain is big, and the water on avenue flows through conduit pipe and enters in lake, and water level rises in lake, overflows, anti-to immerse city street Road, flood are formed.

Summary of the invention

Technical problem solved by the invention: how while avoiding city flood, water source is stored.

In order to solve the above technical problems, the invention provides the following technical scheme: a kind of water source storage facilities, including setting exist Cavity body below physics water storage cavity, cavity body are connected to physics water storage cavity；The cavity body is connect with cooling device, empty The side of cavity is equipped with ice cube and is superimposed volume up and down, and ice cube is superimposed the outlet of the bottom inlet face cavity body of volume up and down, empty The exit of cavity sets a dodge gate；It is equipped in cavity body and fills the promotion that ice cube push-in ice cube is superimposed volume bottom inlet up and down It sets, ice cube is superimposed the stacking apparatus for being equipped with and being superimposed in volume above and below ice cube up and down.

According to the above technical scheme, rainwater flows into physics water storage cavity, and the water in physics water storage cavity injects cavity body, cooling Device cools down to cavity body, and the intracorporal water of cavity becomes ice cube, and ice cube shaped is identical as cavity shape, and above-mentioned shape is excellent It is selected as rectangular；Later, the channel between cavity body and physics water storage cavity is closed, and dodge gate is opened, and pushing meanss push away ice cube Enter ice cube and be superimposed volume up and down, ice cube is superimposed upon ice cube up and down and is superimposed in volume up and down by stacking apparatus.

In above-mentioned technical proposal, the physics water storage cavity can be the lake of surrounding city, alternatively, can be tank.

In above-mentioned technical proposal, ice cube is superimposed volume up and down and connect with temperature control device, so that ice cube is superimposed appearance up and down intracorporal Temperature maintenance avoids ice melting in certain amplitude.

The cavity body includes left and right sidewall, roof and bottom plate, rear wall, and rear wall is oppositely arranged with dodge gate；It is described Rear wall is slidably fitted in left and right sidewall, in the space that roof and bottom plate are constituted, pushing meanss push rear wall left and right sidewall, It is translated in the space that roof and bottom plate are constituted.Ice cube forms in cavity body, and rear wall is mobile, in the state that dodge gate is opened Under, by ice cube it is flat-pushing enter ice cube be superimposed volume up and down.

The stacking apparatus includes ice cube elevating mechanism and ice cube fixed mechanism, and ice cube fixed mechanism is located at ice cube elevator The top of structure；The ice cube elevating mechanism includes going up and down carrier for carrying the ice cube of ice cube, and pushing meanss are intracorporal by cavity Ice cube is pushed on ice cube lifting carrier through the outlet of cavity body, and ice cube elevating mechanism promotes ice cube lifting carrier and ice thereon Block, when arriving certain altitude, the fixed ice cube of ice cube fixed mechanism, later, ice cube elevating mechanism drive ice cube lifting carrier downlink multiple Position；When the second ice cube is promoted to predetermined altitude and contacts with above-mentioned fixed ice cube, ice cube fixed mechanism discharges Fixed above-mentioned ice cube, ice cube elevating mechanism continues that the second ice cube is driven to rise, until the second ice cube substitutes above-mentioned ice cube Position；Later, ice cube fixed mechanism fixes the second ice cube；Repeatedly, ice cube constantly superposition up and down.

The ice cube fixed mechanism include activity be plugged in ice cube up and down be superimposed volume a pair of sidewalls on pin, pin with Driving unit connection, the pin that driving unit driving ice cube is superimposed in volume a pair of sidewalls up and down move towards.When ice cube is mentioned After rising to predetermined altitude, activity is plugged in the pin that ice cube is superimposed in volume a pair of sidewalls up and down and moves towards, and is inserted into ice cube, with Fixed ice cube.

The ice cube elevating mechanism includes rotary components, latch components, driving assembly, drive rack, expansion screw；

The rotary components include rotating seat, the fixed brake disc and second gear for being set in rotating seat periphery；

The latch components include being fixed at the intracorporal basal disc of shell, a pair of of the brake(-holder) block being mounted on basal disc, sliding Solution lock slide on basal disc is set；The pair of brake(-holder) block is symmetrical set in the periphery of brake disc, a pair of of brake(-holder) block One end is hinged, the mutual elastic connection of the other end；Solution lock slide is equipped with a pair and slides bar, a pair of of brake(-holder) block elastic connection One end opens up a pair of of slide slot, and slide slot is in bending, and a pair of of slide slot is symmetrical set, and a pair slides bar and is slidably fitted in In a pair of of slide slot；

The driving component includes the annulus for being driven by driving device and being rotated, and the center line of annulus rotation deviates rotating seat The center line of rotation, the inner sidewall of annulus are equipped with tooth section and unlocked state, and unlocked state includes a unlock rod, and the unlock is slided Block opens up the guide groove of S-shaped, and the annulus of rotation can drive unlock rod to slide into guide groove, and the unlock rod slided in guide groove can drive Make to solve lock slide to basal disc center translation, when unlock rod starts to drive solution lock slide to basal disc center translation, second gear with Tooth section starts to engage, and when unlock rod, which is detached from, to be contacted with guide groove, solution lock slide resets and second gear is disengaged with tooth section；

The ice cube is superimposed the bar shaped guide groove that setting is opened up on the side wall of volume up and down, and the annulus is movably fastened in item In shape guide groove, rack gear is arranged on the lateral wall of annulus, the drive rack is fixed on the side wall of bar shaped guide groove, driving Rack gear is engaged with gear ring；

Threaded hole is opened up at the center of the rotating seat, the expansion screw is screwed onto threaded hole, the ice cube lifting Carrier is fixed on expansion screw, and the two sides that ice cube goes up and down carrier are superimposed the side wall of volume close to ice cube up and down；

The bottom end of the dodge gate and the bottom margin that cavity body exports are hinged, and cavity body lateral wall is equipped with driving activity First driving element of door overturning；The top of cavity body is equipped with water flowing valve, and the second driving element drives water flowing valve on-off；The One driving element and the second driving element link, when cavity body outlet is opened in the first driving element driving activity, the second driving member Part closes water-through valve.

By the above-mentioned explanation to ice cube elevating mechanism, the working principle of the ice cube elevating mechanism is as follows:

First, driving device drives annulus rotation, and annulus drives tooth section and unlocked state rotation thereon.

Second, when the unlock rod being fixed on annulus slides into guide groove and drives solution center of the lock slide to basal disc When translation, a pair on solution lock slide slides bar and translates in a pair of of slide slot in a manner of one-to-one, since slide slot is in curved Shape is rolled over, therefore, a pair translated to basal disc central line, which slides bar, can drive one end of a pair of of brake(-holder) block elastic connection to be opened, such as This, rotating seat is changed into rotatable state by the initial state by a pair of of brake(-holder) block friction catch.

Third no longer brakes rotating seat synchronously with a pair of of brake(-holder) block, the tooth section on annulus inner sidewall, i.e. annulus inner sidewall On one section of tooth, start to engage with second gear, and drive second gear and be firmly connected with it rotating seat rotation；Work as rotation Seat rotation fixed angle, when such as 180 degree, tooth section is disengaged with second gear, meanwhile, unlock rod and solution lock slide Guide groove disengages, since guide groove is S-shaped, when unlock rod and guide groove disengage, solution lock slide resets, and one It is resetted therewith to bar is slided, one end of a pair of of brake(-holder) block elastic connection also resets therewith, a pair of of brake(-holder) block friction catch system again Moving plate, and then brake rotating seat.

4th, ice cube is made in cavity body, and dodge gate is opened, and becomes horizontal from setting shape；Later, rotating seat driving is stretched Compression screw arbor is overhanging, and the ice cube being fixed on expansion screw goes up and down carrier and translates to cavity body export direction, and ice cube goes up and down carrier position In the top of horizontal dodge gate, later, rotating seat is snapped component locking, and the position of ice cube lifting carrier is also locked；? Under the driving of pushing meanss, ice cube enters ice cube along ice cube lifting carrier and is superimposed volume up and down；The annulus for continuing rotation drives it On gear ring rotation, gear ring engages with drive rack, and driving annulus drives entire ice cube liter along bar shaped guide groove uplink, annulus Descending mechanism rises, and ice cube lifting carrier and ice cube thereon are elevated.

5th, during ice cube in ice cube elevating mechanism and thereon goes up and down carrier uplink, dodge gate closure, by level Shape becomes erectting shape.

6th, when ice cube lifting carrier needs downlink to reset, the annulus in driving device is reversely rotated, and annulus drives whole first A ice cube elevating mechanism downlink, until the tooth section in ice cube elevating mechanism is nibbled with second gear when ice cube is superimposed volume bottom up and down It closes, rotating seat reversely rotates, and expansion screw and ice cube thereon go up and down carrier retraction, and the dodge gate to be again turned on vacates sky Between, that is, dodge gate is opened, and when becoming horizontal from setting shape, ice cube lifting carrier is located at front and and the dodge gate of dodge gate It is contactless.

7th, when promoting the second ice cube, ice cube goes up and down carrier and moves ahead, and is to be superimposed pass up and down with horizontal dodge gate System, until after the second ice cube is accepted in cavity body exit, then promoted.

As the present invention to a kind of explanation of latch components, the basal disc is equipped with a pillar, and pillar is equipped with swivel pin； The pair of brake(-holder) block includes the second brake(-holder) block positioned at first brake(-holder) block in left side and positioned at right side, the left end of the first brake(-holder) block It is hinged on swivel pin with the left end of the second brake(-holder) block, the right end of the first brake(-holder) block and the right end of the second brake(-holder) block are stretched by first The connection of contracting spring；The right end of first brake(-holder) block is equipped with the first top pillar, and the right end of the second brake(-holder) block is equipped with the second top pillar, and first Top pillar and the second top pillar are oppositely arranged, and the first top pillar and the second top pillar are located in the first adjustable spring；First brake(-holder) block and The equal semicircular in shape of second brake(-holder) block, the first brake(-holder) block and the second brake(-holder) block surround brake disc.As described above, the first adjustable spring With the trend for closing up the first brake(-holder) block and the second brake(-holder) block, and the setting of the first top pillar and the second top pillar then has blocking should The effect of kind trend.

As the present invention to a kind of explanation of latch components, the pair of slide slot includes that the first slide slot and second slides Slot, the first slide slot are provided with the right end of the first brake(-holder) block, and the second slide slot is provided with the right end of the second brake(-holder) block, and first slides Slot and the second slide slot are symmetrical set, wherein the first slide slot includes that the first straight line type slide slot being connected to and second are straight Line style slide slot, angle circle between first straight line type slide slot and second straight line type slide slot is in 90 degree and 180 degree Between.As described above, when solving lock slide to when the translation of the central line of basal disc, a pair slided in a pair of of slide slot is slided Bar has the trend of the right end separation of the right end and the second brake(-holder) block that make the first brake(-holder) block.

As the present invention to a kind of explanation of latch components, the solution lock slide is equipped with a pair of of positioning pin, the pair of Positioning pin includes the first positioning pin and the second positioning pin being symmetrical set, and it is fixed that the right end of first brake(-holder) block is equipped with first Position hole, the right end of the second brake(-holder) block are equipped with second location hole, when the first top pillar and the second top pillar offset, the solution lock slide of translation On the first positioning pin and the second positioning pin can correspondingly be inserted into first positioning hole and second location hole；It is the pair of to slide bar Bar and second is slided including first and slides bar, and first slides the top that bar is fixed at the first positioning pin, and second, which slides bar, consolidates The top of second positioning pin is set calmly, and first slides the central axis of the center line of bar and the first positioning pin.By above stating Bright, when unlock rod pushes the center translation for solving lock slide to basal disc, first slides bar first in first straight line type slide slot Translation, when the first positioning pin and the second positioning pin are detached from first positioning hole and second location hole, second, which slides bar, just enters the Two linear type slide slots, a pair slide bar and open the right end of the right end of the first brake(-holder) block and the second brake(-holder) block；Unlock rod with The rotation of annulus and after leaving away, solution lock slide resets, and a pair slides bar and resets therewith, the first positioning pin and the second positioning pin phase First positioning hole and second location hole are inserted into answering, to lock a pair of of brake(-holder) block.

As the present invention to a kind of explanation of interactive relationship between latch components and driving assembly, in latch components, unlock Guide groove on sliding block includes the first arc guide groove of connection, the second arc guide groove, third arc guide groove, wherein the The arc center of circle of two arc guide grooves is located on the center line of annulus；In driving assembly, the unlocked state includes being fixed on circle Convex block, the radial bars for being fixed in radial direction on convex block and being directed toward the annulus center of circle in radial direction on ring inner sidewall；The unlock rod peace Mounted in the end of radial bars；With the rotation of annulus, unlock rod is first slipped into the first arc guide groove, and drive solution lock slide to The center translation of basal disc, meanwhile, second gear starts to engage with tooth section, and later, unlock rod enters the second arc guide groove, unlock Sliding block remains unchanged at a distance from basal disc center, and later, unlock rod enters third arc guide groove, and drives solution lock slide to remote Direction translation from basal disc center, when unlock rod is detached from third arc guide groove, second gear is disengaged with tooth section.

As described above, under the premise of annulus rotates, when unlock rod moves in the first arc guide groove, unlock rod Solution lock slide is pushed to translate to the central line of basal disc, during unlock rod is mobile in the first arc guide groove, first It slides bar to translate in first straight line type slide slot first, be translated in second straight line type slide slot later, the first brake(-holder) block is right End and the second brake(-holder) block right end are separated from each other, and synchronously, the first positioning pin and the second positioning pin are gradually from first positioning hole and the It is extracted in two location holes；When unlock rod moves in the second arc guide groove, since radial boom end is directed toward the center of circle of annulus And second the arc center of circle of arc guide groove be located on the center line of annulus, therefore, when unlock rod is in the second arc guide groove When mobile, the centre distance for solving lock slide and annulus is remained unchanged, and in turn, solution lock slide is kept not at a distance from basal disc center Become, a pair of of brake(-holder) block keeps open configuration, rotates freely rotating seat；When unlock rod moves in third arc guide groove, Unlock rod is to push solution lock slide to the direction rectilinear translation far from basal disc center, and unlock rod moves in third arc guide groove During, first, which slides bar, travels in first straight line type slide slot by second straight line type slide slot, the first brake(-holder) block right end and Second brake(-holder) block right end is mutually drawn close to lock brake disc, and synchronously, the first positioning pin and the second positioning pin are gradually inserted into first Location hole and second location hole are to lock the first brake(-holder) block and the second brake(-holder) block.In above description, when unlock rod is in the first arc When moving in guide groove, second gear is engaged with tooth section, when unlock rod, which is detached from, to be contacted with third arc guide groove, second gear It is disengaged with tooth section, starts to contact to unlock rod to be detached to contact with guide groove with guide groove in unlock rod, second gear driving Rotating seat rotates fixed angle, such as 180 degree.

As the present invention to a kind of explanation of driving assembly, the annulus is articulated in shell, and the driving device includes The fixed ring gear being set on annulus inner sidewall, couples with third gear and is mounted on shell the third gear engaged with ring gear Interior first motor.As described above, first motor driving third gear rotation, third gear is by driving ring gear to drive circle Ring rotation.

Detailed description of the invention

Following further describes the present invention with reference to the drawings:

Fig. 1 is a kind of structural schematic diagram of water source storage facilities of the present invention；

Fig. 2 is the combining structure schematic diagram that Fig. 1 medium floe is superimposed volume 30 and cavity body 20 up and down；

Fig. 3 is the combining structure schematic diagram that Fig. 1 medium floe is superimposed volume 30 and another visual angle of cavity body 20 up and down；

Fig. 4 is the combining structure schematic diagram that Fig. 3 medium floe goes up and down carrier 50 and ice cube elevating mechanism 60 connected to it；

Fig. 5 is the combining structure schematic diagram of Fig. 4 medium floe elevating mechanism 60 and expansion screw 65；

Fig. 6 is the structural schematic diagram of Fig. 5 medium floe elevating mechanism 60；

Fig. 7 is the combining structure schematic diagram of rotary components 61 and latch components 62 in Fig. 6；

Fig. 8 be Fig. 7 in the composite structure of rotary components 61 and latch components 62 be cut after schematic diagram；

Fig. 9 is the structural schematic diagram that lock slide 623 is solved in Fig. 8；

Figure 10 is the structural schematic diagram of brake(-holder) block 622 in Fig. 8；

Figure 11 is the structural schematic diagram of driving assembly 63 in Fig. 6.

Symbol description in figure:

10, physics water storage cavity；

20, cavity body；21, dodge gate；22, rear wall；

30, ice cube is superimposed volume up and down；31, bar shaped guide groove；

40, pin；

50, ice cube goes up and down carrier；

60, ice cube elevating mechanism；

61, rotary components；611, rotating seat；612, brake disc；613, second gear；614, threaded hole；

62, latch components；621, basal disc；622, brake(-holder) block；6221, the first adjustable spring；6222, location hole；623, it solves Lock slide；6230, guide groove；6231, the first arc guide groove；6232, the second arc guide groove；6233, third arcuate guide Slot；624, bar is slided；626, pillar；627, positioning pin；629, slide slot；6291, first straight line type slide slot；6292, second Linear type slide slot；

63, driving assembly；631, annulus；632, tooth section；633, unlocked state；6331, unlock rod；635, ring gear；636, Third gear；638, radial bars；639, gear ring；

64, drive rack；

65, expansion screw.

Specific embodiment

Following specific embodiments are referring to figs. 1 to Figure 11

A kind of water source storage facilities, including the cavity body 20 below physics water storage cavity 10, cavity body and physics is arranged in The connection of water storage cavity；The cavity body is connect with cooling device, and the side of cavity body is equipped with ice cube and is superimposed volume 30, ice cube up and down The outlet of the bottom inlet face cavity body of superposition volume up and down, the exit of cavity body sets a dodge gate 21；It is set in cavity body There are the pushing meanss that ice cube push-in ice cube is superimposed to volume bottom inlet up and down, being equipped in superposition volume above and below ice cube will be on ice cube The stacking apparatus of lower superposition.

The cavity body 20 includes left and right sidewall, roof and bottom plate, rear wall 22, and rear wall is set in opposite directions with dodge gate 21 It sets；The rear wall is slidably fitted in the space that left and right sidewall, roof and bottom plate are constituted, and pushing meanss push rear wall on a left side It is translated in the space that right side wall, roof and bottom plate are constituted.

The stacking apparatus includes ice cube elevating mechanism 60 and ice cube fixed mechanism, and ice cube fixed mechanism is located at ice cube lifting The top of mechanism；The ice cube elevating mechanism includes going up and down carrier 50 for carrying the ice cube of ice cube, and pushing meanss are by cavity body Interior ice cube is pushed on ice cube lifting carrier through the outlet of cavity body.

The ice cube fixed mechanism includes that activity is plugged in the pin 40 that ice cube is superimposed up and down in 30 a pair of sidewalls of volume, pin Nail is connect with driving unit, and the pin that driving unit driving ice cube is superimposed in volume a pair of sidewalls up and down moves towards.

The ice cube elevating mechanism 60 includes rotary components 61, latch components 62, driving assembly 63, drive rack 64, stretches Compression screw arbor 65.

The rotary components 61 include rotating seat 611, the fixed brake disc 612 and second gear for being set in rotating seat periphery 613。

The latch components 62 include being fixed at the intracorporal basal disc 621 of shell, a pair of of the brake(-holder) block being mounted on basal disc 622, the solution lock slide 623 being slidably arranged on basal disc；The pair of brake(-holder) block is symmetrical set in the periphery of brake disc, and one It is hinged to one end of brake(-holder) block, the mutual elastic connection of the other end；The a pair that solution lock slide is equipped with slides bar 624, a pair of system One end of movable plate elastic connection opens up a pair of of slide slot 629, and slide slot is in bending, and a pair of of slide slot is symmetrical set, and one It is slidably fitted in a pair of of slide slot to bar is slided.

The driving component 63 includes the annulus 631 for being driven by driving device and being rotated, and the center line of annulus rotation deviates The center line of rotating seat rotation, the inner sidewall of annulus are equipped with tooth section 632 and unlocked state 633, and unlocked state includes a unlock Bar 6331, the solution lock slide open up the guide groove 6230 of S-shaped, and the annulus of rotation can drive unlock rod to slide into guide groove, lead The unlock rod slided into slot can drive solution lock slide to basal disc center translation, when unlock rod starts to drive solution lock slide to basal disc When center translation, second gear starts to engage with tooth section, and when unlock rod, which is detached from, to be contacted with guide groove, solution lock slide resets and the Two gears are disengaged with tooth section.

About ice cube elevating mechanism 60, in latch components 62, the basal disc 621 is equipped with a pillar 626, and pillar is equipped with Swivel pin；The pair of brake(-holder) block 622 includes the second brake(-holder) block positioned at first brake(-holder) block in left side and positioned at right side, the first system The left end of movable plate and the left end of the second brake(-holder) block are hinged on swivel pin, the right end of the right end of the first brake(-holder) block and the second brake(-holder) block Pass through 6221 elastic connection of the first adjustable spring；The right end of first brake(-holder) block is equipped with the first top pillar, and the right end of the second brake(-holder) block is set There is the second top pillar, the first top pillar and the second top pillar are oppositely arranged, and the first top pillar and the second top pillar are located in the first adjustable spring；Institute The first brake(-holder) block and the equal semicircular in shape of the second brake(-holder) block are stated, the first brake(-holder) block and the second brake(-holder) block surround brake disc 612.

About ice cube elevating mechanism 60, in latch components 62, the pair of slide slot 629 includes the first slide slot and second Slide slot, the first slide slot are provided with the right end of the first brake(-holder) block, and the second slide slot is provided with the right end of the second brake(-holder) block, and first Slide slot and the second slide slot are symmetrical set, wherein the first slide slot includes the first straight line type slide slot 6291 of connection With second straight line type slide slot 6292, angle circle between first straight line type slide slot and second straight line type slide slot is in 90 degree And between 180 degree.

About ice cube elevating mechanism 60, in latch components 62, the solution lock slide 623 is equipped with a pair of of positioning pin 627, institute Stating a pair of of positioning pin includes the first positioning pin and the second positioning pin being symmetrical set, and the right end of first brake(-holder) block is equipped with First positioning hole 6222, the right end of the second brake(-holder) block are equipped with second location hole, when the first top pillar and the second top pillar offset, translate Solution lock slide on the first positioning pin and the second positioning pin can correspondingly be inserted into first positioning hole and second location hole；It is described It includes first sliding bar and second and sliding bar that a pair, which slides bar, and first slides the top that bar is fixed at the first positioning pin, the Two slide the top that bar is fixed at the second positioning pin, and first slides the center line of bar and the center line of the first positioning pin hangs down Directly.

About ice cube elevating mechanism 60, in latch components 62, the guide groove 6230 on lock slide 623 includes connection the is solved One arc guide groove 6231, the second arc guide groove 6232, third arc guide groove 6233, wherein the second arc guide groove The arc center of circle is located on the center line of annulus 631；In driving assembly 63, the unlocked state 633 includes being fixed in annulus 631 Convex block, the radial bars 638 for being fixed in radial direction on convex block and being directed toward the annulus center of circle in radial direction on side wall；The unlock rod 6331 It is mounted on the end of radial bars.With the rotation of annulus, unlock rod is first slipped into the first arc guide groove, and drives solution lock slide To the center translation of basal disc 621, meanwhile, second gear 613 starts to engage with tooth section 632, and later, unlock rod enters the second arc Guide groove, solution lock slide remain unchanged at a distance from basal disc center, and later, unlock rod enters third arc guide groove, and drives Lock slide is solved to translate to the direction far from basal disc center, when unlock rod is detached from third arc guide groove, second gear and tooth section It disengages.

About ice cube elevating mechanism 60, in driving assembly 63, the annulus 631 is articulated in shell 600, the driving dress It sets including the fixed ring gear 635 being set on annulus inner sidewall, the third gear 636 engaged with ring gear, with third gear and couples And it is mounted on the intracorporal first motor of shell.

The ice cube is superimposed the bar shaped guide groove 31 that setting is opened up on the side wall of volume 30,631 activity of annulus up and down It is fastened in bar shaped guide groove, rack gear 639 is arranged on the lateral wall of annulus, the drive rack 64 is fixed on bar shaped guide groove Side wall on, drive rack is engaged with gear ring.

Threaded hole 614 is opened up at the center of the rotating seat 611, the expansion screw 65 is screwed onto threaded hole, described Ice cube lifting carrier 50 is fixed on expansion screw, and the two sides that ice cube goes up and down carrier are superimposed the side wall of volume close to ice cube up and down.

The bottom end of the dodge gate 21 and the bottom margin that cavity body 20 exports are hinged, and cavity body lateral wall is equipped with driving First driving element of dodge gate overturning；The top of cavity body is equipped with water flowing valve, and the second driving element drives water flowing valve logical It is disconnected；First driving element and the second driving element link, and when cavity body outlet is opened in the first driving element driving activity, second is driven Dynamic element closes water-through valve.

The workflow of the above-mentioned water source storage facilities of the present invention is as follows:

First, ice cube is made in cavity body 20, and dodge gate 21 is opened, and becomes horizontal from setting shape.

Second, rotating seat 611 drives expansion screw 65 overhanging, and the ice cube being fixed on expansion screw goes up and down carrier 50 to sky The translation of 20 export direction of cavity, ice cube lifting carrier are located at the top of horizontal dodge gate, and later, rotating seat 611 is snapped group Part 62 locks, and the position of ice cube lifting carrier 50 is also locked.

Third, under the driving of pushing meanss, ice cube enters ice cube along ice cube lifting carrier 50 and is superimposed volume 30 up and down；After The annulus 631 of continuous rotation drives gear ring 639 thereon to rotate, and gear ring is engaged with drive rack 64, and driving annulus is led along bar shaped To 31 uplink of slot, annulus drives entire ice cube elevating mechanism 60 to rise, and ice cube lifting carrier 50 and ice cube thereon are elevated.

4th, during ice cube in ice cube elevating mechanism 60 and thereon goes up and down 50 uplink of carrier, dodge gate 21 is closed, Become erectting shape from horizontal.

5th, when ice cube lifting carrier needs downlink to reset, the annulus 631 in driving device 63 is reversely rotated, and annulus is first Entire 60 downlink of ice cube elevating mechanism is driven, until the tooth section 632 when ice cube is superimposed 30 bottom of volume up and down, in ice cube elevating mechanism It is engaged with second gear 613, rotating seat 611 reversely rotates, and expansion screw 65 and ice cube thereon go up and down 50 retraction of carrier, for again 21 vacating space of dodge gate of secondary opening.

6th, when promoting the second ice cube, ice cube goes up and down carrier 50 and moves ahead, and is to be superimposed up and down with horizontal dodge gate 21 Relationship, until after the second ice cube is accepted in 20 exit of cavity body, then promoted.The above-mentioned second to the 5th step of circulating repetition, Ice cube in cavity body 20 is constantly superimposed upon ice cube and is superimposed in volume 30 up and down.

The above content is only better embodiment of the invention, for those of ordinary skill in the art, according to the present invention Thought, there will be changes in the specific implementation manner and application range, and the content of the present specification should not be construed as to this hair Bright limitation.

Claims (8)

1. a kind of water source storage facilities, including the cavity body (20) being arranged below physics water storage cavity (10), cavity body and object Manage the connection of water storage cavity；It is characterized by: the cavity body is connect with cooling device, it is folded up and down that the side of cavity body is equipped with ice cube Add volume (30), ice cube is superimposed the outlet of the bottom inlet face cavity body of volume up and down, and the exit of cavity body sets an activity Door (21)；The pushing meanss that ice cube push-in ice cube is superimposed to volume bottom inlet up and down are equipped in cavity body, ice cube is superimposed up and down The stacking apparatus that will be superimposed above and below ice cube is equipped in volume；

The stacking apparatus includes ice cube elevating mechanism (60) and ice cube fixed mechanism, and ice cube fixed mechanism is located at ice cube elevator The top of structure；The ice cube elevating mechanism includes going up and down carrier (50) for carrying the ice cube of ice cube, and pushing meanss are by cavity body Interior ice cube is pushed on ice cube lifting carrier through the outlet of cavity body；

The ice cube elevating mechanism (60) includes rotary components (61), latch components (62), driving assembly (63), drive rack (64), expansion screw (65)；

The rotary components (61) include rotating seat (611), the fixed brake disc (612) and the second tooth for being set in rotating seat periphery It takes turns (613)；

The latch components (62) include a pair of of the brake(-holder) block for being fixed at the intracorporal basal disc of shell (621), being mounted on basal disc (622), the solution lock slide (623) being slidably arranged on basal disc；The pair of brake(-holder) block is symmetrical set in the outer of brake disc It encloses, one end of a pair of of brake(-holder) block is hinged, the mutual elastic connection of the other end；Solution lock slide is equipped with a pair and slides bar (624), One end of a pair of of brake(-holder) block elastic connection opens up a pair of of slide slot (629), and slide slot is in bending, a pair of of slide slot bilateral symmetry Setting, a pair slide bar and are slidably fitted in a pair of of slide slot；

The driving component (63) includes the annulus (631) for being driven by driving device and being rotated, and the center line of annulus rotation deviates The center line of rotating seat rotation, the inner sidewall of annulus are equipped with tooth section (632) and unlocked state (633), and unlocked state includes one Unlock rod (6331), the solution lock slide open up the guide groove (6230) of S-shaped, and the annulus of rotation can drive unlock rod to slide into guiding Slot, the unlock rod slided in guide groove can drive solution lock slide to basal disc center translation, when unlock rod starts that unlock is driven to be slided When block is to basal disc center translation, second gear starts to engage with tooth section, when unlock rod, which is detached from, to be contacted with guide groove, solves lock slide It resets and second gear is disengaged with tooth section；

The ice cube is superimposed the bar shaped guide groove (31) that setting is opened up on the side wall of volume (30) up and down, and the annulus (631) is living It is dynamic to be fastened in bar shaped guide groove, it is arranged on the lateral wall of annulus rack gear (639), the drive rack (64) is fixed on bar shaped On the side wall of guide groove, drive rack is engaged with gear ring；

It is opened up threaded hole (614) at the center of the rotating seat (611), the expansion screw (65) is screwed onto threaded hole, institute It states ice cube lifting carrier (50) to be fixed on expansion screw, the two sides that ice cube goes up and down carrier are superimposed the side of volume close to ice cube up and down Wall；

The bottom end of the dodge gate (21) and the bottom margin that cavity body (20) exports are hinged, and cavity body lateral wall is equipped with driving First driving element of dodge gate overturning；The top of cavity body is equipped with water flowing valve, and the second driving element drives water flowing valve logical It is disconnected；First driving element and the second driving element link, and when cavity body outlet is opened in the first driving element driving activity, second is driven Dynamic element closes water-through valve.

2. a kind of water source storage facilities as described in claim 1, it is characterised in that: the cavity body (20) includes left and right sides Wall, roof and bottom plate, rear wall (22), rear wall are oppositely arranged with dodge gate (21)；The rear wall is slidably fitted in left and right In the space that side wall, roof and bottom plate are constituted, pushing meanss push rear wall in the space that left and right sidewall, roof and bottom plate are constituted Middle translation.

3. a kind of water source storage facilities as described in claim 1, it is characterised in that: the ice cube fixed mechanism includes that activity is inserted It is located at the pin (40) that ice cube is superimposed up and down in volume (30) a pair of sidewalls, pin is connect with driving unit, driving unit driving The pin that ice cube is superimposed in volume a pair of sidewalls up and down moves towards.

4. a kind of water source storage facilities as described in claim 1, it is characterised in that: in latch components (62), the basal disc (621) pillar (626) are equipped with, pillar is equipped with swivel pin；The pair of brake(-holder) block (622) includes positioned at the first of left side The left end of brake(-holder) block and the second brake(-holder) block positioned at right side, the left end of the first brake(-holder) block and the second brake(-holder) block is hinged on swivel pin On, the right end of the right end of the first brake(-holder) block and the second brake(-holder) block passes through the first adjustable spring (6221) elastic connection；First braking The right end of piece is equipped with the first top pillar, and the right end of the second brake(-holder) block is equipped with the second top pillar, and the first top pillar and the second top pillar are oppositely arranged, First top pillar and the second top pillar are located in the first adjustable spring；First brake(-holder) block and the equal semicircular in shape of the second brake(-holder) block, the One brake(-holder) block and the second brake(-holder) block surround brake disc (612).

5. a kind of water source storage facilities as claimed in claim 4, it is characterised in that: in latch components (62), the pair of cunning Row slot (629) includes the first slide slot and the second slide slot, and the first slide slot is provided with the right end of the first brake(-holder) block, and second slides Slot is provided with the right end of the second brake(-holder) block, and the first slide slot and the second slide slot are symmetrical set, wherein the first slide slot packet Include the first straight line type slide slot (6291) and second straight line type slide slot (6292) of connection, first straight line type slide slot and second Angle circle between linear type slide slot is between 90 degree and 180 degree.

6. a kind of water source storage facilities as claimed in claim 5, it is characterised in that: in latch components (62), the unlock is slided Block (623) is equipped with a pair of of positioning pin (627), and the pair of positioning pin includes the first positioning pin and second being symmetrical set The right end of positioning pin, first brake(-holder) block is equipped with first positioning hole (6222), and the right end of the second brake(-holder) block is equipped with the second positioning Hole, when the first top pillar and the second top pillar offset, the first positioning pin and the second positioning pin on the solution lock slide of translation can be corresponding Ground is inserted into first positioning hole and second location hole；The pair of bar that slides includes first sliding bar and second and sliding bar, and first The top that bar is fixed at the first positioning pin is slided, second slides the top that bar is fixed at the second positioning pin, and first is sliding The central axis of the center line of row bar and the first positioning pin.

7. a kind of water source storage facilities as claimed in claim 6, it is characterised in that: in latch components (62), solve lock slide (623) guide groove (6230) on includes the first arc guide groove (6231) of connection, the second arc guide groove (6232), third Arc guide groove (6233), wherein the arc center of circle of the second arc guide groove is located on the center line of annulus (631)；Driving group In part (63), the unlocked state (633) includes convex block in the radial direction being fixed on annulus (631) inner sidewall, is fixed on radial direction On interior convex block and be directed toward the annulus center of circle radial bars (638)；The unlock rod (6331) is mounted on the end of radial bars；

With the rotation of annulus, unlock rod is first slipped into the first arc guide groove, and drives solution lock slide in basal disc (621) Heart translation, meanwhile, second gear (613) starts to engage with tooth section (632), and later, unlock rod enters the second arc guide groove, solution Lock slide remains unchanged at a distance from basal disc center, and later, unlock rod enters third arc guide groove, and drive solution lock slide to Direction far from basal disc center translates, and when unlock rod is detached from third arc guide groove, second gear is disengaged with tooth section.

8. a kind of water source storage facilities as described in claim 1, it is characterised in that: in driving assembly (63), the annulus (631) it is articulated in shell (600), the driving device includes the fixed ring gear (635) and tooth being set on annulus inner sidewall The third gear (636) of ring engagement couples with third gear and is mounted on the intracorporal first motor of shell.