Elasticized cushioned thermal glove

Description

BACKGROUND OF THE INVENTION

Various types and varieties of gloves are known in the prior art. Cushioned gloves are known yet often fail to fully cushion completely, most relying upon cushioning in the knuckle and palm of the hand only. Some thermal gloves provide a partial fill with a material that can be heated and cooled by an existing external source. What is needed is a thermal, cushioned, compression glove that provides even more than the above listed singular advantages. What is further needed is a glove that can be either pre-heated or continuously heated when in use. The current elastics cushioned thermal glove provides these combined advantages.

FIELD OF THE INVENTION

The present elasticized cushioned thermal glove relates to thermal gloves.

SUMMARY OF THE INVENTION

The general purpose of the elasticized cushioned thermal glove, described subsequently in greater detail, is to provide an elasticized cushioned thermal glove that has many novel features that result in an elasticized cushioned thermal glove which is not anticipated, rendered obvious, suggested, or even implied by prior art, either alone or in combination thereof.

To accomplish this, the elasticized cushioned thermal glove comprises a compression glove with a palm side spaced apart from a back side. A quartet of adjacently disposed abbreviated fingers and a separate abbreviated thumb are provided. An opening is disposed at a terminus of each finger and of the thumb. A glove wrist is disposed at a glove terminus opposite the fingers. A heel is disposed adjacent the glove wrist of the palm side. A palm is disposed within an approximate center of the palm side. A knuckle is disposed adjacent the fingers of the palm side. A plurality of frictional micro beads is disposed on the palm side to aid in grip of various objects. A hook and loop strap alternately secures and releases a user's wrist within the glove wrist.

An electrical access port is disposed within the glove wrist. The electrical access electrical access port has a tether affixed to a cap. The cap alternately uncovers and covers the electrical access port, therein preventing invasion and obstruction by foreign material when the electrical access port is not in use. A plurality of operationally communicating gel bladders is disposed interiorly within the palm side. The gel bladders are in operational communication with the electrical access port.

The gel bladders comprise a wrist bladder disposed within the hook and loop strap and a heel bladder disposed within an area of the palm side filled by the heel of a hand. The gel bladders further comprise a palm bladder disposed in an approximate glove center and a thumb bladder disposed in the thumb. A plurality of channels is provided for gel bladder fluid connection. The thumb bladder is in fluid connection with the palm bladder via a channel. A knuckle bladder is disposed most proximal the palm bladder in the knuckle. The knuckle bladder is in fluid connection with the palm bladder via one channel. A finger bladder is disposed within each finger. Each finger bladder is in fluid connection with the knuckle bladder via separate channels.

A thermal gel is disposed within the gel bladders and the channels. The thermal gel is alternately heated and cooled and retains fluidity. A continuous flexible heating element is disposed throughout the gel bladders. The heating element is in operational communication with the electrical access port. A power module is disposed separately from the glove. The power module has a 12 volt transformer, a cigar lighter plug, an electrical outlet plug, and a glove insert insertable into the electrical access port. The thermal gel is alternately heated by electricity via the power module and pre-cooled by an existing refrigeration source.

Gel bladders and channels are relegated to the palm side in order to best transfer heating and cooling to the most highly blood circulated portions of a hand, as opposed to the back of a hand which is highly restricted, in comparison, with blood flow. The glove also provides cushioning against objects. With heating and cooling effectively delivered to a hand, the fingertips can be left uncovered to provide dexterity not inherent in full fingered gloves, especially since a bladder is provided in the finger area beyond the first finger knuckles, as with the thumb. The glove is provided as a typical, sized glove, without elastic fit. The glove is provided as an elasticized glove. The glove is further provided as an elasticized compression glove in order to alleviate swelling and discomfort experienced by some prospective users. Compression is accomplished by a tight elasticized fit with a reinforced material. The hook and loop strap is provided both without and with the wrist bladder. Micro beads can be provided on the palm side to enhance grip.

Thus has been broadly outlined the more important features of the present elasticized cushioned thermal glove so that the detailed description thereof that follows may be better understood and in order that the present contribution to the art may be better appreciated.

BRIEF DESCRIPTION OF THE DRAWINGS

Figures

FIG. 1 is a palm side perspective view.

FIG. 2 is a back side view.

FIG. 3 is a palm side view.

FIG. 4 is a back side view.

FIG. 5 is a cross sectional view of FIG. 3, taken along the lines 5-5.

FIG. 6 is a top plan view of a power module.

DETAILED DESCRIPTION OF THE DRAWINGS

With reference now to the drawings, and in particular FIGS. 1 through 6 thereof, an example of the elasticized cushioned thermal glove employing the principles and concepts of the present elasticized cushioned thermal glove and generally designated by the reference number 10 will be described.

Referring to FIGS. 1 through 6, an elasticized cushioned thermal glove 10 is provided. An elasticized compression glove 20 has a palm side 22 spaced apart from a back side 24. A quartet of adjacently disposed abbreviated fingers 30 and a separate abbreviated thumb 34 are provided. An opening 32 is disposed at a terminus of each finger 30 and of the thumb 34. A glove wrist 40 is disposed at a glove terminus opposite the fingers 30. A heel 22A is disposed adjacent the glove wrist 40 of the palm side 22. A palm 22B is disposed within an approximate center of the palm side 22. A knuckle 22C is disposed adjacent the fingers 30 of the palm side 22. A plurality of frictional micro beads 26 is disposed on the palm side 22 to aid in grip of various objects. A hook and loop strap 42 alternately secures and releases a user's wrist within the glove wrist 40.

An electrical access port 50 is disposed within the glove wrist 40. The electrical access port 50 has a tether 54 affixed to a cap 56, wherein the cap 56 alternately uncovers and covers the electrical access port 50, therein preventing invasion and obstruction by foreign material when the electrical access port 50 is not in use. A plurality of fluidly interconnected gel bladders 60 is disposed interiorly within the palm side 22.

The gel bladders 60 are in operational communication with the electrical access port 50. The gel bladders 60 comprise a wrist bladder 62 disposed within the hook and loop strap 42 and a heel bladder 64 disposed within an area of the palm side 22 filled by the heel of a hand. The gel bladders 60 further comprise a palm bladder 66 disposed in an approximate glove center and a thumb bladder 72 disposed in the thumb. The thumb bladder 72 is in fluid connection with the palm bladder 66 via a channel 74. A knuckle bladder 68, also a gel bladder 60, is disposed most proximal the palm bladder 66 in the knuckle 22C. A plurality of channels 74, also gel bladders 60, is provided for bladder fluid interconnection. The knuckle bladder 68 is fluidly connected with the palm bladder 66 via one channel 74. A finger bladder 70, another gel bladder 60, is disposed within each finger 30. Each finger bladder 70 is fluidly connected with the knuckle bladder 68 via separate channels 74.

A thermal gel 82 is disposed within the gel bladders 60 and the channels 74. The thermal gel 82 retains fluidity when alternately heated and cooled. A continuous flexible heating element 76 is disposed throughout the bladders. The heating element 76 is in operational communication with the electrical access 50. A power module 88 is disposed separately from the glove 20. The power module 88 has a 12 volt transformer 90, a cigar lighter plug 94, an electrical outlet plug 92, and a glove insert 96 insertable into the electrical access port 50. The thermal gel 82 is alternately heated by electricity via the power module 88 and pre-cooled by an existing refrigeration source. The elastic glove 20 provides compression for a hand.