NO167563B - DEVICE FOR OPENING CLOSED CONTAINERS. - Google Patents

Description

The present invention relates to a device for opening closed containers, more specifically an opener for microcentrifuge tubes as stated in the preamble to the subsequent claim 1.

Microcentrifuge tubes are small plastic tubes that are usually in

able to absorb 0.4-1.7 cm<3> of liquid. They are widely used in biotechnology laboratories for the assembly of radioactive chemicals, and as containers for storing biochemicals, or for carrying out biochemical reactions.

They have tight-fitting lids with a lip, an example of which is

shown in the figures. They are usually opened by pressing the lip upwards, using a thumb or a regular beer bottle opener.

As an example of the state of the art, the DE official document can be mentioned

2,911,086.

The main purpose of the invention is to enable easy opening and closing of the microcentrifuge tubes even when they have tight-fitting lids. When using these tubes, it is important that the inner part of the lid is not touched by anything that is not sterile, as the enzymes or other chemicals usually present in such tubes are vulnerable to contaminants (for example, RNAases and proteases) that occur either on human fingers or on objects touched by people. Also, some microcentrifuge tubes must be kept at a constant, specific temperature (for example -2+°C or 0°C) when they are used for certain reactions, and it is convenient to be able to open it quickly without being able to change these conditions.

This purpose is achieved according to the invention by an opener of

the type specified at the outset, with the new and distinctive features specified in the characteristics of the subsequent claim 1. Advantageous embodiments of the opener are specified in the other subsequent claims.

Preferably, the opener does not touch the inner part of the lid and therefore does not contaminate the contents of the tube. It allows rapid opening of pipes, even when they are standing in a rack, so that these pipes can be opened without disturbing the temperature of the pipe. The opener can be used so that the cap does not pop open, but instead is carefully removed from the tube. This prevents the formation of aerosols that occur when the pressure inside a pipe rapidly decreases, and the contents thereby become airborne. Such a case can be particularly dangerous when there is a radioactive solution in the pipe, or when there are bacterial or viral solutions in the pipe. Furthermore, the opener does not involve distortion or deformation of the shape of the lid during opening of the microcentrifuge tube.

Other features and advantages of the invention will be apparent from the following description of the preferred embodiment of the invention, which is only intended as an example.

First, the drawings will be briefly described.

Fig. 1 is a perspective view of an opener.

Fig. 2 is a section through a series of microcentrifuge tubes and an opener, Fig. 3 is a plan view of the top of the tubes and the opener at 3-3 in fig. 1.

Fig. 4 is a front view of the foot of an opener.

As shown in the figures, the opener 10 has a handle 12 of length A, approx. 5 cm and a foot 14. The handle 12 is shaped to conform to the contours of the lower part of an index finger. The foot 14 is shaped so that it fits snugly around a microcentrifuge tube 16, i.e. it has a semi-oval-shaped recess 18 (with depth B approx. 0.5 cm and length C approx. 1 cm, and width D approx. 1 cm), and a largely rectangular recess 20 (with depth E approx. 0.2 cm, width F approx. 0.7 cm, and length G approx. 0.2 cm). The foot 14 consists of a lower projection 22 below the recess 20 and an upper projection 24 above the recesses 18 and 20. Arm 24 also delimits the sides of the recesses 18 and 20 and is connected with a lower projection 22.

The opener 10 is produced from a hard, autoclavable plastic, for example an acrylic one, using usual methods. The opener 10 is suitable for opening microcentrifuge tubes which have a lid with a lip protrusion such as the tube 16 which has a lid 36 with a lip 38 extending past the outer circumference 39 of the tube, shown in the figures. The microcentrifuge tube 16 consists of a container 30 with an opening 32 into which an inner part of the lid 36 fits tightly. The lip protrusion 38 protrudes approx. 0.2 cm from the outer circumference 39 of the lid 36. The lid is attached to the container 30 by means of a hinge 40.

As shown in fig. 2, 3, the opener 10, for opening a closed microcentrifuge tube 16 (fig. 2a) which is held in a tube stand 37, is positioned so that the lip 38 of the tube 16 faces the recess 20 of the opening, and the upper projection 24 is then pressed down on the lid 36 as shown by arrow 41. The opener 16 is then pushed, as shown by arrow 42, against the lip 38 until the lower projection 22 approaches the outer circumference of the container 30 (fig. 2b). The two sides of the upper projection 24 help to ensure that the lip 38 is located in such a way that it enters the recesses 18 and 20 in turn. When the lip 38 is placed in the recess 20, the opener 16 is caused to rotate, as shown by arrow 44, so that the lower projection 22 applies an upward pressure to the lip 38, and the upper projection 24 exerts a slight downward pressure on the lid 36. On the manner, the lid 36 is removed from the opening 32 in the container 30

(Fig. 2c). The microcentrifuge tube 16 can be closed by performing this action in the reverse order, as shown by arrow 46, or by closing it with pressure from a finger.

The opener 10 can be easily used when the tube 16 is held in the hand

to an operator instead of a stand 37. When several tubes 16 are held in a stand 37, as shown in fig. 2, the opener can be used to open each tube in turn without the other tubes interfering with the process.

The handle 12 can, for example, be short and hollow to allow insertion into the handle.

Claims (4)

1. Opener (10) for microcentrifuge tubes (16) comprising a container (30) with an opening (32), as well as a lid (36) intended for the container with a lip protrusion (38) that extends beyond the outer circumference of the opening (32) largely in one direction when the lid is placed over the opening, the lip protrusion (38) extending along the centrally located lid (36) and from the lid to the lip protrusion (38) running, first axis (42), and a downwardly extending annular portion (34) which is shaped for sealing fit in the opening (32), which opening comprises: a foot (14) with a recess (20) which is shaped to receive the lip projection (38) and an opening which is dimensioned to give the lip protrusion (38) access to the recess (20), which foot comprises: a lower protrusion (22) below and near the recess (20), and an upper protrusion (24) above and near the recess (20), as lower protrusion (22) is positioned for engagement with the lip protrusion during use for opening the microcentrifuge tube (16), and the upper protrusion (24) is positioned for engagement with the lid (36) during said use, characterized in that the recess (20) is delimited by a peripheral wall, and that a second axis (41) is formed by a centrally located line that runs from the wall to the opening, the wall being arranged to rest against the lip projection (38) and thereby prevent the ring-shaped part (34) from entering contact with the foot (14) when the lip protrusion (38) is in the recess (2 0), in that a part of the lip protrusion farthest from the lid rests against the wall, and in that the first axis is arranged to lie in a plane parallel to a plane through the second axis; wherein the lid can be moved from the container by placing the lip projection in the recess and bringing the lower projection (22) to pressurize the lip away from the container (30) and simultaneously bring the upper projection (24) to pressurize the lid at a point remote from the lip in a direction towards the container (30), the foot (14) not touching the ring-shaped part (34) of the microcentrifuge tube (16) lid (36) when the lid is removed from the container, and the lip protrusion is placed in the recess with the planes through the first and second axis aligned parallel to each other. 2. Opener according to claim 1, characterized in that it further comprises a handle (12) which is attached to the foot (14). 3. Opener according to claim 2, characterized in that the upper projection (24) extends further from the handle (12) than the lower projection (22). 4. Opener according to claim 3, characterized in that a plane through the longitudinal axis of the handle (12) lies at an angle greater than 0° in relation to the horizontal plane of the opener.