RU94104U1 - DRY STORAGE CABINET SDB - Google Patents

Abstract

 1. Dry storage cabinet SDB containing a drainage unit, characterized in that a drainage unit based on the moisture-absorbing material “Zeolite NaA” is used, which allows to reduce the humidity in the cabinet environment from 1 to 0.1% and reduce the regeneration cycle of the moisture-absorbing material from 60 to 40 min, which also contains a fan, a heating element, a power electric drive and external shutters, which are mounted outside the cabinet and closed with a decorative casing. ! 2. SDB dry storage cabinet according to claim 1, characterized in that the device is equipped with a black and white graphic LCD-indicator for displaying service information (value of relative humidity of the internal environment and the temperature value of the internal environment of the cabinet), a built-in 4 MB memory module for storage statistical information, USB, Ethernet and RS232 interfaces for communication with a personal computer (PC), as well as sensors for open doors, humidity, temperature and external alarms.

Description

The utility model relates to the field of electrical engineering, namely to the designs of moisture-proof cabinets for storing moisture-sensitive electronic components, semiconductors, radioelements, integrated circuits, printed circuit boards, silicon wafers, etc.

It is known that changes in temperature and humidity affect the physicochemical properties of materials. So with an increase in temperature, the development of certain defects in materials accelerates, lowering the strength of joints and structures, impairing the functional and electrical characteristics of products. A number of materials undergo chemical decomposition and accelerate aging. At low temperatures, there is a sharp fluctuation in the temperature of the product, caused by heating during operation and cooling after shutdown. When the ambient temperature changes on the surface and inside, moisture condenses, which is one of the most dangerous environmental factors. It accelerates the corrosion of materials, changes the electrical characteristics of dielectrics, causes thermal decomposition of materials, hydrolysis, mold growth and other mechanical damage to products. Therefore, in the process of assembly and installation work, it becomes necessary to store radioelements, circuit boards, and other products of electronic equipment in special dry storage cabinets with temperature and humidity control.

Known hardware cabinet outdoor installation for placing electronic devices, in particular components of telecommunication and information technology, in which the electronic devices are hermetically sealed by the first internal structure of the cabinet, and the second external structure of the cabinet is located on the first so that a hollow space is formed between the structures of the cabinet, while the second external structure of the cabinet is formed by hollow profile tires that are detachably fixed to the first internal structure of the hardware cabinet, wall, the door and lid are made of individual buses of the hollow profile (see., e.g., in Patent OF №2212836, Cl. A47V 47/02, N05K 5/06) [1].

A disadvantage of the known device [1] is that its design is adapted exclusively for constructive solutions of telecommunication and information technology, in particular, to ensure certain climatic conditions of the equipment located in it, i.e. in fact, an outdoor cabinet is an integral part of the construction of an object and is not suitable for storing various moisture-sensitive electronic components, semiconductors, radioelements, integrated circuits, printed circuit boards, silicon wafers, etc.

Also known is a dry storage cabinet manufactured by Totech Europe BV, the SUPER-DRY series, containing a housing and a drainage unit located inside the structure, designed to store various moisture-sensitive electronic components independent of the cabinet design (see, for example, information on the website manufacturer: http://www.totech.eu.com) [2].

This cabinet [2] is free from the drawbacks of the device [1] and its design is adapted to store various moisture-sensitive electronic components independent of the cabinet design. However, the known device [2], due to the use of an outdated element base in its design, does not have a high information content of the device, since all service information is displayed using seven-segment indicators and LEDs installed on the front panel of the device, low humidity reduction indicators, and a long cycle of moisture-absorbing material regeneration and a small useful amount of internal space. In addition, in the known device [2] there is no built-in memory module for storing statistical information, as well as communication with a PC for setting operating modes and reading statistical information. Thus, the known device [2] is not efficient enough to store modern electronic components that are particularly sensitive to moisture.

The problem to which the proposed utility model is directed is to increase the information content of the device and to increase the efficiency of the device.

The technical result from the use of the proposed utility model is to increase the information content of the device and increase the efficiency of the device.

The above technical result is achieved due to the fact that in the dry storage cabinet SDB containing a dehumidification unit, according to the proposal, a dehumidification unit based on the moisture-absorbing material “Zeolite NaA” is used, which allows to reduce the humidity in the cabinet environment from 1% to 0.1% and reduce the regeneration cycle of the moisture-absorbing material from 60 to 40 minutes, which also contains a fan, a heating element, a power electric drive and external dampers, which are mounted outside the cabinet and closed with a decorative casing; the device is equipped with a black and white graphic LCD indicator for displaying service information (the value of relative humidity of the internal environment and the temperature of the internal environment of the cabinet), a built-in 4 MB memory module for storing statistical information, USB, Ethernet, and RS232 interfaces for communication with a PC, as well as sensors for open doors, humidity, temperature and external alarms.

The applicant has not found sources of information containing the same set of essential features specified in the formula of the utility model, which allows us to conclude that the proposed technical solution meets the criterion of "novelty."

The utility model is illustrated in the drawing, where figure 1 shows the structural diagram of the device.

Dry storage cabinet SDB contains a control and display unit (1), which in turn contains an LCD indicator (2) and a control panel (3), a processor unit (4) containing an internal memory module (5) and a central processor (6), a drying unit (7) containing the moisture-absorbing material “Zeolite NaA” (8), a fan (9), a heating element (10), a power drive (11) and external shutters (12), an open door sensor (13), a humidity sensor and temperature (14), external alarm (15) and USB, Ethernet and RS232 (16) interfaces.

Dry storage cabinet SDB operates as follows.

Electronic components, semiconductors, radioelements, integrated circuits, printed circuit boards, silicon wafers, etc. placed inside a dry storage cabinet. Using the control panel (3) of the control and display unit (1), the operator sets the operating mode of the cabinet. In this case, all information is displayed on a black and white graphical LCD-indicator (2). The processor unit (4) receives from the control and indication unit (1) information about the selected operating mode of the cabinet and provides storage of the received information in the built-in memory module (5), processes the received information and sets the operating modes of the cabinet (regeneration cycle - shutter solenoid is on (12 ) and the heating element (10); the active drying cycle - the shutter solenoid (12) and the heating element (10) are turned off, and the fan (9) is turned on; or the passive drying cycle - the shutter solenoid (12) is turned off, the heating element (10) and fan (9)), for which form There are control actions on the executive relays that control the operation of the heating element (10), shutter solenoids (12) and the fan (9) of the drainage unit (7), and also provides input signals from information sensors (13, 14).

The processor unit (4) converts the received information from the sensors (13, 14) into a digital serial code and transfers it via the data bus to the control and indication unit (1) to display it on the LCD indicator (2). In this case, the processor unit (4) provides the transfer of stored statistical data to a personal computer via USB, Ethernet and RS232 (16) and controls the external alarm (15), transmitting signals from the transmitters (13, 14) to it, if necessary operator intervention in the operation of the device.

Using the proposed utility model will allow for the efficient storage of moisture-sensitive electronic components, semiconductors, radioelements, integrated circuits, printed circuit boards, silicon wafers, etc. while maintaining the functional and electrical characteristics of the products.

Claims (2)

1. Dry storage cabinet SDB containing a drainage unit, characterized in that a drainage unit based on the moisture-absorbing material “Zeolite NaA” is used, which allows to reduce the humidity in the cabinet environment from 1 to 0.1% and reduce the regeneration cycle of the moisture-absorbing material from 60 to 40 min, which also contains a fan, a heating element, a power electric drive and external shutters, which are mounted outside the cabinet and closed with a decorative casing. 2. SDB dry storage cabinet according to claim 1, characterized in that the device is equipped with a black and white graphic LCD-indicator for displaying service information (the value of the relative humidity of the internal environment and the temperature of the internal environment of the cabinet), a built-in 4 MB memory module for storage statistical information, USB, Ethernet and RS232 interfaces for communication with a personal computer (PC), as well as sensors for open doors, humidity, temperature and external alarms.