CN106638881A - Pipeline assembly capable of controlling rain density - Google Patents

Abstract

The invention discloses a pipeline assembly capable of controlling rain density. The pipeline assembly comprises a main pipeline, a temperature control pipeline and a common pipeline, wherein the temperature control pipeline and the common pipeline are connected with the main pipeline and are each connected with a driving mechanism. Rainwater of an urban street flows to the main pipeline through a water pipe network, then flows to the temperature control pipeline and is drained to a water storage pond, or the rainwater in the main pipeline passes through the common pipeline and then is drained into a lake. When the water level in the lake is located below an early-warning water level, the main pipeline is communicated with the common pipeline, and the temperature control pipeline is closed; when the water level in the lake is raised to the early-warning water level, the common pipeline is closed, the temperature control pipeline is opened, the temperature of the rainwater flowing through the temperature control pipeline is controlled at specific temperature, the temperature of the water drained to the water storage pond is maintained at 4 DEG C to increase the rainwater density and reduce rainwater volume, then the raising speed of the water level in the water storage pond is controlled, and the water level in the lake is indirectly controlled.

Description

A kind of pipeline assembly of control rainwater density

Technical field

The present invention relates to urban infrastructure, and in particular to the transformation of municipal drainage equipment.

Background technology

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

Generally known, temperature is at four degrees Celsius, and the density of water is maximum, in the case where water gross mass is constant, now water Volume it is minimum.

The content of the invention

Technical problem solved by the invention：How to avoid in lake water level from rising and counter immerse avenue.

To solve above-mentioned technical problem, the present invention provides following technical scheme：A kind of pipeline assembly of control rainwater density, Including total pipeline, the temperature control pipeline for being set up in parallel and being connected with total pipeline and common pipe, the temperature control pipeline and temperature regulating device Connection, control device control flows through the coolant-temperature gage in temperature-controlled tube road；The temperature control pipeline and common pipe connect respectively with drive mechanism Connect, only one conducting in both driving mechanisms control common pipe and temperature control pipeline.

By the water pipe network connection of above-mentioned technical proposal, total pipeline and avenue, temperature control pipeline and unloaded tank Connection, common pipe is connected with the lake of surrounding city.The rainwater Jing water pipe networks of avenue flow to total pipeline, then flow to temperature control Tank is entered after pipeline, or, the rainwater in total pipeline is entered in lake Jing after common pipe.The side wall in lake is provided with water level sense Device is answered, when water level is below early warning water level in lake, total pipeline is connected with common pipe, temperature control pipeline is closed, avenue Rainwater Jing common pipes enter in lake；When water level rises to early warning water level in lake, water level sensor is triggered, and information is passed The controller in drive mechanism is transported to, drive mechanism action is closed common pipe, opens temperature control pipeline, flows through temperature control pipeline Rainwater temperature is controlled in specified temp, makes the water temperature entered in tank be maintained in four degrees Celsius, to improve the density of rainwater, The volume of rainwater is reduced, and then controls the speed that water storage pool water level rises, be indirectly controlled water level in lake.

By above-mentioned technical proposal, though in tank water temperature to be maintained in four degrees Celsius of time shorter, also can be to flood situation Alleviation play a positive role.For example, rain cats and dogs, and water level steeply rises in lake, will flow back and flood avenue, this When, pumping equipment extracts water in lake to elsewhere, it is to avoid be back to avenue, but, speed of drawing water is slower than in lake on water level Lifting speed.Now, the rainwater of avenue is imported in tank, and the upper of water level in tank is controlled by the way of temperature control Lifting speed, thus, extracting lake Zhong Shui for pumping equipment has won valuable time.Once water level is controlled in lake, and water storage Water level in pond is in an emergency, and pumping equipment in the water suction lake in tank, can will reach the effect that lake helps each other with tank, Lake is to avoid rainwater backflow avenue with the purpose that tank helps each other.

Valve is installed on the temperature control pipeline, valve is connected with drive mechanism, drive mechanism is by the logical of control valve Break-make that is disconnected and controlling temperature control pipeline.

Insulating barrier is enclosed with the temperature control pipeline, heating coil is wound with temperature control pipeline, heating coil is located at insulation In layer, insulating barrier is wrapped with heat-preservation cotton.The insulating barrier is thermal insulation layer, the double action with insulation and heat conduction, excellent Elect white graphite as.

The common pipe includes the fixed -piping and rotating pipe of tandem array, and the end of fixed -piping is provided with semicircle The first valve element, the fixed -piping end for being provided with semicircle first valve element is connected with rotating pipe, and the end of rotating pipe is provided with Semicircular second valve element, the rotating pipe end for being provided with semicircle second valve element is connected with fixed -piping, the drive mechanism Drive rotating pipe rotation.As described above, original state, the first valve element is Chong Die with the second valve element, fixed -piping and swivelling pipe Road is turned on；Rotating pipe rotates 180 degree, and the semicircle of the second valve element closure fixed -piping end on rotating pipe is led to Road, whole common pipe is ended by the first valve element and the second valve element.

The drive mechanism includes rotary components, latch components, drive component；

The rotary components include that rotating seat, fixation are set in the brake disc and second gear of rotating seat periphery；

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

The drive component includes being driven and the annulus of rotation by driving means, and the center line of annulus rotation deviates rotating seat The center line of rotation, the madial wall of annulus is provided with tooth section and unlocked state, and unlocked state includes a trip lever, and the unblock is slided Block opens up 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 slided in gathering sill can drive Solution lock slide is made to basal disc center translation, when trip lever starts to order about solution lock slide to basal disc center translation, second gear with Tooth section starts engagement, and when trip lever departs to be contacted with gathering sill, solution lock slide resets and second gear is disengaged with tooth section；

The center of the rotating seat opens up perforation, and the rotating pipe is fixed and is plugged in perforation, the fixed -piping Activity is plugged in perforation；

Worm gear, worm gear and worm engaging are arranged with the lateral wall of the annulus, worm screw is connected by connecting rod with valve.

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

First, the driving means in drive mechanism drive annulus rotation, annulus to drive tooth section thereon and unlocked state rotation Turn.

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

3rd, no longer brake rotating seat synchronously with a pair of brake(-holder) blocks, the tooth section on annulus madial wall, i.e. annulus madial wall On one section of tooth, start to engage with second gear, and drive second gear and be secured to connect rotating seat rotation；Work as rotation Seat rotation fixed angle, when such as 180 degree, tooth section is disengaged with second gear, meanwhile, trip lever with solve lock slide Gathering sill is disengaged, due to gathering sill it is S-shaped, therefore, when trip lever and gathering sill are disengaged, solution lock slide resets, one Reset therewith to sliding bar, one end of a pair of brake(-holder) block elastic connections also resets therewith, a pair of brake(-holder) blocks friction catch system again Moving plate, and then brake rotating seat.

4th, when water level is below early warning water level in lake, total pipeline is connected with common pipe, and temperature control pipeline is closed, The rainwater Jing common pipes of avenue are entered in lake.

5th, when water level rises to early warning water level in lake, the drive component action in drive mechanism, annulus rotation is first First pass through tooth section to rotate with the driving rotating seat that engages of second gear, rotating seat drives 180 degree of rotating pipe rotation, general Thread a pipe and be closed；Afterwards, the rotatable handle that annulus passes through worm and gear driving valve for rotating is continued, valve opens temperature-controlled tube Road, thus, total pipeline and temperature control pipeline communication.

By the above-mentioned explanation to drive mechanism, the rotating pipe in common pipe and total pipeline pivot joint, or, common pipe In fixed -piping be fixedly connected with total pipeline.

Used as one kind explanation of the present invention to latch components, the basal disc is provided with a pillar, and pillar is provided with swivel pin； The pair of brake(-holder) block includes being located at first brake(-holder) block and the second brake(-holder) block positioned at right side in left 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-hand member of the first brake(-holder) block is stretched with the right-hand member of the second brake(-holder) block 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 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 then there is stop to be somebody's turn to do for the setting of the first fore-set and the second fore-set The effect of the trend of kind.

Used as one kind explanation of the present invention to latch components, the pair of slide slot is slided including the first slide slot and second 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, wherein, the first slide slot is straight including the first straight line type slide slot for connecting and second 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 solution lock slide is translated to the central line of basal disc, a pair slided in a pair of slide slots are slided Bar has the detached trend of the right-hand member of right-hand member and the second brake(-holder) block for making the first brake(-holder) block.

Used as one kind explanation of the present invention to latch components, the solution lock slide is provided with a pair of alignment pins, the pair of Alignment pin includes the first alignment pin and the second alignment pin being symmetrical set, and the right-hand member of first brake(-holder) block is provided with first to be determined Position hole, the right-hand member of the second brake(-holder) block is provided with the second location 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 in the first location hole and the second location hole；It is the pair of to slide bar Bar and second being slided including first and sliding bar, first slides the top that bar is fixedly installed on the first alignment pin, and second slides bar consolidates Surely the top of the second alignment pin is arranged on, first slides the central axis of the center line of bar and the first alignment pin.By above stating It is bright, when trip lever promote center translation from solution lock slide to basal disc when, first slides bar first in first straight line type slide slot Translation, when the first alignment pin and the second alignment pin depart from the first location hole and the second location hole, second slides bar just enters the Two linear pattern slide slots, slide bar and open the right-hand member of the right-hand member of the first brake(-holder) block and the second brake(-holder) block for a pair；Trip lever with The rotation of annulus and after leaving away, solution lock slide resets, slide bar and reset therewith for a pair, the first alignment pin and the second alignment pin phase Ground the first location hole of insertion and the second location hole are answered, to lock a pair of brake(-holder) blocks.

As a kind of explanation of the present invention to interactive relationship between latch components and drive component, in latch components, unblock Gathering sill on slide block includes the first arc guide groove, the second arc guide groove, the 3rd arc guide groove of connection, wherein, the The arc center of circle of two arc guide grooves is located on the center line of annulus；In drive component, the unlocked state includes being fixed on circle Projection, the radial bars for being fixed in radially on projection and pointing to the annulus center of circle in radial direction on ring madial wall；The trip lever peace It is mounted 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, second gear starts to engage with tooth section, and afterwards, trip lever enters the second arc guide groove, unblock Slide block and the distance at basal disc center keep constant, and afterwards, trip lever enters the 3rd arc guide groove, and order about solution lock slide to remote Direction from basal disc center translates, and when trip lever departs from three arc guide grooves, second gear is disengaged with tooth section.

As described above, on the premise of annulus rotation, when trip lever is moved in the first arc guide groove, trip lever Solution lock slide is promoted to translate to the central line of basal disc, during trip lever is mobile in the first arc guide groove, first Slide bar to translate first in first straight line type slide slot, translate in second straight line type slide slot afterwards, 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 location hole and the Extract in two location holes；When trip lever is moved in the second arc guide groove, because radial direction boom end points to the center of circle of annulus And second arc guide groove the arc center of circle be located at annulus center line on, therefore, when trip lever is in the second arc guide groove When mobile, solution lock slide keeps constant with the centre distance of annulus, and then, solve lock slide and keep not with the distance at basal disc center Become, a pair of brake(-holder) blocks keep open configuration, rotate freely rotating seat；When trip lever is moved in the 3rd arc guide groove, Trip lever promotes solution lock slide to the direction rectilinear translation away from basal disc center, and trip lever is moved in the 3rd arc guide groove During, first slides bar is travelled in first straight line type slide slot by second straight line type 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 Location hole and the second location hole are locking the first brake(-holder) block and the second brake(-holder) block.In described above, when trip lever is in the first arc When moving in gathering sill, second gear is engaged with tooth section, when trip lever departs to be contacted with the 3rd arc guide groove, second gear Disengage with tooth section, start to contact to trip lever to depart from trip lever and gathering sill to contact with gathering sill, second gear drives Rotating seat rotates fixed angle, such as 180 degree.

Used as one kind explanation of the present invention to drive component, the annulus is articulated in housing, and the driving means include The 3rd gear that the ring gear that fixation is set on annulus madial wall is engaged with ring gear couples and installed in housing with the 3rd gear The first interior motor.As described above, the gear of the first Motor drive the 3rd rotation, the 3rd gear drives circle by driving ring gear Ring rotates.

Description of the drawings

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

Fig. 1 is a kind of structural representation of the pipeline assembly of control rainwater density of the present invention；

Fig. 2 is the combining structure schematic diagram of drive mechanism 60 and common pipe 30 in Fig. 1；

Fig. 3 is the structural representation of common pipe 30 in Fig. 2；

Fig. 4 is the explosive view of common pipe 30 in Fig. 2；

Fig. 5 is the explosive view at another visual angle of common pipe 30 in Fig. 2；

Fig. 6 is the structural representation of drive mechanism 60 in Fig. 2；

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

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

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

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

Figure 11 is the structural representation of drive component 63 in Fig. 6.

Symbol description in figure：

10th, total pipeline；

20th, temperature control pipeline；21st, valve；

30th, common pipe；31st, fixed -piping；310th, the first valve element；32nd, rotating pipe；320th, the second valve element；

60th, drive mechanism；

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

62nd, latch components；621st, basal disc；622nd, brake(-holder) block；6221st, the first adjustable spring；6222nd, location hole；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, first straight line type slide slot；6292nd, second Linear pattern slide slot；

63rd, drive component；631st, annulus；632nd, tooth section；633rd, unlocked state；6331st, trip lever；635th, ring gear；636、 3rd gear；638th, radial bars；64th, worm gear；65th, worm screw.

Specific embodiment

Detailed description below is referring to figs. 1 to Figure 11.

A kind of pipeline assembly of control rainwater density, including total pipeline 10, the temperature control that is set up in parallel and is connected with total pipeline Pipeline 20 and common pipe 30, the temperature control pipeline is connected with temperature regulating device, and control device control flows through the water temperature in temperature-controlled tube road Degree；The temperature control pipeline and common pipe are connected respectively with drive mechanism 60, driving mechanisms control common pipe and temperature control pipeline Only one conducting in both.

Valve 21 is installed, valve is connected with drive mechanism 60, driving mechanisms control valve on the temperature control pipeline 20 Break-make.Insulating barrier is enclosed with the temperature control pipeline 20, heating coil is wound with temperature control pipeline, heating coil is located at insulating barrier Interior, insulating barrier is wrapped with heat-preservation cotton.

The common pipe 30 includes the fixed -piping 31 and rotating pipe 32 of tandem array, and the end of fixed -piping is provided with Semicircular first valve element 310, the fixed -piping end for being provided with semicircle first valve element is connected with rotating pipe, rotating pipe End is provided with semicircular second valve element 320, and the rotating pipe end for being provided with semicircle second valve element is connected with fixed -piping, institute State drive mechanism 60 and drive rotating pipe rotation.

The drive mechanism 60 includes rotary components 61, latch components 62, drive component 63.

The rotary components 61 include that rotating seat 611, fixation are set in the brake disc 612 and second gear of rotating seat periphery 613。

The latch components 62 include being fixedly installed on the basal disc 621 in housing, a pair of brake(-holder) blocks on basal disc 622nd, 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 One end of brake(-holder) block is hinged and other end elastic connection；Solution lock slide is provided with a pair and slides bar 624, a pair of brake(-holder) block elasticity One end of connection opens up a pair of slide slots 629, and slide slot is in bending, and a pair of slide slots are symmetrical set, and slides bar a pair It is slidably fitted in a pair of slide slots.

The drive component 63 includes being driven and the annulus 631 of rotation by driving means, and the center line of annulus rotation deviates The center line of rotating seat rotation, the madial wall of annulus is provided with tooth section 632 and unlocked state 633, and unlocked state includes a unblock Bar 6331, the solution lock slide opens up the gathering sill 6230 of S-shaped, and the annulus of rotation can order about trip lever and slip into gathering sill, lead The trip lever slided into 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, second gear starts to engage with tooth section, when trip lever departs from contact with gathering sill, solves lock slide reset and the Two gears are disengaged with tooth section.

With regard to drive mechanism 60, in latch components 62, the basal disc 621 is provided with a pillar 626, and pillar is provided with and is hinged Pin；The pair of brake(-holder) block 622 includes being located at first brake(-holder) block and the second brake(-holder) block positioned at right side in left side, the first brake(-holder) block Left end and the left end of the second brake(-holder) block be hinged on swivel pin, the right-hand member of the first brake(-holder) block passes through with the right-hand member of the second brake(-holder) block First adjustable spring elasticity 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 Two fore-sets, the first fore-set and the second fore-set are oppositely arranged, and the first fore-set and the second fore-set are located in the first adjustable spring；Described One brake(-holder) block and the equal semicircular in shape of the second brake(-holder) block, the first brake(-holder) block and the second brake(-holder) block surround brake disc 612.

With regard to drive mechanism 60, in latch components 62, the pair of slide slot 629 is slided including the first slide slot and second 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, wherein, the first slide slot includes the first straight line type slide slot 6291 of connection and the Two linear pattern slide slots 6292, angle circle between first straight line type slide slot and second straight line type slide slot is in 90 degree and one Between 180 degree.

With regard to drive mechanism 60, in latch components 62, the solution lock slide 623 is provided with a pair of alignment pins 627, and described one The first alignment pin and the second alignment pin for including being symmetrical set to alignment pin, the right-hand member of first brake(-holder) block is provided with first Location hole 6222, the right-hand member of the second brake(-holder) block is provided with the second location hole, when the first fore-set and the second fore-set offset, the solution of translation The first alignment pin and the second alignment pin on lock slide can be inserted correspondingly in the first location hole and the second location hole；It is the pair of Slide bar and slide bar and second including first and slide bar, first slides the top that bar is fixedly installed on the first alignment pin, and second slides Row bar is fixedly installed on the top of the second alignment pin, and first slides the central axis of the center line of bar and the first alignment pin.

With regard to drive mechanism 60, in latch components 62, solving the gathering sill 6230 on lock slide 623 includes the first arc of connection Shape gathering sill 6231, the second arc guide groove 6232, the 3rd arc guide groove 6233, wherein, the arc of the second arc guide groove The center of circle is located on the center line of annulus 631；In drive component 63, the unlocked state 633 includes being fixed on the madial wall of annulus 631 On radial direction in projection, the radial bars 638 that are fixed in radially on projection and point to the annulus center of circle；The trip lever 6331 is installed In 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 to base The center translation of disk 621, meanwhile, second gear 613 starts to engage with tooth section 632, and afterwards, trip lever enters the second arcuate guide Groove, solution lock slide keeps constant with the distance at basal disc center, and afterwards, trip lever enters the 3rd arc guide groove, and orders about unblock Slide block to the direction away from basal disc center translates, and when trip lever departs from three arc guide grooves, second gear departs from tooth section Contact.

With regard to drive mechanism 60, in drive component 63, the annulus 631 is articulated in housing 600, the driving means bag Include the 3rd gear 636 that the ring gear 635 that is set on annulus madial wall of fixation engages with ring gear to couple and pacify with the 3rd gear The first motor being mounted in housing.

The drive mechanism 60 is as follows with the interaction relation of common pipe 30：The center of the rotating seat 611 opens up wears Hole 614, the rotating pipe 32 is fixed and is plugged in perforation, and the activity of the fixed -piping 31 is plugged in perforation.

The drive mechanism 60 is as follows with the interaction relation of valve 21：Worm gear is arranged with the lateral wall of the annulus 631 64, worm gear is engaged with worm screw 65, and worm screw is connected by connecting rod with valve 21.

In practical operation, a kind of workflow of the pipeline assembly of control rainwater density of the present invention is as follows：

First, temperature control pipeline 20 is connected with tank, and common pipe 30 is connected with lake.

Second, under normal circumstances, i.e. when water level is below early warning water level in lake, the rainwater Jing water pipe networks of avenue Total pipeline 10 is flow to, then is flow to after common pipe 30 and is entered in lake, the driven-mechanism 60 of temperature control pipeline 20 is closed.

3rd, when water level rises to early warning water level in lake, the water level sensor on Hu Cebi is triggered, drive mechanism 60 Action, drive component 63 drives the rotating seat 611 in rotary components 61 to rotate, and rotating seat is rotated pipeline 32 and rotates, rotation The second valve element 320 in pipeline coordinates with the first valve element 310 in fixed -piping 31, closes common pipe 30；Meanwhile, driving group Part 63 opens valve 21 to turn on temperature control pipeline 20 by worm-and-wheel gear；While temperature control pipeline 20 is switched on, temperature control Device is heated or cooled the rainwater flowed through in temperature control pipeline 20, makes the water temperature entered in tank be maintained in four degrees Celsius, to carry The density of high rainwater, reduces the volume of rainwater, and then controls the speed that water storage pool water level rises.

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

Claims (10)

1. a kind of pipeline assembly of control rainwater density, including total pipeline (10), the temperature control for being set up in parallel and being connected with total pipeline Pipeline (20) and common pipe (30), the temperature control pipeline is connected with temperature regulating device, and control device control flows through temperature-controlled tube road Coolant-temperature gage；It is characterized in that：The temperature control pipeline and common pipe are connected respectively with drive mechanism (60), and driving mechanisms control is general Thread a pipe and the middle only one conducting of both temperature control pipelines.

2. as described in claim 1 a kind of pipeline assembly of control rainwater density, it is characterised in that：The temperature control pipeline (20) valve (21) is installed, valve is connected with drive mechanism (60), the break-make of driving mechanisms control valve on.

3. as described in claim 1 a kind of pipeline assembly of control rainwater density, it is characterised in that：The temperature control pipeline (20) insulating barrier is enclosed with, heating coil is wound with temperature control pipeline, heating coil is located in insulating barrier, insulating barrier outer wrapping There is heat-preservation cotton.

4. as described in claim 2 a kind of pipeline assembly of control rainwater density, it is characterised in that：The common pipe (30) including the fixed -piping (31) and rotating pipe (32) of tandem array, the end of fixed -piping is provided with semicircular first valve Core (310), the fixed -piping end for being provided with semicircle first valve element is connected with rotating pipe, and the end of rotating pipe is provided with semicircle Second valve element (320) of shape, the rotating pipe end for being provided with semicircle second valve element is connected with fixed -piping, the drive mechanism (60) rotating pipe rotation is driven.

5. the pipeline assembly of a kind of control rainwater density as claimed in claim 4, it is characterised in that：The drive mechanism (60) Including rotary components (61), latch components (62), drive component (63)；

The rotary components (61) are set in the brake disc (612) and the second tooth of rotating seat periphery including rotating seat (611), fixation Wheel (613)；

The latch components (62) include the basal disc (621), a pair of brake(-holder) blocks on basal disc being fixedly installed in housing (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 Enclose, one end of a pair of brake(-holder) blocks is hinged and other end elastic connection；Solution lock slide is provided with a pair and slides bar (624), a pair of systems One end of moving plate elastic connection opens up a pair of slide slots (629), and slide slot is in bending, and a pair of slide slots are symmetrical set, Slide bar for a pair to be slidably fitted in a pair of slide slots；

The drive component (63) includes being driven and the annulus (631) of rotation by driving means, and the center line of annulus rotation deviates The center line of rotating seat rotation, the madial wall of annulus is provided with tooth section (632) and unlocked state (633), and unlocked state includes one Trip lever (6331), the solution lock slide opens up 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 slided in gathering sill can order about solution lock slide to basal disc center translation, when trip lever starts to order about unblock cunning When block is to basal disc center translation, second gear starts to engage with tooth section, when trip lever departs to be contacted with gathering sill, solves lock slide Reset and second gear is disengaged with tooth section；

The center of the rotating seat (611) opens up perforation (614), and rotating pipe (32) fixation is plugged in perforation, institute State fixed -piping (31) activity to be plugged in perforation；

Worm gear (64) is arranged with the lateral wall of the annulus (631), worm gear is engaged with worm screw (65), worm screw by connecting rod with Valve (21) connects.

6. the pipeline assembly of a kind of control rainwater density as claimed in claim 5, it is characterised in that：In latch components (62), The 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 located at a left side First brake(-holder) block of side and the second brake(-holder) block positioned at right side, the left end of the first brake(-holder) block is hinged on the left end of the second brake(-holder) block On swivel pin, the right-hand member of the first brake(-holder) block is connected with the right-hand member of the second brake(-holder) block by the first adjustable spring elasticity (6221)；The The right-hand member of one 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 and the second fore-set phase To setting, the first fore-set and the second fore-set are located in the first adjustable spring；First brake(-holder) block and the second brake(-holder) block are in half Circle, the first brake(-holder) block and the second brake(-holder) block surround brake disc (612).

7. the pipeline assembly of a kind of control rainwater density as claimed in claim 6, it is characterised in that：In latch components (62), Including the first slide slot and the second slide slot, the first slide slot is opened in the right side of the first brake(-holder) block to the pair of slide slot (629) End, the second slide slot is opened in the right-hand member of the second brake(-holder) block, and the first slide slot and the second slide slot are symmetrical set, wherein, First slide slot includes first straight line type slide slot (6291) and second straight line type slide slot (6292) of connection, first straight line type Angle circle between slide slot and second straight line type slide slot is between 90 degree and 180 degree.

8. the pipeline assembly of a kind of control rainwater density as claimed in claim 7, it is characterised in that：In latch components (62), Solution lock slide (623) is provided with a pair of alignment pins (627), and the pair of alignment pin includes that be symmetrical set first determines Position pin and the second alignment pin, the right-hand member of first brake(-holder) block is provided with the first location hole (6222), and the right-hand member of the second brake(-holder) block sets There is the second location hole, when the first fore-set and the second fore-set offset, the first alignment pin and second on the solution lock slide of translation is fixed Position pin can be inserted correspondingly in the first location hole and the second location hole；The pair of bar that slides slides bar and the second cunning including first Row bar, first slides the top that bar is fixedly installed on the first alignment pin, and second slides bar is fixedly installed on the upper of the second alignment pin Side, first slides the central axis of the center line of bar and the first alignment pin.

9. the pipeline assembly of a kind of control rainwater density as claimed in claim 8, it is characterised in that：In latch components (62), First arc guide groove (6231), second arc guide groove of the gathering sill (6230) in solution lock slide (623) including connection (6232), the 3rd arc guide groove (6233), wherein, the arc center of circle of the second arc guide groove is located at the center of annulus (631) On line；In drive component (63), the unlocked state (633) including projection in the radial direction being fixed on annulus (631) madial wall, It is fixed in radially on projection and points to the radial bars (638) in the annulus center of circle；The trip lever (6331) is installed in radial bars End；

With the rotation of annulus, trip lever is first slipped into the first arc guide groove, and orders about solution lock slide in basal disc (621) The heart is translated, meanwhile, second gear (613) starts to engage with tooth section (632), and afterwards, trip lever enters the second arc guide groove, solution Lock slide and the distance at basal disc center keep constant, and afterwards, trip lever enters the 3rd arc guide groove, and order about solution lock slide to Translate away from the direction at basal disc center, when trip lever departs from three arc guide grooves, second gear is disengaged with tooth section.

10. the pipeline assembly of a kind of control rainwater density as claimed in claim 5, it is characterised in that：In drive component (63), The annulus (631) is articulated in housing (600), and the driving means include that fixation is set in the ring gear on annulus madial wall (635) the 3rd gear (636) for engaging with ring gear couples and the first motor in housing with the 3rd gear.