阅读说明：本技术 一种远红外理疗仪耐磨层的配方及制作方法 (Formula and manufacturing method of wear-resistant layer of far infrared physiotherapy instrument ) 是由 蔡华 于 2018-12-27 设计创作，主要内容包括：本发明公开了一种远红外理疗仪耐磨层的配方及制作方法,其技术方案要点是：包括截面为弧形的灯体,灯体的内弧面上设置有若干个远红外线发射管,灯体在远红外线发射管的外部还拆卸连接有透明罩体,透明罩体上固定有第一固定块和第二固定块,灯体上固定有第三固定块和第四固定块,第三固定块内开设有滑槽,滑槽内滑移连接有插块,第一固定块上开设有供插块插入的插槽,滑槽槽底和插块之间连接有弹簧,插块上固定有拉杆,第三固定块上开设有供拉杆穿过的槽口,拉杆上螺纹连接有锁紧螺母,远红外理疗仪体型较小,携带方便,能直接贴覆在胳膊上的皮肤对皮肤进行理疗,第二固定块上涂覆有耐磨层,可以减少第二固定块的磨损,延长其使用寿命。(The invention discloses a formula and a manufacturing method of a wear-resistant layer of a far infrared physiotherapy instrument, and the key points of the technical scheme are as follows: the multifunctional far infrared physiotherapy instrument comprises a lamp body with an arc-shaped cross section, a plurality of far infrared emission tubes are arranged on the inner arc surface of the lamp body, the lamp body is connected with a transparent cover body in the outer portion of the far infrared emission tubes in a detachable mode, a first fixing block and a second fixing block are fixed on the transparent cover body, a third fixing block and a fourth fixing block are fixed on the lamp body, a sliding groove is formed in the third fixing block, an inserting block is connected in the sliding groove in a sliding mode, a slot for inserting the inserting block is formed in the first fixing block, a spring is connected between the bottom of the sliding groove and the inserting block, a pull rod is fixed on the inserting block, a notch for the pull rod to penetrate through is formed in the third fixing block, a locking nut is connected to the pull rod in a threaded mode, the far infrared physiotherapy instrument is small in size and convenient to carry, skin on the arm can be directly attached to carry.)

1. A formula and a manufacturing method of a wear-resistant layer of a far infrared physiotherapy instrument comprise a lamp body (1) with an arc-shaped cross section, and are characterized in that: the far infrared emission lamp is characterized in that a plurality of far infrared emission tubes (2) are arranged on the inner arc surface of the lamp body (1), the lamp body (1) is detachably connected with a transparent cover body (3) outside the far infrared emission tubes (2), a first fixed block (31) and a second fixed block (32) are fixed on the transparent cover body (3), a third fixed block (11) and a fourth fixed block (12) are fixed on the lamp body (1), a sliding groove (110) is formed in the third fixed block (11), an inserting block (111) is connected in the sliding groove (110) in a sliding manner, an inserting groove (310) for the inserting block (111) to insert is formed in the first fixed block (31), a spring (311) is connected between the groove bottom of the sliding groove (110) and the inserting block (111), one end of the spring (311) is fixed on the inserting block (111), and the other end of the spring (311) is fixed at the groove bottom of the, a pull rod (1110) is fixed on the insert block (111), a notch (1111) for the pull rod (1110) to pass through is formed in the third fixing block (11), a locking nut (1112) is connected to the pull rod (1110) in a threaded manner, pin holes (1113) are formed in the insert block (111) and the first fixing block (31) together, a pin (1114) is inserted into the pin hole (1113), and the second fixing block (32) and the fourth fixing block (12) are connected through a locking bolt (321); when the lamp is disassembled, the pin (1114) in the pin hole (1113) is pulled out, the deflector rod is pulled to enable the insert block (111) to be separated from the slot (310), and then the locking bolt (321) is disassembled to disassemble the transparent cover body (3) and the lamp body (3);

the second fixing block (32) is coated with a wear-resistant layer, and the formula of the wear-resistant layer is as follows:

taking the following raw materials in parts by weight for standby: 47.5-51.5 parts of thermosetting acrylic resin, 6-8 parts of titanium dioxide, 6-10 parts of kaolin, 17.3-22.9 parts of graphite, 11-13 parts of toluene diisocyanate, 7-8 parts of monochloropropanediol and 40-50 parts of absolute ethyl alcohol;

the manufacturing method of the wear-resistant layer comprises the following steps:

s1, pre-prepared organic solvent: mixing thermosetting acrylic resin, toluene diisocyanate, monochloropropanediol and absolute ethyl alcohol, heating to 40-42 ℃, uniformly stirring, and keeping the temperature for 7-8 min;

s2, preparing wear-resistant paint; sequentially adding kaolin, graphite and titanium dioxide into the organic solvent in S2, uniformly stirring, heating to 45-48 ℃, and preserving heat for 10-12 min;

s3, processing: carrying out ultrasonic treatment on the wear-resistant coating obtained in the step S2 for 0.5-1h, then cooling to room temperature, and stirring at the rotating speed of 1050r/min for 0.5 h;

s4, coating: uniformly spraying the wear-resistant coating obtained in the step S3 on the surface of the second fixed block (32) by using a spray gun;

s5, drying: and (4) placing the second fixed block (32) obtained in the step (S4) in a shady and ventilated place for drying for 3-5 h.

Technical Field

The invention relates to the field of far infrared devices, in particular to a formula and a manufacturing method of a wear-resistant layer of a far infrared physiotherapy instrument.

Background

In hospital treatment, there are three treatment divisions, and seven nursing divisions, and nursing is a vital measure in the whole treatment and rehabilitation process of hospitals. The far infrared therapeutic apparatus is an indispensable important tool in nursing work. The far infrared ray can penetrate through the clothes to act on the treatment part and can penetrate through the skin to directly cause the muscle, subcutaneous tissue and the like to generate heat effect. Has effects in promoting blood circulation, promoting metabolism, relieving pain, relaxing muscle, and massaging. The far infrared ray is mainly used for treating diseases because the far infrared ray can mobilize the disease resistance of the human body from different levels.

Far infrared physiotherapy apparatuses for far infrared physiotherapy of skin at arms have some disadvantages: the existing far infrared physiotherapy instrument has large size, is inconvenient to use and carry, has serious abrasion of some parts of the device, and needs to take measures for protection.

Disclosure of Invention

Aiming at the problems mentioned in the background technology, the invention aims to provide a formula and a manufacturing method of a wear-resistant layer of a far infrared physiotherapy instrument, and the formula has the advantages that: the far infrared physiotherapy instrument is small in size and convenient to carry, and can be directly attached to the skin on the arm to carry out physiotherapy and wear resistance on the skin.

The technical purpose of the invention is realized by the following technical scheme:

a formula and a manufacturing method of a wear-resistant layer of a far infrared physiotherapy instrument comprise a lamp body with an arc-shaped cross section, a plurality of far infrared emission tubes are arranged on the inner arc surface of the lamp body, a transparent cover body is detachably connected outside the far infrared emission tubes of the lamp body, a first fixed block and a second fixed block are fixed on the transparent cover body, a third fixed block and a fourth fixed block are fixed on the lamp body, a chute is formed in the third fixed block, an insertion block is connected in the chute in a sliding manner, an insertion groove for the insertion block to insert is formed in the first fixed block, a spring is connected between the chute bottom and the insertion block, one end of the spring is fixed on the insertion block, the other end of the spring is fixed at the chute bottom, a pull rod is fixed on the insertion block, a notch for the pull rod to pass through is formed in the third fixed block, and a locking nut is connected, the pin holes are jointly formed in the inserting block and the first fixing block, pins are inserted into the pin holes, and the second fixing block is connected with the fourth fixing block through locking bolts.

By adopting the technical scheme, when a user carries out physical therapy by using the far infrared physical therapy instrument, an operator can directly place the lamp body and the transparent cover body detachably connected with the lamp body on the skin of the arm, the lamp body is internally provided with the built-in power supply which can supply power for the far infrared emission tubes, the plurality of far infrared emission tubes on the inner arc surface of the lamp body can emit far infrared rays to the skin, and the far infrared rays can carry out physical therapy on the skin; when the far infrared emission tube is damaged, the transparent cover body can be conveniently detached from the lamp body, when the far infrared emission tube is detached, the pin in the pin hole is pulled out, the shifting rod is pulled to enable the inserting block to be separated from the inserting slot, and then the locking bolt is removed, so that the transparent cover body and the lamp body can be detached; therefore, the far infrared physiotherapy instrument has the advantages of small size, portability, direct physical therapy of skin on the arm and convenient disassembly.

Preferably, a handle bar is fixed on the lamp body.

Through adopting above-mentioned technical scheme, the handle pole of fixing on the lamp body can make things convenient for the operator to hold far infrared physiotherapy equipment.

Preferably, the outer wall of the handle rod is provided with a non-slip mat.

Through adopting above-mentioned technical scheme, the slipmat of handle bar outer wall can increase the hand frictional force when the operator grips the handle bar, can prevent that operator's hand from taking place to skid.

Preferably, the end of the pin is provided with a square groove.

Through adopting above-mentioned technical scheme, the square groove of pin tip can conveniently insert square bottle opener, convenient to detach pin.

Preferably, a handle is fixed at one end of the pull rod far away from the insertion block.

Through adopting above-mentioned technical scheme, the handle that the pull rod tip is fixed can make things convenient for the operator to hold, makes things convenient for the operator to operate the pull rod.

Preferably, two rotary lugs are fixed at the end part of the locking bolt.

Through adopting above-mentioned technical scheme, the rotatory ear of locking bolt tip can make things convenient for the operator to twist and move the locking bolt.

Preferably, the second fixing block is coated with a wear-resistant layer, and the preparation method of the wear-resistant layer comprises the following steps:

taking the following raw materials in parts by weight for standby: 47.5-51.5 parts of thermosetting acrylic resin, 6-8 parts of titanium dioxide, 6-10 parts of kaolin, 17.3-22.9 parts of graphite, 11-13 parts of toluene diisocyanate, 7-8 parts of monochloropropanediol and 40-50 parts of absolute ethyl alcohol.

S1, pre-prepared organic solvent: mixing thermosetting acrylic resin, toluene diisocyanate, monochloropropanediol and absolute ethyl alcohol, heating to 40-42 ℃, uniformly stirring, and keeping the temperature for 7-8 min;

s2, preparing wear-resistant paint; sequentially adding kaolin, graphite and titanium dioxide into the organic solvent in S2, uniformly stirring, heating to 45-48 ℃, and preserving heat for 10-12 min;

s3, processing: carrying out ultrasonic treatment on the wear-resistant coating obtained in the step S2 for 0.5-1h, then cooling to room temperature, and stirring at the rotating speed of 1050r/min for 0.5 h;

s4, coating: uniformly spraying the wear-resistant coating obtained in the step S3 on the surface of the second fixed block by using a spray gun;

s5, drying: and (5) placing the second fixed block obtained in the step (S4) in a cool and ventilated place for blow-drying for 3-5 h.

Drawings

FIG. 1 is a schematic structural diagram of a far infrared physiotherapy instrument;

FIG. 2 is a sectional view of the far infrared physiotherapy apparatus;

FIG. 3 is an enlarged view at C in FIG. 2;

FIG. 4 is an enlarged view at D of FIG. 2;

FIG. 5 is an enlarged view at E in FIG. 2;

fig. 6 is an enlarged view at F in fig. 2.

Reference numerals: 1. a lamp body; 2. a far infrared ray emitting tube; 3. a transparent cover body; 31. a first fixed block; 32. a second fixed block; 11. a third fixed block; 12. a fourth fixed block; 110. a chute; 111. inserting a block; 310. a slot; 311. a spring; 1110. a pull rod; 1111. a notch; 1112. locking the nut; 1113. a pin hole; 1114. a pin; 321. locking the bolt; 13. a handle bar; 130. a non-slip mat; 11140. a square groove; 1115. a handle; 3210. the ear is rotated.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.