Mechanical pressure device which, upon activation, is converted into a rotating movement

专利摘要:
Mechanical pressure device which, upon activation, is converted into a rotating movement, and can thereby drive, for example, a spindle or the like for rotation, and ensure a uniform dosing of viscous contents. The pressure device works by having all the parts mounted together on top of a package. When you press the outer part, the inner rotation ring moves down in a vertical movement. Four small pins on the inside of the part move downwards and engage in the four curved spindle slots of the ratio transducer, and thereby this part rotates. At the same time as this happens, the rotation ring locks to the outer part. Pressure devices can typically be used on packaging of varying design for use in emptying it of a viscous content by repeated pressure activation.
公开号:DK201901420A1
申请号:DKP201901420
申请日:2019-12-03
公开日:2021-07-02
发明作者:Erik Petersen Kaj
申请人:Erik Petersen Kaj；
IPC主号:

专利说明:

DK 2019 01420 A1 Purpose The object of the present invention is that a pressure actuation is mechanically converted into a rotating movement, and thereby can drive, for example, a spindle or the like for rotation. A piston can, for example, be mounted on the spindle, which is thereby moved in a given direction. Pressure devices can typically be used on packaging of varying design for use in emptying it of a viscous content by repeated pressure activation. The pressure device and its design ensure that each activation results in a uniform dosing of the packaging contents.
Background Modern society produces an ever-increasing number of products which are sold and distributed in typical plastic packaging which unfortunately is not designed to be recycled. This is primarily due to the fact that the correct materials are not used for - the packaging and the emptying mechanism in the packaging which, when using the product, ensures that the product can be recycled.
The invention will ensure that recyclable containers can be produced with an easy dosing option in environmentally friendly material, as all individual parts can be produced in such a material. This invention relates to the mechanical structure and operation of the pressure device for how a pressure movement is mechanically converted into a rotation, and thereby can move e.g. a spindle mounted at the bottom of the nozzle and rotationally conveys the part.
The invention will be explained in more detail below with reference to drawings which show a typical embodiment of the invention.
Description The invention differs from other known techniques in that the pressure activation and conversion to rotation takes place by means of the mechanical construction which consists of five (5) different parts which play together and thereby perform the rotational movement. | cooperation with a spindle mounted in the bottom of the nozzle (130) and mounted with a piston, it will thereby be possible to - perform a partial emptying of a container with this device mounted. Spindle and piston are not shown in this document.
The invention consists of; (100) outer pressure member, rotating ring (110), return springs (120), nozzle and rotary converter (130), bottom and packaging mounting member (140). The various parts can be seen in Figures 1 and 2, how they form part of a whole for the invention.
With the invention it is achieved that a container with viscous content by means of pressure on the top of the invention will be able to move e.g. a mounted spindle in a rotating motion and thereby driving a piston upwards in the container and the contents will then come out of the container at the top of the invention through a nozzle and rotary transducer (130).
DK 2019 01420 A1 The principle of the invention works in that all the parts are mounted together as shown in figure 2, on top of a package / container. When you press the outer part (100), the rotation ring (110) moves down in a vertical movement and four small pins (111) on the inside of the part move with down and engage in the nozzle and the ratio of the converter (130) 4 - bent spindle slits, and thereby this part rotates around. At the same time as this takes place, the rotating ring part (110) locks to the outer part (100) by means of its small teeth and 4 small elevations in the outer part. This ensures that the two parts (100 and 110) now function as a fixed unit as long as there is a downward pressure movement.
When the downward movement is over and the outer part is released, the two return springs (120) will push the outer part (100) linearly up to the starting position. As a result, the teeth of the rotation ring (110) will release the contact with the 4 small elevations (101) on the outer part and the connection between them will be broken. The rotation ring (110) and the nozzle and rotation converter (130) will move back to the starting position, but now the nozzle and rotation converter will not perform a rotation movement anymore but instead the rotation ring will do this, as the connection between this and the outer part (100) has been interrupted. Then all parts are left in a position where a new pressure on the outer part will repeat the described process and perform a new rotation.
By means of this, a rotational movement can be performed again and again, and hereby, as described, a mounted spindle or the like can activate a piston and empty the contents of the container.
In Figures 3 & 2, the nozzle and rotary transducer can be seen in more detail, and as described, it has curved slots on the outside in which four small pins (111) from the rotating ring (110) engage to provide a rotational movement. In addition, it is important to note that the part is partially hollow so that it also acts as a nozzle where the contents of the packaging are pushed up through and out when the pressure movement is performed.
Drawings Brief description.
FIG. 1. Explosion drawing of the 6 parts of the mechanism. FIG. 2. Cross-sectional drawing of the overall mechanism Figs. Detailed drawing of nozzle and rotating part Detailed description.
FIG. 1. Shows the five different parts that make up the pressure mechanism, and the location of the individual part components. The outer pressure part (100) is mounted together with the rotation ring (110) which is held in position by the two gripping points on the outer part (102). The nozzle and rotation transducer (130) is located in the center of the rotation ring (110) and is held by four small pins (111) from the rotation ring which engage the curved
DK 2019 01420 A1 slots on the nozzle and rotation converter. The bottom and packaging fastening part (140) are mounted the same as the outer pressure part (100) by means of 4 small pins on the bottom part which engage in the outer pressure part and lock these together. Between the outer pressure part (100) and the bottom and in the packaging holding part (140), two identical springs (120) are placed which ensure that the mechanism is moved back to its initial position after pressure has been performed.
FIG. 2. Shows a cross section of the mechanism where the five different parts are assembled, and you can see here in more detail how the parts interlock and affect the different parts by pressure movement.
FIG. Displays a detailed drawing of the nozzle and rotary converter (130). Here the construction of the curved slits can be seen and the partial hollow construction with a hole formed in the bottom as a cross in which a spindle or the like can be mounted to perform a rotating movement. | the top is a nozzle designed where the material in the packaging comes from.

权利要求:
Claims (4)
[1]
Mechanical pressure device which upon actuation converts a vertical pressure movement into a rotation characterized in that the nozzle and the rotation transducer (130) are located in the rotation ring (110) and are moved by four small pins (111) from the rotation ring which engage in the curved slots on the outside of the nozzle and rotary transducer (130).
[2]
Mechanical pressure device according to claim 1, characterized in that the rotation ring (110) is held in position by two gripping points (102) on the outer pressure part (100), and in that the rotation ring part (110) can lock to the outer part (100) by means of its small teeth and four small elevations in the outer part (100) by pressure action.
[3]
Mechanical pressure device according to claim 1, characterized in that when the downward movement is over and the outer part is released, the two return springs (120) will push the outer part (100) linearly up to the initial position. As a result, the teeth of the rotation ring (110) will release the contact with the 4 small elevations (101) on the outer part and the connection between them will be broken.
[4]
Mechanical pressure device according to claim 1, characterized in that the nozzle and the rotation transducer (130) is partially hollow, so that in addition to the effect of rotation it also functions as a nozzle where the contents of the package are pushed up through and out when the pressure movement is performed.

类似技术:

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同族专利:

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公开号 | 公开日

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DK180672B1|2021-11-25|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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法律状态:
2021-07-02| PAT| Application published|Effective date: 20210604 |

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2021-11-25| PME| Patent granted|Effective date: 20211125 |

优先权:

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申请号 | 申请日 | 专利标题

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DKPA201901420A|DK180672B1|2019-12-03|2019-12-03|Mechanical pressure device which, upon activation, is converted into a rotating movement|DKPA201901420A| DK180672B1|2019-12-03|2019-12-03|Mechanical pressure device which, upon activation, is converted into a rotating movement|