201 |
Tip for gloves and mittens. |
US1905243181 |
1905-01-30 |
US799036A |
1905-09-12 |
DAVY JOHN G |
|
202 |
Apparel-binding. |
US1904204723 |
1904-04-25 |
US776618A |
1904-12-06 |
RICKER BENJAMIN J |
|
203 |
Glove. |
US1903168935 |
1903-08-10 |
US747730A |
1903-12-22 |
KOMMER RUEDOLF |
|
204 |
Glove. |
US1902097042 |
1902-03-07 |
US704961A |
1902-07-15 |
GRIFFITHS SPENCER M |
|
205 |
Glove. |
US1900001526 |
1900-01-15 |
US654730A |
1900-07-31 |
HANNA DAVID W |
|
206 |
Glove. |
US1899711382 |
1899-04-01 |
US628017A |
1899-07-04 |
MURPHY DANIEL H |
|
207 |
Jakob horn |
US622688D |
|
US622688A |
1899-04-11 |
|
|
208 |
Levi l |
US474929D |
|
US474929A |
1892-05-17 |
|
|
209 |
William vaughan |
US385154D |
|
US385154A |
1888-06-26 |
|
|
210 |
Feed h |
US379855D |
|
US379855A |
1888-03-20 |
|
|
211 |
Julius kayseb |
US370397D |
|
US370397A |
1887-09-27 |
|
|
212 |
Louis etienne valliee |
US328261D |
|
US328261A |
1885-10-13 |
|
|
213 |
Improvement in gloves |
US219814D |
|
US219814A |
1879-09-23 |
|
|
214 |
FABRIC AND PROTECTIVE PRODUCT |
US15779614 |
2016-11-11 |
US20180347079A1 |
2018-12-06 |
Hiroki SHIMADA; Kenji IWASHITA |
The invention addresses the problem of providing a cloth and a protective product that have lightweight properties, wearing comfort, and further protection performance against electric arcs. A means for resolution is a cloth including a spun yarn containing a meta-type wholly aromatic polyamide fiber, wherein the cloth has a lightness index L-value of 25 or less. |
215 |
Medical/Dental/Utility Glove with Anti-Fatigue and Ergonomic Improvement |
US15792402 |
2017-10-24 |
US20180295910A1 |
2018-10-18 |
Paul Anstey |
The present invention is to an improved glove having both anatomically correlating stress relief zones and/or reinforced zones to add support in areas opposite the stress relief zones to keep bunching or slipping of the glove from interfering with the bending of the user's joints. The glove may have corrugated relief zones over some or all of the joints and knuckles of the hand, wherein the relief zones are formed of peaks and valleys. A relief zone can also be provided over the webbing between the thumb and the palm. The vertical or longitudinal relief zones provide for improved glove quality while keeping manufacturing difficulty and costs at a minimum. |
216 |
SYSTEM FOR TRACKING GLOVE FAILURE |
US16005115 |
2018-06-11 |
US20180289087A1 |
2018-10-11 |
James L. Hull |
A system and method for identifying areas of a processing plant in which a glove is damaged. The system includes utilizing color-coded sets of gloves in different areas or processing steps within the plant. All the gloves used in a particular plant are provided with a unique identifier. If a piece of a glove is located in the product within the plant, the color of that piece indicates the area or process of the plant in which the glove was used. If a piece of a damaged glove is located in the product at a remote destination, the unique identifier in that piece is matched with a registry to determine the plant in which the glove was used. The color of the piece then helps the plant to identify where the damaged glove was used. The system and method are particularly helpful in the food processing industry, especially meat processing. |
217 |
Animal bathing and grooming glove |
US29597967 |
2017-03-21 |
USD816941S1 |
2018-05-08 |
Jay Michaelson; Summer Finley Kelly; Steven Gotcher |
A glove for grooming an animal may include a first surface having a first nodule, a second surface having a second nodule and a third surface having substantially no nodules. |
218 |
Apparatus for Motor Rehabilitation of Upper and Lower Limbs |
US15715211 |
2017-09-26 |
US20180085616A1 |
2018-03-29 |
Antonio Massato MAKIYAMA; Tomas Yoshio MAKIYAMA |
An apparatus for the motor rehabilitation of the upper and lower limbs is disclosed, which is compact, portable, lightweight, and easy to transport. The apparatus has an adapter for the distal end of the patient's limb, a robotic arm, a gear system, two motors, and virtual and/or augmented reality software to interact with the patient. A management and control system makes possible the execution of movements and exercises in the three-dimensional space so that patients with neurological, musculoskeletal, muscular, rheumatic, motor and/or cognitive diseases or injuries and patients in post-surgical recovery may exercise and recover the movements of their upper and/or lower limbs. The equipment may also be used for the purpose of training and physical fitness. |
219 |
Assisting a visually impaired user to grip an object |
US15444813 |
2017-02-28 |
US09870717B2 |
2018-01-16 |
Mahesh Subramaniam |
The present disclosure relates to system(s) and device for assisting a visually impaired user to grip objects. The system may receive an image of an object in real-time and identify a reference image corresponding to the image by comparing the image with reference images. Further, the system may identify a reference tactile image corresponding to the reference image and generate a first set of audio instructions for assisting the visually impaired user to grip the object based on the reference tactile image. Further, the system may receive a tactile image from a tactile glove of the visually impaired user and compare the tactile image with the reference tactile image to identify pressure variation data. Furthermore, the system may generate a second set of audio instructions for guiding the visually impaired user to grip the object base on a second set of audio instructions generated using the pressure variation data. |
220 |
ASSISTING A VISUALLY IMPAIRED USER TO GRIP AN OBJECT |
US15444813 |
2017-02-28 |
US20170287360A1 |
2017-10-05 |
Mahesh SUBRAMANIAM |
The present disclosure relates to system(s) and device for assisting a visually impaired user to grip objects. The system may receive an image of an object in real-time and identify a reference image corresponding to the image by comparing the image with reference images. Further, the system may identify a reference tactile image corresponding to the reference image and generate a first set of audio instructions for assisting the visually impaired user to grip the object based on the reference tactile image. Further, the system may receive a tactile image from a tactile glove of the visually impaired user and compare the tactile image with the reference tactile image to identify pressure variation data. Furthermore, the system may generate a second set of audio instructions for guiding the visually impaired user to grip the object base on a second set of audio instructions generated using the pressure variation data. |