CN210242186U

CN210242186U - Intelligent remote control heat pump dehumidification dryer

Info

Publication number: CN210242186U
Application number: CN201921182679.5U
Authority: CN
Inventors: Keyu Huang; 黄可煜; Kezhun Huang; 黄克准; Fujie Ma; 马富杰; Jiale Ma; 马佳乐
Original assignee: Nanning Keyu Energy Technology Co ltd
Current assignee: Nanning Keyu Energy Technology Co ltd
Priority date: 2019-07-25
Filing date: 2019-07-25
Publication date: 2020-04-03
Anticipated expiration: 2029-07-25

Abstract

The utility model relates to the technical field of heat pump dehumidification drying, in particular to an intelligent remote control heat pump dehumidification drying machine, which comprises a shell, wherein the shell internally comprises a heat pump drying host, a plurality of drying rooms, a control end and an execution end; the control end and the execution end are arranged to remotely control the starting and stopping of the heat pump drying host, so that a controller can know the condition of the drying room without needing to be in front of the heat pump drying host, and the working efficiency is improved. The utility model discloses set up a plurality of stoving room, every stoving room autonomous working, mutual noninterference has practiced thrift the energy, has improved the suitability. Additionally, the utility model discloses a control computer monitoring stoving room's the condition, can let the person on duty look over the monitoring data to send to the user side through the form of SMS, so that the person on duty looks over the monitoring data at any time.

Description

Intelligent remote control heat pump dehumidification dryer

Technical Field

The utility model relates to a heat pump dehumidification stoving technical field, concretely relates to intelligence remote control heat pump dehumidification drying-machine.

Background

The dryer is used as the main equipment for industrial and agricultural product drying operation and has wide public foundation. The traditional dryer generates heat by burning wood or diesel oil, and the emission of pollutants such as smoke dust, CO and the like can be increased in the drying process, so that more and more people select a heat pump type dryer to dry crops such as grains, tea and the like.

The heat pump type drying-machine among the prior art mostly adopts contrary carnot principle, and gas is pressurized in the compressor, becomes high temperature high pressure gas, then gets into the condenser, and in the condenser, the condensation liquefaction emits a large amount of heats, and the heat that releases is used for promoting the air temperature in the material storehouse, makes the material dried, and the moisture in the material is evaporated by the vaporization, and the vapor that evaporates out directly discharges in the atmosphere, by the exhaust moisture of dehumidification system. However, the current heat pump type dryer cannot be remotely controlled, and can only be manually operated in front of the dryer, thereby reducing the operation efficiency.

Disclosure of Invention

In order to solve the problem, the utility model provides an intelligence remote control heat pump dehumidification drying-machine, concrete technical scheme is as follows:

the intelligent remote control heat pump dehumidification dryer comprises a shell (1), wherein a heat pump drying host (2), a plurality of drying rooms (4), a control end and an execution end are arranged in the shell (1); the heat pump drying main machine (2) is respectively connected with the plurality of drying rooms (4) through pipelines; a plurality of drying rooms (4) are internally provided with a temperature sensor and a humidity sensor respectively; the execution end is fixed outside the shell (1); the execution end is used for acquiring data of the temperature sensor and the humidity sensor, uploading the data to the control end and executing a control instruction of the control end; the control end is used for controlling the start and stop of the heat pump drying host (2) according to the data collected by the execution end; the control end is connected with the execution end, and the execution end is respectively connected with the temperature sensor, the humidity sensor and the heat pump drying host (2).

Preferably, the execution end comprises a switch module and a remote I/O module; the switch module is connected with the remote I/O module; the switch module is connected with the switch control of the heat pump drying main machine (2) and is used for controlling the start and stop of the heat pump drying main machine (2); the remote I/O module is connected with the control end in a wired or wireless way; the device is used for acquiring data of the temperature sensor and the humidity sensor and uploading the data to the control end; and the remote I/O module is respectively connected with a temperature sensor and a humidity sensor.

Preferably, the control end comprises a first controller, a gateway module and a user end; the first controller is respectively connected with the gateway module and the user side; the first controller is connected with the execution end in a wired or wireless mode; the data acquisition module is used for receiving the data acquired by the execution end and issuing a control instruction to the execution end; the gateway module is used for uploading data received by the first controller to a cloud server for storage; and the user side is used for a user to check the data received by the first controller and input a control instruction to the first controller.

Preferably, the control end further comprises a data interface module, and the first controller is connected with the execution end through the data interface module.

Preferably, the execution end comprises a second controller, and the control end comprises a monitoring computer; the second controller is used for acquiring data of the temperature sensor and the humidity sensor and transmitting the data to the monitoring computer for displaying; the second controller is respectively connected with the temperature sensor, the humidity sensor and the monitoring computer.

Preferably, the control terminal further comprises a data transmission unit DTU, and the data transmission unit DTU is configured to send data of the temperature sensor and the humidity sensor to the user terminal in a GPRS communication manner.

Preferably, the drying room also comprises an air outlet pipe (3), air inlet switches (6) and an air return pipe (7), wherein the number of the air inlet switches is matched with that of the drying rooms (4);

the heat pump drying main machine (2) is provided with an air outlet (21) and an air return inlet (22);

the bottom of the drying room (4) is provided with an air inlet (41), and the top is provided with an air outlet (42);

an air outlet (21) of the heat pump drying main machine (2) is communicated with the air outlet pipe (3); the air inlet holes (41) of the plurality of drying rooms (4) are respectively communicated with the air outlet pipe (3); the air inlet switch (6) is arranged at the air inlet hole (41); an air return inlet (22) of the heat pump drying main machine (2) is connected with an air return pipe (7); the air outlet holes (42) of the plurality of drying rooms (4) are respectively connected with an air return pipe (7); the heat pump drying main machine (2) generates dry hot air, and the dry hot air enters the plurality of drying rooms (4) through the air outlet (21), the air outlet pipe (3) and the air inlet (41) respectively; the wet hot air in the drying rooms (4) returns to the heat pump drying main machine (2) through the air outlet holes (42), the air return pipes (7) and the air return openings (22).

Preferably, a plurality of drying rooms (4) are respectively provided with a tray (5) for bearing the dried articles; the tray (5) is provided with a vent hole (51).

The utility model has the advantages that: the utility model provides an intelligence remote control heat pump dehumidification drying-machine stops through setting up opening of control end and execution end can the dry host computer of remote control heat pump, can let the controlling staff need not know the condition in stoving room before the dry host computer of heat pump, has improved work efficiency.

Additionally, the utility model discloses a control computer monitoring stoving room's the condition, can let the person on duty look over the monitoring data to send to the user side through the form of SMS, so that the person on duty looks over the monitoring data at any time.

The utility model discloses set up a plurality of stoving room, every stoving room autonomous working, mutual noninterference has practiced thrift the energy, has improved the suitability.

Drawings

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

FIG. 2 is a schematic structural view of a drying room;

wherein: 1-shell, 2-heat pump drying main machine, 3-air outlet pipe, 4-drying room, 5-tray, 6-air inlet switch and 7-air return pipe;

21-air outlet, 22-air return inlet, 41-air inlet, 42-air outlet and 51-vent hole.

Detailed Description

For a better understanding of the present invention, the following further description is made in conjunction with the accompanying drawings and the specific embodiments:

as shown in fig. 1-2, the intelligent remote control heat pump dehumidification dryer comprises a housing 1, wherein the interior of the housing 1 comprises a heat pump drying host 2, a plurality of drying rooms 4, a control end and an execution end; the heat pump drying main machine 2 is respectively connected with a plurality of drying rooms 4 through pipelines; a temperature sensor and a humidity sensor are respectively arranged in the drying rooms 4; the execution end is fixed outside the shell 1; the execution end is used for acquiring data of the temperature sensor and the humidity sensor, uploading the data to the control end and executing a control instruction of the control end; the control end is used for controlling the start and stop of the heat pump drying host 2 according to the data collected by the execution end; the control end is connected with the execution end, and the execution end is respectively connected with the temperature sensor, the humidity sensor and the heat pump drying host machine 2.

The intelligent remote control heat pump dehumidification dryer also comprises an air outlet pipe 3, air inlet switches 6 and air return pipes 7, wherein the number of the air inlet switches is matched with that of the drying rooms 4; the heat pump drying main machine 2 is provided with an air outlet 21 and an air return port 22; the bottom of the drying room 4 is provided with an air inlet 41, and the top is provided with an air outlet 42; an air outlet 21 of the heat pump drying main machine 2 is communicated with an air outlet pipe 3; the air inlet holes 41 of the plurality of drying rooms 4 are respectively communicated with the air outlet pipe 3; the air inlet switch 6 is arranged at the air inlet hole 41; an air return port 22 of the heat pump drying main machine 2 is connected with an air return pipe 7; the air outlet holes 42 of the plurality of drying rooms 4 are respectively connected with the air return pipes 7; the heat pump drying main machine 2 generates dry hot air, and the dry hot air respectively enters the plurality of drying rooms 4 through the air outlet 21, the air outlet pipe 3 and the air inlet 41; the wet hot air in the drying rooms 4 returns to the heat pump drying main machine 2 through the air outlet 42, the air return pipe 7 and the air return opening 22. The plurality of drying rooms 4 are respectively provided with a tray 5 for bearing the dried articles; the tray 5 is provided with a vent hole 51. Placing the dried articles on a tray 5 in a selected drying room 4, opening a ventilation switch 6 corresponding to the drying room 4, generating dry hot air by the heat pump drying host machine 2, and respectively entering the drying room 4 through an air outlet 21, an air outlet pipe 3 and an air inlet 41; the drying room 4 feeds the wet hot air into the heat pump drying main machine 2 for dehumidification through the air outlet 42, the air return pipe 7 and the air return opening 22. If there are fewer items to be dried, it is preferable to use the drying room 4 near the side of the air outlet 21.

The execution end comprises a switch module and a remote I/O module; the switch module is connected with the remote I/O module; the switch module is connected with the switch control of the heat pump drying main machine 2 and is used for controlling the start and stop of the heat pump drying main machine 2; the remote I/O module is used for acquiring data of the temperature sensor and the humidity sensor and uploading the data to the control end; the remote I/O module is respectively connected with the temperature sensor and the humidity sensor. The remote I/o module uses the Link-Max I-7012 remote I/o module. The output of temperature sensor and humidity transducer in stoving room 4 all is connected with long-range i/o module to temperature sensor and humidity transducer pass through the support setting in stoving room 4, and wherein humidity transducer sets up the top in stoving room. The temperature sensor and the humidity sensor monitor the temperature and the humidity of the inner space of the drying room 4, and transmit the monitored data to the remote i/o module. The switch module uses a switch module with model number BL-SF.

The control end comprises a first controller, a gateway module, a user end and a data interface module; the first controller is respectively connected with the gateway module and the user side; the first controller is connected with the remote I/O module of the execution end through the data interface module. The first controller is connected with the execution end in a wired or wireless mode; the data acquisition module is used for receiving the data acquired by the execution end and issuing a control instruction to the execution end; the gateway module is used for uploading the data received by the first controller to a cloud server for storage; the user side is used for a user to check the data received by the first controller and input a control instruction to the first controller. The first controller uses the minimum system of the current STM32 series single chip microcomputer, the gateway module uses the 4G LTE 5 port gateway module, the 4G LTE 5 port gateway module is connected with the network interface of the minimum system of the STM32 series single chip microcomputer, and the user side is connected with the serial port or the wireless connection of the minimum system of the STM32 series single chip microcomputer. The data interface module is a serial port or other data interfaces and is used for completing data transmission and exchange between the remote i/o module and the first controller.

The control end further comprises a control wireless module, the execution end further comprises an execution wireless module, the first controller is in wireless connection with the execution wireless module through the control wireless module, and the execution wireless module is connected with the remote i/o module. The execution radio and the control radio both use the GRM500 module. Use wireless remote transmission to make the utility model discloses need not lay wire too much when the installation, still make things convenient for the troubleshooting in later stage simultaneously, reduced the time of circuit investigation.

The user side is a mobile phone or a tablet personal computer, the user carries the mobile phone at any time, and when the temperature or the humidity in the drying room 4 is higher than or lower than a preset value, the wireless module is controlled to directly send a short message to the mobile phone or the first controller sends network information to the mobile phone through the internet. Wherein, install the data that can inquire the high in the clouds server of corresponding current APP on the cell-phone, inquire according to the data of 4 monitoring in stoving room, when the user controls heat pump drying host computer 2 as required simultaneously, send control command or through the corresponding current APP input control command of cell-phone through the mobile phone SMS, control opening and closing of heat pump drying host computer 2. The monitoring computer is provided with a corresponding existing webpage, and can also inquire the monitoring data of the drying room 4.

The equipment at the control end is arranged in the office or other places of the manager, so that the manager can conveniently manage the equipment. The cloud server is used for storing data and allowing other people to inquire and read the monitored data through the Internet when the monitored data needs to be checked.

Carry out 24 hours incessant control to heat pump drying host 2 and stoving room 4 through mobile phone SMS, APP, SMS notice relevant personnel when can realizing equipment fault shutdown, utilize APP or SMS remote control heat pump drying host 2's running condition. The utility model discloses with look over the monitoring data in stoving room 4 and the operational aspect of heat pump drying host computer 2 in real time through cell-phone or webpage, if heat pump drying host computer 2 breaks down GRM500 module can automatic send the SMS to relevant managers's cell-phone, realize unmanned on duty.

In addition, the execution end comprises a second controller, and the control end comprises a monitoring computer; the second controller is used for acquiring data of the temperature sensor and the humidity sensor and transmitting the data to the monitoring computer for displaying; the second controller is respectively connected with the temperature sensor, the humidity sensor and the monitoring computer. The control end further comprises a data transmission unit DTU, and the data transmission unit DTU is used for sending data of the temperature sensor and the humidity sensor to the user end in a GPRS communication mode. The monitoring computer is connected with the data transmission unit DTU through a radio station, and the data transmission unit DTU sends the short message to an attendant in a GPRS communication mode, so that the in-situ and remote full-duplex data transmission is realized. The radio station connected with the monitoring computer establishes full-duplex wireless connection with the radio station connected with the data transmission unit DTU by setting the radio with the same frequency and the same parameters. And comparing the data acquired by the second controller with a preset value, if the numerical value of the monitoring data meets the condition, sending the information to a Data Transmission Unit (DTU) by the monitoring computer through a radio station, and sending a corresponding edited short message to the mobile phone by the DTU. The temperature and humidity of the corresponding drying room can be seen through the mobile phone short message. The second controller and the monitoring computer perform data transmission in an RS485 and RS232 mode. The second controller may select a PLC controller or a SL1629-DR heat pump dryer controller.

Wherein, the inner wall in stoving room 4 is fixed with the heat preservation heat insulating board, and the heat preservation heat insulating board is the self-adhesive rubber and plastic sponge of taking the gum, conveniently pastes, and can reduce the inside heat in stoving room 4 and outside heat exchange, has improved resource utilization.

When the ventilation switches 6 are electronic switches, the second controller is respectively connected with the ventilation switches 6 and used for controlling the on-off of the ventilation switches 6 so as to select the drying room 4 for drying the articles.

The heat pump drying main machine 2 includes a heat pump condenser, a heat regenerator, and an evaporator, which are prior art and are not described herein again. The number of the drying rooms 4 in this embodiment is at least 2. Through setting up the independent stoving room of a plurality of, and every stoving room bottom sets up the switch of ventilating for the independent stoving room of a plurality of can independently carry out the drying, avoids hot-blast wasting of resources, only is energy-conserving more for closed loop dehumidification heat pump drying machine among the prior art has a whole drying area.

The present invention is not limited to the above-described embodiments, but only to the preferred embodiments of the present invention, and the present invention is not limited thereto, and any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims

1. Intelligence remote control heat pump dehumidification drying-machine, its characterized in that: the drying system comprises a shell (1), wherein a heat pump drying host (2), a plurality of drying rooms (4), a control end and an execution end are arranged in the shell (1); the heat pump drying main machine (2) is respectively connected with the plurality of drying rooms (4) through pipelines; a plurality of drying rooms (4) are internally provided with a temperature sensor and a humidity sensor respectively; the execution end is fixed outside the shell (1); the execution end is used for acquiring data of the temperature sensor and the humidity sensor, uploading the data to the control end and executing a control instruction of the control end; the control end is used for controlling the start and stop of the heat pump drying host (2) according to the data collected by the execution end; the control end is connected with the execution end, and the execution end is respectively connected with the temperature sensor, the humidity sensor and the heat pump drying host (2).

2. The intelligent remote-control heat pump dehumidification dryer of claim 1, wherein: the execution end comprises a switch module and a remote I/O module; the switch module is connected with the remote I/O module; the switch module is connected with the switch control of the heat pump drying main machine (2) and is used for controlling the start and stop of the heat pump drying main machine (2); the remote I/O module is connected with the control end in a wired or wireless way; the device is used for acquiring data of the temperature sensor and the humidity sensor and uploading the data to the control end; and the remote I/O module is respectively connected with a temperature sensor and a humidity sensor.

3. The intelligent remote-control heat pump dehumidification dryer of claim 1, wherein: the control end comprises a first controller, a gateway module and a user end; the first controller is respectively connected with the gateway module and the user side; the first controller is connected with the execution end in a wired or wireless mode; the data acquisition module is used for receiving the data acquired by the execution end and issuing a control instruction to the execution end; the gateway module is used for uploading data received by the first controller to a cloud server for storage; and the user side is used for a user to check the data received by the first controller and input a control instruction to the first controller.

4. The intelligent remote-control heat pump dehumidification dryer of claim 3, wherein: the control end also comprises a data interface module, and the first controller is connected with the execution end through the data interface module.

5. The intelligent remote-control heat pump dehumidification dryer of claim 1, wherein: the execution end comprises a second controller, and the control end comprises a monitoring computer; the second controller is used for acquiring data of the temperature sensor and the humidity sensor and transmitting the data to the monitoring computer for displaying; the second controller is respectively connected with the temperature sensor, the humidity sensor and the monitoring computer.

6. The intelligent remote-control heat pump dehumidification dryer of claim 4, wherein: the control end further comprises a data transmission unit DTU, and the data transmission unit DTU is used for sending data of the temperature sensor and the humidity sensor to the user end in a GPRS communication mode.

7. The intelligent remote-control heat pump dehumidification dryer of claim 1, wherein: the drying room also comprises an air outlet pipe (3), air inlet switches (6) and air return pipes (7), wherein the number of the air inlet switches is matched with that of the drying rooms (4);

8. The intelligent remote-control heat pump dehumidification dryer of claim 1, wherein: the plurality of drying rooms (4) are respectively provided with a tray (5) for bearing the dried articles; the tray (5) is provided with a vent hole (51).