CN109260601B - Short-circuit protection mechanism of carbon photon therapeutic instrument - Google Patents

Abstract

The invention belongs to the field of carbon photon therapeutic devices, and provides a short-circuit protection mechanism of a carbon photon therapeutic device, which comprises: a fixing assembly; the lower end of the combustion basin is fixedly connected with the upper end of the fixing component, and the carbon rod can be electrified and combusted in the combustion basin; the lower end of the supporting rotating assembly is arranged in the fixed assembly, and the supporting rotating assembly can support and drive the carbon rod to move; the lower end of the compressing component is arranged in the fixed component, the upper end of the compressing component extends into the combustion basin, and the compressing component is positioned above the supporting rotating component and can compress the carbon rod on the supporting rotating component; and the short-circuit protection assembly is arranged on the fixed assembly, one end of the short-circuit protection assembly is connected with the pressing assembly, and the other end of the short-circuit protection assembly is electrically connected with the supporting rotating assembly. Compared with the prior art, the invention has the advantages that: when one of the carbon rods is burnt, the support rotating assembly stops rotating continuously, so that the other carbon rod is prevented from moving continuously, and the carbon rod which is not burnt cannot cause short circuit of the carbon photon therapeutic apparatus.

Description

Short-circuit protection mechanism of carbon photon therapeutic instrument

Technical Field

The invention belongs to the field of carbon photon therapeutic devices, and particularly relates to a short-circuit protection mechanism of a carbon photon therapeutic instrument.

Background

The carbon photon therapeutic apparatus is used for treating diseases such as cervical vertebra, lumbar vertebra, skin diseases, gynecology, andrology, trauma and the like, has the effects of controlling inflammation and infection, repairing wound surfaces, repairing damaged nerves and the like, has obvious biological significance for treating the diseases, has multiple biological effects on carbon spectrum, is an effective means for treating hyperosteogeny and trauma control of inflammation and infection, and is a new technical bright point in the field.

Carbon photon therapeutic instrument switches on two carbon-point, the carbon-point when two circular telegrams is close to gradually can burn and produce carbon photon when contacting, carbon photon can treat the patient, can shorten gradually after the carbon-point burning, length when one of them carbon-point is short-term, carbon photon therapeutic instrument can't continue centre gripping carbon-point, another carbon-point can continue to be close to until it all contacts with two circular telegram ends, can lead to carbon photon therapeutic instrument to take place the phenomenon of short circuit like this, carbon photon therapeutic instrument's security is low, can cause the injury to the user under the severe condition.

Disclosure of Invention

The invention aims to solve the technical problem of providing a short-circuit protection mechanism of a carbon photon therapeutic apparatus aiming at the current situation of the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: a short-circuit protection mechanism of a carbon photon therapeutic apparatus is provided, which comprises: a fixing assembly;

the lower end of the combustion basin is fixedly connected with the upper end of the fixing component, and the carbon rod can be electrified and combusted in the combustion basin;

the lower end of the supporting rotating assembly is arranged in the fixed assembly, the upper end of the supporting rotating assembly extends into the combustion basin, and the supporting rotating assembly can support and drive the carbon rod to move;

the lower end of the compressing component is arranged in the fixed component, the upper end of the compressing component extends into the combustion basin, the compressing component is positioned above the supporting and rotating component and can compress the carbon rod on the supporting and rotating component, and when the carbon rod on the supporting and rotating component falls off, the compressing component can rotate downwards;

the short-circuit protection assembly is arranged on the fixing assembly, one end of the short-circuit protection assembly is connected with the pressing assembly, the other end of the short-circuit protection assembly is electrically connected with the supporting rotating assembly, and when the pressing assembly rotates, one end of the short-circuit protection assembly can be driven to rotate and the supporting rotating assembly stops rotating.

In the above short-circuit protection mechanism of a carbon photon therapeutic apparatus, the power-off assembly comprises:

the photoelectric sensor is inserted on the fixed component and is electrically connected with the supporting and rotating component, and the photoelectric sensor can enable the supporting and rotating component to stop rotating when being started;

the induction rotating rod is hinged with the upper end of the fixing component, one end of the induction rotating rod is connected with the pressing component, the other end of the induction rotating rod is positioned on one side of the photoelectric sensor, the induction rotating rod can rotate when the pressing component rotates, and the other end of the induction rotating rod can be far away from the photoelectric sensor;

when one end of the induction rotating rod is far away from the photoelectric sensor, the photoelectric sensor is started and the support rotating assembly stops rotating.

In the above short-circuit protection mechanism of a carbon photon therapeutic apparatus, the pressing component comprises;

the fixed block is arranged in the fixed component;

one end of the compression rod is hinged with the fixed block, the other end of the compression rod is inserted into the combustion basin, and one end of the induction rotating rod is connected with the compression rod;

the compression spring is arranged in the fixed block, one end of the compression spring abuts against the end face of the inner side of the fixed block, and the other end of the compression spring abuts against the compression rod;

when the carbon rod on the supporting and rotating assembly falls, the compression spring can enable the compression rod to rotate downwards.

In the short-circuit protection mechanism of the carbon photon therapeutic apparatus, a limiting ring is arranged at one end of the compression bar inserted into the combustion basin, and a limiting groove matched with the carbon rod in shape is formed in the limiting ring.

In the short-circuit protection mechanism of the carbon photon therapeutic apparatus, a torsional spring is arranged at the hinged position of the induction rotating rod and the fixed component, one end of the torsional spring is connected with the induction rotating rod, and the other end of the torsional spring is connected with the fixed component.

In the above short-circuit protection mechanism for a carbon photon therapeutic apparatus, the support rotating assembly comprises:

the transmission gear set is arranged at the lower end of the fixed component, and the photoelectric sensor is electrically connected with the rotating gear set;

the first rotating rod group is inserted into the fixed assembly, the lower end of the first rotating rod group is connected to the transmission gear group, and the upper end of the first rotating rod group is inserted into the combustion basin;

and the second rotating rod group is inserted in the fixed assembly, the lower end of the second rotating rod group is connected to the transmission gear group, and the upper end of the second rotating rod group is inserted into a plurality of combustion basins.

In foretell short-circuit protection mechanism of carbon photon therapeutic instrument, detachable connections has the waste material board on the downside of burning basin, has all seted up the carbon-point patchhole on the terminal surface of burning basin both sides.

Compared with the prior art, the short-circuit protection mechanism of the carbon photon therapeutic apparatus has the advantages that after one carbon rod is burnt, the support rotating assembly stops rotating continuously, the other carbon rod is prevented from moving continuously, the carbon rod which is not burnt completely cannot cause the short circuit of the carbon photon therapeutic apparatus, and the safety of the carbon photon therapeutic apparatus in use is improved.

Drawings

FIG. 1 is a perspective view of the short circuit protection mechanism of the present carbon photon therapeutic apparatus;

FIG. 2 is a perspective view of the short circuit protection mechanism of the present carbon photon therapeutic apparatus;

fig. 3 is a connection diagram of the fixing assembly, the supporting and rotating assembly, the compressing assembly and the short-circuit protection assembly.

Fig. 4 is a perspective view of the compression assembly;

fig. 5 is another orientation view of the compression assembly.

In the figure, a fixing component 1, a combustion bowl 2, a photoelectric sensor 3, an induction rotating rod 4, a fixing block 5, a compression rod 6, a compression spring 7, a limiting ring 8, a limiting groove 9, a torsion spring 10, a transmission gear set 11, a first rotating rod set 12, a second rotating rod set 13, a waste material plate 14 and a carbon rod insertion hole 15 are arranged.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, 2, 3, 4 and 5, the short-circuit protection mechanism of the carbon photon therapeutic apparatus comprises: a fixing assembly 1; the lower end of the combustion basin 2 is fixedly connected with the upper end of the fixing component 1, and the carbon rod can be electrified and combusted in the combustion basin 2; the lower end of the supporting rotating component is arranged in the fixed component 1, the upper end of the supporting rotating component extends into the combustion basin 2, and the supporting rotating component can support and drive the carbon rod to move; the lower end of the compressing component is arranged in the fixed component 1, the upper end of the compressing component extends into the combustion basin 2, the compressing component is positioned above the supporting and rotating component and can compress the carbon rod on the supporting and rotating component, and when the carbon rod on the supporting and rotating component falls off, the compressing component can rotate downwards; and the short-circuit protection assembly is arranged on the fixed assembly 1, one end of the short-circuit protection assembly is connected with the pressing assembly, the other end of the short-circuit protection assembly is electrically connected with the supporting rotating assembly, and when the pressing assembly rotates, one end of the short-circuit protection assembly can be driven to rotate and the supporting rotating assembly stops rotating.

The compressing component is positioned above the supporting and rotating component, when a carbon rod is placed on the supporting and rotating component, the compressing component can compress the carbon rod downwards, so that the carbon rod can be prevented from shaking when moving transversely, then the carbon rod is electrified in the combustion basin 2, when the two carbon rods are contacted, the carbon rod can be combusted and generates carbon photons, and further a patient can be treated, the length of the carbon rod can be gradually shortened after being combusted, when the length of one carbon rod is gradually shortened to be incapable of being supported by the supporting and rotating component, the carbon rod can fall down, at the moment, the compressing component can not keep balance with the carbon rod, so that the compressing component can rotate downwards, because one end of the short-circuit protection component is connected with the compressing component and the other end of the short-circuit protection component is electrically connected with the supporting and rotating component, so that when the compressing component rotates, one end of the short-circuit protection component can be driven to rotate, and the short-circuit protection component can be, it just can not continue to drive the carbon-point that does not drop and rotate when supporting rotating assembly stop rotating, and the carbon-point that does not drop like this also can not remove to another circular telegram department, can guarantee promptly that two circular telegram ends can not take place the circumstances of circular telegram, the phenomenon of short circuit can not appear in the carbon photon therapeutic instrument promptly, just so can guarantee that the security of carbon photon therapeutic instrument in the use has very big reinforcing, guarantees patient's safety.

The power-off assembly includes: the photoelectric sensor 3 is inserted on the fixed component 1 and is electrically connected with the supporting and rotating component, and the supporting and rotating component can stop rotating when the photoelectric sensor 3 is started; the induction rotating rod 4 is hinged with the upper end of the fixing component 1, one end of the induction rotating rod 4 is connected with the pressing component, the other end of the induction rotating rod 4 is positioned on one side of the photoelectric sensor 3, the induction rotating rod 4 can rotate when the pressing component rotates, and the other end of the induction rotating rod 4 can be far away from the photoelectric sensor 3; when one end of the induction rotating rod 4 is far away from the photoelectric sensor 3, the photoelectric sensor 3 is started and the support rotating assembly stops rotating.

Photoelectric sensing ware 3 is connected with supporting the runner assembly electricity, photoelectric sensing ware 3 detects its and the response bull stick 4 apart from becoming far away and opens promptly and can make and support the runner assembly stop rotation, response bull stick 4 one end with sticis the subassembly and be connected and its and fixed subassembly 1 upper end for articulated being connected, just so can drive response bull stick 4 when sticis the subassembly rotation and rotate around its and fixed subassembly 1 articulated department, photoelectric sensing ware 3 just can be kept away from gradually to its other end when response bull stick 4 rotates, just so can make photoelectric sensing ware 3 open, and then can make supporting the runner assembly stop rotation, guarantee that the carbon rod that does not drop can't continue to move forward, thereby make the condition of short circuit can not appear in the carbon photon therapeutic instrument.

The compressing component comprises; the fixed block 5 is arranged in the fixed component 1; one end of the compression rod 6 is hinged with the fixed block 5, the other end of the compression rod 6 is inserted into the combustion basin 2, and one end of the induction rotating rod 4 is connected with the compression rod 6; the compression spring 7 is arranged in the fixed block 5, one end of the compression spring 7 is abutted against the end face of the inner side of the fixed block 5, and the other end of the compression spring 7 is abutted against the compression rod 6; when the carbon rod on the support rotating assembly falls, the compression spring 7 can enable the compression rod 6 to rotate downwards.

The lower end of the compression rod 6 is hinged with the fixed block 5, so that the compression rod 6 can rotate around the hinged position of the compression rod 6 and the fixed block 5, one end of the compression spring 7 is abutted against and pressed on the compression rod 6, the other end of the compression spring 7 is abutted against the inner end face of the fixed block 5, so that the compression spring 7 can provide downward inside for the compression rod 6, when a carbon rod is placed on the supporting and rotating assembly, the compression rod 6 can compress the carbon rod to prevent the carbon rod from shaking in the moving process, when the length of the carbon rod on the supporting and rotating assembly is too short and falls, the stress of the compression rod 6 is unbalanced, so that the compression rod 6 can rotate downward, when the compression rod 6 rotates downward, the induction rotating rod 4 connected with the compression rod can be driven to rotate, so that the other end of the induction rotating rod 4 is far away from the photoelectric sensor 3, the induction rotating rod 4 is connected with the compression rod 6, when the compression rod 6 rotates downward, the response bull stick 4 can follow the depression bar 6 and rotate simultaneously, can make photoelectric sensing ware 3 open by the very first time promptly, guarantees that the carbon-point supports the runner assembly in the twinkling of an eye that drops and can stall, guarantees the security of carbon photon therapeutic instrument.

The one end that the depression bar 6 inserted to the combustion bowl 2 is equipped with spacing ring 8, offers the spacing groove 9 with carbon-point shape assorted on the spacing ring 8.

The carbon-point is placed and is sticiss pole 6 and can compress tightly the carbon-point downwards after supporting rotating assembly, and the upper end of carbon-point this moment is located spacing groove 9, and spacing groove 9 can restrict the position of carbon-point for the carbon-point can not change in the position of other directions when lateral shifting, guarantees the stability of carbon photon therapeutic instrument when using.

The articulated department of response bull stick 4 and fixed subassembly 1 is equipped with torsional spring 10, and torsional spring 10 one end is connected with response bull stick 4, and the torsional spring 10 other end is connected with fixed subassembly 1.

Carbon photon therapeutic instrument is when using, and torsional spring 10 can guarantee that response bull stick 4 can not take place to rock, sticiss promptly can make the distance of response bull stick lower extreme and photoelectric sensing ware can not change under the not pivoted circumstances of subassembly promptly, guarantees carbon photon therapeutic instrument's normal use.

The support rotating assembly includes: the transmission gear set 11 is arranged at the lower end of the fixed component 1, and the photoelectric sensor 3 is electrically connected with the rotating gear set; the first rotating rod group 12 is inserted into the fixed component 1, the lower end of the first rotating rod group 12 is connected to the transmission gear group 11, and the upper end of the first rotating rod group 12 is inserted into the combustion basin 2; and the second rotating rod group 13 is inserted into the fixed assembly 1, the lower end of the second rotating rod group 13 is connected to the transmission gear group 11, and the upper end of the second rotating rod group 13 is inserted into the plurality of combustion basins 2.

The transmission gear group 11 can drive the first rotating rod group 12 and the second rotating rod group 13 to rotate, when the first rotating rod group 12 rotates, a carbon rod can be driven to move transversely, when the second rotating rod group 13 rotates, another carbon rod can be driven to move transversely, because the photoelectric sensor 3 is electrically connected with the transmission gear group 11, when the photoelectric sensor 3 is started, the transmission gear group 11 can be controlled to stop rotating continuously, so that the first rotating rod group 12 and the second rotating rod group 13 can stop rotating, and the carbon rod can not move continuously.

The lower side surface of the combustion basin 2 is detachably connected with a waste material plate 14, and the end surfaces of two sides of the combustion basin 2 are provided with carbon rod inserting holes 15.

The carbon-point can be inserted to combustion chamber 2 in by carbon-point patchhole 15, and then the carbon-point can be place on supporting rotating assembly, makes things convenient for combustion chamber 2 to hold the carbon-point of length overlength, and the carbon-point that drops on supporting rotating assembly can be collected to waste material board 14, conveniently collects the waste material.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the described embodiments may be made by those skilled in the art without departing from the scope and spirit of the invention as defined by the accompanying claims.

Claims (5)

1. A short-circuit protection mechanism of carbon photon therapeutic instrument, characterized by comprising:

a fixing assembly;

the lower end of the combustion basin is fixedly connected with the upper end of the fixing component, and the carbon rod can be electrified and combusted in the combustion basin;

the lower end of the supporting rotating assembly is arranged in the fixed assembly, the upper end of the supporting rotating assembly extends into the combustion basin, and the supporting rotating assembly can support and drive the carbon rod to move;

the lower end of the compressing component is arranged in the fixed component, the upper end of the compressing component extends into the combustion basin, the compressing component is positioned above the supporting and rotating component and can compress the carbon rod on the supporting and rotating component, and when the carbon rod on the supporting and rotating component falls off, the compressing component can rotate downwards;

the compression assembly comprises: the fixed block is arranged in the fixed component; one end of the compression rod is hinged with the fixed block, the other end of the compression rod is inserted into the combustion basin, and one end of the induction rotating rod is connected with the compression rod; the compression spring is arranged in the fixed block, one end of the compression spring abuts against the end face of the inner side of the fixed block, and the other end of the compression spring abuts against the compression rod; when the carbon rod on the supporting and rotating assembly falls, the pressing spring can enable the pressing rod to rotate downwards;

the short-circuit protection assembly is arranged on the fixed assembly, one end of the short-circuit protection assembly is connected with the pressing assembly, the other end of the short-circuit protection assembly is electrically connected with the supporting rotating assembly, and when the pressing assembly rotates, one end of the short-circuit protection assembly can be driven to rotate and the supporting rotating assembly stops rotating;

the short-circuit protection assembly includes: the photoelectric sensor is inserted on the fixed component and is electrically connected with the supporting and rotating component, and the photoelectric sensor can enable the supporting and rotating component to stop rotating when being started; the induction rotating rod is hinged with the upper end of the fixing component, one end of the induction rotating rod is connected to the pressing rod, the other end of the induction rotating rod is positioned on one side of the photoelectric sensor, the induction rotating rod can rotate when the pressing component rotates, and the other end of the induction rotating rod can be far away from the photoelectric sensor; when one end of the induction rotating rod is far away from the photoelectric sensor, the photoelectric sensor is started and the support rotating assembly stops rotating.

2. The short-circuit protection mechanism of a carbon photon therapeutic apparatus as claimed in claim 1, wherein a limit ring is provided at one end of the tightening rod inserted into the combustion basin, and a limit groove matched with the carbon rod is provided on the limit ring.

3. The short-circuit protection mechanism of a carbon photon therapeutic apparatus as claimed in claim 1, wherein a torsion spring is disposed at the hinge joint of the sensing rotating rod and the fixing component, one end of the torsion spring is connected with the sensing rotating rod, and the other end of the torsion spring is connected with the fixing component.

4. The short-circuit protection mechanism of a carbon photon therapeutic apparatus according to claim 1, wherein said supporting and rotating assembly comprises:

the transmission gear set is arranged at the lower end of the fixed component, and the photoelectric sensor is electrically connected with the rotating gear set;

the first rotating rod group is inserted into the fixed assembly, the lower end of the first rotating rod group is connected to the transmission gear group, and the upper end of the first rotating rod group is inserted into the combustion basin;

and the second rotating rod group is inserted in the fixed assembly, the lower end of the second rotating rod group is connected to the transmission gear group, and the upper end of the second rotating rod group is inserted into a plurality of combustion basins.

5. The short-circuit protection mechanism of a carbon photon therapeutic apparatus as claimed in claim 1, wherein a waste material plate is detachably connected to the lower side surface of the combustion basin, and carbon rod insertion holes are formed in both side end surfaces of the combustion basin.

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