RU72823U1 - HEATED GLOVES - Google Patents

Abstract

The utility model relates to heat-insulating clothing and can be used for needs related to the protection from overcooling of a user who has been staying for a long time at low temperatures, in particular for polar explorers, climbers, hunters and fishermen. The objective of this utility model is to ensure the full functionality of the user, for a long time. The problem is achieved in that in gloves containing electric heating elements connected to the power source through the switching system and installed inside the back of the fingers, the heating element of the index finger is located on the side of its bend, and the compartment for the index finger has a longitudinal incision with a detachable cover connection. The electric heating elements are made in the form of flexible carbon fiber materials and are interconnected in parallel, and the power source is located in a special container formed outside on the back of the glove. In this case, the power source of the heating elements is plate-type electric batteries based on fluorocarbon-lithium-non-aqueous electrolyte, collected in a package of at least two pieces, and connected through a connector. A thermal relay is used as a switching element.

Description

The utility model relates to heat-insulating clothing and can be used for needs related to the protection from overcooling of a user who has been staying for a long time at low temperatures, in particular for polar explorers, climbers, hunters and fishermen.

Recently, clothing with heating has been widely used, in particular gloves and mittens with heating, for example, Gerbing s (description attached, Appendix 1) and Italian company KLAN (description attached, Appendix 2) based on the electric heating elements located in them in a certain way . In KLAN gloves (see Appendix 2), adopted as the closest analogue, the electric heating elements are a spiral cable (spiral cable) and are located inside the gloves in the area of the back of the palm and fingers. Electric heating elements are connected to the power source through the connector.

The disadvantage of this design is the short duration of heating of the hand due to the significant consumption of electricity by heating elements made in the form of a spiral cable, the inability to quickly release the hand from the glove due to the connection through the connector of the heating elements to a power source located outside the glove. In addition, the design of the gloves completely eliminates shooting from weapons, which is especially important for hunters.

The objective of this utility model is to ensure full user experience for a long time.

The problem is achieved in that in gloves containing electric heating elements connected to the power source through the switching system and installed inside the back of the fingers, the heating element of the index finger is located on the side of its bend, and the compartment for the index finger has a longitudinal incision with a detachable, closing his connection. The electric heating elements are made in the form of flexible carbon fiber materials and are interconnected in parallel, and the power source is located in a special container formed outside on the back of the glove. In this case, the power source of the heating elements are plate-type electric batteries based on

fluorocarbon-lithium-non-aqueous electrolyte, collected in a package of at least two pieces, and connected through a connector. A thermal relay is used as a switching element.

This design of the gloves allows the user for a long time (up to several days) to be at low temperatures, without reducing its performance. And the use of carbon fiber elements that are not subject to destruction during repeated bending provides easy mobility to the user. In addition, if necessary, the user can release the index finger without removing the gloves, which is very important in conditions of very low temperatures, and provides hunters with the ability to fire.

Figure 1 schematically shows a glove made according to the invention, a view from the back of the hand.

Figure 2 shows a view from the palm.

Figure 3 - General view of the heating element.

Figure 4 - power supply circuit of the heating elements.

Gloves contain heating elements 1 (figure 1, 2) located in the inner capacities of the fingers of the gloves. The heating element of the index finger (figure 2) is located on the side of its bend. On the back of the index finger of the signet (figure 1) there is a longitudinal incision 2 to release the index finger without removing the gloves. The notch is closed by a detachable connection, for example, a textile clasp “contact”.

The heating elements 1 are interconnected in parallel (Fig. 4) and connected to the power source 3 using the mounting wires 6 laid in the fabric channels of the gloves (not shown in the drawings), through the electrical connector 4 and the thermal relay 5, designed to turn off the heating elements at a temperature above 45 ° C, which represents the optimum temperature, comfortable for the user and their inclusion at a temperature below 25 ° C.

The heating element according to figure 3 is a small-sized, low-power, thin-film heater made of carbon fiber conductive tapes 7, commercially available from the industry, laid between thin layers of polymer film 8 (laminated polyethylene-polyethylene phthalate). A carbon fiber tape laid in a certain way, taking into account the required overall dimensions of the heater, is connected to the output mounting wires 9 by mechanically crimping the contact points with a soft metal lamella 10. This can significantly reduce the transient resistance by heterogeneous conductors, ensuring stable operation of the heater with an equal temperature over the entire surface, eliminating overheating at the point of contact.

To power the heating elements of the gloves, flat-shaped chemical current sources are used in a polymer housing of the BF brand based on a fluorocarbon-lithium-non-aqueous electrolyte with a voltage of 2 v to 3 v (see Polyakova N.V., Tumanov B.I., Fateev S. A. "On the issue of improving the operational characteristics of lithium-fluorocarbon chemical current sources" Collection of reports of the fifth international conference. "Fundamental problems of energy conversion in lithium electrochemical schemes", St. Petersburg, 1998, p. 46). The current sources are located in a special compartment 11 on the back of the gloves (figure 1).

The heating device operates as follows.

To bring the heating elements into operation, it is necessary to connect using connector 4 to the power source. The thermal relay 5 is installed directly on the surface of the heating element, for example, on the heating element of the thumb, and regulates the inclusion of the power source at temperatures below 25 ° C and off at temperatures above 45 ° C, which creates thermal protection of the user from the cold in adverse conditions, when providing thermal comfort with ordinary gloves becomes impossible. When the energy of the power source is used up, it is replaced with a spare one.

Claims (3)

1. Gloves with heating, containing heating elements connected to a power source through the switching system and installed inside the area of the back of the fingers, characterized in that the heating element of the index finger is located on the side of its bend, and the compartment for the index finger has a longitudinal cut with detachable a connection that allows, if necessary, to release it, the heating elements are made in the form of flexible carbon fiber materials and are interconnected in parallel and the power source is located in a special container formed on the outside on the back of the glove. 2. Gloves with heating according to claim 1, characterized in that the power source of the heating elements are plate-type electric batteries based on fluorocarbon-lithium-non-aqueous electrolyte, collected in a package of at least two pieces and connected through a connector. 3. Gloves with heating according to claim 1, characterized in that a thermal relay is used as a switching element.