DE202019104433U1 - Metal waste cabinet with a system for identifying stored objects - Google Patents

Abstract

A metal waste cabinet comprising a body (100) of sidewall members (101), a floor member (102) and a ceiling member (103), wherein in one of the sidewall members (101) there is a discharge opening covered with a discharge door member (104) and further thereon the side wall elements (101) contains an access door element (107), wherein a space for receiving ejected objects (105) is located in the interior of the cabinet and wherein inside the cabinet at least one RFID antenna (111) in a specific position to the body ( 100) is arranged, characterized in that remaining construction slots between those elements (101-103, 104, 107) of the body (100) of the cabinet, the UHF waves of the at least one RFID antenna (111) between a propagation region of the waves in Shield the inside of the cabinet and the environment of the cabinet, have a width of not more than 2 mm.

Description

TECHNICAL PART

The present invention relates to a metal discharge cabinet with a system for identifying objects stored in this cabinet.

BACKGROUND

As a metal cupboard in the context of the present description, a cabinet is to be understood, which consists entirely or in large part of metal, with permissible small elements inside the cabinet made of other materials such as wood or plastic. At least 90% of the carcass surface - the sides, the ceiling and the floor - of a metal cabinet in the sense of this description are made of metal, so that inside the cabinet numerous reflections of radio waves emitted by the RFID UHF antenna and most The radio waves emitted by the RFID UHF antenna inside the cabinet will not exit the cabinet.

Shedding cabinets are usually used to store dirty clothes (so-called laundry collectors). Such cabinets have a discharge opening in the upper part of the cabinet, through which the user can throw used clothing into the interior of the cabinet, which enters a basket below the discharge opening. In smaller cabinets a bag can be hung in the cupboard. For larger cabinets, a basket is mounted on a mobile cart. When the basket is full, the cupboard can be opened and the bag filled with the clothes taken out, or you can drive out the cart and transport the used clothes to the laundry room.

In this type of cabinets it is necessary to identify stored garments, for example to automatically check if the closets are full, how much dirty clothes are available for collection, possibly how much clothes has been picked up by the company that controls the furnishings in the area the provision and collection of clothing. The clothing can be labeled with RFID labels (Radio Frequency Identification), also known as RFID tags.

In this type of discharge cabinet, there is the problem that many garments can be stored with RFID labels in a confined space, which are arranged randomly to each other. Scanning spaces with overfilled and unfamiliar RFID tags is difficult, and standard scanning technologies can not guarantee 100% readability of the labels.

There are cabinets with systems for the identification of stored objects based on RFID technology known in which the labels are detected by a large number of fixed antennas, which are located in the entire area that requires the identification of objects. These antennas are usually evenly distributed over the entire height of the wall or the walls of the cabinet. They are designed so that they generate a sufficiently strong radio signal that is distributed throughout the interior of the cabinet in one of the RFID technology used, in particular UHF (Ultra High Frequency), corresponding band and allows communication with the radio tags, which are associated with the objects to be identified. The RFID UHF technology enables the identification of a large number of labels in a short time and is successfully used in a non-metallic environment.

Systems are also known in which RFID-LF (Low Frequency) and HF (High Frequency) technologies are used. They are usually used to identify individual items, such. As a weapon enclosed in a single weapon cabinet, rare, to capture the contents of the entire interior of the furniture.

Metal is very well suited to the construction of cabinets for the storage of objects, as it is a durable material that ensures the safety of the stored items. In addition, electromagnetic waves do not pass through the metal, which is advantageous because it limits the propagation of the beam emitted by the antenna in a completely metal-made cabinet almost exclusively in this interior, so that radio tags are not read outside the cabinet.

The use of RFID UHF technology in metal cabinets, however, has a number of problems.

These are primarily problems with signal distortion, wavelength reflections inside the cabinet, accuracy and scalability of the readers, which can lead to erroneous tracking of tagged items.

Weak reading factors, understood as the percentage of effectively read labels, are caused by many overlapping factors.

The positive effect of checking the contents of the furniture (reading the labels with which the stored objects are marked) is in In addition, for the proper operation of such systems, the use of antennas must be tailored to each room individually.

The quality of RFID tags is significantly influenced by the number of labels inside the furniture. The labels themselves provide a barrier to the signal generated by the antenna and increase the number of wave reflections, thereby increasing the number of disturbances. As a result, some of the signals received by the antenna are too weak to be suitable for effective reading, and some of the tags do not receive the signal strongly enough to power them at all.

The electromagnetic waves inside a metal object reflect off of its walls and interfere with each other, causing dead zones or zones of low field strength in the room where it is impossible to read tags and identify objects in those spaces. Dead zones also arise where waves encounter obstacles that absorb or reflect waves - that is, on labels themselves, as well as elements of the interior design of furniture, such as a drop-out cabinet. In such a situation, dead zones or low reading efficiency may occur in some areas of the cabinet.

In addition, the large number of independent electromagnetic beams that result from the simultaneous use of multiple antennas and the high power of these beams, resulting in a large number of difficult to control interference.

It would also be appropriate to limit the propagation of waves only to the interior of the cabinet so that reading the tags only affects those inside the cabinet. However, the shielding of the waves by a metal surface alone is not sufficient to limit the propagation of the waves outside a lightweight metal cabinet having numerous design slots, e.g. B. between the door and the side wall or within the discharge zone through which propagate waves of appropriate strength from the cabinet space.

From the description of the patent application EP2743892 is a cabinet with an RFID tag identification system out, which contains many fixed, sequentially activated RFID antennas - two antennas per compartment. The disadvantage of this system is the need to use multiple antennas and the need to design the cabinet's interior so that a fixed antenna can read all labels within the assigned area.

Therefore, it would be desirable to develop a metal drop-out cabinet with a system for identifying items stored in that cabinet, the design of which allows the propagation of waves from the antenna to the interior of the cabinet and eliminates the risk of accidentally reading labels outside the cabinet.

OVERVIEW

The subject of the present invention is a metal waste cabinet which comprises a body of side wall elements, a floor element and a ceiling element, wherein in one of the side wall elements is a discharge opening covered with a discharge door element and moreover one of the side wall elements contains an access door element, wherein inside the cabinet a space for receiving discarded objects located and wherein inside the cabinet at least one RFID antenna is disposed in a certain position to the body, and characterized in that remaining construction slots between those elements of the body of the cabinet, the UHF waves of the shield at least one RFID antenna between a propagation area of the waves inside the cabinet and the environment of the cabinet, have a width of not more than 2 mm.

Advantageously, an RFID antenna can be arranged between the space for receiving ejected objects and the ceiling element of the body.

Alternatively or cumulatively, an RFID antenna can advantageously be arranged between the space for receiving dropped objects and the bottom element of the body.

In a further advantageous embodiment, the cabinet contains at least two RFID antennas, which can be arranged between the space for receiving ejected objects and the body.

According to the invention, adjacent edges of immovable elements of the body can be sealingly reinforced by profiling and / or interlocking.

Advantageously, further seals may be provided which shield in the body along movable metallic elements of existing construction slots against UHF waves.

In particular, seals have proven that are arranged at the edges of movable elements.

In this case, preferred seals can be made of a conductive material and / or coated with such a material.

The advantage of the solution according to the invention is the ability to read a significant number of labels from a large number of objects dropped inside the cabinet thanks to the use of a tight shielding of the cabinet, so that most of the waves generated by the at least one RFID antenna is reflected within the cabinet, which increases the effectiveness of the detection of these signals by the at least one RFID antenna inside the cabinet. When using multiple RFID antennas can be effectively read with at least one second antenna dead zones or zones with low field strength within the range of the first RFID antenna.

The use of a metal cabinet construction increases the safety of the items in the cabinet as the metal construction blocks the propagation of radio waves between the cabinet interior and its surroundings, thereby avoiding errors by reading labels in the cabinet environment.

list of figures

• 1 eine allgemeine Übersicht über die Konstruktion eines Abwurfschrankes;
• 2 eine Seitenansicht des Schrankes in einer ersten Variante;
• 3 eine Seitenansicht des Schrankes in einer zweiten Variante; und
• 4 eine Seitenansicht des Schrankes in einer dritten Variante zeigt.

The subject matter of preferred embodiments of the present invention is shown below in the drawing. In it show schematically:

• 1 a general overview of the construction of a discharge cabinet;
• 2 a side view of the cabinet in a first variant;
• 3 a side view of the cabinet in a second variant; and
• 4 a side view of the cabinet in a third variant shows.

DETAILED DESCRIPTION

1 shows a general overview of the construction of a discharge cabinet, a body 100 from side wall elements 101 , a floor element 102 and a ceiling element 103 includes. In one of the sidewall elements 101 There is a discharge opening, which is equipped with a discharge door element 104 (For example, a tilt or sliding door) is covered. In addition, located in one of the sidewall elements 101 For example, in the wall element in which the discharge opening is located, an access door element 107 that after opening access to the inside of the cabinet and the removal of discarded objects therefrom from the room for the removal of dropped objects 105 allows (in which an inner container in the form of a basket, car or bag can be accommodated), for example, a removal of a placed in a basket inside the cabinet bag or pushing out a cart with a basket from the inside of the cabinet.

Inside the body 100 of the cabinet is at least one RFID antenna 111 in a to the corpus 100 fixed location arranged. The RFID antenna 111 can directly or with appropriate brackets on one of the wall elements 101 , the floor element 102 or the ceiling element 103 of the body 100 be attached. The position of the at least one RFID antenna 111 is fixed during operation of the device, so in a particular position to the body 100 arranged.

To properly shield the reading space of the labels inside the cabinet, the slots point between the elements 101 - 103 . 104 . 107 the construction of the cabinet body, the UHF waves between a propagation region of the at least one RFID antenna 111 Shield inside the cabinet and the environment of the cabinet, especially between the side wall elements 101 , the floor element 102 and the ceiling element 103 , as well as the Abwurftürelement 104 and the access door element 107 , at least one point between the interior of the cabinet and outside the cabinet has a width of not more than 2 mm. In places where immovable elements are connected (for example, a wall with a second wall), this can be achieved by a corresponding reinforced and / or interlocking profiling of the sheet edges and their connection to each other (for example, welding, welding together or a rivet or screw) , In places with slots between a movable element (for example at the edges of the ejector door element 104 and / or the access door element 107 ) and the solid cabinet body can seals 106 be used at the edges to shield the UHF waves, which may be made of conductive material or coated with such a material, for example.

2 shows a side view of the cabinet in a first variant, in which an RFID antenna 111 between the space for receiving discarded objects 105 and the ceiling element 103 of the body 100 of the cabinet is placed.

3 shows a side view of a second variant in which an RFID antenna 111 between the space for receiving discarded objects 105 and the floor element 102 of the body 100 of the cabinet is placed.

4 shows a side view of the cabinet in a third variant, in which the cabinet contains at least two RFID antennas, which between the space for receiving discarded objects 105 and the body 100 are arranged: a first antenna 111A between the space for picking up discarded objects 105 and the ceiling element 103 of the body 100 the cabinet is arranged, and / or a second antenna 111B between the space for picking up discarded objects 105 and the floor element 102 of the body 100 of the cabinet, and / or a third antenna 111C between the space for picking up discarded objects 105 and the rear wall sidewall element 101 the cabinet is arranged (ie opposite the access door element 107 ) and / or a fourth antenna 111D between the space for picking up discarded objects 105 and a sidewall element 101 the cabinet (ie the side of the access door element 107 ) is arranged.

The benefit of all variations of the present invention is common and is that an at least RFID antenna is mounted in a fixed position inside the cabinet and the problem of propagating waves in the exterior of the cabinet has been solved by design-related slots by means of appropriately designed sealing measures whereby the risk of accidentally reading labels from the environment of the cabinet is advantageously excluded.

LIST OF REFERENCE NUMBERS

100

corpus

101

Sidewall elements of the body 100

102

Floor element of the body 100

103

Ceiling element of the carcass 100

104

Discharge door element

105

Space for picking up discarded objects

106

seals

107

Access door element

111

RFID antenna

111A

first RFID antenna

111B

second RFID antenna

111C

third RFID antenna

111D

fourth RFID antenna

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 2743892 [0017]

Claims (8)

A metal waste cabinet comprising a body (100) of sidewall members (101), a floor member (102) and a ceiling member (103), wherein in one of the sidewall members (101) there is a discharge opening covered with a discharge door member (104) and further thereon the side wall elements (101) contains an access door element (107), wherein a space for receiving ejected objects (105) is located in the interior of the cabinet and wherein inside the cabinet at least one RFID antenna (111) in a specific position to the body ( 100) is arranged, characterized in that remaining construction slots between those elements (101-103, 104, 107) of the body (100) of the cabinet, the UHF waves of the at least one RFID antenna (111) between a propagation region of the waves in Shield the inside of the cabinet and the environment of the cabinet, have a width of not more than 2 mm. Metal waste cabinet after Claim 1 characterized by an RFID antenna (111) disposed between the space for receiving ejected objects (105) and the ceiling element (103) of the body (100). Metal waste cabinet after Claim 1 or 2 characterized by an RFID antenna (111) disposed between the space for receiving ejected objects (105) and the bottom member (102) of the body (100). Metal waste cabinet according to one or more of Claims 1 to 3 characterized by at least two RFID antennas (111A-111D) disposed between the space for receiving ejected articles (105) and the body (100). Metal waste cabinet according to one or more of the preceding claims, characterized in that adjacent edges of immovable elements (101-103) of the body (100) are sealingly reinforced by a profiling and / or formed interlocking. A metal shedder according to one or more of the preceding claims, characterized by seals (106) which shield the body (100) against UHF waves along movable metallic elements (104, 107) of existing construction slots. Metal waste cabinet after Claim 6 , characterized in that the seals (106) at the edges of movable elements (104, 107) are arranged. Metal waste cabinet after Claim 6 or 7 , characterized in that the seals (106) are made of a conductive material and / or coated with such a material.

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