CN206207628U - Using heating network summer cooling device - Google Patents

Abstract

The utility model is related to technical field of heat exchange equipment, is a kind of device of utilization heating network in summer cooling, and it includes thermal source unit, greenhouse hot pipe network, refrigeration unit, and the first outlet pipe is connected with the second water inlet pipe, and the second outlet pipe is connected with the first water inlet pipe；Secondary network circulating pump is serially connected with first outlet pipe；A gate is serially connected with second outlet pipe and the second water inlet pipe respectively；3rd outlet pipe is connected with the first water inlet pipe, and the 3rd water inlet pipe is connected with the first outlet pipe, is serially connected with a gate on the 3rd water inlet pipe and the 3rd outlet pipe respectively, and kind of refrigeration cycle pump is serially connected with the 3rd water inlet pipe.Be arranged on refrigeration unit in the thermal source unit for fruit and vegetable greenhouses heat supply by the utility model, and winter thermal source unit is one cycle system, and heat is transported into greenhouse hot pipe network by the first water inlet pipe, the first outlet pipe；Cooling in summer unit is one cycle system, and the cold water after cooling is transported to greenhouse hot pipe network and discharges cold temperature by a pipe network, is fruit and vegetable greenhouses cooling.

Description

Using heating network summer cooling device

Technical field

The utility model is related to technical field of heat exchange equipment, is a kind of device of utilization heating network in summer cooling.

Background technology

Green house of vegetables solves the problem that northern area winter resident eats fresh vegetables, with the expansion of planting scale, is Ensure that canopy temperature is suitable, it is ensured that also gradually concentrated for the artificial small furnace for heating in vegetable growth and yield, greenhouse Heat-Boilers or heat exchange station are substituted.Along with the development and the raising of people's quality of life of society, off-season cultivation fresh water Fruit technology makes a breakthrough in the north in recent years, and due to economic benefits, this several years various regions fruit and vegetable greenhouses are in eruptive growth, spring The fruit such as cherry, grape, the honey peach listed during section are subject to people's popular welcome.Although anti-season fruit price is very high, Still supply falls short of demand.These fruit and vegetable greenhouses heat supply in winter problems have been solved, but how summer reduces greenhouse temperature, is at dormancy State is the problem of current people's research.Because fruit and vegetable greenhouses area is big, space is high, in addition it is also contemplated that fruit tree needs ventilation etc. Factor, using the refrigeration plants such as air-conditioning not only high cost, effect on driving birds is not good, but also can be caused by that power load is high, and power supply sets The failure of standby often tripping operation.

The content of the invention

The utility model provide a kind of utilization heating network summer cooling device, overcome above-mentioned prior art it Deficiency, it can effectively solve operation of air conditioning systems high cost, effect on driving birds is not good, electricity consumption present in existing fruit and vegetable greenhouses process of refrigerastion The problem that load is high, power supply unit often trips.

The technical solution of the utility model is realized by following measures：One kind is using heating network in summer cooling Device, including thermal source unit, greenhouse hot pipe network, refrigeration unit, the import of greenhouse hot pipe network is connected with the first water inlet pipe, The outlet of greenhouse hot pipe network is connected with the first outlet pipe；The outlet of thermal source unit is connected with the second outlet pipe, thermal source unit Import is connected with the second water inlet pipe；First outlet pipe is connected with the second water inlet pipe, and the second outlet pipe is connected with the first water inlet pipe；The Secondary network circulating pump is serially connected with one outlet pipe or the first water inlet pipe；One is serially connected with respectively on second outlet pipe and the second water inlet pipe Individual gate；The outlet of refrigeration unit is connected with the 3rd outlet pipe, and the import of refrigeration unit is connected with the 3rd water inlet pipe；3rd water outlet Pipe is connected with the first water inlet pipe, and the 3rd water inlet pipe is connected with the first outlet pipe, is gone here and there respectively on the 3rd water inlet pipe and the 3rd outlet pipe A gate is connected to, kind of refrigeration cycle pump is serially connected with the 3rd water inlet pipe.

Here is the further optimization and/or improvements to above-mentioned utility model technical scheme：

Above-mentioned utilization heating network also includes water-water jet in the device of summer cooling, and water-water jet is the hollow knot with cavity Structure, water-water jet is provided with the first import, first outlet, the second import, the second outlet connected with cavity inside, the first import position In the left upper portion of water-water jet, first outlet is located at the right upper portion of water-water jet, and the second import is located at the lower right side of water-water jet, Second outlet is located at the left lower of water-water jet, and the first import is located at the upside of first outlet, and second outlet is located at the second import Upside, water-water jet is serially connected on the 3rd outlet pipe by the first import and first outlet, and water-water jet is by the second import and the Three outlets are serially connected on the 3rd water inlet pipe；Kind of refrigeration cycle pump is serially connected on the 3rd water inlet pipe between water-water jet and refrigeration unit, A gate is serially connected with respectively on the 3rd outlet pipe, the 3rd water inlet pipe between water-water jet and greenhouse hot pipe network.

Automatic exhaust steam valve is provided with the top of above-mentioned water-water jet.

Above-mentioned gate is electric check valve.

Above-mentioned first outlet pipe, the second water inlet pipe, the 3rd water inlet pipe are connected by three-way connection, the second outlet pipe, first Water inlet pipe, the 3rd outlet pipe are connected by three-way connection.

Above-mentioned thermal source unit is boiler room or heat exchange station.

The utility model reasonable and compact in structure, easy to use, it is fruit and vegetable greenhouses heat supply that be arranged on for refrigeration unit by it In thermal source unit, in the winter time, refrigeration unit is closed, while the 3rd gate and the 4th closing gate, thermal source unit starting, the first lock Door, the second gate are opened, thermal source unit, the second water inlet pipe, the second outlet pipe composition one cycle system, and heat is passed through into first Water inlet pipe, the first outlet pipe are transported to greenhouse hot pipe network；In summer, thermal source unit is closed, while the first gate, the second gate Close, refrigeration unit starts, the 3rd gate, the 4th gate are opened, refrigeration unit, the 3rd outlet pipe, the 3rd water inlet pipe composition one The secondary circulatory system, the cold water after cooling is transported to greenhouse hot pipe network and discharges cold temperature by the first water inlet pipe, the first outlet pipe, reaches To the purpose lowered the temperature for fruit and vegetable greenhouses, with it is safe, laborsaving, easy, efficient the characteristics of.

Brief description of the drawings

Accompanying drawing 1 is the main structure diagram of the utility model embodiment one.

Accompanying drawing 2 is the main structure diagram of the utility model embodiment two.

Accompanying drawing 3 is the first working state schematic representation of water-water jet in accompanying drawing 2.

Accompanying drawing 4 is second working state schematic representation of water-water jet in accompanying drawing 2.

Accompanying drawing 5 is the third working state schematic representation of water-water jet in accompanying drawing 2.

Coding in accompanying drawing is respectively：1 is thermal source unit, and 2 is greenhouse hot pipe network, and 3 is refrigeration unit, and 4 enter for first Water pipe, 5 is the first outlet pipe, and 6 is the second outlet pipe, and 7 is the second water inlet pipe, and 8 is secondary network circulating pump, and 9 is automatic exhaust steam valve, 10 is the 3rd outlet pipe, and 11 is the 3rd water inlet pipe, and 12 is kind of refrigeration cycle pump, and 13 is water-water jet, and 14 is the first import, and 15 is first Outlet, 16 is the second import, and 17 is second outlet, and 18 is the first gate, and 19 is the second gate, and 20 is the 3rd gate, and 21 is the Four gates.

Specific embodiment

The utility model is not limited by following embodiments, can according to the technical solution of the utility model and actual conditions come Determine specific embodiment.

In the utility model, for the ease of description, the description of the relative position relation of each part is according to specification The Butut mode of accompanying drawing 2 is described, such as：The position relationship of forward and backward, upper and lower, left and right etc. is according to Figure of description Butut direction determine.

The utility model is further described with reference to embodiment and accompanying drawing：

Embodiment one：As shown in Figure 1, the device using heating network in summer cooling includes thermal source unit 1, greenhouse With hot pipe network 2, refrigeration unit 3, the import of greenhouse hot pipe network 2 is connected with the first water inlet pipe 4, the greenhouse outlet of hot pipe network 2 It is connected with the first outlet pipe 5；The outlet of thermal source unit 1 is connected with the second outlet pipe 6, and the import of thermal source unit 1 is connected with second Water inlet pipe 7；First outlet pipe 5 is connected with the second water inlet pipe 7, and the second outlet pipe 6 is connected with the first water inlet pipe 4；First outlet pipe 5 Or first be serially connected with secondary network circulating pump 8 on water inlet pipe 4；A lock is serially connected with respectively on second outlet pipe 6 and the second water inlet pipe 7 Door；The outlet of refrigeration unit 3 is connected with the 3rd outlet pipe 10, and the import of refrigeration unit 3 is connected with the 3rd water inlet pipe 11；3rd goes out Water pipe 10 is connected with the first water inlet pipe 4, and the 3rd water inlet pipe 11 is connected with the first outlet pipe 5, the 3rd water inlet pipe 11 and the 3rd water outlet A gate is serially connected with pipe 10 respectively, kind of refrigeration cycle pump 12 is serially connected with the 3rd water inlet pipe 11.Second outlet pipe 6 is provided with One gate 18, the second water inlet pipe 7 is provided with the second gate 19, and the 3rd outlet pipe 10 is provided with the 3rd gate 20, the 3rd water inlet pipe 11 are provided with the 4th gate 21.Be arranged on refrigeration unit 3 in the thermal source unit 1 for fruit and vegetable greenhouses heat supply by the utility model, Winter, refrigeration unit 3 is closed, while the 3rd gate 20 and the 4th gate 21 are closed, thermal source unit 1 starts, the first gate 18, Two gates 19 are opened, thermal source unit 1, the second water inlet pipe 7, the composition one cycle system of the second outlet pipe 6, and heat is passed through into first Water inlet pipe 4, the first outlet pipe 5 are transported to greenhouse hot pipe network 2；In summer, thermal source unit 1 is closed, while the first gate 18, Two gates 19 are closed, and refrigeration unit 3 starts, and the 3rd gate 20, the 4th gate 21 are opened, refrigeration unit 3, the 3rd outlet pipe 10, 3rd water inlet pipe 11 constitutes one cycle system, and the cold water after cooling is transported to greatly by the first water inlet pipe 4, the first outlet pipe 5 Canopy hot pipe network 2 discharges cold temperature, is reached for the purpose of fruit and vegetable greenhouses cooling.

Above-mentioned utilization heating network can further be optimized or/and changed in the device of summer cooling according to actual needs Enter：

Embodiment two：As shown in accompanying drawing 2,3,4,5, above-mentioned utilization heating network also includes mixed water in the device of summer cooling Device 13, water-water jet 13 is the hollow structure with cavity, and water-water jet 13 is provided with the first import 14, connected with cavity inside One the 15, second import 16 of outlet, second outlet 17, the first import 14 are located at the left upper portion of water-water jet 13, first outlet 15 In the right upper portion of water-water jet 13, the second import 16 is located at the lower right side of water-water jet 13, and second outlet 17 is located at water-water jet 13 Left lower, the first import 14 is located at the upside of first outlet 15, and second outlet 17 is located at the upside of the second import 16, mixes water Device 13 is serially connected on the 3rd outlet pipe 10 by the first import 14 and first outlet 15, and water-water jet 13 is by the second import 16 and the Three outlets are serially connected on the 3rd water inlet pipe 11；What kind of refrigeration cycle pump 12 was serially connected between water-water jet 13 and refrigeration unit 3 the 3rd enters On water pipe 11, one is serially connected with respectively on the 3rd outlet pipe 10, the 3rd water inlet pipe 11 between water-water jet 13 and greenhouse hot pipe network 2 Individual gate.The utility model is the refrigeration unit 3 of water using output cold medium, and refrigeration unit 3 is by water-water jet 13 and leads to big First water inlet pipe 4 of canopy hot pipe network 2, the first outlet pipe 5 are connected.First water inlet pipe 4, the first outlet pipe 5, greenhouse hot pipe network 2 composition secondary circulation systems, the function of water-water jet 13 is to create the almost nil region of a pressure loss, makes one cycle system System and the relatively independent operation of secondary circulation system, the flow of each circulatory system are solely dependent upon the technical parameter spy of itself water pump Point, so as to avoid because water pump series connection causes to interfere, such as the flow of cold water circulating system depends on kind of refrigeration cycle pump 12 Technical parameter feature, the flow of secondary circulation system depends on the technical parameter feature of secondary network circulating pump 8；With water-water jet 13 Afterwards, secondary circulation system just works only when secondary network circulating pump 8 is opened, when secondary network circulating pump 8 is closed, one cycle The flow that system water pump is opened all returns to one cycle system from the internal bypass of water-water jet 13.The characteristics of water-water jet 13 is maximum be exactly Can guarantee that the system and a system for variable-flow of a constant flow exist and run jointly, effectively protect independent heat transmission equipment System safety, while the operational efficiency of heat transmission equipment can be improved.By monitoring the return water temperature of greenhouse hot pipe network 2, control system The working time of cold group 3 and running frequency, make its automatic running, energy-saving；Enter secondary by water-water jet 13 by adjusting The flow of the circulatory system, so as to be embodied as the purpose of fruit and vegetable greenhouses cooling.

It is three kinds of mode of operations of water-water jet 13 as shown in accompanying drawing 3,4,5, it ensure that one cycle system and secondary Pressure balance between the circulatory system, the flow of one cycle system is G1, and secondary cycle flow is G2, shown in accompanying drawing 3 In the case of, G1=G2；In the case of shown in accompanying drawing 4, G1>G2；In the case of shown in accompanying drawing 5, G1<G2.

As shown in Figure 2, the top of above-mentioned water-water jet 13 is provided with automatic exhaust steam valve 9.Automatic exhaust steam valve 9 can be by cyclic system Hydrogen, oxygen in system etc. are discharged in air, it is to avoid burn into uneven heating that oxygen is caused is even, pipe with gas operation brings Noise, circulating pump whirlpool sky phenomenon the problems such as.

As shown in Figure 2, above-mentioned gate is electric check valve.Electric check valve is favorably improved of the present utility model electric Change and intelligence degree, realize the electric intelligent control of valve, improve efficiency.

As shown in Figure 2, above-mentioned first outlet pipe 5, the second water inlet pipe 7, the 3rd water inlet pipe 11 are connected by three-way connection, Second outlet pipe 6, the first water inlet pipe 4, the 3rd outlet pipe 10 are connected by three-way connection.Three-way connection simple structure, user Just.

As shown in Figure 2, above-mentioned thermal source unit 1 is boiler room or heat exchange station.Boiler room can be to the less fruit of heat Vegetable greenhouse carries out direct heating, it is to avoid heat is wasted in heat exchange station heat transfer process, improves the thermal efficiency, energy saving；Heat exchange The area of heat-supply service stood is larger, and heat is transported to heat exchange station by one cycle system, and one cycle system exists with secondary circulation system Heat exchange station completes heat exchange.

Above technical characteristic constitutes embodiment of the present utility model, and it has stronger adaptability and implementation result, can Increase and decrease non-essential technical characteristic according to actual needs to meet the demand of different situations.

The use process of the utility model embodiment：Be arranged on cold water circulating system as fruit and vegetable greenhouses are supplied by the utility model The thermal source unit 1 of heat, winter thermal source unit 1 is one cycle system, and heat is sent by the first water inlet pipe 4, the first outlet pipe 5 Greenhouse hot pipe network 2 in fruit and vegetable greenhouses；Summer switches to the first water inlet pipe 4 of fruit and vegetable greenhouses, the first outlet pipe 5 is led to Water-water jet 13, refrigeration unit 3 is one cycle system, and the cold water after cooling is mixed through water-water jet 13 with the backwater of secondary circulation system After water cooling, water at low temperature is delivered into fruit and vegetable greenhouses and discharges cold temperature, the water intensification Posterior circle in greenhouse hot pipe network to water-water jet 13 Lower the temperature again, circulated repeatedly with this, be reached for the purpose of fruit and vegetable greenhouses cooling.Face of the power of refrigeration unit 3 according to fruit and vegetable greenhouses Accumulate and determined with cold.

Claims (10)

1. device of a kind of utilization heating network in summer cooling, it is characterised in that including thermal source unit, greenhouse hot pipe network, system Cold group, the import of greenhouse hot pipe network is connected with the first water inlet pipe, and the outlet of greenhouse hot pipe network is connected with the first outlet pipe； The outlet of thermal source unit is connected with the second outlet pipe, and the import of thermal source unit is connected with the second water inlet pipe；First outlet pipe and Two water inlet pipes are connected, and the second outlet pipe is connected with the first water inlet pipe；Secondary network is serially connected with first outlet pipe or the first water inlet pipe Circulating pump；A gate is serially connected with second outlet pipe and the second water inlet pipe respectively；The outlet of refrigeration unit is connected with the 3rd and goes out Water pipe, the import of refrigeration unit is connected with the 3rd water inlet pipe；3rd outlet pipe is connected with the first water inlet pipe, the 3rd water inlet pipe and One outlet pipe is connected, and is serially connected with a gate on the 3rd water inlet pipe and the 3rd outlet pipe respectively, and system is serially connected with the 3rd water inlet pipe SAPMAC method pump.

2. device of the utilization heating network according to claim 1 in summer cooling, it is characterised in that utilize heating network Also include water-water jet in the device of summer cooling, water-water jet is the hollow structure with cavity, water-water jet be provided with cavity First import, first outlet, the second import, the second outlet of portion's connection, the first import are located at the left upper portion of water-water jet, first Positioned at the right upper portion of water-water jet, positioned at the lower right side of water-water jet, second outlet is positioned at a left side for water-water jet for the second import for outlet Side lower part, the first import is located at the upside of first outlet, and second outlet is located at the upside of the second import, and water-water jet enters by first Mouth and first outlet are serially connected on the 3rd outlet pipe, and water-water jet is serially connected in the 3rd water inlet pipe by the second import and the 3rd outlet On；Kind of refrigeration cycle pump is serially connected on the 3rd water inlet pipe between water-water jet and refrigeration unit, water-water jet and greenhouse with hot pipe network it Between the 3rd outlet pipe, be serially connected with a gate respectively on the 3rd water inlet pipe.

3. device of the utilization heating network according to claim 2 in summer cooling, it is characterised in that the top of water-water jet It is provided with automatic exhaust steam valve.

4. device of the utilization heating network according to claim 1 or 2 or 3 in summer cooling, it is characterised in that gate is Electric check valve.

5. device of the utilization heating network according to claim 1 or 2 or 3 in summer cooling, it is characterised in that first goes out Water pipe, the second water inlet pipe, the 3rd water inlet pipe are connected by three-way connection, and the second outlet pipe, the first water inlet pipe, the 3rd outlet pipe lead to Cross three-way connection connection.

6. device of the utilization heating network according to claim 4 in summer cooling, it is characterised in that the first outlet pipe, Two water inlet pipes, the 3rd water inlet pipe are connected by three-way connection, and the second outlet pipe, the first water inlet pipe, the 3rd outlet pipe pass through threeway Fittings.

7. device of the utilization heating network according to claim 1 or 2 or 3 in summer cooling, it is characterised in that heat source machine Group is boiler room or heat exchange station.

8. device of the utilization heating network according to claim 4 in summer cooling, it is characterised in that thermal source unit is pot Stove room or heat exchange station.

9. device of the utilization heating network according to claim 5 in summer cooling, it is characterised in that thermal source unit is pot Stove room or heat exchange station.

10. device of the utilization heating network according to claim 6 in summer cooling, it is characterised in that thermal source unit is pot Stove room or heat exchange station.