CN101371080A

CN101371080A - Apparatus for distributing and controlling a heat carrier which originates from a heat and/or cold source

Info

Publication number: CN101371080A
Application number: CNA2007800022371A
Authority: CN
Inventors: G·施特雷洛
Original assignee: Wilo AG
Current assignee: Wilo SE
Priority date: 2006-03-06
Filing date: 2007-02-28
Publication date: 2009-02-18
Anticipated expiration: 2027-02-28
Also published as: EP1991814A1; EP1991814B1; WO2007101592A1; US20090020270A1; DE102006010562A1; CN101371080B

Abstract

The invention relates to an apparatus for distributing and controlling a heat carrier which originates from a heat and/or cold source, in particular hot and/or cold water, which is supplied to heating and/or cooling bodies and/or surfaces in rooms of a building, wherein the feed of the heat and/or cold source issues into a feed chamber from which the feeds of the heating and/or cooling bodies and/or surfaces branch off, wherein the returns of the heating and/or cooling bodies and/or surfaces issue into a return chamber of the apparatus, from which return chamber the return of the heat and/or cold source emanates, and wherein in particular a controlled decentralized pump is in each case arranged in the feeds and/or returns of the heating and/or cooling bodies and/or surfaces.

Description

Be used for distributing and regulate device from the thermophore of thermal source and/or low-temperature receiver

Technical field

The present invention relates to a kind of be used for distributing and regulate device from the thermophore of thermal source and/or low-temperature receiver, particularly hot water and/or cold water, calandria and/or cooling body and/or heating surface and/or cooling surface in each room of described thermophore input building.

Background technology

In order to heat or to cool off the particularly room of dwelling house of building, known by a large amount of various elements such as pump, fan, control valve, bypass, blender, check valve, the work of adjuster or the like complex installation.The mounting cost that this causes sizable manufacturing expense and has a large amount of connecting pipes, they have strengthened the danger of fault and function mistake in addition.Go back the fixed thermostat valve on each calandria in room, they further strengthen manufacturing and mounting cost and cause maloperation.Usually cause influencing each other of undesirable hydraulic pressure aspect in addition.

Summary of the invention

The objective of the invention is, create a kind of device that starts described type, it make and mounting cost is low, number of spare parts is few and locational requirement is little condition under guarantee building, particularly the best of the calandria of dwelling house or office and/or cooling body and/or heating surface and/or cooling surface supply.

Realize by following measure according to this purpose of the present invention, the input pipe that is thermal source and/or low-temperature receiver feeds in the input cavity, the input pipe of calandria and/or cooling body and/or heating surface and/or cooling surface comes out from this input cavity bifurcated, in one back cavity of the return duct access equipment of calandria and/or cooling body and/or heating surface and/or cooling surface, the return duct of thermal source and/or low-temperature receiver is drawn from back cavity, and the pump of a dispersion of being regulated is set respectively in the input pipe of calandria and/or cooling body and/or heating surface and/or cooling surface and/or return duct especially.

A kind of distributor of compactness have all main elements as: dispensing pump, central pump, particularly mixing pump, check valve, sensor, adjuster (controller), switching network element, be used for the electronic building brick of a plurality of pumps, the built-in regulex in an assembly (plate), filter, ventilating fan, modular structure (function can be determined by simple refit at the scene) sometimes, can expand by other little distributors of engaged position are installed easily.Mounting cost significantly reduces, and number of elements is few, can adopt and produce product and more cheap material by batch, and the power loss in circuit and the conduit under fluid pressure is little.

Can under the situation of little pipeline and wiring expense, install easily by the frame mode that the height of compactness is integrated, guarantee minimum water circulation and can cancel check valve usually.Central authorities' pump can be regulated as required, and can carry out simple Flow-rate adjustment by rotating speed.Provide best for maintenance in addition near possibility, if particularly device is arranged on outside dwelling house or the office.

In claim 2 to 9, listed the particularly good especially structure of relevant above-mentioned advantage about pump.

If input cavity and back cavity are arranged in the same housing and/or object of device, just can reach very-close-coupled structure so, input cavity and back cavity can be made of a housing here, and wherein a partition wall is spaced from each other input cavity and back cavity.

If in the return duct of calandria and/or cooling body and/or heating surface and/or cooling surface, check valve is set, just can reach reliable flow direction.

In the return duct of this external thermal source and/or low-temperature receiver a check valve is set also.

If two chambeies directly particularly interconnect as the passage of hybrid chamber by one, so that the colder thermophore from back cavity is mixed in the input cavity, so just, the embodiment that causes a kind of particularly advantageous heating power to regulate, if in device, a central pump or a mixing pump is set in addition, it transports the thermophore from thermal source and/or low-temperature receiver input pipe, make and under the situation of little energy consumption, very accurately to regulate, advantageous particularly then, here central pump or mixing pump can be particularly be transported to thermophore in the hybrid chamber between back cavity and the input cavity by the inner passage that is arranged in the device, if a valve that can be used for regulating thermal source and/or low-temperature receiver inflow is set in device, also be favourable.

If apparatus moduleization ground is divided into two or more subregions, wherein each subregion has an input cavity, back cavity, is used for input pipe and return duct to the pipe joint of thermal source and/or low-temperature receiver and/or face and particularly an inner passage of leading to the mixed zone, just can reach in the simple especially modular construction of configuration aspects.

In another kind of structure, advise, apparatus moduleization ground is divided into two or more subregions, wherein thermal source and/or low-temperature receiver are connected on the subregion.This modular construction makes and can dismantle easily at the scene and reequip.Other distributors can be installed under the situation that takies little position.Therefore device can be used as distributor, hydraulic branch and/or mixing pump.

Especially suggestion, in device or on mounting strap conductive contact and being used for regulate the electric member of the electronic component of pump, wherein can be on installing or in temperature and/or pressure sensor are set, they are connected with electric member.

Be used to the device that distributes and regulate, then advantageous particularly if be provided with one for each dwelling house or office unit.If the secondary loop that is connected on the input cavity is connected with one of the room, two or more calandrias and/or cooling body and/or heating surface and/or cooling surface respectively, also is very favorable.

If the removably particularly socket connection of joint of the pipeline of guiding thermophore can reach assembling easily so and change module and part easily.

Being used to measure the particularly device of heat energy of energy if at least one is set, making supplementary equipment therefore, particularly thermostat valve need be set on calandria for this reason, is particularly advantageous.

Description of drawings

Look with vertical profile in the accompanying drawings and schematically illustrate embodiments of the invention and being described in detail below.Accompanying drawing is represented:

Fig. 1 have input cavity spaced apart from each other and back cavity not with the device of supporting pump,

Second embodiment that Fig. 2 one has continuous input cavity and back cavity and has mixed function by a mixing pump,

The modular construction of Fig. 3 band hydraulic branch and mixed function,

The modular construction of the electrical/electronic member of dual mixed function of Fig. 4 band and dual setting.

The specific embodiment

Have a long housing 1 at the embodiment shown in Fig. 1, it is separated into an input cavity (distributor chamber) 3 that vertically is provided with and one and its back cavity 4 of be arrangeding in parallel by a partition wall 2 in the vertical.Two

chambeies

3,4 can be extended on housing 1 whole length.But input cavity 3 is done shortlyer in the embodiment shown in Fig. 1, so that for the input pipe 5 and the return duct 6 of primary return provides the position, thermal source particularly heating boiler and/or low-temperature receiver is positioned at this primary return.Input pipe 5 is connected with chamber 8 by the filters 9 that a connector arrangement 7 and is arranged in the chamber 8, from the thermophore of thermal source or low-temperature receiver from the chamber 8 through passway 10 arrival input cavities 3.Replace passway 10 also a valve can be set.On this external housing end face at least one exhaust fan is set.

The input pipe 11 that leads to calandria and/or cooling body and/or heating surface and/or cooling surface H is from input cavity 3, after thermophore flows through them.Thermophore refluxes by the return duct 12 that feeds back cavity 4 respectively again.Input pipe 11 is connected with device or housing 1 by connector arrangement 7 equally with return duct 12.Beginning at every input pipe, be on a side of input cavity, a dispensing pump 13 that disperses to be set respectively in the present embodiment at connector arrangement, it is with thermophore sucking-off and being transported in the input pipe 11 from input cavity 3, therefore each secondary loop of leading to calandria and/or cooling body and/or heating surface and/or cooling surface H has a pump 13 that disperses, making does not need thermostat valve on heat exchanger or calandria and/or cooling body and/or heating surface and/or cooling surface H, but the pump of these dispersions is given corresponding calandria and/or cooling body and/or heating surface and/or cooling surface H by their adjusting with the thermophore of requirement.

In return duct 12, particularly check valve 15 is set at the position of its feeding back cavity 4, it is used for making thermophore not flow back in the return duct, but enters from back cavity in the return duct 6 of the primary return that leads to thermal source or low-temperature receiver.

Particularly fix the electric box 15 of a charged gas or electronic component and power supply on the end face by conductive contact in a side of housing 1 one ends.Regulate whole device together with its each member by this facility, particularly dispensing pump 13.In the cavity 8 of input cavity 3 and back cavity 4, a pressure and/or flow sensor 16 and three

temperature sensors

17,18 and 19 are set for this reason.According to the measured Numerical Control dispensing pump 13 in there.Here in the secondary loop, other temperature sensors can also be set.One unillustrated pressure differential measuring instrument also can be set between input pipe 5 and return duct 6.

Medium or thermophore flow into the input cavity 8 of distributor from

primary return

5,6 when one or several dispenser pump 13 puts into operation, and flow in the input cavity 3 by a passway 10 or a valve therefrom.

Secondary loop

11,12 is therefrom by the MEDIA FLOW mistake, and its dispensing pump 13 puts into operation.Medium enters back cavity 4 and flows into primary return therefrom again then.Because the check valve in return duct 12 ends has prevented backflow and thermal cycle.

Be mainly that by the form of implementation of Fig. 2 and difference by Fig. 1 input cavity 3 and back cavity 4 interconnect by a passway 20, it is arranged on the end of device inner chamber in the present embodiment.Select this passway also can be arranged on other positions as another kind.Because two chambeies connect the partially mixed of the thermophore that causes two

chambeies

3,4 or medium like this.Because a passage 21 that cavity 8 is connected with input pipe 5 that passes through that feeds the passage oral region is returned 20 1 the additional mixed functions in this passway.Therefore do not enter input cavity 3 by passway 10 thermophore of the input pipe 5 of primary return does not resemble in by the embodiment of Fig. 1, but arrive passway 20 by vertical passage 21, it forms a hybrid chamber there.Guarantee to have only respectively as liquid needed so much heating or cooling to enter input pipe 11 thus, that is the dispensing pump 13 that disperses not that medium unmixed ground with input pipe 5 is input in the input pipe 11, but import with the form of mixing.

Central pump as mixing pump 22 is arranged on the connecting portion between input cavity 8 and the vertical passage 21, and it is used for guaranteeing, a plurality of media or thermophore are delivered to passway 20 or the hybrid chamber by passage 21 there.This pump 22 is regulated by the electronic installation in the electronic box 15 equally, particularly utilizes the sensor that is provided with.

When one or several dispensing pump 13 puts into operation (wherein also can one or several dispensing pump 13 drop to 0), medium flows into the back cavity 4 of distributor through the secondary loop from input cavity 8.As long as mixing pump 22 turn-offs,

primary return

5,6 does not just circulate.Connect the back at mixing pump 22 and only carry so multimedium to the secondary loop, promptly until the mixing temperature that for example reaches regulation from primary return.This is particularly interesting when combined system such as radiator have the different surperficial heater that requires with respect to input temp.Because mixing pump 22 can be cancelled independent blender.

Distributor is made modular construction in by the embodiment of Fig. 3 and 4, and wherein each housing parts forms a dispenser zone 1a with input pipe 11 and return duct 12 respectively, and wherein two or more this dispenser zone interfix.Common each dwelling house, each office or each residential area or Office Area are used a dispenser zone respectively.Dispenser zone 1a is connected on the free end by a closure member 1b, on the other end, connect a bonding pad 1c as isolating housing, make to form input cavity 8, with the jockey of input cavity 3 and with the jockey of back cavity 4, and be connected on primary return input pipe far away 5 and the return duct 6.Bonding pad 1c only need be connected on the housing of dispenser zone 1a with the fixing particularly screw of its housing, to obtain a complete distributor.Vertical passage 21 by pump 22 vertical passage of supplying with 21 and the second dispenser zone 1a that are connected on Fig. 3 left side connects, and makes and also supplies with described two dispenser zone by pump 22.The electronic box 15 that has the Electrical and Electronic member is installed on the side at regional 1a dorsad on the housing of bonding pad 1c.

This modular construction causes high flexibility and matching capacity.For example in Fig. 4, represent a kind of form of implementation, wherein on the both sides of bonding pad 1c, connect a dispenser zone 1a respectively, electronic box 15 with an Electrical and Electronic that separates is fixed on the corresponding free end respectively, particularly respectively on connector 1b, make the secondary loop of a dispenser zone 1a differently to regulate with respect to the secondary loop of another dispenser zone 1a.

Two pumps in the 1c of bonding pad, have been represented.Above pump 22 as the passage 21 that mixing pump input has above-mentioned functions, be positioned at pump 26 below it from the direct input input cavities 3 of input pipe 5, make the bonding pad 1c not only can be as by the structure of Fig. 1 but also can work as structure alternatively by Fig. 2.Because the discharge pressure of pump 26, the pump 13 of dispersion is not subjected to the influence of

primary return

5,6 pressure losses.

Wherein 27 places, position can be provided with one by part in the zone 20, the passway between

chamber

3 and 4, and it also can be used as valve work, makes two

chambeies

3,4 both can fully separately also can have connection mutually more or less mutually.This also can equally with every other valve be regulated by the electronic installation in the electronic box 15 by part or valve 27.

For pump the device in or on layout following possibility can be arranged:

-

pump

13,22,26 is arranged in the housing 1 of device.

-pump 13 is arranged on the connecting portion place of input and/or

return duct

11,12 and housing 1.

-pump 13 is arranged on the beginning of input and/or

return duct

11,12.

-pump 13 is arranged in the connector bonding pad in input and/or

return duct

11,12 and housing and/or

chamber

3,4.

-pump 13 be arranged on connector arrangement 7 on a side of input cavity and/or back cavity.

-pump 13 is arranged in input pipe and/or the return duct, particularly in input pipe and/or

return duct

11,12.

-pump 13 is arranged on the housing wall or housing wall inside.

-pump 13 is arranged on the inwall or outer wall of housing wall.

The housing of distributor and particularly dispenser zone and bonding pad are made elongated in the embodiment shown.But these housings that replace also can have other shapes, particularly box-shaped, cube or disc.This does not change described architectural feature so far and function.

In the unillustrated embodiment of another kind measuring instrument is set in distribution of the present invention and adjusting device, particularly is used for measuring the particularly sensor of heat of energy, these energy are used in corresponding load.Regulated quantity with each dispenser pump 13 is used in the calculating just enough for this reason.Also can be and particularly in dispenser pump 13, sensor is set but replace in the secondary loop.

Claims

1. be used for distributing and regulate from the thermophore of thermal source and/or the low-temperature receiver device of hot water and/or cold water particularly, described thermophore feeds calandria and/or cooling body and/or heating surface and/or the cooling surface (H) in each room of building, it is characterized by:

The input pipe of one thermal source and/or low-temperature receiver (5) feeds in the input cavity (3), and the input pipe (11) of calandria and/or cooling body and/or heating surface and/or cooling surface (H) comes out from this input cavity (3) tap,

The return duct (12) of-calandria and/or cooling body and/or heating surface and/or cooling surface (H) is passed in the back cavity (4) of described device, and the return duct of thermal source and/or low-temperature receiver (6) is drawn from this back cavity,

-pump of a dispersion of being regulated particularly is set respectively in the input pipe (11) of calandria and/or cooling body and/or heating surface and/or cooling surface (H) and/or return duct (12).

2. according to the device of claim 1, it is characterized by: described pump (13,22,26) is arranged on housing (1) inside of described device.

3. by the device of claim 1 or 2, it is characterized by: described pump (13) is arranged on the connecting portion of input pipe (11) and/or return duct (12) and housing (1).

4. by the device of claim 3, it is characterized by: described pump (13) is arranged on the starting point place of input pipe (11) and/or return duct (12).

5. by the device of claim 3, it is characterized by: described pump (13) is arranged in the connector bonding pad of input pipe (11) and/or return duct (12) and housing and/or chamber (3,4).

6. by the device of claim 5, it is characterized by: described pump (13) be arranged on connector arrangement (7) on a side of input cavity (3) and back cavity (4).

7. by each device of aforesaid right requirement, it is characterized by: described pump (13) is arranged in input pipe and/or the return duct, particularly in input pipe (11) and/or the return duct (12).

8. by each device of aforesaid right requirement, it is characterized by: described pump (13) is arranged on the housing wall or in the housing wall.

9. by the device of claim 6, it is characterized by: described pump (13) is arranged on the inwall or outer wall of housing wall.

10. by each device of aforesaid right requirement, it is characterized by: input cavity (3) and back cavity (4) are arranged in the same housing (1) and/or in the body of described device.

11. the device by claim 10 is characterized by: input cavity (3) and back cavity (4) are made of a housing (1), and a partition wall (2) is spaced from each other input cavity (3) and back cavity (4) in this housing.

12. each the device by the aforesaid right requirement is characterized by: in the return duct (12) of calandria and/or cooling body and/or heating surface and/or cooling surface (H) check valve is set.

13. each the device by the aforesaid right requirement is characterized by: in the return duct (6) of thermal source and/or low-temperature receiver a check valve is set.

14. by each device of aforesaid right requirement, it is characterized by: in order to be mixed into from the colder thermophore of back cavity (4) in the input cavity (3), two chambeies (3,4) directly interconnect by a passway (20) of particularly making hybrid chamber.

15. by each device of aforesaid right requirement, it is characterized by: a central pump or mixing pump (22) are set in described device inside, and it transports the thermophore from the input pipe of thermal source and/or low-temperature receiver (5).

16. by the device of claim 15, it is characterized by: central pump or mixing pump (22) particularly are arranged on inner passage (21) in the described device by one with thermophore and are transported in the mixed zone (20) between back cavity (4) and the input cavity (3).

17. each the device by the aforesaid right requirement is characterized by: in described device inside one valve is set, can regulates the input pipe (5) of thermal source and/or low-temperature receiver by this valve.

18. each device by the aforesaid right requirement, it is characterized by: described apparatus module formula ground is divided into two or more subregions (1a), wherein each subregion (1a) has an input cavity (3), a back cavity (4), is used for input pipe and return duct (11,12) to the joint of calandria and/or cooling body and/or heating surface and/or cooling surface (H) and particularly an inner passage of leading to mixed zone (20).

19. each the device by the aforesaid right requirement is characterized by: described apparatus module formula ground is divided into two or more subregions (1a), and wherein the input pipe of thermal source and/or low-temperature receiver and return duct (5,6) are connected on the subregion (1c).

20. each the device by the aforesaid right requirement is characterized by: in described device or on be provided with one and have electrical connector and be used for regulating the electric member (15) of the electronic component of pump.

21., it is characterized by by the device of claim 20: in described device and/or on temperature sensor and/or pressure sensor (16-19) are set, they are connected with electric member (15).

22. each the device by the aforesaid right requirement is characterized by: be provided with one for each housing unit or office unit and be used to the device that distributes and regulate.

23. each the device by the aforesaid right requirement is characterized by: the secondary loop (11,12) that is connected on the input cavity (3) is connected with one of the room, two or several calandria and/or cooling body and/or heating surface and/or cooling surface (H) respectively.

24. each the device by the aforesaid right requirement is characterized by: the joint of the pipeline (5,6,11,12) of guiding thermophore is dismountable, particularly connector arrangement (7).

25. each the device by the aforesaid right requirement is characterized by: at least one is set is used for measuring the particularly equipment of heat of energy.

26. by each device of aforesaid right requirement, it is characterized by: the pump of dispersion (13) can be according to the needs of calandria and/or cooling body and/or heating surface and/or cooling surface (H) are regulated with being separated from each other.