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序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
1	一种可自动翻土的花卉种植装置	CN202110076215.1	2021-01-20	CN112715068A	2021-04-30	钟兰香
本发明涉及花卉种植相关设备技术领域，且公开了一种可自动翻土的花卉种植装置，包括盆体，所述盆体的内部活动连接有转轴，转轴的外部固定连接有链轮，链轮的外部啮合有链条，链条的外部活动连接有横板，横板的顶部活动连接有转动轴，转动轴的外部固定连接有齿轮一，横板的顶部活动连接有松土杆，松土杆的外部固定连接有齿轮二，转轴的外部固定连接有限位轮，限位轮的内部活动连接有监测组件；松土杆之间的相互作用，能够在需要的时候对花盆内土壤进行翻动，避免了花盆中泥土出现板结导致对花卉的生长产生阻碍的情况发生，使得花卉可以更好地进行呼吸作用，从而有利于花卉进行营养吸收进行生长。
2	一种可自动翻土的花卉种植装置	CN202110076215.1	2021-01-20	CN112715068B	2022-06-21	钟兰香
本发明涉及花卉种植相关设备技术领域，且公开了一种可自动翻土的花卉种植装置，包括盆体，所述盆体的内部活动连接有转轴，转轴的外部固定连接有链轮，链轮的外部啮合有链条，链条的外部活动连接有横板，横板的顶部活动连接有转动轴，转动轴的外部固定连接有齿轮一，横板的顶部活动连接有松土杆，松土杆的外部固定连接有齿轮二，转轴的外部固定连接有限位轮，限位轮的内部活动连接有监测组件；松土杆之间的相互作用，能够在需要的时候对花盆内土壤进行翻动，避免了花盆中泥土出现板结导致对花卉的生长产生阻碍的情况发生，使得花卉可以更好地进行呼吸作用，从而有利于花卉进行营养吸收进行生长。
3	METHOD FOR MANUFACTURING A SENSORIZED BRAKING ELEMENT, IN PARTICULAR A BRAKE PAD AND A SENSORIZED BRAKE PAD OBTAINED THEREBY	US16173355	2018-10-29	US20190072143A1	2019-03-07	Fabrizio Merlo; Luca Martinotto; Mattia Solari; Daniele Donzelli
A method in which at least one piezoceramic sensor and an electric circuit to collect an electric signal emitted by the piezoceramic sensor when subjected to a mechanical stress and possibly processing it are made as an electrically insulated unit. The unit is equipped with at least a branching ending with respective electric contacts and having the connected at least one piezoelectric sensor. The electric circuit and the at least one sensor are mechanically fixed integral with a first surface of a supporting metal element of a brake pad. Branching is formed so as to position the at least one piezoelectric sensor at a predetermined point of the first surface.
4	Method for manufacturing a sensorized braking element, in particular a brake pad and a sensorized brake pad obtained thereby	US16173355	2018-10-29	US11168752B2	2021-11-09	Fabrizio Merlo; Luca Martinotto; Mattia Solari; Daniele Donzelli
A method in which at least one piezoceramic sensor and an electric circuit to collect an electric signal emitted by the piezoceramic sensor when subjected to a mechanical stress and possibly processing it are made as an electrically insulated unit. The unit is equipped with at least a branching ending with respective electric contacts and having the connected at least one piezoelectric sensor. The electric circuit and the at least one sensor are mechanically fixed integral with a first surface of a supporting metal element of a brake pad. Branching is formed so as to position the at least one piezoelectric sensor at a predetermined point of the first surface.
5	Method for manufacturing a sensorized braking element, in particular a brake pad and a sensorized brake pad obtained thereby	US15323186	2015-09-08	US10113598B2	2018-10-30	Fabrizio Merlo; Luca Martinotto; Mattia Solari; Daniele Donzelli
Method wherein at least one piezoceramic sensor (15) and an electric circuit (18) to collect an electric signal emitted by the piezoceramic sensor (15) when subjected to a mechanical stress and possibly processing it are made as a unit electrically insulated (118) equipped with at least a branching (119) ending with respective electric contacts (20,21) having connected the at least one piezoelectric sensor (15), where the electric circuit (18) and the at least one sensor (15) are mechanically fixed integral with a first surface (13) of a supporting metal element (11) of a brake pad (1) and branching (119) is formed so as to position the at least one piezoelectric sensor (15) at a predetermined point of the first surface (13).
6	GRAPHENE ELECTRODE PRODUCTION BY ELECTROSPRAY METHOD AND USAGE IN NANOGENERATORS	PCT/TR2022/050214	2022-03-10	WO2022197271A2	2022-09-22	BEDELOĞLU, Ayşe; ÜNSAL, Ömer Faruk; ALTIN, Yasin
The invention relates to an electrode containing reduced graphene oxide nanofiber surface (25) with increased mechanical stress resistance, produced by electrospray method to increase efficiency by using in piezoelectric nanogenerators (40) with graphene electrodes.

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