CN210899693U - Multi-partition temperature control electric blanket - Google Patents

Abstract

The utility model discloses a multi-partition temperature control electric blanket, which comprises a plurality of independent function partitions, wherein each independent function partition has an independent shape, heating power and control unit according to the comfortable heating requirement of a human body; and each independent functional partition independently adjusts the heating frequency and the heating power according to a prestored instruction, sensor information or a manual input instruction, so that the most comfortable heating experience is realized. The utility model is provided with a plurality of independent function subareas, and each independent function subarea is required to have an independent shape, heating power and control unit according to different body parts of human body; the user can adjust the temperature rise and fall and the intervention time of any one area according to the feeling, and the optimal comfortable point can be quickly reached.

Description

Multi-partition temperature control electric blanket

Technical Field

The utility model relates to an electric blanket and physiotherapy instrument technical field, concretely relates to many subregion temperature control electric blanket.

Background

Currently, it is common to know electric blankets or physiotherapy apparatuses for treating physical discomfort by heating local areas. The traditional electric blanket is simple in use and temperature control, and often causes overall discomfort to users who want to locally heat neck, shoulder, waist and feet. Because a human body often has a region which feels cold and the feeling difference between the whole body feeling and the region is very large, the integral heating often causes that a user can only select one of integral partial cold and integral overheating, and the absolute comfort point is difficult to reach. The traditional physiotherapy instrument is generally used independently, and has high price and poor comfort; the independent function is also beneficial to achieving the overall comfortable effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the whole heating of electric blanket is difficult to reach the best comfortable point in order to overcome, and is difficult to realize the not enough of specific region physiotherapy function, the utility model provides a many divisions temperature control electric blanket. The multi-partition temperature control electric blanket has the characteristics of novel design, low manufacturing cost and strong practicability.

The utility model provides a technical scheme that its technical problem adopted is:

a multi-partition temperature control electric blanket comprises a plurality of independent function partitions, wherein each independent function partition is provided with an independent shape, heating power and control unit according to the comfortable heating requirement of a human body; and each independent functional partition independently adjusts the heating frequency and the heating power according to a prestored instruction, sensor information or a manual input instruction, so that the most comfortable heating experience is realized. The improvement can be assisted by heating the individual regions for users who have local discomfort such as neck, shoulder, waist, and foot.

Further, independent function partitions on the electric blanket are in a tiled arrangement.

The electric blanket is divided into regions according to functional parts of a human body, functional regions of upper limbs, lower limbs and feet of the human body are distributed with required highest heating power according to highest heating characteristics of the regions, wherein feet of women are prone to chilliness in winter, the highest heating temperature of the region is higher than those of other regions, each independent functional region is controlled by an independent control unit, and a master control system instructs each independent control unit to work. The user can adjust the operating parameters of any one of the individual functional zones at any time or individually turn on or off certain zones to achieve an optimal heating state.

Further, the independent function partitions on the electric blanket are arranged in an overlapping mode.

The independent functional subareas on the electric blanket are arranged in a laminating way, and the neck-shoulder reinforcing layer, the waist reinforcing layer and the foot reinforcing layer can be laminated on the basic heating layer. The basic heating layer is used for realizing basic heating or preheating, the laminated area mainly realizes power enhancement of a special area or independent opening and closing, various optimized combination schemes can be realized through a superposition control mode, and a certain energy-saving effect can be realized. When the electric blanket works, a user can select whether to turn on the basic heating layer and turn on or off each independent strengthening area so as to adjust the comfortable state.

Further, the control unit of each independent function partition adopts one or more control modes of voltage control, current control and relay switch control.

Each individual partition control unit selection may select a control type according to a use state. The electric blanket which is arranged in a layered and partitioned way is more suitable for using a relay switch control mode; the mode is simple and reliable, the cost is low, and various heating intensity choices can be combined according to the characteristic of independent function zone stacking. The electric blanket with the partitions is laid in a tiled mode, and when the partitions are few, the electric blanket is suitable for being realized by using a voltage control module; the system is simpler, and the temperature control is more flexible. The electric blanket with the partitions laid in a tiled mode is suitable for being realized by using the current control module when the partitions are more, the highest current used by each independent function partition of the system is not large, and the scheme for controlling the current to realize adjustment by using the charge pump has the advantages of reasonable cost, flexible temperature control and small system size.

Furthermore, the electric blanket is divided into a plurality of independent function partitions according to the use requirement, part of the function partitions can share one control unit, and the whole electric blanket at least comprises two independent control units.

After the independent function partition of the electric blanket is selected, certain areas with similar use states can be combined to use one control unit to save cost and improve the reliability of the system, the conditions that the neck-shoulder function area and the foot function area need to be opened are similar, and the control unit can be combined on the premise of deleting one flexibility.

Further, the heating part of the electric blanket adopts any one of a direct current mode or an alternating current mode.

The multi-partition temperature control electric blanket using the direct current heating system has the advantages that any one of a flat arrangement and an overlapping arrangement can be selected as a partition mode, any one of voltage control, current control and relay switch control can be selected as a control mode, and the combination scheme is diversified.

The multi-zone temperature control electric blanket using the alternating current heating system is difficult to use a current control mode, and is difficult to achieve accurate temperature regulation by using a voltage control mode, and the mode uses a relay switch control and independent function zone overlapping arrangement scheme.

Further, the heating part of the electric blanket adopts a mode of mixing direct current and alternating current.

A multi-zone temperature controlled electric blanket using a hybrid ac and dc heating system is a solution with overlapping placement of independent functional zones. The alternating current heating mode is low in cost and high in power and is suitable for serving as a basic heating layer, but the safety of the alternating current heating mode is poor, so that the alternating current heating system is recommended to be turned off after preheating is completed and is replaced by the direct current heating system on the upper layer, the direct current heating system is matched with each independent function partition, although the heating power is low, the temperature maintenance capability is still available, and the adaptability adjustment is more flexible.

Compared with the prior art, the utility model has the following advantage:

1. the user can adjust the temperature rise and fall and the intervention time of any one area according to the feeling, and the optimal comfortable point can be quickly reached.

2. The improvement can be also assisted by heating the individual areas for users with local discomfort such as neck, shoulder, waist, feet, etc.

3. Each functional area can adjust the working state thereof to meet the optimal comfort requirement of a user in a manual intervention mode.

4. The user may use the recommended input mode or may individually adjust the temperature of any one zone to be most comfortable.

5. The mobile phone can be used as a controller and has basic conditions for being matched with other health management software. The mobile phone can be used as a controller, and control programs and the like can be prestored in the mobile phone, so that the mobile phone can be updated and adjusted in real time, and the manufacturing cost of the system can be effectively reduced.

6. The multi-zone temperature control mode can effectively coordinate the relationship between cost and comfort and provide more selection possibilities.

Drawings

Fig. 1 is a schematic structural diagram of a typical independent functional partition according to the present invention;

FIG. 2 is a schematic view of a first embodiment of the present invention;

FIG. 3 is a schematic view showing a second embodiment of the present invention;

description of the reference numerals

1-cushion body, 2-neck and shoulder functional area, 3-upper limb functional area, 4-lower limb functional area, 5-foot functional area, 6-electric heating wire, 7-wiring harness, 8-main control box, 9-functional area independent control unit, 10-power supply module, 11-communication and control module, 12-power supply, 13-controller, and 15-sensor signal circuit.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings and examples:

it should be noted that the structure, ratio, size and the like shown in the drawings of the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, and any modification of the structure, change of the ratio relationship or adjustment of the size should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the efficacy that the present invention can produce and the purpose that the present invention can achieve.

Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be made without substantial technical changes, and the present invention is also regarded as the scope of the present invention.

A multi-partition temperature control electric blanket comprises a plurality of independent function partitions, wherein each independent function partition is provided with an independent shape, heating power and control unit according to the comfortable heating requirement of a human body; and each independent functional partition independently adjusts the heating frequency and the heating power according to a prestored instruction, sensor information or a manual input instruction, so that the most comfortable heating experience is realized.

Specifically, the independent function partitions on the electric blanket are in a tiled arrangement.

Specifically, the independent functional partitions on the electric blanket are in an overlapping arrangement.

Specifically, the control unit of each independent function partition adopts one or more control modes of voltage control, current control and relay switch control.

Specifically, the electric blanket is divided into a plurality of independent function partitions according to use requirements, part of the function partitions can share one control unit, and the whole electric blanket at least comprises two independent control units.

Specifically, the heating part of the electric blanket adopts any one of direct current or alternating current.

Specifically, the heating part of the electric blanket adopts a mode of mixing direct current and alternating current.

Referring to fig. 1, the functional zones in the cushion body (1) in fig. 1 are a neck-shoulder functional zone (2), an upper limb functional zone (3), a lower limb functional zone (4) and a foot functional zone (5) respectively from top to bottom, wherein the heating power and the highest reachable temperature of the neck-shoulder functional zone (2) and the foot functional zone (5) are higher than those of the upper limb functional zone (3) and the lower limb functional zone, and each functional zone can adjust the working state thereof by manual intervention to meet the optimal comfort requirement of a user.

Referring to fig. 2, in the embodiment shown in fig. 2, the power supply module (10) supplies power to the heating wires (6) in the neck-shoulder functional area (2), the three independent upper limb functional areas (3), the three independent lower limb functional areas (4) and the foot functional area (5) of the cushion body (1) through the functional area independent control unit (9), the heating wires (6) in the multiple areas are connected with the main control box (8) through the wire concentration bundle (7), and the functional area independent control unit (9) is controlled by the communication and control module (11). The communication and control module (11) comprises necessary equipment such as an environmental sensor and a prestored control program, and a user can input a control instruction to the communication and control module (11) through the controller (13). The user may use the recommended input mode or may individually adjust the temperature of any one zone to be most comfortable.

Referring to fig. 3, in the embodiment shown in fig. 3, the power supply module (10) supplies power to the heating wires (6) in the neck-shoulder functional area (2), the three independent upper limb functional areas (3), the three independent lower limb functional areas (4) and the foot functional area (5) in the cushion body (1) through the functional area independent control unit (9), the heating wires (6) in the plurality of areas are connected with the main control box (8) through the wire concentration bundle (7), and the functional area independent control unit (9) is controlled by the communication and control module (11). When the communication and control module (11) works, the information of the sensors (14) in each functional partition and the information of the environmental sensors are collected in real time, an optimal working mode is given by comparing prestored control logics, and control parameters can be dynamically adjusted along with the use time to adapt to the physiological response of a human body. The user command as the highest command may actually intervene in the operation of each functional module. The controller (13) is a mobile phone equipped with a wireless communication function and related software.

The invention principle is as follows: the traditional electric blanket which can only be adjusted singly is disassembled into a plurality of modules which can be adjusted in a linkage manner, each module has the complete structure of the traditional electric blanket, namely each module comprises basic elements such as heating, control and power supply, and all the modules distribute instructions through a core control system. Because the human body state is changeable, the definition of the comfort is fine, the adjustment level of the working mode of the traditional electric blanket is few, and the use requirement is difficult to be accurately met. The traditional electric blanket has delta-level adjustable function, and the electric blanket which is divided into n independent function partitions and has the same assembling condition has delta-n adjustable results, so that the requirement for comfortableness can be met more carefully. In winter, the traditional electric blanket is normally used in case of overheating, is finely controlled and is more beneficial to health and energy conservation.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the gist of the present invention within the knowledge of those skilled in the art.

Many other changes and modifications can be made without departing from the spirit and scope of the invention. It is to be understood that the invention is not to be limited to the specific embodiments, and that the scope of the invention is defined by the appended claims.

Claims (7)

1. A multi-partition temperature control electric blanket is characterized in that: the electric blanket comprises a plurality of independent function partitions, and each independent function partition is provided with a separate shape, heating power and control unit according to the comfortable heating requirement of a human body; and each independent functional partition independently adjusts the heating frequency and the heating power according to a prestored instruction, sensor information or a manual input instruction, so that the most comfortable heating experience is realized.

2. The multi-zone temperature controlled electric blanket of claim 1, wherein the individual functional zones on the electric blanket are in a tiled arrangement.

3. The multi-zone temperature controlled electric blanket of claim 2, wherein the individual functional zones on the electric blanket are in an overlapping arrangement.

4. A multi-zone temperature controlled electric blanket as claimed in any one of claims 1 to 3 in which the control unit of each said separate functional zone is one or more of voltage control, current control and relay switch control.

5. The multi-partition temperature control electric blanket as claimed in claim 1, wherein the electric blanket is divided into a plurality of independent function partitions according to the use requirement, part of the function partitions can share one control unit, but the whole electric blanket at least comprises two independent control units.

6. The multi-zone temperature controlled electric blanket as claimed in claim 1, wherein the heating part of the electric blanket is either a direct current or an alternating current.

7. The multi-zone temperature controlled electric blanket as claimed in claim 6, wherein the heating part of the electric blanket is a mixture of DC and AC.

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