CN210070037U - Heat scheduling device of heating system - Google Patents

Abstract

The utility model relates to the technical field of auxiliary devices of heating systems, in particular to a heat dispatching device of a heating system, which can adjust the heating load in time according to the demand change of different users, thereby improving the flexibility and the practicability; the heat supply system comprises a dispatching box and three groups of heat supply pumps, wherein a dispatching cavity is arranged in the dispatching box, the middle part of the left side of the dispatching box is communicated with a heat supply port, the inner part of the heat supply port is communicated with a heat supply pipe, the right end of the heat supply pipe is communicated with a distribution pipe, the top, the middle part and the bottom of the right side of the distribution pipe are respectively communicated with three groups of heat supply pipes, the left ends of the three groups of heat supply pipes are respectively connected with the right side output ends of the three groups of heat supply pumps, the left side input ends of the three groups of heat supply pumps are respectively communicated with the top, the middle part and the bottom of the right side of the distribution pipe, the upper part; also includes a six-component heat pump.

Description

Heat scheduling device of heating system

Technical Field

The utility model relates to a heating system auxiliary device's technical field especially relates to a heating system heat scheduling device.

Background

As is known, a heating system heat scheduling device is a device which is widely used in the field; the heat dispatching device of the existing heat supply system comprises a dispatching box and three groups of heat supply pumps, a dispatching cavity is arranged in the dispatching box, the middle part of the left side of the dispatching box is communicated with a heat supply port, the inside of the heat supply port is communicated with a heat supply pipe, the right end of the heat supply pipe is communicated with a distribution pipe, the top, the middle part and the bottom of the right side of the distribution pipe are respectively communicated with three groups of heat pipes, the left ends of the three groups of heat pipes are respectively connected with the right side output ends of the three groups of heat supply pumps, the left side input ends of the three groups of heat supply pumps are respectively communicated with the top, the middle part and the bottom of the right side of the distribution pipe, the upper part, the middle part and; when the heat dispatching device of the existing heat supply system is used, the left end of a heat supply pipe is communicated with a heat supply source, three groups of heat supply pipes are respectively connected with three different users, high-temperature water in the heat supply pipe is supplied to the three groups of heat supply pipes through three groups of heat supply pumps, and then the high-temperature water is supplied to the users through the three groups of heat supply pipes; the heat scheduling device of the existing heat supply system is found in use, the working power of the three groups of heat supply pumps is set according to the year-round heat supply load of different types of users, so that the device lacks flexibility in scheduling heat, can not be adjusted timely according to the change of the users, and the practicability of the device is reduced.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a can in time adjust the heating load according to different users' demand changes, improve the heating system heat scheduling device of flexibility and practicality.

The utility model discloses a heating system heat scheduling device, including dispatch case and three group heat supply pumps, the inside dispatch chamber that is provided with of dispatch case, dispatch case left side middle part intercommunication is provided with the heat supply mouth, the inside intercommunication of heat supply mouth is provided with the heat supply pipe, heat supply pipe right-hand member intercommunication is provided with the distributing pipe, distributing pipe right side top, middle part and bottom communicate respectively and are provided with three group's heat pipes, three group's heat pipe left end is connected with the right side output of three group's heat supply pumps respectively, three group's heat supply pump left side input respectively with the right side top of distributing pipe, middle part and bottom intercommunication, dispatch case right side upper portion, middle part and lower part communicate respectively and are provided with three group's heat mouths, three group's heat pipe; the heat pump also comprises a six-component heat pump, wherein the bottom of a heat-dividing pipe positioned above a scheduling cavity is sequentially communicated and provided with four groups of upper connecting ports from left to right, the left side and the right side of the top end of the heat-dividing pipe positioned in the middle of the scheduling cavity and the left side and the right side of the bottom end of the heat-dividing pipe are respectively communicated and provided with four groups of middle connecting ports, the top end of the heat-dividing pipe positioned below the scheduling cavity is sequentially communicated and provided with four groups of lower connecting ports from left to right, a first lower connecting pipe is communicated and provided between the upper connecting port positioned at the leftmost side and the lower connecting port positioned at the leftmost side, a second lower connecting pipe is communicated and provided between the upper connecting port positioned at the middle left side and the lower connecting port positioned at the middle left side, a third lower connecting pipe is communicated and provided, the middle connector positioned on the lower right side of the middle and the lower connector positioned on the right side of the middle are communicated with each other to form a second upper connecting pipe, the upper connector positioned on the rightmost side and the lower connector positioned on the rightmost side are communicated with each other to form a third upper connecting pipe, three component heat pumps in the six component heat pumps are respectively communicated with the middle parts of the first lower connecting pipe, the second lower connecting pipe and the third lower connecting pipe, the output ends of the three component heat pumps are respectively positioned at the bottom ends of the three component heat pumps, the input ends of the three component heat pumps are respectively positioned at the top ends of the three component heat pumps, the other three component heat pumps in the six component heat pumps are respectively communicated with the middle parts of the first upper connecting pipe, the second upper connecting pipe and the third upper connecting pipe, the output ends of the three component heat pumps are respectively positioned at the top ends of the three component heat pumps, and.

The utility model discloses a heating system heat scheduling device, the outside application that adopts different colours respectively of six component heat pumps.

The utility model discloses a heating system heat scheduling device still includes three flowmeters of group, and three flowmeters of group are fixed respectively at the bottom right-hand member of three component heat pipes, and three flowmeters of group all are located the dispatch case outside.

The utility model discloses a heating system heat scheduling device still includes the multiunit sealing ring, the multiunit sealing ring is fixed respectively on four groups on the connector, in four groups connector and four groups down the connector, the inboard of multiunit sealing ring respectively with the top and the bottom of first connecting pipe down, the top and the bottom of connecting pipe under the second, the top and the bottom of connecting pipe under the third, the top and the bottom of connecting pipe on the first, the top and the bottom of connecting pipe on the second and the top and the bottom in close contact with of connecting pipe on the third.

The utility model discloses a heating system heat scheduling device, the multiunit sealing ring all adopts high temperature resistant rubber material.

The utility model discloses a heating system heat scheduling device still includes three alarm of group, and three alarm of group install respectively in the bottom central authorities that are located the branch heat pipe of top and the bottom central authorities that are located the branch heat pipe at middle part and are located the top right side of the branch heat pipe at middle part.

The utility model discloses a heating system heat scheduling device, the equal cladding in the outside of three components heat pipe is provided with thermal insulation material.

The utility model discloses a heating system heat scheduling device, the lateral wall of dispatch case is insulation material.

Compared with the prior art, the beneficial effects of the utility model are that: the heat in the upper heat-distributing pipe can be distributed to the lower heat-distributing pipe through the first lower connecting pipe and the heat-distributing pump on the first lower connecting pipe, the heat in the upper heat-distributing pipe can be distributed to the middle heat-distributing pipe through the second lower connecting pipe and the heat-distributing pump on the second lower connecting pipe, the heat in the middle heat-distributing pipe can be distributed to the lower heat-distributing pipes through the third lower connecting pipe and the heat-distributing pumps on the third lower connecting pipe, the heat in the middle heat-dividing pipe can be distributed to the upper heat-dividing pipes through the first upper connecting pipe and the heat-dividing pumps on the first upper connecting pipe, the heat in the lower heat-distributing pipe can be distributed to the middle heat-distributing pipe through the second upper connecting pipe and the heat-distributing pump on the second upper connecting pipe, the heat in the lower heat distribution pipe can be distributed to the upper heat distribution pipe through the third upper connecting pipe and the heat distribution pump positioned on the third upper connecting pipe; through the operation, the device can redistribute and dispatch the heat in the three-component heat pipe according to the requirement change of different users, so that the device can be adjusted correspondingly according to the requirement change of the users in time, and the flexibility and the practicability of the device during use are improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

in the drawings, the reference numbers: 1. a dispatch box; 2. a heat supply pump; 3. a heat supply pipe; 4. a distribution pipe; 5. a heat distributing pipe; 6. a heat pump is divided; 7. a first lower connecting pipe; 8. a second lower connecting pipe; 9. a third lower connecting pipe; 10. a first upper connection pipe; 11. a second upper connection pipe; 12. a third upper connecting pipe; 13. a flow meter; 14. a seal ring; 15. an alarm; 16. an insulating material.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1, the utility model discloses a heating system heat scheduling device, including dispatch case 1 and three heat supply pumps 2 of group, the inside dispatch chamber that is provided with of dispatch case 1, dispatch case 1 left side middle part intercommunication is provided with the heat supply mouth, the inside intercommunication of heat supply mouth is provided with heat supply pipe 3, heat supply pipe 3 right-hand member intercommunication is provided with distributing pipe 4, distributing pipe 4 right side top, middle part and bottom communicate respectively and are provided with three component heat pipe 5, three component heat pipe 5 left end is connected with the right side output of three heat supply pumps 2 respectively, the left side input of three component heat supply pumps 2 respectively with the right side top of distributing pipe 4, middle part and bottom intercommunication, dispatch case 1 right side upper portion, middle part and lower part communicate respectively and are provided with three component heat mouth, three component heat pipe 5's right-hand member passes three component heat mouth respectively; the heat pump system also comprises a six-component heat pump 6, wherein the bottom of a heat-distributing pipe 5 positioned above a scheduling cavity is sequentially communicated and provided with four groups of upper connecting ports from left to right, the left side and the right side of the top end and the left side and the right side of the bottom end of the heat-distributing pipe 5 positioned in the middle of the scheduling cavity are respectively communicated and provided with four groups of middle connecting ports, the top end of the heat-distributing pipe 5 positioned below the scheduling cavity is sequentially communicated and provided with four groups of lower connecting ports from left to right, a first lower connecting pipe 7 is communicated and provided between the upper connecting port positioned at the leftmost side and the lower connecting port positioned at the leftmost side, a second lower connecting pipe 8 is communicated and provided between the upper connecting port positioned at the middle left side and the middle connecting port positioned at the middle left side, a third lower connecting pipe 9 is communicated and provided between the middle connecting port positioned, a second upper connecting pipe 11 is communicated and arranged between the middle connecting port at the right lower side of the middle and the lower connecting port at the right side of the middle, a third upper connecting pipe 12 is communicated and arranged between the upper connecting port at the rightmost side and the lower connecting port at the rightmost side, three-component heat pumps 6 in the six-component heat pumps 6 are respectively communicated with the middle parts of a first lower connecting pipe 7, a second lower connecting pipe 8 and a third lower connecting pipe 9, the output ends of the three-component heat pumps 6 are all positioned at the bottom ends of the three-component heat pumps 6, the input ends of the three-component heat pumps 6 are all positioned at the top ends of the three-component heat pumps 6, the other three-component heat pumps 6 in the six-component heat pumps 6 are respectively communicated with the middle parts of a first upper connecting pipe 10, a second upper connecting pipe 11 and a third upper connecting pipe 12, the output ends of the three-component heat pump 6 are all positioned at the top end of the three-component heat pump 6, and the input ends of the three-component heat pump 6 are all positioned at the bottom end of the three-component heat pump 6; the heat in the upper heat-distributing pipe can be distributed to the lower heat-distributing pipe through the first lower connecting pipe and the heat-distributing pump on the first lower connecting pipe, the heat in the upper heat-distributing pipe can be distributed to the middle heat-distributing pipe through the second lower connecting pipe and the heat-distributing pump on the second lower connecting pipe, the heat in the middle heat-distributing pipe can be distributed to the lower heat-distributing pipes through the third lower connecting pipe and the heat-distributing pumps on the third lower connecting pipe, the heat in the middle heat-dividing pipe can be distributed to the upper heat-dividing pipes through the first upper connecting pipe and the heat-dividing pumps on the first upper connecting pipe, the heat in the lower heat-distributing pipe can be distributed to the middle heat-distributing pipe through the second upper connecting pipe and the heat-distributing pump on the second upper connecting pipe, the heat in the lower heat distribution pipe can be distributed to the upper heat distribution pipe through the third upper connecting pipe and the heat distribution pump positioned on the third upper connecting pipe; through the operation, the device can redistribute and dispatch the heat in the three-component heat pipe according to the requirement change of different users, so that the device can be adjusted correspondingly according to the requirement change of the users in time, and the flexibility and the practicability of the device in use are improved; the six-component heat pump is directly purchased from the market, and is powered on when in use and operated according to the attached specification, so the details are not repeated.

The utility model discloses a heat dispatching device of a heating system, the exterior of the six-component heat pump 6 is respectively coated with different colors; by coating the six-component heat pump with different colors, the six-component heat pump can be conveniently distinguished, and the simplicity of the device in operation is improved, so that the scheduling efficiency of the device for heat is improved.

The utility model discloses a heating system heat scheduling device, still include three flowmeter sets 13, three flowmeter sets 13 are fixed respectively in the bottom right-hand member of three component heat pipe 5, three flowmeter sets 13 are all located the dispatch box 1 outside; can show the real-time flow of the intraductal high-temperature water of three components heat pipes through three flowmeters of group to make things convenient for operating personnel to know the heat supply capacity of three components heat pipes, thereby conveniently schedule three components heat pipes, improve the thermal dispatch efficiency of device.

The utility model discloses a heating system heat scheduling device, still include multiunit sealing ring 14, multiunit sealing ring 14 is fixed respectively in four group's upper connectors, four group's middle connectors and four group's lower connectors, multiunit sealing ring 14's inboard respectively with the top and the bottom of first lower connecting pipe 7, the top and the bottom of second lower connecting pipe 8, the top and the bottom of third lower connecting pipe 9, the top and the bottom of first upper connecting pipe 10, the top and the bottom of second upper connecting pipe 11 and the top and the bottom of third upper connecting pipe 12 in close contact with; can seal the junction of three component heat pipes and first connecting pipe etc. down through the multiunit sealing ring, prevent that its seepage phenomenon of high-temperature water from appearing, guarantee the normal work and the use of device.

The utility model discloses a heat scheduling device of heating system, the multiple groups of sealing rings 14 are all made of high temperature resistant rubber; the high-temperature-resistant rubber material can improve the high-temperature-resistant capacity of the sealing ring and the elasticity of the sealing ring, so that the sealing effect of the sealing ring can be ensured while the sealing ring can bear high-temperature water for a long time.

The utility model discloses a heating system heat scheduling device, still include three group's alarms 15, three group's alarms 15 are installed respectively in the bottom central authorities of the branch heat pipe 5 that is located above and the bottom central authorities of the branch heat pipe 5 that is located the middle part and the top right side of the branch heat pipe 5 that is located the middle part; the three alarm sets can detect the working conditions of the six heat pumps respectively, and when the conditions that the similar branch heat pumps positioned on the first lower connecting pipe and the branch heat pumps positioned on the third upper connecting pipe are opened simultaneously appear, the alarm can give an alarm sound to remind an operator to process, so that the circulation scheduling condition that the two heat pipes are mutually distributed for the other side is avoided, and the dead circulation condition is avoided in the heat scheduling process.

In the heat dispatching device of the heating system of the utility model, the outer sides of the three-component heat pipes 5 are coated with heat insulating materials 16; the three-component heat pipe can be insulated and insulated by the heat insulating material, so that heat in the heat pipe is prevented from dissipating, the heat supply amount of the device is increased, and the waste of heat is reduced.

The utility model discloses a heat dispatching device of a heating system, the side wall of a dispatching box 1 is made of heat insulation material; the dispatching box made of the heat-insulating material can further carry out heat insulation on the three-component heat pipe and the like, so that the heat loss rate of the device during heat dispatching is further reduced.

The utility model discloses a heating system heat scheduling device, it is when using, is connected with outside heat source through the heat supply pipe, supplies heat for three component heat pipes through three heat supply pumps of group, carries out thermal secondary distribution through six component heat pumps between three component heat pipes to the completion is to thermal dispatch.

The utility model discloses a heating system heat scheduling device, above the mounting means, the connected mode or the mode that sets up of all parts are common mechanical system to the concrete structure, model and the coefficient index of its all parts are its from taking the technique, as long as can reach all can implementing of its beneficial effect, so no longer give unnecessary details here.

The present invention relates to a heat dispatching device for a heating system, and in the case of no reverse explanation, "upper, lower, left, right, front, back, inside and outside" and other directional words included in the term only represent the direction of the term in the normal use state, or are common names understood by those skilled in the art, and should not be considered as limitations to the term. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only. In the present invention, the terms "first", "second" and "third" do not denote any particular quantity or order, but are merely used to distinguish names.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A heat dispatching device of a heat supply system comprises a dispatching box (1) and three groups of heat supply pumps (2), wherein a dispatching cavity is arranged in the dispatching box (1), the middle part of the left side of the dispatching box (1) is communicated with a heat supply port, the inside of the heat supply port is communicated with a heat supply pipe (3), the right end of the heat supply pipe (3) is communicated with a distribution pipe (4), the top, the middle and the bottom of the right side of the distribution pipe (4) are respectively communicated with three groups of heat pipes (5), the left end of each three group of heat pipes (5) is respectively connected with the right output end of the three groups of heat supply pumps (2), the left input end of each three groups of heat supply pumps (2) is respectively communicated with the top, the middle and the bottom of the right side of the distribution pipe (4), the upper part, the middle and the lower part of the right side of the dispatching box (1) are respectively communicated with three, the heat pump is characterized by comprising a six-component heat pump (6), wherein four groups of upper connectors are sequentially communicated and arranged at the bottom of a heat distributing pipe (5) positioned above a dispatching cavity from left to right, four groups of middle connectors are respectively communicated and arranged at the left side and the right side of the top end and the left side and the right side of the bottom end of the heat distributing pipe (5) positioned at the middle part of the dispatching cavity, four groups of lower connectors are sequentially communicated and arranged at the top end of the heat distributing pipe (5) positioned below the dispatching cavity from left to right, a first lower connecting pipe (7) is communicated and arranged between the upper connector positioned at the middle left side and the middle connector positioned at the middle upper side, a second lower connecting pipe (8) is communicated and arranged between the middle connector positioned at the middle left lower side and the lower connector positioned at the middle left side, a third lower connecting pipe (9) is communicated and arranged between the upper connector positioned at the middle right A second upper connecting pipe (11) is communicated and arranged between a middle connecting port positioned at the lower right side of the middle and a lower connecting port positioned at the right side of the middle, a third upper connecting pipe (12) is communicated and arranged between the upper connecting port positioned at the rightmost side and the lower connecting port positioned at the rightmost side, three component heat pumps (6) in the six component heat pumps (6) are respectively communicated with the middle parts of a first lower connecting pipe (7), a second lower connecting pipe (8) and a third lower connecting pipe (9), the output ends of the three component heat pumps (6) are respectively positioned at the bottom ends of the three component heat pumps (6), the input ends of the three component heat pumps (6) are respectively positioned at the top ends of the three component heat pumps (6), and the other three component heat pumps (6) in the six component heat pumps (6) are respectively communicated with the middle parts of the first upper connecting pipe (10), the second upper connecting pipe (11), the output end of the three-component heat pump (6) is located at the top end of the three-component heat pump (6), and the input end of the three-component heat pump (6) is located at the bottom end of the three-component heat pump (6).

2. A heating system heat scheduling device according to claim 1 characterized in that the exterior of the six-component heat pump (6) is coated with different colors.

3. A heating system heat scheduling device according to claim 2, further comprising three sets of flow meters (13), wherein the three sets of flow meters (13) are respectively fixed at the right end of the bottom of the three-component heat pipe (5), and the three sets of flow meters (13) are all located outside the scheduling box (1).

4. A heating system heat scheduling device according to claim 3, further comprising a plurality of sets of sealing rings (14), the plurality of sets of sealing rings (14) being fixed to the four sets of upper connectors, the four sets of middle connectors, and the four sets of lower connectors, respectively, and inner sides of the plurality of sets of sealing rings (14) being in close contact with top and bottom ends of the first lower connecting pipe (7), top and bottom ends of the second lower connecting pipe (8), top and bottom ends of the third lower connecting pipe (9), top and bottom ends of the first upper connecting pipe (10), top and bottom ends of the second upper connecting pipe (11), and top and bottom ends of the third upper connecting pipe (12), respectively.

5. A heating system heat scheduling device according to claim 4 wherein the sets of sealing rings (14) are made of high temperature resistant rubber.

6. A heating system heat scheduling device according to claim 5 further comprising three sets of alarms (15), wherein the three sets of alarms (15) are respectively installed at the bottom center of the upper heat distributing pipe (5), the bottom center of the middle heat distributing pipe (5) and the top right side of the middle heat distributing pipe (5).

7. A heating system heat scheduling device according to claim 6 wherein the three groups of heat pipes (5) are each coated with a heat insulating material (16).

8. A heating system heat scheduling device according to claim 7 wherein the side walls of the scheduling box (1) are all of insulating material.

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