CN109000464A

CN109000464A - Multi-direction temperature transfer dryer

Info

Publication number: CN109000464A
Application number: CN201811018243.2A
Authority: CN
Inventors: 李长利
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-09-03
Filing date: 2018-09-03
Publication date: 2018-12-14

Abstract

This equipment is a kind of multi-direction alternating temperature drying equipment of multipurpose, belongs to drying machinery field.Really accelerate dry materials speed, is the variation of temperature, traditional dryer hot-flow flue cannot go out cold wind, cold air duct cannot go out hot wind, and uneven drying blows to material for a long time with identical temperature, wind direction cannot be converted, and heat energy transfer direction is single, inefficiency.This system drying channel is divided into two parts, a channel air inlet, another channel outlet air, two channels tail portion connection, for divulging information.This system blower can be with positive and negative rotation.This system is connect with two-position five-way valve 3 again after being connect using compressor 1 with two-position four-way valve 2, and two-position five-way valve 3 is separately connected external heat exchanger 4, internal exchanger A10, internal exchanger B11；The heat exchanger other end is respectively connected to two-position five-way valve 5；Two-position five-way valve 5 is then connected to 8 filter of fluid reservoir, 7 expansion valve 6 after being connected to two-position four-way valve 9；6 road Zai Anyuan of expansion valve is connected back to compressor 1.

Description

Multi-direction temperature transfer dryer

Technical field

This equipment is a kind of multi-direction alternating temperature drying equipment of multipurpose, belongs to drying machinery field.

Background technique

Keep drying efficiency low it is demonstrated experimentally that temperature is constant after study, and really accelerate dry materials speed, is temperature The variation of degree, and excessively high temperature can be such that material coking and materials quality declines, traditional dryer hot-flow flue cannot go out cold wind, Cold air duct cannot go out hot wind, and the dry materials speed near hot-air mouth is fast, and cold air outlet slow drying speed, uneven drying, and And the hot wind and cold wind temperature gone out is constant, blows to material for a long time with identical temperature, air-out direction is single, cannot convert wind To, and heat energy transfer direction is single, can only by thermal energy by outside turn to it is internal or by internal turn outside.It cannot cope with Dry concrete condition, inefficiency.

Summary of the invention:

To solve the above problems,

1. this system drying channel is divided into two parts, a channel air inlet, another channel outlet air, two channels tail portion connection It is logical, for divulging information.

2. this system blower can be with positive and negative rotation.

3. this system is connect with two-position five-way valve 3 again after being connect using compressor 1 with two-position four-way valve 2, two-position five-way valve 3 It is separately connected external heat exchanger 4, internal exchanger A10, internal exchanger B11；It is external heat exchanger 4, internal exchanger A10, interior The other end of portion heat exchanger B11 is respectively connected to two-position five-way valve 5；Two-position five-way valve 5 connects again after being connected to two-position four-way valve 9 Be connected to 8 filter of fluid reservoir, 7 expansion valve 6: 6 road Zai Anyuan of expansion valve is changed through two-position four-way valve 9, two-position five-way valve 5 by outside Hot device 4, internal exchanger A10, internal exchanger B11 are connecting back to compressor 1 through two-position five-way valve 3 and two-position four-way valve 2

4. this system is temperature-variable drying machine, it is characterised in that control temperature change, dryer hot-flow flue can go out cold wind, cold wind Road can go out hot wind, uniform drying, and air-out direction is Bidirectional outlet air, can convert wind direction, and the multi-direction transfer thermal energy of energy, can incite somebody to action Thermal energy by turn to outside drying box it is internal or by drying box internal turn outside.It can the dry concrete condition of reply.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of multi-direction alternating temperature drying machine embodiment 1.

Fig. 2 is the structural schematic diagram of multi-direction alternating temperature drying machine embodiment 1.

Fig. 3 is the structural schematic diagram of multi-direction alternating temperature drying machine embodiment 1.

Fig. 4 is the structural schematic diagram of multi-direction alternating temperature drying machine embodiment 1.

Fig. 5 is the structural schematic diagram of multi-direction alternating temperature drying machine embodiment 2.

Specific embodiment

One, embodiment one

Drying machine: material enters inside machine through feed inlet 14, drives chain-sprocket system 13 by motor 15, makes material Delay reaches outlet 16, reaches drying purpose.

Heat transfer process:

1. two-position four-way valve 2 as shown in Figure 1, two-position five-way valve 3, two-position five-way valve 5, two-position four-way valve 9 are in first It sets.The refrigerant that compressor 1 comes out after the connection of two-position four-way valve 2 using two-position five-way valve 3, by two-position five-way valve 3 to interior Portion heat exchanger B11 realizes heating process, and blower is by the air-supply of diagram direction；The other end of internal exchanger B11 is respectively connected to two Position five-way valve 5, two-position five-way valve 5 are then connected to 8 filter of fluid reservoir, 7 expansion valve 6 after being connected to two-position four-way valve 9；Refrigerant Expanded 6 road Zai An of valve reaches internal exchanger A10 through two-position four-way valve 9, two-position five-way valve 5 and realizes temperature-fall period, through two Position five-way valve 3 and two-position four-way valve 2 connect back to compressor 1.

2. as shown in Fig. 2, two-position four-way valve 2, two-position four-way valve 9 are in the second position, two-position five-way valve 3, two-position five-way Valve 5 is in first position.Compressor 1 come out refrigerant through two-position four-way valve 2 connection after using two-position five-way valve 3, by two Position five-way valve 3 realizes heating process to internal exchanger A10, and blower is by the air-supply of diagram direction；Internal exchanger A10's is another End is respectively connected to two-position five-way valve 5, and two-position five-way valve 5 is then connected to 8 filter 7 of fluid reservoir after being connected to two-position four-way valve 9 Expansion valve 6；Expanded 6 road Zai An of valve of refrigerant reaches internal exchanger B11 and realizes through two-position four-way valve 9, two-position five-way valve 5 Temperature-fall period is connecting back to compressor 1 through two-position five-way valve 3 and two-position four-way valve 2

3. as shown in figure 3, two-position four-way valve 2, two-position four-way valve 9 are in first position, two-position five-way valve 3, two-position five-way Valve 5 is in the second position.Compressor 1 come out refrigerant through two-position four-way valve 2 connection after using two-position five-way valve 3, by two Position five-way valve 3 realizes heating process to internal exchanger A10, and blower is by the air-supply of diagram direction；Internal exchanger A10's is another End is respectively connected to two-position five-way valve 5, and two-position five-way valve 5 is then connected to 8 filter 7 of fluid reservoir after being connected to two-position four-way valve 9 Expansion valve 6；Expanded 6 road Zai An of valve of refrigerant reaches external heat exchanger 4 through two-position four-way valve 9, two-position five-way valve 5 and realizes heat Amount transfer alternating temperature process is connecting back to compressor 1 through two-position five-way valve 3 and two-position four-way valve 2

4. as shown in figure 4, two-position four-way valve 2, two-position four-way valve 9, two-position five-way valve 3, two-position five-way valve 5 are in second It sets.The refrigerant that compressor 1 comes out after two recessed port valves 2 connect using two-position five-way valve 3, by two-position five-way valve 3 to outside Portion's heat exchanger 4 realizes that heat shifts alternating temperature process, and blower is by the air-supply of diagram direction；The other end of external heat exchanger 4 is separately connected To two-position five-way valve 5, two-position five-way valve 5 is then connected to 8 filter of fluid reservoir, 7 expansion valve 6 after being connected to two-position four-way valve 9；System Expanded 6 road Zai An of valve of cryogen reaches internal exchanger A10 through two-position four-way valve 9, two-position five-way valve 5 and realizes temperature-fall period, Compressor 1 is connected back to through two-position five-way valve 3 and two-position four-way valve 2

Two, embodiment two

Baking room structure: drying channel is divided into two parts, a channel air inlet, another channel outlet air, two channel tails Portion's connection, for divulging information.

Heat transfer process: with example 1.

Claims

1. this system blower can be with positive and negative rotation.

2. this system is connect with two-position five-way valve 3 again after being connect using compressor 1 with two-position four-way valve 2, two-position five-way valve 3 is distinguished Connect external heat exchanger 4, internal exchanger A10, internal exchanger B11；External heat exchanger 4, internal exchanger A10, inside are changed The other end of hot device B11 is respectively connected to two-position five-way valve 5；Two-position five-way valve 5 is then connected to storage after being connected to two-position four-way valve 9 8 filter of flow container, 7 expansion valve 6；6 road Zai Anyuan of expansion valve through two-position four-way valve 9, two-position five-way valve 5 by external heat exchanger 4, Internal exchanger A10, internal exchanger B11 are connecting back to compressor 1 through two-position five-way valve 3 and two-position four-way valve 2.

3. this system is temperature-variable drying machine, it is characterised in that control temperature change, dryer hot-flow flue can go out cold wind, cold air duct energy Hot wind out, uniform drying, air-out direction are Bidirectional outlet air, can convert wind direction, and can multi-direction transfer thermal energy, can by thermal energy by Outside inside being turned to outside drying box or by drying box internal turn.It can the dry concrete condition of reply.