CN106440597A - Stacking type water source storage equipment - Google Patents

Abstract

The invention discloses stacking type water source storage equipment. The stacking type water source storage equipment comprises a cavity, wherein the cavity is arranged below a physical water storage chamber; an ice block vertical superposing accommodating body is arranged beside the cavity; a lifting door is arranged at an outlet of the cavity; a water opening which communicates with the physical water storage chamber is formed in the top of the cavity; a plug is inserted in the water opening; a pushing device which pushes ice blocks into a bottom inlet of the ice block vertical superposing accommodating body is arranged in the cavity; and a superposing device which vertically superposes the ice blocks is arranged in the ice block vertical superposing accommodating body. Water in the physical water storage chamber is injected into the cavity, a cooling device cools the cavity, water in the cavity becomes ice blocks, the plug descends to block the water opening through which the cavity communicates with the physical water storage chamber, meanwhile, a driving assembly drives the lifting door to ascend, and an outlet of the cavity is opened by the lifting door; and then the pushing device pushes the ice blocks into the ice block vertical superposing accommodating body, and the ice blocks are vertically superposed in the ice block vertical superposing accommodating body by the superposing device.

Description

A kind of stack type water source storage facilities

Technical field

The present invention relates to urban infrastructure, be specifically related to the design of city water storage apparatus.

Background technology

Rain is big, and the water on avenue flows through conduit pipe and enters in lake, and lake middle water level rises, and overflows, and instead immerses city street Road, flood is formed.

Content of the invention

Technical problem solved by the invention：How while avoiding city flood, store water source.

For solving above-mentioned technical problem, the present invention provides following technical scheme：A kind of stack type water source storage facilities, including It is arranged on the cavity body below physics water storage cavity volume；Described cavity body is connected with cooling device, and the side of cavity body is provided with ice cube Upper and lower superposition volume, the outlet just to cavity body for the bottom inlet of ice cube upper and lower superposition volume, the exit of cavity body sets one liter Fall door, described overhead door is connected with driving assembly, and the top of cavity body is provided with the outlet pass connecting with physics water storage cavity volume, water flowing Plugging plug in Kou, plug is driven lifting by rotary components；It is provided with in cavity body and ice cube is pushed at the bottom of ice cube upper and lower superposition volume The pushing means of portion's import, is provided with the stacking apparatus of upper and lower for ice cube superposition in ice cube upper and lower superposition volume.

By technique scheme, rainwater flows into physics water storage cavity volume, and the water in physics water storage cavity volume injects cavity body, cooling Cavity body is lowered the temperature by device, and the water in cavity body becomes ice cube, and ice cube shaped is identical with cavity body shape, and above-mentioned shape is excellent Elect as square；Afterwards, rotary components drives plug to decline, the water flowing between plug closure connection cavity body and physics water storage cavity volume Mouthful, meanwhile, drive Component driver overhead door to rise, overhead door opens the outlet of cavity body；Afterwards, ice cube is pushed by pushing means Ice cube upper and lower superposition volume, ice cube is superimposed upon in ice cube upper and lower superposition volume by stacking apparatus up and down.

In technique scheme, described physics water storage cavity volume can be the lake of surrounding city, or, can be tank.

In technique scheme, ice cube upper and lower superposition volume is connected with temperature control device, in making ice cube upper and lower superposition volume Temperature maintenance is in certain amplitude, it is to avoid ice melting.

In technique scheme, described pushing means can be cylinder, oil cylinder, electricity cylinder.

Described cavity body includes left and right sidewall, roof and base plate, rear wall, and rear wall is oppositely arranged with overhead door；Described In the space that rear wall is slidably fitted in left and right sidewall, roof and base plate are constituted, pushing means promote rear wall left and right sidewall, Translation in the space that roof and base plate are constituted.Ice cube is molded in cavity body, and rear wall moves, in the state that overhead door is opened Under, ice cube horizontal sliding is entered ice cube upper and lower superposition volume.

Described rotary components links with driving assembly, when driving Component driver overhead door to open cavity body outlet, and rotation group Part drives plug closure outlet pass；After ice cube is pushed out cavity body, driving Component driver overhead door to decline, closure cavity body goes out Mouthful, meanwhile, rotary components drives plug up, opens outlet pass, and the water in physics water storage cavity volume injects cavity body through outlet pass.

Described stacking apparatus includes ice cube elevating mechanism and ice cube fixed mechanism, and ice cube fixed mechanism is positioned at ice cube lift The top of structure；Described ice cube elevating mechanism includes that pushing means is by cavity body for the ice cube lifting carrier carrying ice cube Ice cube through the outlet of cavity body be pushed into ice cube lifting carrier on, ice cube elevating mechanism promote ice cube lifting carrier and on ice Block, during to certain altitude, ice cube fixed mechanism fixes ice cube, and afterwards, ice cube elevating mechanism drives ice cube lifting carrier descending multiple Position；When the second ice cube be promoted to predetermined altitude and with above-mentioned contacted by fixing ice cube when, ice cube fixed mechanism discharge Fixing above-mentioned ice cube, ice cube elevating mechanism continues to drive the second ice cube to rise, until the second ice cube substitutes above-mentioned ice cube Position；Afterwards, ice cube fixed mechanism fixes the second ice cube；So repeatedly, ice cube constantly upper and lower superposition.

Described ice cube fixed mechanism includes the pin that activity is plugged in ice cube upper and lower superposition volume pair of sidewalls, pin with Driver element connects, and the pin in drive unit drives ice cube upper and lower superposition volume pair of sidewalls moves towards.When ice cube is carried After rising to predetermined altitude, the pin that activity is plugged in ice cube upper and lower superposition volume pair of sidewalls moves towards, and inserts ice cube, with Fixing ice cube.

Described rotary components includes that rotating seat, fixed cover are located at brake disc and second gear of rotating seat periphery；

Rotary components and latch components matching design；

Described latch components includes the basal disc being fixedly installed in housing, a pair brake(-holder) block being arranged on basal disc, slip The solution lock slide being arranged on basal disc；The pair of brake(-holder) block is symmetrical set the periphery in brake disc, a pair brake(-holder) block One end is hinged and other end elasticity connects；Solution lock slide is provided with a pair and slides bar, and one end of a pair brake(-holder) block elasticity connection is opened If a pair slide slot, slide slot is bending, and a pair slide slot is symmetrical set, and slides bar for a pair and is slidably fitted in a pair cunning In row groove；

The annulus that described driving assembly includes being driven by driving means and rotates, the center line deviation rotating seat that annulus rotates The center line rotating, the madial wall of annulus is provided with tooth section and unlocked state, and unlocked state includes a trip lever, and described unblock is sliding Block offers the gathering sill of S-shaped, and the annulus of rotation can order about trip lever and slip into gathering sill, and the trip lever sliding in gathering sill can drive Make solution lock slide to basal disc center translation, when trip lever starts to order about solution lock slide to basal disc center translation, the second gear with Tooth section starts engagement, when trip lever departs from and contacts with gathering sill, solves lock slide reset and the second gear disengages with tooth section；

Rotating seat screwed hole is offered in the center of described rotating seat, and described plug is arranged on elevating lever, elevating lever and rotation Swivel base screw hole and be passed down through rotating seat；

Being arranged with gear ring on the lateral wall of described annulus, gear ring engages with little gear, and little gear is arranged on drive link, passes Being bolted with lifters in lever, lifters is fixing with the top of overhead door to be connected.

Described rotary components, latch components, driving assembly constitute drive mechanism.

By the above-mentioned explanation to drive mechanism, the operation principle of described drive mechanism is as follows：

First, driving means drives annulus to rotate, and annulus drives the tooth section on it and unlocked state to rotate.

Second, in the trip lever being fixedly installed on annulus slips into gathering sill and order about solution the center to basal disc for the lock slide During translation, the bar that slides for a pair solving on lock slide translates in a pair slide slot in man-to-man mode, owing to slide slot is curved Folding shape, therefore, sliding bar for a pair and can order about the elastic one end connecting of a pair brake(-holder) block and open to the translation of basal disc central line, as This, rotating seat is changed into rotatable state by the initial state by a pair brake(-holder) block friction catch.

3rd, no longer brake rotating seat synchronously with a pair brake(-holder) block, the tooth section on annulus madial wall, i.e. annulus madial wall On one section of tooth, start to engage with the second gear, and drive the second gear and be secured to connect rotating seat rotate；Work as rotation Seat rotates fixed angle, and during such as 180 degree, tooth section disengages with the second gear, meanwhile, and trip lever and solution lock slide Gathering sill disengages, and owing to gathering sill is S-shaped, therefore, when trip lever and gathering sill disengage, solves lock slide and resets, and one Resetting therewith to sliding bar, one end of a pair brake(-holder) block elasticity connection also resets therewith, a pair brake(-holder) block friction catch system again Moving plate, and then braking rotating seat.

4th, in cavity body, ice cube is made, and the annulus of rotation drives the tooth section on it to rotate, and tooth section is nibbled with the second gear Closing, the second gear driven rotating seat rotates, and rotating seat drives elevating lever descending, and it is logical that elevating lever drives the plug on it to block downwards The mouth of a river；Meanwhile, the gear ring on annulus rotates, gear ring driving pinion, and little gear driven drive link rotates, and drive link drives and it The lifters being spirally connected rises, and lifters drives overhead door to rise, and overhead door opens cavity body outlet.

5th, above-mentioned, after plug blocks outlet pass downwards, latch components locks rotating seat, and then locking plug.

6th, above-mentioned, reversely rotate annulus, plug can be made to rise and open outlet pass, make overhead door decline and close Cavity body exports.

7th, above-mentioned, open and the plug of overhead door block outlet pass, complete in annulus rotates a circle；Equally , closedown and the plug of overhead door open outlet pass, are also to complete in annulus reversely rotates one week.

As a kind of explanation to latch components for the present invention, described basal disc is provided with a pillar, and pillar is provided with swivel pin； The pair of brake(-holder) block includes the first brake(-holder) block and the second brake(-holder) block being positioned at right side, the left end of the first brake(-holder) block being positioned at left side Being hinged on swivel pin with the left end of the second brake(-holder) block, the right-hand member of the first brake(-holder) block and the right-hand member of the second brake(-holder) block are stretched by first Contracting spring connects；The right-hand member of the first brake(-holder) block is provided with the first fore-set, and the right-hand member of the second brake(-holder) block is provided with the second fore-set, and first Fore-set and the second fore-set are oppositely arranged, and the first fore-set and the second fore-set are positioned at the first coil tension spring；Described first brake(-holder) block and The second equal semicircular in shape of brake(-holder) block, the first brake(-holder) block and the second brake(-holder) block surround brake disc.As described above, the first coil tension spring Having the trend making the first brake(-holder) block and the second brake(-holder) block close up, the setting of the first fore-set and the second fore-set then has stop should The effect of the trend of kind.

As a kind of explanation to latch components for the present invention, the pair of slide slot includes that the first slide slot and second slides Groove, the first slide slot is opened in the right-hand member of the first brake(-holder) block, and the second slide slot is opened in the right-hand member of the second brake(-holder) block, and first slides Groove and the second slide slot are symmetrical set, and wherein, the first slide slot includes the first linear pattern slide slot of connection and second straight Line style slide slot, angle circle between the first linear pattern slide slot and the second linear pattern slide slot is in 90 degree and 180 degree Between.As described above, when solving lock slide and translating to the central line of basal disc, slide for a pair slided in a pair slide slot Bar has the trend making the right-hand member of the first brake(-holder) block and the right-hand member of the second brake(-holder) block separate.

As a kind of explanation to latch components for the present invention, described solution lock slide is provided with a pair alignment pin, the pair of Alignment pin includes the first alignment pin and the second alignment pin being symmetrical set, and it is fixed that the right-hand member of described first brake(-holder) block is provided with first Position hole, the right-hand member of the second brake(-holder) block is provided with the second positioning hole, when the first fore-set and the second fore-set offset, the solution lock slide of translation On the first alignment pin and the second alignment pin can correspondingly insert the first positioning hole and second positioning hole in；The pair of slide bar Including first slides bar and second and slide bar, first slides the top that bar is fixedly installed on the first alignment pin, and second to slide bar solid Surely being arranged on the top of the second alignment pin, first slides the center line of bar and the central axis of the first alignment pin.State on by Bright, when trip lever promotes and solves lock slide to the center translation of basal disc, first slides bar first in the first linear pattern slide slot Translation, when the first alignment pin and the second alignment pin depart from the first positioning hole and the second positioning hole, second slides bar just enters the Two linear pattern slide slots, slide bar for a pair and open the right-hand member of the first brake(-holder) block and the right-hand member of the second brake(-holder) block；Trip lever with The rotation of annulus and after leaving away, solving lock slide resets, and sliding bar for a pair resets therewith, the first alignment pin and the second alignment pin phase The first positioning hole and the second positioning hole should be inserted, to lock a pair brake(-holder) block in ground.

As the present invention to latch components and a kind of explanation driving interactive relationship between assembly, in latch components, unlock Gathering sill on slide block includes the first arc guide groove of connection, the second arc guide groove, the 3rd arc guide groove, wherein, the The arc center of circle of two arc guide grooves is positioned on the center line of annulus；Driving in assembly, described unlocked state includes being fixed on circle Projection, the radial bars being fixed on the interior projection of radial direction and pointing to the annulus center of circle in radial direction on ring madial wall；Described trip lever is pacified It is contained in the end of radial bars；With the rotation of annulus, trip lever is first slipped into the first arc guide groove, and order about solution lock slide to The center translation of basal disc, meanwhile, the second gear starts to engage with tooth section, and afterwards, trip lever enters the second arc guide groove, unlocks Slide block and the distance at basal disc center keep constant, and afterwards, trip lever enters the 3rd arc guide groove, and orders about solution lock slide to far From the direction translation at basal disc center, when trip lever departs from three arc guide grooves, the second gear disengages with tooth section.

As described above, on the premise of annulus rotates, when trip lever moves in the first arc guide groove, trip lever I.e. promote and solve the central line translation to basal disc for the lock slide, during trip lever is mobile in the first arc guide groove, first Sliding bar first to translate in the first linear pattern slide slot, translating afterwards in the second linear pattern slide slot, the first brake(-holder) block is right End and the second brake(-holder) block right-hand member are separated from each other, and synchronously, the first alignment pin and the second alignment pin are progressively from the first positioning hole and the Two positioning holes are extracted；When trip lever moves in the second arc guide groove, owing to the center of circle of annulus is pointed in radial bars end And second the arc center of circle of arc guide groove be positioned on the center line of annulus, therefore, when trip lever is in the second arc guide groove When mobile, solve lock slide and keep constant with the centre distance of annulus, and then, the distance solving lock slide with basal disc center keeps not Becoming, a pair brake(-holder) block keeps open configuration, makes rotating seat rotate freely；When trip lever moves in the 3rd arc guide groove, Trip lever i.e. promotes solution lock slide to move in the 3rd arc guide groove to the direction rectilinear translation away from basal disc center, trip lever During, first slides bar is travelled in the first linear pattern slide slot by the second linear pattern slide slot, the first brake(-holder) block right-hand member and Second brake(-holder) block right-hand member is mutually drawn close to lock brake disc, and synchronously, the first alignment pin and the second alignment pin progressively insert first Positioning hole and the second positioning hole are to lock the first brake(-holder) block and the second brake(-holder) block.In described above, when trip lever is at the first arc When moving in gathering sill, the second gear engages with tooth section, when trip lever departs from and contacts with the 3rd arc guide groove, and the second gear Disengaging with tooth section, coming into contact with at trip lever and gathering sill and contact with gathering sill to trip lever disengaging, the second gear drives Rotating seat rotation fixed angle, such as 180 degree.

As the present invention to a kind of explanation driving assembly, described annulus is articulated in housing, and described driving means includes The 3rd gear and the 3rd gear that the ring gear that fixed cover is located on annulus madial wall engages with ring gear couple and are arranged on housing The first interior motor.As described above, the first motor drives the 3rd gear to rotate, and the 3rd gear drives circle by driving ring gear Ring rotates.

Described drive mechanism is arranged on the top of cavity body；Described drive link is articulated in the top of cavity body, cavity body Overhead door gap is offered at top, and overhead door makees elevating movement in overhead door gap；The top of described outlet pass is provided with guide holder, Plug, down through inserting outlet pass after guide holder, is provided with guide frame, the sidewall of guide holder is offered between plug and guide holder Water-guiding hole.Described plug moves downward in guide holder, inserts outlet pass, and plug seals water-guiding hole；Plug in guide holder to Upper motion, water-guiding hole turns on outlet pass, and physics water storage cavity volume turns on cavity body.

Brief description

The present invention is described further below in conjunction with the accompanying drawings：

Fig. 1 is the structural representation of a kind of stack type of present invention water source storage facilities；

Fig. 2 is enlarged drawing at A in Fig. 1；

Fig. 3 is the combining structure schematic diagram of Fig. 1 medium floe upper and lower superposition volume 30 and cavity body 20；

Fig. 4 is the combining structure schematic diagram of drive mechanism 60 and drive link the 66th, lifters the 67th, elevating lever 71 in Fig. 1；

Fig. 5 is the structural representation of drive mechanism 60 in Fig. 4；

Fig. 6 is the combining structure schematic diagram of rotary components 61 and latch components 62 in Fig. 5；

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

Fig. 8 is the structural representation solving lock slide 623 in Fig. 7；

Fig. 9 is the structural representation of brake(-holder) block 622 in Fig. 7；

Figure 10 is the structural representation driving assembly 63 in Fig. 5.

Symbol description in figure：

10th, physics water storage cavity volume；

20th, cavity body；21st, overhead door；22nd, rear wall；23rd, outlet pass；24th, guide holder；240th, water-guiding hole；

30th, ice cube upper and lower superposition volume；

40th, pin；

50th, ice cube lifting carrier；

60th, ice cube elevating mechanism；

61st, rotary components；611st, rotating seat；612nd, brake disc；613rd, the second gear；614th, rotating seat screwed hole；

62nd, latch components；621st, basal disc；622nd, brake(-holder) block；6221st, the first coil tension spring；6222nd, hole is positioned；623rd, solve Lock slide；6230th, gathering sill；6231st, the first arc guide groove；6232nd, the second arc guide groove；6233rd, the 3rd arcuate guide Groove；624th, bar is slided；626th, pillar；627th, alignment pin；629th, slide slot；6291st, the first linear pattern slide slot；6292nd, second Linear pattern slide slot；

63rd, assembly is driven；631st, annulus；632nd, tooth section；633rd, unlocked state；6331st, trip lever；635th, ring gear；636、 3rd gear；638th, radial bars；

64th, gear ring；

65th, little gear；

66th, drive link；

67th, lifters；

70th, plug；71st, elevating lever.

Detailed description of the invention

Detailed description below is referring to figs. 1 to Figure 10.

A kind of stack type water source storage facilities, including be arranged on the cavity body 20 below physics water storage cavity volume 10, cavity body Connect with physics water storage cavity volume；Described cavity body is connected with cooling device, and the side of cavity body is provided with ice cube upper and lower superposition volume 30, the outlet just to cavity body for the bottom inlet of ice cube upper and lower superposition volume, the exit of cavity body sets an overhead door 21, described Overhead door is connected with driving assembly 63, and the top of cavity body is provided with the outlet pass 23 connecting with physics water storage cavity volume 10, outlet pass Inside plugging plug 70, plug is driven lifting by rotary components 61；It is provided with in cavity body and ice cube is pushed ice cube upper and lower superposition volume The pushing means of bottom inlet, is provided with the stacking apparatus of upper and lower for ice cube superposition in ice cube upper and lower superposition volume.

Described cavity body 20 includes left and right sidewall, roof and base plate, rear wall 22, and rear wall sets in opposite directions with overhead door 21 Put；Described rear wall is slidably fitted in the space that left and right sidewall, roof and base plate are constituted, and pushing means promotes rear wall on a left side Translation in the space that right side wall, roof and base plate are constituted.

Described stacking apparatus includes ice cube elevating mechanism 60 and ice cube fixed mechanism, and ice cube fixed mechanism is positioned at ice cube lifting The top of mechanism；Described ice cube elevating mechanism includes that pushing means is by cavity body for the ice cube lifting carrier 50 carrying ice cube Interior ice cube is pushed on ice cube lifting carrier through the outlet of cavity body.

Described ice cube elevating mechanism, can for is connected with ice cube lifting carrier 50 cylinder, electric cylinder, oil cylinder, or screw mandrel Mechanism, to realize the lifting of ice cube lifting carrier.

Described ice cube fixed mechanism includes the pin 40 that activity is plugged in ice cube upper and lower superposition volume 30 pair of sidewalls, pin Nail is connected with driver element, and the pin in drive unit drives ice cube upper and lower superposition volume pair of sidewalls moves towards.

Described rotary components 61 includes that rotating seat the 611st, fixed cover is located at brake disc 612 and second gear of rotating seat periphery 613；

Rotary components 61 and latch components 62 matching design；

Described latch components 62 includes a pair brake(-holder) block that the 621st, the basal disc being fixedly installed in housing is arranged on basal disc 622nd, the solution lock slide 623 being slidably arranged on basal disc；The pair of brake(-holder) block is symmetrical set the periphery in brake disc, and one To one end of brake(-holder) block is hinged, the other end is elastic connects；Solution lock slide is provided with a pair and slides bar 624, and a pair brake(-holder) block is elastic A pair slide slot 629 is offered in the one end connecting, and slide slot is bending, and a pair slide slot is symmetrical set, and slides bar a pair It is slidably fitted in a pair slide slot；

The annulus 631 that described driving assembly 63 includes being driven by driving means and rotates, the center line deviation that annulus rotates The center line that rotating seat rotates, the madial wall of annulus is provided with tooth section 632 and unlocked state 633, and unlocked state includes a unblock Bar 6331, described solution lock slide offers the gathering sill 6230 of S-shaped, and the annulus of rotation can order about trip lever and slip into gathering sill, is leading The trip lever sliding in groove can order about solution lock slide to basal disc center translation, when trip lever starts to order about solution lock slide to basal disc During center translation, the second gear starts to engage with tooth section, when trip lever departs from and contact with gathering sill, and solution lock slide reset and the Two gears disengage with tooth section；

Rotating seat screwed hole 614 is offered in the center of described rotating seat 611, and described plug 70 is arranged on elevating lever 71, Elevating lever and rotating seat screw hole and be passed down through rotating seat；

Being arranged with gear ring 64 on the lateral wall of described annulus 631, gear ring engages with little gear 65, and little gear is arranged on transmission On bar 66, drive link being bolted with lifters 67, lifters is fixing with the top of overhead door 21 to be connected.

In latch components 62, described basal disc 621 is provided with a pillar 626, and pillar is provided with swivel pin；The pair of braking Piece 622 includes the first brake(-holder) block and the second brake(-holder) block being positioned at right side, the left end of the first brake(-holder) block and the second system being positioned at left side The left end of moving plate is hinged on swivel pin, and the right-hand member of the first brake(-holder) block and the right-hand member of the second brake(-holder) block pass through the first coil tension spring bullet Property 6221 connects；The right-hand member of the first brake(-holder) block is provided with the first fore-set, and the right-hand member of the second brake(-holder) block is provided with the second fore-set, the first fore-set Being oppositely arranged with the second fore-set, the first fore-set and the second fore-set are positioned at the first coil tension spring；Described first brake(-holder) block and second The equal semicircular in shape of brake(-holder) block, the first brake(-holder) block and the second brake(-holder) block surround brake disc 612.

In latch components 62, the pair of slide slot 629 includes the first slide slot and the second slide slot, and the first slide slot is opened Being located at the right-hand member of the first brake(-holder) block, the second slide slot is opened in the right-hand member of the second brake(-holder) block, the first slide slot and the second slide slot Being symmetrical set, wherein, the first slide slot includes the first linear pattern slide slot 6291 and the second linear pattern slide slot of connection 6292, angle circle between the first linear pattern slide slot and the second linear pattern slide slot is between 90 degree and 180 degree.

In latch components 62, described solution lock slide 623 is provided with a pair alignment pin 627, and the pair of alignment pin includes a left side Right symmetrically arranged first alignment pin and the second alignment pin, the right-hand member of described first brake(-holder) block is provided with the first positioning hole 6222, the The right-hand member of two brake(-holder) blocks is provided with the second positioning hole, when the first fore-set and the second fore-set offset, and solve on lock slide the of translation One alignment pin and the second alignment pin can correspondingly insert in the first positioning hole and the second positioning hole；The pair of bar that slides includes One slides bar and second slides bar, and first slides the top that bar is fixedly installed on the first alignment pin, and second slides bar is fixedly installed Above the second alignment pin, first slides the center line of bar and the central axis of the first alignment pin.

In latch components 62, solve the gathering sill 6230 on lock slide 623 and include the first arc guide groove of connection the 6231st, the Two arc guide grooves the 6232nd, the 3rd arc guide groove 6233, wherein, the arc center of circle of the second arc guide groove is positioned at annulus 631 Center line on；Drive in assembly 63, described unlocked state 633 include being fixed on projection in the radial direction on annulus 631 madial wall, The radial bars 638 on projection and the sensing annulus center of circle in being fixed on radially；Described trip lever 6331 is arranged on the end of radial bars； With the rotation of annulus, trip lever is first slipped into the first arc guide groove, and it is flat to the center of basal disc 621 to order about solution lock slide Move, meanwhile, the second gear 613 starts engage with tooth section 632, afterwards, trip lever enter the second arc guide groove, solution lock slide and The distance at basal disc center keeps constant, and afterwards, trip lever enters the 3rd arc guide groove, and orders about solution lock slide to away from basal disc The direction translation at center, when trip lever departs from three arc guide grooves, the second gear disengages with tooth section.

Driving in assembly 63, described annulus 631 is articulated in housing 600, and described driving means includes that fixed cover is located at circle The 3rd gear 636 that ring gear 635 on ring madial wall engages with ring gear couple with the 3rd gear and be arranged in housing One motor.

The 62nd, described rotary components the 61st, latch components drives assembly 63 to constitute drive mechanism 60, and drive mechanism is arranged on cavity The top of body 20；Described drive link 66 is articulated in the top of cavity body, and overhead door gap, overhead door 21 are offered in the top of cavity body Make elevating movement in overhead door gap；The top of described outlet pass 23 is provided with guide holder 24, after plug 70 is down through guide holder Insert outlet pass, be provided with guide frame between plug and guide holder, the sidewall of guide holder is offered water-guiding hole 240.

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

First, in cavity body 20, ice cube is made, and the driving assembly 63 in drive mechanism drives overhead door 21 to rise and open Cavity body 20 exports, and meanwhile, the rotary components 61 in drive mechanism drives plug 70 to decline and block outlet pass 23.

Second, under the driving of pushing means, ice cube enters ice cube upper and lower superposition volume 30 along ice cube lifting carrier 50；Ice Block elevating mechanism drive ice cube lifting carrier 50 and on ice cube promote；Under the auxiliary of ice cube fixed mechanism, ice cube by by Block is superimposed upon in ice cube upper and lower superposition volume 30 up and down.

3rd, during ice cube lifting carrier 50 is up, drive assembly 63 to drive overhead door 21 to decline and close sky Cavity 20 exports, and meanwhile, drives plug 70 to rise with the rotary components 61 driving assembly linkage and opens outlet pass 23.

Above content is only the better embodiment of the present invention, for those of ordinary skill in the art, according to the present invention Thought, all will change in specific embodiments and applications, this specification content should not be construed as to this Bright restriction.

Claims (9)

1. a stack type water source storage facilities, including be arranged on the cavity body (20) of physics water storage cavity volume (10) lower section；It is special Levy and be：Described cavity body is connected with cooling device, and the side of cavity body is provided with ice cube upper and lower superposition volume (30), and ice cube is upper and lower The outlet just to cavity body for the bottom inlet of superposition volume, the exit of cavity body sets an overhead door (21), described overhead door with Driving assembly (63) to connect, the top of cavity body is provided with the outlet pass (23) connecting with physics water storage cavity volume (10), in outlet pass Plugging plug (70), plug is driven lifting by rotary components (61)；It is provided with in cavity body and ice cube is pushed ice cube upper and lower superposition appearance The pushing means of body bottom inlet, is provided with the stacking apparatus of upper and lower for ice cube superposition in ice cube upper and lower superposition volume.

2. a kind of stack type water source as claimed in claim 1 storage facilities, it is characterised in that：Described cavity body (20) includes a left side Right side wall, roof and base plate, rear wall (22), rear wall is oppositely arranged with overhead door (21)；Described rear wall is slidably fitted in In the space that left and right sidewall, roof and base plate are constituted, pushing means promotes rear wall to constitute at left and right sidewall, roof and base plate Space translates.

3. a kind of stack type water source as claimed in claim 1 storage facilities, it is characterised in that：Described rotary components (61) with drive Dynamic assembly (63) linkage, when driving Component driver overhead door (21) to open cavity body outlet, rotary components drives plug (70) envelope Stifled outlet pass (23).

4. a kind of stack type water source as claimed in claim 1 storage facilities, it is characterised in that：Described stacking apparatus includes ice cube Elevating mechanism (60) and ice cube fixed mechanism, ice cube fixed mechanism is positioned at the top of ice cube elevating mechanism；Described ice cube lift Structure includes that the ice cube in cavity body is pushed away by pushing means through the outlet of cavity body for ice cube lifting carrier (50) carrying ice cube To ice cube lifting carrier.

5. a kind of stack type water source as claimed in claim 4 storage facilities, it is characterised in that：Described ice cube fixed mechanism includes Activity is plugged in the pin (40) in ice cube upper and lower superposition volume (30) pair of sidewalls, and pin is connected with driver element, drives single Unit drives the pin in ice cube upper and lower superposition volume pair of sidewalls to move towards.

6. a kind of stack type water source as claimed in claim 3 storage facilities, it is characterised in that：

Described rotary components (61) includes that rotating seat (611), fixed cover are located at brake disc (612) and second tooth of rotating seat periphery Wheel (613)；

Rotary components (61) and latch components (62) matching design；

Described latch components (62) includes the basal disc (621) being fixedly installed in housing, a pair brake(-holder) block being arranged on basal disc (622) the solution lock slide (623), being slidably arranged on basal disc；The pair of brake(-holder) block is symmetrical set outside brake disc Enclosing, one end of a pair brake(-holder) block is hinged and other end elasticity connects；Solution lock slide is provided with a pair and slides bar (624), a pair system A pair slide slot (629) is offered in the elastic one end connecting of moving plate, and slide slot is bending, and a pair slide slot is symmetrical set, Slide bar for a pair to be slidably fitted in a pair slide slot；

The annulus (631) that described driving assembly (63) includes being driven by driving means and rotates, the center line deviation that annulus rotates The center line that rotating seat rotates, the madial wall of annulus is provided with tooth section (632) and unlocked state (633), and unlocked state includes one Trip lever (6331), described solution lock slide offers the gathering sill (6230) of S-shaped, and the annulus of rotation can order about trip lever and slip into guiding Groove, the trip lever sliding in gathering sill can order about solution lock slide to basal disc center translation, and when trip lever, to start to order about unblock sliding Block is when basal disc center translation, and the second gear starts to engage with tooth section, when trip lever departs from and contacts with gathering sill, solves lock slide Reset and the second gear disengages with tooth section；

Rotating seat screwed hole (614) is offered in the center of described rotating seat (611), and described plug (70) is arranged on elevating lever (71) On, elevating lever and rotating seat screw hole and be passed down through rotating seat；

Being arranged with gear ring (64) on the lateral wall of described annulus (631), gear ring engages with little gear (65), and little gear is arranged on biography In lever (66), drive link being bolted with lifters (67), lifters is fixing with the top of overhead door (21) to be connected.

7. a kind of stack type water source as claimed in claim 6 storage facilities, it is characterised in that：In latch components (62), described Basal disc (621) is provided with a pillar (626), and pillar is provided with swivel pin；The pair of brake(-holder) block (622) includes being positioned at left side First brake(-holder) block and the second brake(-holder) block being positioned at right side, the left end of the first brake(-holder) block and the left end of the second brake(-holder) block are hinged on hinged On pin, the right-hand member of the first brake(-holder) block and the right-hand member of the second brake(-holder) block are connected by the first coil tension spring elastic (6221)；First system The right-hand member of moving plate is provided with the first fore-set, and the right-hand member of the second brake(-holder) block is provided with the second fore-set, and the first fore-set and the second fore-set set in opposite directions Putting, the first fore-set and the second fore-set are positioned at the first coil tension spring；Described first brake(-holder) block and the equal semicircular in shape of the second brake(-holder) block, First brake(-holder) block and the second brake(-holder) block surround brake disc (612)；

In latch components (62), the pair of slide slot (629) includes the first slide slot and the second slide slot, and the first slide slot is opened Being located at the right-hand member of the first brake(-holder) block, the second slide slot is opened in the right-hand member of the second brake(-holder) block, the first slide slot and the second slide slot Being symmetrical set, wherein, the first slide slot includes that the first linear pattern slide slot (6291) of connection and the second linear pattern slide Groove (6292), angle circle between the first linear pattern slide slot and the second linear pattern slide slot in 90 degree and 180 degree it Between；

In latch components (62), described solution lock slide (623) is provided with a pair alignment pin (627), and the pair of alignment pin includes The first alignment pin being symmetrical set and the second alignment pin, the right-hand member of described first brake(-holder) block is provided with the first positioning hole (6222), the right-hand member of the second brake(-holder) block is provided with the second positioning hole, and when the first fore-set and the second fore-set offset, the unblock of translation is sliding The first alignment pin on block and the second alignment pin can correspondingly insert in the first positioning hole and the second positioning hole；The pair of slide Bar includes that first slides bar and second and slide bar, and first slides the top that bar is fixedly installed on the first alignment pin, and second slides bar Being fixedly installed on the top of the second alignment pin, first slides the center line of bar and the central axis of the first alignment pin；

In latch components (62), solve the gathering sill (6230) on lock slide (623) and include the first arc guide groove of connection (6231), the second arc guide groove (6232), the 3rd arc guide groove (6233), wherein, the curved circular of the second arc guide groove The heart is positioned on the center line of annulus (631)；Driving in assembly (63), described unlocked state (633) includes being fixed on annulus (631) Projection, the radial bars (638) being fixed on the interior projection of radial direction and pointing to the annulus center of circle in radial direction on madial wall；Described trip lever (6331) it is arranged on the end of radial bars；With the rotation of annulus, trip lever is first slipped into the first arc guide groove, and orders about solution Lock slide is to the center translation of basal disc (621), and meanwhile, the second gear (613) starts to engage with tooth section (632), afterwards, and trip lever Entering the second arc guide groove, solving lock slide and keep constant with the distance at basal disc center, afterwards, trip lever enters the 3rd arc and leads To groove, and order about and solve lock slide to the direction translation away from basal disc center, when trip lever departs from three arc guide grooves, second Gear disengages with tooth section.

8. a kind of stack type water source as claimed in claim 6 storage facilities, it is characterised in that：Drive in assembly (63), described In annulus (631) is articulated in housing (600), described driving means include ring gear (635) that fixed cover is located on annulus madial wall, The first motor that the 3rd gear (636) engaging with ring gear couples with the 3rd gear and is arranged in housing.

9. a kind of stack type water source as claimed in claim 6 storage facilities, it is characterised in that：Described rotary components (61), lock Buckle assembly (62), driving assembly (63) constitute drive mechanism (60), and drive mechanism is arranged on the top of cavity body (20)；

Described drive link (66) is articulated in the top of cavity body, and overhead door gap is offered at the top of cavity body, and overhead door (21) exists Overhead door gap makees elevating movement；

The top of described outlet pass (23) is provided with guide holder (24), and plug (70) is down through insertion outlet pass, plug after guide holder And it is provided with guide frame between guide holder, the sidewall of guide holder is offered water-guiding hole (240).