DE2132196A1 - Temperature display device - Google Patents

Description

PATENT LAWYERS Dipl.-Ing. WERNER COHAUSZ Dipl-Ing. WILHELM FLORACK. DipUng. RUDOLF KNAUF

4 Düsseldorf, Schumannstrasse 97 01Q91QC

Applicant: Leytons (Foods) Limited -Priddy, Wells, Somerset, England

June 28, 1971

Temperature display device. J

The invention relates to a temperature indicating device, and more particularly a device that is suitable for food and other temperature-sensitive products to indicate when the product has been exposed to an increased temperature for an inadmissibly long time. The time during which an elevated temperature is tolerated usually depends on the degree of temperature increase, based on the normal ambient temperature for the product, and the nature of the product itself. For example, frozen food must not have a temperature above freezing point are exposed for so long that they noticeably thaw, although obviously an action for a period of a few seconds or even a few minutes usually doesn't matter. A temperature display device for use in such cases must therefore have a certain degree of construction-related insensitivity, to give a proper warning only when a certain temperature is exceeded for longer than an acceptable time has been.

According to the invention, a temperature display device is provided, consisting of two relatively movable elements and securing means to hold the two elements against such relative movement, which consist of a solid medium, which at melts at a certain temperature, so that the two elements are released and the elements move relatively can and thereby provides a visual indication that the

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109882/1289

The melting point temperature has been exceeded long enough for the solid medium to melt.

The two elements can be relative under the influence of gravity be arranged to be movable relative to one another; however, means are preferably provided which allow the two elements to move relative to one another cause. This can be achieved by a magnet acting on an element, but preferably by a flexible magnet Means such as a spring.

The heat capacity and other characteristics of the solid medium and the surrounding material, if any, which tends to provide thermal insulation thereof, determine the time fe which elapses until the medium melts. The greater the heat capacity, the longer the temperature must be maintained or exceeded in order to melt the medium and the two Share items.

The device can be made resettable by removing the elements are brought to their original positions and by cooling the device in order to solidify the medium again.

In a preferred form, the invention is ordered in an encapsulated form. Tube with a transparent window section, the tube containing the solid medium and a plunger in the tube between a retracted position, in which it is out of the area of the window), and a retracted position can be moved into which it is visible through the window, and a spring in the tube for pushing the plunger from the retracted position to the is arranged advanced position, the medium in the fixed state for holding the plunger in the retracted position is set up, while there is a migration of the plunger by the action of the spring in the advanced position in the molten state enables. The plunger is preferably made of a magnetic material, such as soft iron, so that after melting it of the medium can be returned to the retracted position by using a magnetic field outside the tube.

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The invention is explained in more detail below using an exemplary embodiment with reference to the drawing. In the Drawing are

Fig. 1 is a diagram of the temperature display door device, Fig. 2 is a position of the gate direction in the released position

and 3 shows a section through a tool for bending over the tempera door display

Referring to the drawing, initially to Figs. 1 and 2, it can be seen that the temperature display gate assembly consists of an outer transparent bore 10 made of flexible plastic and an inner transparent bore 12 made of substantially rigid plastic. In the narrow annular space between the two bores there is a material 14t which is impermeable to light and consists, for example, of paper or fatebe, except in an annular area 16 at the level of one end, which forms a window to the interior of the boring 12. The bands of the window 16 are clearly marked with colored rings 17. They drill are closed at their ends 18. Inside the inner bore there is a plunger 20 which can be slid down and which is tensioned by a Sohraubendruokfeder 22 in the sighting of the end of the bore on which the window is located. The tree within the bore 12 is otherwise filled with a medium that melts above the specified temperature. Saber it may, for example, be water or water in a mixture with another substance, for example, to give Xthylenglykol to a melting point below 0 ⁰ C.

In Fig. 3 it is shown a magnetic adjusting tool for the temperature display Torrieatung. The tool consists of a housing from two Veiehemisen tube elements 30 and 32, the τοη one anti-magnetic Sistanzring 34 are separated. The element 30 forms an opening at one end of the housing, and the relatively longer element 32 is sealed at the other end by a cap 36.

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sen. A helical compression spring 38 is located on the locked End of the case. Sine sleeve 40 made of an antiaagne ti see material, for example brass, encloses the Dietanzring 34 and the adjacent ends of members 30 and 32. Two horseshoe permanent magnets 42 are on opposite sides of the housing arranged that the two ends of the respective horseshoe span the sleeve 40. The magnets are secured by screws 44 in their Location held. The two ends of the respective horseshoe magnet have opposite polarity, and the two magnets are arranged so that like poles face each other. The adjacent end portions of the elements 30 and 32 therefore have the opposite polarity, and a strong magnetic field is created between the two elements, with the strongest area within the housing in the middle of the spacer ring 34.

The plunger 20 of the temperature display device is brought into its retracted position (FIG. 2) while the medium within the tube 12 is above its melting point. The medium is of course in its liquid state and the ram is therefore held in place by the spring 22 at the end of the drill (Fig. 1). The device is inserted into the housing of the magnetic adjusting tool as shown in FIG. 5, the window being closest to the opening. The length of the housing is designed so that when the temperature indicator is pushed as far into the housing against the compression spring 38 as possible, the window 16 and consequently the plunger 20 will be within the strongest range of the magnetic field. This is clear from Fig. 3 * n. see. The temperature indicator is then released and is urged outwardly by the spring 38 into the position shown in dashed lines in FIG. The ram 20, however, which consists of Veioheisen, is held in the middle of the strong magnetic field, so it is moved into the retracted position opposite the surrounding drill hole, which is shown in FIG.

109882/1289

half of the window area while the device is in motion is in the magnetic setting tool, the medium within the tube 12 is frozen, and the temperature display gate device is then removed and is ready for use, the plunger 20 being held in the retracted position by the now solidified medium.

When the device is at a temperature above the melting point is exposed to the medium long enough to allow the medium to melt, the plunger is pressed by the spring 22 towards the undo of the tube 12, and thereby it becomes visible in the window. So that he is easy to see, the plunger is preferably brightly colored, for example by coating with a red plastic, and the the two rings 17 which mark the window 16 have a different color, for example yellow. The time it takes for the medium to melt depends τοη on the thermal insulation that τοη den Tubes 10 and 12 is offered, also τοη the small air gap between them. Different thicknesses and different materials can be used to provide different levels of insulation depending on the particular requirements of the device.

Claims

109882/1289

Claims (4)

Patent claims: Temperature display device, characterized by two relatively movable elements (12, 20) and securing means for holding the two elements against such relative movement, which consist of a solid medium, which melts at a certain temperature, so that the two elements are released and the elements are relatively can move and thereby provides a visual display that the temperature of the melting point exceeded sufficiently long that the solid medium could melt. 2. Temperature display device according to claim 1, characterized by means (22) allowing relative movement of the two Effect elements. 3. Temperature display device according to claim 2, characterized in that that the means (22) are resilient. 4. Temperature display device according to claim 1, characterized in that an encapsulated tube (12) with a transparent Pensterpartie (.16), the tube containing the solid medium, and, a plunger (20) in the tube between a retracted position in which it is lifted out of the area of the window and a retracted position in which it is visible through the window, and that a spring (22) in the tube for pushing the plunger from the retracted position into the advanced position is arranged, wherein the medium is set up in the solid state to hold the plunger in the retracted position, while it allows a migration of the plunger by the action of the spring in the advanced position in the molten state. 109 8 8 2/1289 Temperature display device according to Claim 4, characterized in that the plunger is made of magnetic material consists, for example soft iron, in such a way that after the medium has melted, a magnetic field is used can be returned to the retracted position outside the tubes. 109882/1289