DE3614731A1 - Cold storage element for installation in cool rooms - Google Patents

Abstract

Cold storage element in a compact profiled shape which consists of a profiled container (1) filled with eutectic brine and, situated therein, a pipeline (8a-f), at least pipeline (8a-d), conducting coolant. The profiled container is statically reinforced by three transverse webs (22, 23, and 24), at least two transverse webs, and thus divided into four chambers (25, 26, 27, 28), at least into three chambers. The pipeline conducting coolant is equipped with lamellae (9, 10), and as a result the heat exchange from the brine to the coolant flowing through is significantly improved. The pipeline is guided centrally in the profiled container by pipe holders (11, 12) and is secured against vibrations as the pipe holders are supported on the inner wall of the profiled container and guided with a friction fit. The air circulation is guaranteed with quiet cooling by the special profiled shape of the cold storage element and by the free space enlargement associated therewith between the individual cold storage elements. The known ice crystal formation which forms between the free spaces of the cold storage elements is greatly reduced and partly eliminated by the invention so that the required cold radiation is provided for a greater time. <IMAGE>

Description

The invention relates to a cold storage element for installation in cold rooms, especially in portable cold rooms according to the features in the preamble of claim 1.

The number of pieces and the length of the cold storage elements are according to the volume of the cold room and the required cooling temperature determined according to DIN 8959. The cold storage elements have the task of reducing the cold losses during loading and unloading of the cold room are caused by cold radiation from one to compensate for a certain period.

The cold storage elements are, for. B. in portable cold rooms to stationary cooling units or connected to a central refrigerant cycle station and brought to the desired cooling temperature.

Cooling storage elements are in the different embodiments known.

The cold storage elements are with a certain clearance Mounted under the cold room ceiling and with spacers separated from each other.

The size of the free space around the cold storage element is therefore for cold radiation of particular importance.

The invention has for its object a cold storage element to develop such that

• - The storage capacity is increased without the volume of the To affect the refrigerator compartment
• - the eutectic brine to the desired one faster than before Cooling temperature is brought
• - The air circulation in the refrigerator is improved as it this is a so-called silent cooling, d. H. no Air circulation takes place by fans
• - The known ice crystal formation prevented or delayed that is first in the small space between Cold room ceiling and cold storage element forms and then on the larger but also longer free space between the cooling elements passes over and closes the free space so that the Desired cold radiation can no longer take place and the cold storage elements must be defrosted.

According to the invention, this object is achieved in the characterizing part 1 - 5 of the claim with the listed Characteristics.

If you compare the inventive arrangement with the known rectangular cold storage shape, which in DE-PS 31 11 863 has been described, it can be seen that the recording volume for the eutectic brine per cold storage element at least doubled and the number of cold storage elements has been halved, that means that too the pipeline connecting the refrigerant between two cold storage elements omitted and the number of pipe connections and the brine filler neck is halved. The refrigerant piping forms in the cold storage element at least three or five pipe turns and have only two connections for the inlet and outlet of the refrigerant.

By slats, according to the features of claim 3, according to the evaporator principle on the refrigerant piping are set up, the exchange area for the Temperature transfer used to freeze the eutectic Brine is needed, enlarged.

The freezing time of the eutectic brine, which is common in the This takes place at night with portable cold rooms reduced and secured in time.

The design of the slats is designed so that they with the Refrigerant pipes sometimes have a fixed pipe package form and a safe distance from the inner wall of the cold storage element exhibit.

The new design of the lamella remains in the liquid area of eutectic brine and corrosion by abrasion the protective protective layer cannot be applied. The refrigerant pipelines are attached Pipe holder, according to the features of claim 4, in Center of the cold storage element against Vibrations secured because the pipe holder on the inner wall of the storage jacket with friction.  

Through the invented cold storage element with its compact Cold storage form, according to the features of claims 1 and 2, and the large rounding on the outer surface of the Free space between the cold room ceiling and the cold storage element as well as the space between the individual cold storage elements magnified so that the known ice crystal formation, which leads to a reduction in cold radiation the improved air circulation is almost canceled.

On the outer surface in the inner region of the cold storage shape, no solid ice crystal formation can occur as a result of the shape, according to the features of claims 1 and 2, FIG. 1, and due to the vibration present in portable cold stores (refrigerated vehicles).

A constant cold radiation is due to the shape of the given cold storage element.

The cold storage jacket is made up of at least two or three Cross bars stabilized and thus divided into chambers that an incision at the end of the cross-section for the sheet guide of the refrigerant piping. Due to the profile shape of the cold storage element, according to the Features of claims 1, 2 and 5, it is possible to use the refrigerant leading pipelines with fins and pipe spacers completely into the cold storage jacket from one side insert and on an end cap, previously with the jacket profile has been connected to assemble.

After the pipeline assembly, the jacket profile with the second end cap connected, filled with eutectic brine and then closed the filling opening.

Based on drawings and illustrated designs, the Invention explained below. It shows:

Fig. 1 shows a cross section through the profile container with subdivision and piping.

Fig. 2 shows a longitudinal section through the cold storage element, so that the subdivision of the profile container, the piping, pipe winding, fins and pipe holder can be seen in the plan view.

Fig. 3 shows a longitudinal section through the cold storage element, so that in the side view the subdivision of the profile container, the piping, pipe turns, fins and pipe holder can be seen.

Fig. 4 shows a cross section through the profile container with subdivision and pipe holder design.

Fig. 5 shows a cross section through the profile container with subdivision and lamella design.

List of reference symbols

• 1st Profile container
  2nd Profile jacket
  3rd End cap for pipe connections
  4th End cap for filler neck
  5 . Filler neck
  6 . Pipe connection "input"
  7 . Pipe connection "output"
  8 . a , b , c , d , e , f , refrigerant piping
  9 . Slat
  10th Slat
  11 . Pipe holder
  12 . Pipe holder
  13 . eutectic brine
  14 . Profile jacket - side wall "outside"
  15 . Profile jacket - side wall "outside"
  16 . Profile jacket - side wall "inside"
  17th Profile jacket - side wall "inside"
  18th Profile jacket - side wall curved "outside"
  19th Profile jacket - curved side wall "inside"
  20th Profile jacket - contact surface
  21st Profile jacket - contact surface
  22 . Profile jacket - crossbars
  23 . Profile jacket - crossbars
  24th Profile jacket - crossbars
  25th Profile jacket - chambers
  26 . Profile jacket - chambers
  27th Profile jacket - chambers
  28 Profile jacket - chambers
  29 . Profile jacket - incision for elbows
  30th Profile jacket - incision for elbows
  31 Profile jacket - incision for elbows

Claims (5)

1. Cold storage element for installation in cold rooms, in particular portable cold rooms, consisting of a U or horseshoe cross-sectional shape ( FIG. 1), which has two to three transverse webs ( 22 , 23 , 24 ) for stability and thereby the profile container ( 1 ) divided into three to four chambers ( 25 , 26 , 27 , 28 ).
The cold storage element is filled with eutectic brine ( 13 ). At least four to six refrigerant pipes ( 8 a , b , c , d , e , f) with two pipe connections ( 6 , 7 ) are arranged in the cold storage element. 2. Cold storage element according to claim 1, characterized in that the profile container ( 1 ) consists of a profile piece ( 2 ), the end openings of which are closed by end caps ( 3 , 4 ), of which one end cap ( 3 ) has two through openings for pipe connections ( 6 , 7 ) and the second end cap ( 4 ) has a closable opening ( 5 ) for filling the eutectic brine ( 13 ). 3. Cold storage element according to one of claims 1 - 2, characterized in that each refrigerant pipe ( 8 a , b , c , d , e , f) is equipped with slats ( 9 , 10 ) for better temperature transmission and also with chamber subdivision in round shape ( 26 , 27 ) has the same temperature transfer. 4. Cold storage element according to one of claims 1-3, characterized in that each refrigerant pipe ( 8 a , b , c , d , e , f) by pipe holder ( 11 , 12 ) in the profile container ( 1 ) and centrally against vibrations is secured, since the design of the pipe holder ( 11 , 12 ) is supported on the inner wall of the profile container and guides in a frictionally locking manner. 5. Cold storage element according to one of claims 1-4, characterized in that the profile container ( 1 ) consists of a non-ferrous metal or plastic.