CN110812661A - Decompressor control method for psychological decompression through visual/sound induction - Google Patents

Abstract

The invention provides a decompressor control method for psychological decompression through visual/sound induction, which comprises the following steps: a user shakes the hand-operated mechanism and rotates the rotating shaft through the power transmission component; the rotating shaft rotates and pulls the rotating disc to rotate synchronously; the rotating disc rotates and pulls the fixed bracket to synchronously rotate, and simultaneously, the linkage rod III is matched with the guide rod I and the linkage mechanism which are movably arranged on the linkage rod III to extend/contract the multi-link decompression mechanism; in the process of extending the multi-link decompression mechanism, the traction mechanism rises and pulls the scale balls to synchronously rise to the position right above the guide member, in the process of contracting the multi-link decompression mechanism, the traction mechanism descends, then in the process of continuing extending the multi-link decompression mechanism, the traction mechanism rises and enables the next scale ball to rise, meanwhile, the scale ball positioned above the guide member is pushed and dropped to collide with the scale sheet, and then the next scale ball is positioned right above the guide member again to reciprocate in this way.

Description

Decompressor control method for psychological decompression through visual/sound induction

Technical Field

The invention relates to the field of psychology, in particular to a psychology decompression method, and particularly relates to a decompressor control method for performing psychological decompression through vision/sound induction.

Background

Psychological stress is mental stress, everyone in modern life experiences, the psychological stress generally has three pressure sources of society, life and competition, the physical health can be damaged when the pressure is too large and too much, modern medicine proves that the psychological stress can weaken the immune system of a human body, so that external pathogenic factors can cause the body to be ill, the stress of modern life is like air and cannot squeeze people at any moment, the psychological stress is a physical and mental stress state in the adaptation process of individual life, the psychological stress is caused by the imbalance between environmental requirements and self coping ability, and the stress state tends to be expressed through non-specific psychological and physiological reactions; in life, people generally relax their own emotion by hitting the people who relaxes, however, the existing people who relaxes have single function and poor effect of relieving psychological stress, and meanwhile, the resilience of the existing people who relaxes cannot be adjusted at will, and the applicability is poor.

Therefore, the invention designs equipment for carrying out intervention treatment on psychology in a visual induction mode, and can relieve psychological stress.

Disclosure of Invention

In order to solve the defects of the prior art, the invention aims to provide a psychological decompression method, which adopts a mode of expanding/contracting a multi-connecting rod to return to an original state to decompress a user, and the whole expanding/contracting process is automatically switched without additional operation of the user.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows.

A decompressor control method for psychological decompression by visual/audio induction, comprising the steps of:

s1: a user manually drives the hand-operated driving device;

the hand-operated driving device comprises a mounting frame body, a hand-operated mechanism, a power transmission mechanism and a linkage mechanism, wherein the mounting frame body is horizontally placed on the ground;

the hand-operated mechanism is used for being manually shaken by a user and generating driving power and comprises an accommodating shell, the accommodating shell is a cylindrical shell structure which is provided with an accommodating inner cavity and is axially vertical to the ground, and the accommodating shell is fixedly arranged on the mounting frame body;

the power transmission mechanism is arranged in the accommodating shell and comprises a fixed shaft, a rotating shaft and a power transmission component, wherein the upper end part of the accommodating shell is provided with a through hole, the fixed shaft is axially vertical to the ground, the fixed shaft is fixedly arranged in the accommodating shell, the upper end of the fixed shaft penetrates through the through hole and is positioned above the accommodating shell, the rotating shaft is of a circular cylinder structure with two open ends, the rotating shaft is coaxially and movably sleeved outside the fixed shaft, the upper end of the rotating shaft penetrates through the through hole and is positioned above the accommodating shell, the rotating shaft can axially rotate around the rotating shaft, and the power transmission component is used for receiving driving power generated by the hand-cranking mechanism and transmitting the driving;

a user manually shakes the hand-operated mechanism and enables the rotating shaft to rotate around the self axial direction through the power transmission component;

s2: the rotating shaft rotates and pulls the linkage mechanism to synchronously rotate;

the linkage mechanism comprises a rotary table, a first linkage rod, a second linkage rod and a third linkage rod, wherein the rotary table and the rotary shaft are coaxially and fixedly installed, the extending direction of the first linkage rod is parallel to the ground, the first linkage rod is fixedly installed at the upper end of the fixed shaft, the extending direction of the second linkage rod is parallel to the extending direction of the first linkage rod, the second linkage rod is positioned right above the first linkage rod, a connecting shaft which is axially vertical to the ground is arranged between the free end of the first linkage rod and the second linkage rod, the connecting shaft is fixedly connected between the free end of the first linkage rod and the second linkage rod, the extending direction of the third linkage rod is parallel to the ground, a sleeving bulge is arranged at one end of the third linkage rod, the third linkage rod is movably sleeved outside the connecting shaft through the sleeving bulge, and;

the rotating shaft rotates around the self axial direction and pulls the rotating disc to rotate synchronously;

s3: the linkage mechanism rotates and pulls the multi-connecting-rod pressure reducing device to operate;

the multi-connecting-rod pressure reducing device is arranged above the linkage mechanism and comprises a guide mechanism and a multi-connecting-rod pressure reducing mechanism, the multi-connecting-rod pressure reducing mechanism is used for realizing the pressure reducing effect in a mode of rotating around the self axial direction and automatically extending/contracting to the original state, the multi-connecting-rod pressure reducing mechanism is connected with the linkage mechanism through the guide mechanism, and the guide mechanism is used for drawing the multi-connecting-rod pressure reducing mechanism to run;

the guide mechanism comprises a fixed support and guide rails, the fixed support is a horizontally arranged circular ring support structure, the fixed support is coaxially and fixedly arranged on the turntable, the guide rails are fixedly arranged on the fixed support, the guide direction of the guide rails is parallel to the diameter direction of the connection points of the fixed support and the guide rails, and four groups of guide rails are arrayed along the circumferential direction of the fixed support;

the guide rail is internally provided with a first guide rod and a second guide rod, the extension directions of the first guide rod and the second guide rod are perpendicular to the ground, the first guide rod and the second guide rod are in sliding guide fit with the guide rail, the first guide rod is positioned between the second guide rod and the fixed support, and four groups of the first guide rod and the second guide rod are correspondingly arranged;

the free end of the linkage rod III is provided with a sleeving bulge, and a guide rod I in any guide rail is movably arranged in the sleeving bulge;

the turntable rotates and pulls the fixed support to synchronously rotate, and meanwhile, in the process, the linkage rod III, the guide rod I movably arranged with the linkage rod III and the linkage mechanism are mutually matched, so that the four groups of the guide rods I/II are in reciprocating motion along the guide direction of the corresponding guide rail, and finally the multi-link decompression mechanism is expanded/contracted, wherein in the first half period, the multi-link decompression mechanism is expanded, and in the second half period, the multi-link decompression mechanism is contracted to the original state;

s4: in the process of the movement of the multi-connecting-rod pressure reducing mechanism, the scale pressure reducing device moves synchronously;

the scale pressure reducing device is arranged above the multi-connecting-rod pressure reducing device and comprises a traction mechanism and a scale pressure reducing mechanism, the scale pressure reducing mechanism is used for generating a pleasant sound in a scale change mode and realizing a pressure reducing effect, the scale pressure reducing mechanism is connected with the first guide rod through the traction mechanism, and the traction mechanism is used for drawing the scale pressure reducing mechanism to operate and realizing the pressure reducing effect;

the scale decompressing mechanism comprises a scale component for generating a pleasant sound, a connecting component for connecting the scale component and the multi-link component, and a guiding component for guiding the scale component to emit the pleasant sound;

the scale component comprises a mounting shell, scale pieces and scale balls, wherein the mounting shell is of a truncated cone-shaped shell structure with openings at two ends, the mounting shell and the fixing support are coaxially arranged, the small end of the mounting shell is positioned below the large end, the scale pieces are horizontally mounted on the cavity wall of the mounting shell, the scale pieces are arranged in a plurality of groups along the circumferential direction of the mounting shell, the thickness of the scale pieces in the plurality of groups is different, the scale balls collide with the scale pieces and can generate a pleasant sound, the scale balls are placed in the mounting shell, the diameter of the scale balls is larger than that of the small end of the mounting shell, the scale balls are arranged in the plurality of groups, and one group of scale balls are positioned right above the small end of the mounting shell;

in the process that the multi-connecting-rod decompression mechanism is unfolded, the traction mechanism ascends and pulls the scale ball to synchronously ascend to the position right above the guide component; in the process that the multi-connecting-rod decompression mechanism retracts to the original state, the traction mechanism descends, and the scale ball is placed right above the guide member;

and then in the process that the multi-link decompression mechanism continues to be extended, the traction mechanism rises and enables the next scale ball to rise, and pushes against the scale ball above the guide member and enables the scale ball to fall off, finally the scale ball collides with the scale sheet and generates a melody, and the next scale ball is positioned right above the guide member again, so that the reciprocating motion is realized, and a melody for decompressing the user is formed.

As a further improvement of the present solution.

Hand mechanism still include rocker, rocking handle, the outer disc that holds the shell seted up the commentaries on classics hole, the rocker axial be on a parallel with ground, the power take off end of rocker is located and holds the shell in, the power input end passes the commentaries on classics hole and is located and holds the shell outside, the rocker can rotate around self axial, rocking handle fixed mounting in rocker power input end.

As a further improvement of the present solution.

The power transmission component comprises a driving gear, a driven gear and a gear shaft, the gear shaft is axially parallel to the axial direction of the rocking shaft, the gear shaft is movably arranged in the accommodating shell and can rotate around the self axial direction, the driving gear is fixedly sleeved outside the power output end of the rocking shaft, the driven gear is fixedly sleeved outside the power input end of the gear shaft, and the driving gear is meshed with the driven gear;

the power transmission component further comprises a worm and a worm wheel, the worm is coaxially and fixedly installed at the power output end of the gear shaft, the worm wheel is fixedly sleeved outside the rotating shaft and meshed with the worm, and the rocking shaft rotates around the self axial direction and synchronously pulls the rotating shaft to rotate around the self axial direction.

As a further improvement of the present solution.

The four groups of guide rails are respectively a guide rail I, a guide rail II, a guide rail III and a guide rail IV;

the multi-connecting-rod pressure reducing mechanism comprises four groups of connecting rod pressure reducing components which are respectively a first connecting rod pressure reducing component, a second connecting rod pressure reducing component, a third connecting rod pressure reducing component and a fourth connecting rod pressure reducing component;

the first connecting rod pressure reducing component is arranged in an area between the first guide rail and the second guide rail and comprises a connecting rod, the connecting rod consists of a first hinge section and a second hinge section which are horizontally arranged, the shape of the first hinge section is consistent with that of the second hinge section, one end of the first hinge section is a first hinge end, the other end of the first hinge section is fixedly connected with one end of the second hinge section, the other end of the second hinge section is a second hinge end, a V-shaped structure is formed between the first hinge section and the second hinge section, and a fixed connection point between the first hinge section and the second hinge section is a hinge point;

six groups of connecting rods are arranged and respectively comprise a first connecting rod, a second connecting rod, a third connecting rod, a fourth connecting rod, a fifth connecting rod and a sixth connecting rod, and included angles of the six groups of connecting rods towards the circle center of the fixed support are all smaller than one hundred eighty degrees;

the first hinged end of the first connecting rod is provided with a first sleeving hole, the first connecting rod is movably sleeved outside the first guide rod in the first guide rail through the first sleeving hole, the first connecting rod can rotate around the extending direction of the first guide rod, the first hinged end of the second connecting rod is provided with a second sleeving hole, the second connecting rod is movably sleeved outside the second guide rod in the first guide rail through the second sleeving hole, the second connecting rod can rotate around the extending direction of the second guide rod, the first connecting rod and the second connecting rod are connected in a hinging mode, the hinging position of the first connecting rod and the second connecting rod is located at the hinging point of the first connecting rod/the second connecting rod, and a hinging shaft core wire is perpendicular to the ground;

the first hinged end of the third connecting rod is hinged with the second hinged end of the first connecting rod, the core line of the hinged shaft is perpendicular to the ground, the first hinged end of the fourth connecting rod is hinged with the second hinged end of the second connecting rod, the core line of the hinged shaft is perpendicular to the ground, the third connecting rod and the fourth connecting rod are connected in a hinged mode, the hinged positions of the third connecting rod and the fourth connecting rod are located at the hinged point of the third connecting rod/the fourth connecting rod, and the core line of the hinged shaft is perpendicular to the ground;

the first hinged end of the fifth connecting rod is hinged with the second hinged end of the third connecting rod, a hinged shaft core line is perpendicular to the ground, the sixth connecting rod is hinged with the fourth connecting rod, the hinged shaft core line is perpendicular to the ground, the fifth connecting rod and the sixth connecting rod are connected in a hinged mode, the hinged positions of the fifth connecting rod and the sixth connecting rod are located at hinged points of the fifth connecting rod and the sixth connecting rod, and the hinged shaft core line is perpendicular to the ground;

the second hinged end of the fifth connecting rod is provided with a third sleeving hole, the fifth connecting rod is movably sleeved outside the second guide rod in the second guide rail through the third sleeving hole, the fifth connecting rod can rotate around the second guide rod in the extending direction, the second hinged end of the sixth connecting rod is provided with a fourth sleeving hole, the sixth connecting rod is movably sleeved outside the first guide rod in the second guide rail through the fourth sleeving hole, and the sixth connecting rod can rotate around the first guide rod in the extending direction;

the four groups of connecting rod decompression members are consistent with the corresponding two groups of guide rails in connection relation.

As a further improvement of the present solution.

The connecting component include connecting rod, bracing piece, connecting rod horizontal fixed mounting is in the outer disc of installation shell, and the extending direction of connecting rod be on a parallel with the diameter direction who installs on the shell rather than the tie point, the extending direction perpendicular to ground of bracing piece, and the one end of bracing piece and two fixed connection of guide bar, the other end are provided with the direction arch, the bracing piece cup joints in the connecting rod outside and constitutes the sliding guide cooperation between the two through the protruding activity of direction, the connecting component correspond and be provided with four groups.

As a further improvement of the present solution.

The guide component comprises a connecting support, an intermediate sleeve, a hinge rod and a supporting plate, the connecting support is fixedly arranged in the mounting shell, the intermediate sleeve is of a circular cylinder structure with openings at two ends, the intermediate sleeve is fixedly arranged on the connecting support and is coaxially arranged with the mounting shell, and the inner diameter of the intermediate sleeve is larger than the diameter of the scale ball;

the hinge rods are fixedly arranged on the outer circular surface of the middle sleeve and are arranged in an inclined manner, the distance between the hinge rods and the outer circular surface of the middle sleeve increases progressively from bottom to top along the direction perpendicular to the moving surface, and a plurality of groups of hinge rods are arranged in an array manner along the circumferential direction of the middle sleeve;

the backup pad be fan-shaped plate body structure, the one end of backup pad is located directly over the middle sleeve, the other end is articulated and articulated shaft heart yearn is on a parallel with ground and perpendicular to articulated rod extending direction with the free end of articulated rod, the backup pad correspondence is provided with a plurality of groups, and a plurality of groups backup pad constitutes the guide inclined plane that is the conical surface shape jointly.

As a further improvement of the present solution.

The traction mechanism comprises a driving rod, a traction rod and a push rod, the extension direction of the driving rod is perpendicular to the ground, the driving rod is fixedly connected to a first guide rod, the first guide rod moves and pulls the driving rod to move synchronously, and four groups of driving rods are correspondingly arranged on the driving rod;

the ejector rod is positioned below the installation shell, the ejector rod and the installation shell are coaxially arranged, and a connecting sleeve is coaxially arranged at the bottom end of the ejector rod;

one end of each traction rod is hinged with the top end of the corresponding driving rod, the hinge shaft core line is parallel to the ground and perpendicular to the extending direction of the corresponding driving rod, the other end of each traction rod is hinged with the corresponding connecting sleeve, the hinge shaft core line is parallel to the ground and perpendicular to the extending direction of the corresponding ejector rod, and four groups of traction rods are correspondingly arranged.

Compared with the prior art, the invention has the advantages that the multi-connecting-rod pressure reducing mechanism adopts a multi-connecting-rod stretching/contracting/returning mode to reduce pressure of a user, the user manually rotates the hand-operated mechanism and pulls the multi-connecting-rod pressure reducing mechanism to rotate around the axial direction of the user through the power transmission mechanism and the linkage mechanism, simultaneously, in the rotating process, the linkage mechanism is matched with the guide mechanism and leads the connecting rods in the multi-connecting-rod pressure reducing mechanism to rotate to stretch or automatically retract to the original state, so that the pressure reducing effect is achieved, the whole stretching/contracting process is automatically switched without additional operation of the user, in addition, the multi-connecting-rod pressure reducing mechanism rotates and pulls the scale pressure reducing mechanism to generate melodious bell sound through the pulling mechanism, and the pressure reducing.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a matching view of the hand-cranking driving device and the multi-connecting-rod pressure reducing device of the invention.

Fig. 3 is a matching view of the hand-cranking driving device and the multi-connecting-rod pressure reducing device of the invention.

Fig. 4 is a schematic structural view of the hand-cranking driving device of the invention.

Fig. 5 is a schematic view of the internal structure of the hand cranking driving device of the present invention.

Fig. 6 is a matching view of the hand-operated mechanism and the power transmission mechanism of the present invention.

Fig. 7 is a matching view of the rotating shaft and the rotating disk of the invention.

Fig. 8 is a matching view of the fixed shaft and the interlocking mechanism of the present invention.

Fig. 9 is a view showing the linkage mechanism and the multi-link decompression device according to the present invention.

Fig. 10 is a view showing the cooperation of the guide mechanism and the interlocking mechanism according to the present invention.

Fig. 11 is a schematic structural view of the guide mechanism of the present invention.

Fig. 12 is a view showing the guide mechanism of the present invention in cooperation with a link decompression member.

FIG. 13 is a schematic view of a connecting rod pressure relief member of the present invention.

FIG. 14 is a view of the trim member of the present invention in cooperation with a multi-link pressure relief mechanism.

Fig. 15 is a schematic structural view of the scale relief apparatus of the present invention.

Fig. 16 is a schematic structural view of the scale relief apparatus of the present invention.

FIG. 17 is a schematic view of the configuration of the scale relief mechanism of the present invention.

Fig. 18 is a schematic structural view of a guide member of the present invention.

Fig. 19 is a view of the guide member of the present invention in cooperation with a pulling mechanism.

Fig. 20 is a schematic structural view of the traction mechanism of the present invention.

Detailed Description

A decompressor control method for psychological decompression by visual/audio induction, comprising the steps of:

s1: the user manually drives the hand-operated driving device 100;

the hand-operated driving device 100 comprises a mounting frame body 110, a hand-operated mechanism 120, a power transmission mechanism 130 and a linkage mechanism 140, wherein the mounting frame body 110 is horizontally placed on the ground;

the hand-operated mechanism 120 is used for being manually shaken by a user and generating driving power, the hand-operated mechanism 120 comprises a containing shell, the containing shell is a cylindrical shell structure which is provided with a containing inner cavity and is axially vertical to the ground, and the containing shell is fixedly arranged on the mounting frame body 110;

the power transmission mechanism 130 is arranged in the accommodating shell, the power transmission mechanism 130 comprises a fixed shaft 131, a rotating shaft 132 and a power transmission component, a through hole is formed in the upper end of the accommodating shell, the fixed shaft 131 is axially vertical to the ground, the fixed shaft 131 is fixedly arranged in the accommodating shell, the upper end of the fixed shaft 131 penetrates through the through hole and is positioned above the accommodating shell, the rotating shaft 132 is of a circular cylinder structure with openings at two ends, the rotating shaft 132 is coaxially and movably sleeved outside the fixed shaft 131, the upper end of the rotating shaft 132 penetrates through the through hole and is positioned above the accommodating shell, the rotating shaft 132 can axially rotate around the rotating shaft 132, and the power transmission component is used for receiving driving power generated by the hand-cranking mechanism 120 and;

the user manually shakes the hand-operated mechanism 120 and causes the rotating shaft 132 to rotate around the self axial direction through the power transmission member;

s2: the rotation shaft 132 rotates and pulls the linkage mechanism 140 to rotate synchronously;

the linkage mechanism 140 comprises a rotary disc 141, a first linkage rod 142, a second linkage rod 143 and a third linkage rod 144, the rotary disc 141 and the rotating shaft 132 are coaxially and fixedly installed, the extending direction of the first linkage rod 142 is parallel to the ground, the first linkage rod 142 is fixedly installed at the upper end of the fixed shaft 131, the extending direction of the second linkage rod 143 is parallel to the extending direction of the first linkage rod 142, the second linkage rod 143 is positioned right above the first linkage rod 142, a connecting shaft which is axially vertical to the ground is arranged between the free end of the first linkage rod 142 and the second linkage rod 143, the connecting shaft and the connecting shaft are fixedly connected through the connecting shaft, the extending direction of the third linkage rod 144 is parallel to the ground, a sleeving protrusion is arranged at one end of the third linkage rod 144, the third linkage rod 144 is movably sleeved outside the connecting shaft through the sleeving protrusion, and the third linkage rod 144 can axially rotate;

the rotating shaft 132 rotates around the self axial direction and pulls the rotating disc 141 to rotate synchronously;

s3: the linkage mechanism 140 rotates and pulls the multi-link pressure reducing device 200 to operate;

the multi-link pressure reducing device 200 is arranged above the linkage mechanism 140, the multi-link pressure reducing device 200 comprises a guide mechanism 210 and a multi-link pressure reducing mechanism 220, the multi-link pressure reducing mechanism 220 is used for realizing the pressure reducing effect in a mode of rotating around the axial direction of the multi-link pressure reducing mechanism and automatically extending, contracting and returning to the original shape, the multi-link pressure reducing mechanism 220 is connected with the linkage mechanism 140 through the guide mechanism 210, and the guide mechanism 210 is used for drawing the multi-link pressure reducing mechanism 220 to operate;

the guiding mechanism 210 comprises a fixed support 211 and guiding rails 212, the fixed support 211 is a horizontally arranged circular ring support structure, the fixed support 211 is coaxially and fixedly installed on the turntable 141, the guiding rails 212 are fixedly installed on the fixed support 211, the guiding direction of the guiding rails 212 is parallel to the diameter direction of the connecting points of the fixed support 211 and the guiding rails 212, and four groups of the guiding rails 212 are arranged in an array manner along the circumferential direction of the fixed support 211;

a first guide rod 213 and a second guide rod 214 are arranged in the guide rail 212, the extending directions of the first guide rod 213 and the second guide rod 214 are perpendicular to the ground, the first guide rod 213 and the second guide rod 212 form sliding guide fit, the first guide rod 213 is positioned between the second guide rod 214 and the fixed bracket 211, and four groups of the first guide rod 213 and the second guide rod 214 are correspondingly arranged;

the free end of the linkage rod III 144 is provided with a sleeving bulge, and the guide rod I213 in any guide rail 212 is movably arranged in the sleeving bulge;

the turntable 141 rotates and pulls the fixed support 211 to synchronously rotate, and simultaneously, in the process, the linkage rod three 144, the guide rod one 213 movably installed with the linkage rod three 144 and the linkage mechanism 140 are mutually matched, so that the four groups of guide rods one 213/guide rod two 214 make reciprocating motion along the guide direction of the corresponding guide rail 212, and finally the connecting rod pressure reducing mechanism 220 is extended/contracted, wherein in the first half period, the multi-connecting rod pressure reducing mechanism 220 is extended, and in the second half period, the multi-connecting rod pressure reducing mechanism 220 is contracted to the original state;

s4: during the movement of the multi-link pressure relief mechanism 220, the scale pressure relief devices 300 move synchronously;

the scale pressure reducing device 300 is arranged above the multi-connecting-rod pressure reducing device 200, the scale pressure reducing device 300 comprises a traction mechanism 310 and a scale pressure reducing mechanism 320, the scale pressure reducing mechanism 320 is used for generating a melody sound in a scale change mode and realizing a pressure reducing effect, the scale pressure reducing mechanism 320 is connected with the first guide rod 213 through the traction mechanism 310, and the traction mechanism 310 is used for drawing the scale pressure reducing mechanism 320 to operate and realizing the pressure reducing effect;

the scale relief mechanism 320 comprises a scale member for producing a pleasing sound, a connecting member for connecting the scale member and the multi-link member, and a guide member for guiding the scale member to emit the pleasing sound;

the scale component comprises an installation shell 321, scale pieces 322 and scale balls 323, wherein the installation shell 321 is of a truncated cone-shaped shell structure with openings at two ends, the installation shell 321 and the fixed support 211 are coaxially arranged, the small end of the installation shell 321 is positioned below the large end, the scale pieces 322 are horizontally installed on the cavity wall of the installation shell 321, the scale pieces 322 are arrayed in a plurality of groups along the circumferential direction of the installation shell 321, the thickness of the scale pieces 322 in the plurality of groups is different, the scale balls 323 collide with the scale pieces 322 and can generate a pleasant sound, the scale balls 323 are placed in the installation shell 321, the diameter of the scale balls 323 is larger than that of the small end of the installation shell 321, the scale balls 323 are provided with the plurality of groups, and one group of the scale balls 323 is positioned right above the small end of the installation shell 321;

during the expansion of the multi-link pressure reducing mechanism 220, the pulling mechanism 310 is raised and pulls the scale balls 323 to rise directly above the guide member; in the process of the multi-link decompression mechanism 220 being contracted back to the original state, the traction mechanism 310 is lowered, and at this time the scale ball 323 is placed directly above the guide member;

then, as the multi-link decompression mechanism 220 continues to extend, the traction mechanism 310 rises and the next scale ball 323 rises, and pushes against the scale ball 323 located above the guide member and drops it, eventually making it collide with the scale plate 322 and producing a melody, while the next scale ball 323 is again located directly above the guide member, so reciprocating and forming a melody for decompressing the user.

The invention adopts the mode of the multi-connecting-rod stretching/contracting to return to the original state for pressure reduction, and has the advantages that a user manually rotates the hand-operated mechanism and pulls the multi-connecting-rod pressure reduction mechanism to rotate around the self axial direction through the power transmission mechanism and the linkage mechanism, simultaneously, in the rotating process, the linkage mechanism is matched with the guide mechanism, and the connecting rods in the multi-connecting-rod pressure reduction mechanism rotate to stretch or automatically retract to the original state, so that the pressure reduction effect is achieved, the whole stretching/contracting process is automatically switched, no additional operation is needed by the user, in addition, the multi-connecting-rod pressure reduction mechanism rotates and pulls the scale pressure reduction mechanism to generate melodious ring through the pulling mechanism, and the pressure reduction effect of the pressure.

Multi-connecting rod psychology pressure reducer, including hand drive arrangement 100, multi-connecting rod pressure reducer 200, scale pressure reducer 300, hand drive arrangement 200 be used for driving multi-connecting rod pressure reducer 200 operation, multi-connecting rod pressure reducer 200 be used for realizing the decompression effect with around self axial rotation and the mode of automatic expansion/contraction back-to-the-original state, scale pressure reducer 300 and multi-connecting rod pressure reducer 200 synchronous operation to scale pressure reducer 300 is used for producing pleasing to the ear sound and realizes the decompression effect with the scale change mode.

Hand drive arrangement 100 include installation support body 110, hand mechanism 120, power transmission mechanism 130, link mechanism 140, installation support body 110 level place in ground, hand mechanism 120 be used for by the manual drive power that shakes of user, power transmission mechanism 130 be used for receiving the drive power that hand mechanism 120 produced and transmit it to link mechanism 140, link mechanism 140 be used for drawing many connecting rods pressure relief device 200 operation under the drive power effect.

The hand-operated mechanism 120 comprises a containing shell, a rocking shaft and a rocking handle, wherein the containing shell is a cylindrical shell structure which is provided with a containing inner cavity and is axially vertical to the ground, the containing shell is fixedly installed on the installation frame body 110, a rotating hole is formed in the outer circular surface of the containing shell, the rocking shaft is axially parallel to the ground, the power output end of the rocking shaft is positioned in the containing shell, the power input end of the rocking shaft penetrates through the rotating hole and is positioned outside the containing shell, the rocking shaft can axially rotate around the rocking shaft, and the rocking handle is fixedly installed at the power input end of the rocking shaft; the user hand the rocking handle and makes the rocking shaft rotate around self axial.

Power transmission mechanism 130 set up in holding the shell, power transmission mechanism 130 includes fixed axle 131, pivot 132, power transmission component, the upper end portion of holding the shell seted up the through-hole, fixed axle 131 axial perpendicular to ground, and fixed axle 131 fixed mounting holds in the shell to the upper end of fixed axle 131 passes the through-hole and is located and holds the shell top, pivot 132 is both ends open-ended circular tube structure, and pivot 132 coaxial activity cup joints in fixed axle 131 outsidely, and the upper end of pivot 132 passes the through-hole and is located and holds the shell top, pivot 132 can wind self axial rotation.

The power transmission component comprises a driving gear 133, a driven gear 134 and a gear shaft, wherein the gear shaft is axially parallel to the axial direction of the rocking shaft, the gear shaft is movably arranged in the accommodating shell and can rotate around the self axial direction, the driving gear 133 is fixedly sleeved outside the power output end of the rocking shaft, the driven gear 134 is fixedly sleeved outside the power input end of the gear shaft, and the driving gear 133 is meshed with the driven gear 134.

The power transmission component further comprises a worm 135 and a worm wheel 136, the worm 135 is coaxially and fixedly installed at the power output end of the gear shaft, the worm wheel 136 is fixedly sleeved outside the rotating shaft 132, the worm wheel 136 is meshed with the worm 135, and the rocking shaft rotates around the self axial direction and synchronously pulls the rotating shaft 132 to rotate around the self axial direction.

The linkage mechanism 140 is arranged above the accommodating shell, the linkage mechanism 140 comprises a rotary disc 141, a first linkage rod 142, a second linkage rod 143 and a third linkage rod 144, an external step is arranged at the upper end of the rotary shaft 132, the rotary disc 141 is horizontally arranged, a fastening bolt is arranged between the rotary disc 141 and the external step arranged at the upper end of the rotary shaft 132, the rotary disc 141 and the external step are coaxially and fixedly connected through the fastening bolt, and the rotary shaft 132 rotates and pulls the rotary disc 141 to synchronously rotate.

The extending direction of the first linkage rod 142 is parallel to the ground, the first linkage rod 142 is fixedly installed at the upper end of the fixed shaft 131, the extending direction of the second linkage rod 143 is parallel to the extending direction of the first linkage rod 142, the second linkage rod 143 is located right above the first linkage rod 142, a connecting shaft which is axially vertical to the ground is arranged between the free end of the first linkage rod 142 and the second linkage rod 143, and the free end of the first linkage rod 142 and the second linkage rod 143 are fixedly connected through the connecting shaft.

The extending direction of the third linkage rod 144 is parallel to the ground, one end of the third linkage rod 144 is provided with a sleeve joint bulge, the third linkage rod 144 is movably sleeved outside the connecting shaft through the sleeve joint bulge, and the third linkage rod 144 can axially rotate around the connecting shaft.

The user hand-shakes the rocking handle and makes the rocking shaft rotate around self axial direction, and finally makes the rotating shaft 132 rotate around self axial direction, and the rotating shaft 132 rotates and pulls the rotating disc 141 to rotate synchronously.

The multi-link pressure reduction device 200 is arranged above the linkage mechanism 140, the multi-link pressure reduction device 200 comprises a guide mechanism 210 and a multi-link pressure reduction mechanism 220, the multi-link pressure reduction mechanism 220 is used for achieving a pressure reduction effect in a mode of rotating around the self axial direction and automatically extending/contracting to the original state, the multi-link pressure reduction mechanism 220 is connected with the linkage mechanism 140 through the guide mechanism 210, and the guide mechanism 210 is used for drawing the multi-link pressure reduction mechanism 220 to operate and achieve the pressure reduction effect.

The guiding mechanism 210 comprises a fixed support 211 and a guiding rail 212, the fixed support 211 is a horizontally arranged circular ring support structure, a fastener is arranged between the fixed support 211 and the rotating disc 141, the fixed support 211 and the rotating disc 141 are coaxially and fixedly connected through the fastener, and the rotating disc 141 rotates and pulls the fixed support 211 to synchronously rotate.

The guide rails 212 are fixedly mounted on the fixed support 211, the guide direction of the guide rails 212 is parallel to the diameter direction of the connection points of the fixed support 211, and four groups of guide rails 212 are arranged in an array along the circumferential direction of the fixed support 211 and are respectively a first guide rail, a second guide rail, a third guide rail and a fourth guide rail.

The guide rail 212 is internally provided with a first guide rod 213 and a second guide rod 214, the extending directions of the first guide rod 213 and the second guide rod 214 are perpendicular to the ground, the first guide rod 213 and the guide rail 212 form sliding guide fit, the first guide rod 213 is positioned between the second guide rod 214 and the fixed support 211, and four groups of the first guide rod 213 and the second guide rod 214 are correspondingly arranged.

The free end of the third link rod 144 is provided with a sleeve protrusion, and the first guide rod 213 in any guide rail 212 is movably installed in the sleeve protrusion.

The rotating disc 141 rotates and pulls the fixed bracket 211 to rotate synchronously, and simultaneously, the linkage rod three 144, the guide rod one 213 movably installed with the linkage rod three 144, and the linkage mechanism 140 are mutually matched in the process, so that the four groups of the guide rod one 213/the guide rod two 214 all reciprocate along the guide direction of the corresponding guide rail 212.

The multi-link pressure reducing mechanism 220 includes four sets of link pressure reducing members, which are a first link pressure reducing member, a second link pressure reducing member, a third link pressure reducing member and a fourth link pressure reducing member.

The first connecting rod pressure reducing component is arranged in an area between the first guide rail and the second guide rail and comprises a connecting rod, the connecting rod is composed of a first hinge section and a second hinge section which are horizontally arranged, the first hinge section is consistent with the second hinge section in shape, one end of the first hinge section is a first hinge end, the other end of the first hinge section is fixedly connected with one end of the second hinge section, the other end of the second hinge section is a second hinge end, a V-shaped structure is formed between the first hinge section and the second hinge section, and a fixed connection point between the first hinge section and the second hinge section is a hinge point.

The six groups of connecting rods are respectively a first connecting rod 221, a second connecting rod 222, a third connecting rod 223, a fourth connecting rod 224, a fifth connecting rod 225 and a sixth connecting rod 226, and included angles of the six groups of connecting rods towards the circle center of the fixed support 211 are all smaller than one hundred eighty degrees.

The first hinged end of the first connecting rod 221 is provided with a first sleeving hole, the first connecting rod 221 is movably sleeved outside the first guide rod 213 in the first guide rail through the first sleeving hole, the first connecting rod 221 can rotate around the extending direction of the first guide rod 213, the first hinged end of the second connecting rod 222 is provided with a second sleeving hole, the second connecting rod 222 is movably sleeved outside the second guide rod 214 in the first guide rail through the second sleeving hole, the second connecting rod 222 can rotate around the extending direction of the second guide rod 214, the first connecting rod 221 and the second connecting rod 222 are connected in a hinging mode, the hinging position of the first connecting rod 221/the second connecting rod 222 is located at the hinging point, and the hinging axis core line is perpendicular to the ground.

The first hinged end of the third connecting rod 223 is hinged to the second hinged end of the first connecting rod 221, the hinge axis of the first hinged end of the fourth connecting rod 224 is perpendicular to the ground, the first hinged end of the second connecting rod 222 is hinged to the second hinged end of the second connecting rod 222, the hinge axis of the first hinged end of the third connecting rod 223 is perpendicular to the ground, the third connecting rod 223 is connected with the fourth connecting rod 224 in a hinged mode, the hinged positions of the third connecting rod 223 and the fourth connecting rod 224 are located at the hinge point of the third connecting rod 223/the.

The first hinged end of the fifth connecting rod 225 is hinged with the second hinged end of the third connecting rod 223, the hinge axis of the first hinged end is perpendicular to the ground, the sixth connecting rod 226 is hinged with the fourth connecting rod 224, the hinge axis of the first hinged end is perpendicular to the ground, the fifth connecting rod 225 is connected with the sixth connecting rod 226 in a hinged mode, the hinged position of the fifth connecting rod 225 and the hinge axis of the sixth connecting rod 226 is located at the hinged point of the fifth connecting rod 225/the sixth connecting rod 226, and the hinge axis of the first hinged end.

The second hinged end of the fifth connecting rod 225 is provided with a third sleeving hole, the fifth connecting rod 225 is movably sleeved outside the second guide rod 214 in the second guide rail through the third sleeving hole, the fifth connecting rod 225 can rotate around the extending direction of the second guide rod 214, the second hinged end of the sixth connecting rod 226 is provided with a fourth sleeving hole, the sixth connecting rod 226 is movably sleeved outside the first guide rod 213 in the second guide rail through the fourth sleeving hole, and the sixth connecting rod 226 can rotate around the extending direction of the first guide rod 213.

The second connecting rod pressure reducing member is arranged in the area between the second guide rail and the third guide rail, the third connecting rod pressure reducing member is arranged in the area between the third guide rail and the fourth guide rail, the fourth connecting rod pressure reducing member is arranged in the area between the fourth guide rail and the first guide rail, and the four groups of connecting rod pressure reducing members are consistent with the corresponding two groups of guide rails 212 in connection relation.

The working process of the multi-link pressure reducing device 200 is specifically as follows: the turntable 141 rotates and pulls the multi-link pressure reducing device 200 to synchronously rotate through the fixed support 211, and simultaneously, the linkage rod three 144, the guide rod one 213 movably installed with the linkage rod three 144 and the linkage mechanism 140 are mutually matched in the process, so that the four groups of the guide rod one 213/the guide rod two 214 respectively do reciprocating motion along the guide direction corresponding to the guide rail 212, and finally the multi-link pressure reducing mechanism 220 is extended/contracted to the original shape, wherein in the first half period, the multi-link pressure reducing mechanism 220 is extended, and in the second half period, the multi-link pressure reducing mechanism 220 is contracted to the original shape.

More preferably, in order to increase the pressure reduction effect of the multi-link pressure reduction device 200 on the user, the multi-link pressure reduction mechanism 220 is provided with a decoration member 230, the decoration member 230 includes a fixing rod 231 and a decoration ball 232, the extending direction of the fixing rod 231 is perpendicular to the ground, the fixing rod 231 is fixedly installed on the link of the multi-link pressure reduction mechanism 220 and is located above the link, and the decoration ball 232 is fixedly installed on the free end of the fixing rod 231.

Preferably, in order to improve the pressure reducing effect of the decoration member 230, the fixing position between the fixing rod 231 and the connecting rod is located at the hinge point of the connecting rod, and several groups of the decoration members 230 are correspondingly arranged.

The scale pressure reducing device 300 is arranged above the multi-link pressure reducing device 200, the scale pressure reducing device 300 comprises a traction mechanism 310 and a scale pressure reducing mechanism 320, the scale pressure reducing mechanism 320 is used for generating a melody sound in a scale change mode and realizing a pressure reducing effect, and the traction mechanism 310 is used for drawing the scale pressure reducing mechanism 320 to operate and realizing the pressure reducing effect.

The scale relief mechanism 320 includes a scale member for producing a pleasing sound, a connecting member for connecting the scale member and the multi-link member, and a guide member for guiding the scale member to produce the pleasing sound.

The scale component comprises an installation shell 321, scale pieces 322 and scale balls 323, wherein the installation shell 321 is a truncated cone-shaped shell structure with two open ends, the installation shell 321 and the fixed support 211 are coaxially arranged, and the small end of the installation shell 321 is positioned below the large end.

The scale pieces 322 are horizontally arranged on the cavity wall of the installation shell 321, a plurality of groups of scale pieces 322 are arranged in an array along the circumferential direction of the installation shell 321, the thickness of the scale pieces 322 in the groups is different, the scale balls 323 collide with the scale pieces 322 and can generate a pleasant sound, the scale balls 323 are placed in the installation shell 321, the diameter of the scale balls 323 is larger than that of the small end of the installation shell 321, the scale balls 323 are arranged in the groups, and one group of scale balls 323 is positioned right above the small end of the installation shell 321.

The scale pressure reducing mechanism 320 forms a melody by the collision of the scale ball 323 with the scale pieces 322 and at the same time, forms a melody due to the difference in thickness of the sets of scale pieces 322.

The connecting member include connecting rod 324, bracing piece 325, connecting rod 324 horizontal fixed mounting is in the excircle face of installation shell 321, and the extending direction of connecting rod 324 is on a parallel with the diameter direction rather than the tie point on installation shell 321, the extending direction perpendicular to ground of bracing piece 325, and one end and two 214 fixed connections of guide bar, the other end of bracing piece 325 are provided with the direction arch, bracing piece 325 passes through the direction arch activity and cup joints outside connecting rod 324 and constitute the sliding guide cooperation between the two, the connecting member correspond and be provided with four groups.

The mounting housing 321 is mounted above the multi-link member through the connecting member, and at the same time, the mounting housing 321 can rotate around its own axis and is not affected by the extending movement of the multi-link member due to the sliding guiding fit between the guiding protrusion and the connecting rod 324.

The guiding component comprises a connecting support 326, a middle sleeve 327, a hinge rod 328 and a supporting plate 329, the connecting support 326 is fixedly arranged in the mounting shell 321, the middle sleeve 327 is a circular cylinder structure with two open ends, the middle sleeve 327 is fixedly arranged on the connecting support 326, the middle sleeve 327 and the mounting shell 321 are coaxially arranged, and the inner diameter of the middle sleeve 327 is larger than the diameter of the scale ball 323.

The hinge rods 328 are fixedly mounted on the outer circular surface of the middle sleeve 327, the hinge rods 328 are arranged in an inclined manner, the distance between the hinge rods 328 and the outer circular surface of the middle sleeve 327 increases from bottom to top along the direction perpendicular to the moving surface, and the hinge rods 328 are arranged in a plurality of groups in an array manner along the circumferential direction of the middle sleeve 327.

The supporting plate 329 is a fan-shaped plate body structure, one end of the supporting plate 329 is positioned right above the middle sleeve 327, the other end of the supporting plate 329 is hinged with the free end of the hinge rod 328, the hinge shaft core line is parallel to the ground and is perpendicular to the extending direction of the hinge rod 328, a plurality of groups of the supporting plate 329 are correspondingly arranged, and a plurality of groups of the supporting plate 329 jointly form a conical guide inclined plane.

During the expansion of the multi-link pressure relief mechanism 220, the traction mechanism 310 is raised and the scale ball 323 is raised directly above the intermediate sleeve 327 through the cavity of the intermediate sleeve 327, and finally the scale ball 323 is placed on the support plate 329; in the process of retracting the multi-link decompression mechanism 220 to the original state, the traction mechanism 310 descends; then, as the multi-link decompression mechanism 220 continues to extend, the traction mechanism 310 is raised and the next scale ball 323 is raised, and pushes against the scale ball 323 located above the support plate 329 and causes it to fall down guided by the guide slope of the support plate 329, finally causing it to collide with the scale piece 322, while the next scale ball 323 is again located on the support plate 329, and so on.

The traction mechanism 310 comprises a driving rod 311, a traction rod 312 and a push rod 313, the extending direction of the driving rod 311 is perpendicular to the ground, the driving rod 311 is fixedly connected to a first guiding rod 213, the first guiding rod 213 moves and pulls the driving rod 311 to move synchronously, and four groups of driving rods 311 are correspondingly arranged.

The push rod 313 is positioned below the installation shell 321, the push rod 313 and the installation shell 321 are coaxially arranged, and the bottom end of the push rod 313 is coaxially provided with the connecting sleeve 314.

One end of the traction rod 312 is hinged with the top end of the driving rod 311, a hinged shaft core line is parallel to the ground and perpendicular to the extending direction of the driving rod 311, the other end of the traction rod 312 is hinged with the connecting sleeve 314, a hinged shaft core line is parallel to the ground and perpendicular to the extending direction of the push rod 313, and four groups of traction rods 312 are correspondingly arranged.

The first guide rod 213 moves and pulls the driving rod 311 to move synchronously, wherein in the process that the multi-link decompression mechanism 220 is stretched, the driving rod 311 moves and enables the ejector rod 313 to ascend along the extending direction of the ejector rod 313 through the traction rod 312, and the ejector rod 313 ascends and pulls the scale ball 323 to ascend; in the process of retracting the multi-link pressure reducing mechanism 220 to the original state, the drive lever 311 moves and lowers the jack 313.

Claims (10)

1. A decompressor control method for psychological decompression by visual/audio induction, comprising the steps of:

s1: a user manually drives the hand-operated driving device;

the hand-operated driving device comprises a mounting frame body, a hand-operated mechanism, a power transmission mechanism and a linkage mechanism, wherein the mounting frame body is horizontally placed on the ground;

the hand-operated mechanism is used for being manually shaken by a user and generating driving power and comprises an accommodating shell, the accommodating shell is a cylindrical shell structure which is provided with an accommodating inner cavity and is axially vertical to the ground, and the accommodating shell is fixedly arranged on the mounting frame body;

the power transmission mechanism is arranged in the accommodating shell and comprises a fixed shaft, a rotating shaft and a power transmission component, wherein the upper end part of the accommodating shell is provided with a through hole, the fixed shaft is axially vertical to the ground, the fixed shaft is fixedly arranged in the accommodating shell, the upper end of the fixed shaft penetrates through the through hole and is positioned above the accommodating shell, the rotating shaft is of a circular cylinder structure with two open ends, the rotating shaft is coaxially and movably sleeved outside the fixed shaft, the upper end of the rotating shaft penetrates through the through hole and is positioned above the accommodating shell, the rotating shaft can axially rotate around the rotating shaft, and the power transmission component is used for receiving driving power generated by the hand-cranking mechanism and transmitting the driving;

a user manually shakes the hand-operated mechanism and enables the rotating shaft to rotate around the self axial direction through the power transmission component;

s2: the rotating shaft rotates and pulls the linkage mechanism to synchronously rotate;

the linkage mechanism comprises a rotary table, a first linkage rod, a second linkage rod and a third linkage rod, wherein the rotary table and the rotary shaft are coaxially and fixedly installed, the extending direction of the first linkage rod is parallel to the ground, the first linkage rod is fixedly installed at the upper end of the fixed shaft, the extending direction of the second linkage rod is parallel to the extending direction of the first linkage rod, the second linkage rod is positioned right above the first linkage rod, a connecting shaft which is axially vertical to the ground is arranged between the free end of the first linkage rod and the second linkage rod, the connecting shaft is fixedly connected between the free end of the first linkage rod and the second linkage rod, the extending direction of the third linkage rod is parallel to the ground, a sleeving bulge is arranged at one end of the third linkage rod, the third linkage rod is movably sleeved outside the connecting shaft through the sleeving bulge, and;

the rotating shaft rotates around the self axial direction and pulls the rotating disc to rotate synchronously;

s3: the linkage mechanism rotates and pulls the multi-connecting-rod pressure reducing device to operate;

the multi-connecting-rod pressure reducing device is arranged above the linkage mechanism and comprises a guide mechanism and a multi-connecting-rod pressure reducing mechanism, the multi-connecting-rod pressure reducing mechanism is used for realizing the pressure reducing effect in a mode of rotating around the self axial direction and automatically extending/contracting to the original state, the multi-connecting-rod pressure reducing mechanism is connected with the linkage mechanism through the guide mechanism, and the guide mechanism is used for drawing the multi-connecting-rod pressure reducing mechanism to run;

the guide mechanism comprises a fixed support and guide rails, the fixed support is a horizontally arranged circular ring support structure, the fixed support is coaxially and fixedly arranged on the turntable, the guide rails are fixedly arranged on the fixed support, the guide direction of the guide rails is parallel to the diameter direction of the connection points of the fixed support and the guide rails, and four groups of guide rails are arrayed along the circumferential direction of the fixed support;

the guide rail is internally provided with a first guide rod and a second guide rod, the extension directions of the first guide rod and the second guide rod are perpendicular to the ground, the first guide rod and the second guide rod are in sliding guide fit with the guide rail, the first guide rod is positioned between the second guide rod and the fixed support, and four groups of the first guide rod and the second guide rod are correspondingly arranged;

the free end of the linkage rod III is provided with a sleeving bulge, and a guide rod I in any guide rail is movably arranged in the sleeving bulge;

the turntable rotates and pulls the fixed support to synchronously rotate, and meanwhile, in the process, the linkage rod III, the guide rod I movably arranged with the linkage rod III and the linkage mechanism are mutually matched, so that the four groups of the guide rods I/II are in reciprocating motion along the guide direction of the corresponding guide rail, and finally the multi-link decompression mechanism is expanded/contracted, wherein in the first half period, the multi-link decompression mechanism is expanded, and in the second half period, the multi-link decompression mechanism is contracted to the original state;

s4: in the process of the movement of the multi-connecting-rod pressure reducing mechanism, the scale pressure reducing device moves synchronously;

the scale pressure reducing device is arranged above the multi-connecting-rod pressure reducing device and comprises a traction mechanism and a scale pressure reducing mechanism, the scale pressure reducing mechanism is used for generating a pleasant sound in a scale change mode and realizing a pressure reducing effect, the scale pressure reducing mechanism is connected with the first guide rod through the traction mechanism, and the traction mechanism is used for drawing the scale pressure reducing mechanism to operate and realizing the pressure reducing effect;

the scale decompressing mechanism comprises a scale component for generating a pleasant sound, a connecting component for connecting the scale component and the multi-link component, and a guiding component for guiding the scale component to emit the pleasant sound;

the scale component comprises a mounting shell, scale pieces and scale balls, wherein the mounting shell is of a truncated cone-shaped shell structure with openings at two ends, the mounting shell and the fixing support are coaxially arranged, the small end of the mounting shell is positioned below the large end, the scale pieces are horizontally mounted on the cavity wall of the mounting shell, the scale pieces are arranged in a plurality of groups along the circumferential direction of the mounting shell, the thickness of the scale pieces in the plurality of groups is different, the scale balls collide with the scale pieces and can generate a pleasant sound, the scale balls are placed in the mounting shell, the diameter of the scale balls is larger than that of the small end of the mounting shell, the scale balls are arranged in the plurality of groups, and one group of scale balls are positioned right above the small end of the mounting shell;

in the process that the multi-connecting-rod decompression mechanism is unfolded, the traction mechanism ascends and pulls the scale ball to synchronously ascend to the position right above the guide component; in the process that the multi-connecting-rod decompression mechanism retracts to the original state, the traction mechanism descends, and the scale ball is placed right above the guide member;

and then in the process that the multi-link decompression mechanism continues to be extended, the traction mechanism rises and enables the next scale ball to rise, and pushes against the scale ball above the guide member and enables the scale ball to fall off, finally the scale ball collides with the scale sheet and generates a melody, and the next scale ball is positioned right above the guide member again, so that the reciprocating motion is realized, and a melody for decompressing the user is formed.

2. The decompressor control method for psychological decompression through visual/audio induction according to claim 1, wherein the hand mechanism further comprises a rocker shaft and a rocker handle, the outer circular surface of the accommodating shell is provided with a rotating hole, the axial direction of the rocker shaft is parallel to the ground, the power output end of the rocker shaft is positioned in the accommodating shell, the power input end of the rocker shaft penetrates through the rotating hole and is positioned outside the accommodating shell, the rocker shaft can rotate around the axial direction of the rocker shaft, and the rocker handle is fixedly installed at the power input end of the rocker shaft.

3. The decompressor control method for performing psychological decompression through visual/audio induction according to claim 2, wherein the power transmission member comprises a driving gear, a driven gear and a gear shaft, the gear shaft is axially parallel to the axial direction of the rocker shaft, the gear shaft is movably mounted in the accommodating shell and can rotate around the axial direction of the gear shaft, the driving gear is fixedly sleeved outside the power output end of the rocker shaft, the driven gear is fixedly sleeved outside the power input end of the gear shaft, and the driving gear is meshed with the driven gear;

the power transmission component further comprises a worm and a worm wheel, the worm is coaxially and fixedly installed at the power output end of the gear shaft, the worm wheel is fixedly sleeved outside the rotating shaft and meshed with the worm, and the rocking shaft rotates around the self axial direction and synchronously pulls the rotating shaft to rotate around the self axial direction.

4. The decompressor controlling method for performing psychological decompression through visual/audio induction according to claim 1, wherein the four sets of guide rails are respectively a first guide rail, a second guide rail, a third guide rail and a fourth guide rail;

the multi-connecting-rod pressure reducing mechanism comprises four groups of connecting rod pressure reducing components which are respectively a first connecting rod pressure reducing component, a second connecting rod pressure reducing component, a third connecting rod pressure reducing component and a fourth connecting rod pressure reducing component;

the first connecting rod pressure reducing component is arranged in an area between the first guide rail and the second guide rail and comprises a connecting rod, the connecting rod is composed of a first hinge section and a second hinge section which are horizontally arranged, the first hinge section is consistent with the second hinge section in shape, one end of the first hinge section is a first hinge end, the other end of the first hinge section is fixedly connected with one end of the second hinge section, the other end of the second hinge section is a second hinge end, a V-shaped structure is formed between the first hinge section and the second hinge section, and a fixed connection point between the first hinge section and the second hinge section is a hinge point.

5. The decompressor control method according to claim 4, wherein the connecting rods are provided with six groups of connecting rods, namely a first connecting rod, a second connecting rod, a third connecting rod, a fourth connecting rod, a fifth connecting rod and a sixth connecting rod, and included angles of the six groups of connecting rods towards the center of the fixed support are all less than one hundred and eighty degrees;

the first hinged end of the first connecting rod is provided with a first sleeving hole, the first connecting rod is movably sleeved outside the first guide rod in the first guide rail through the first sleeving hole, the first connecting rod can rotate in the extending direction of the first guide rod, the first hinged end of the second connecting rod is provided with a second sleeving hole, the second connecting rod is movably sleeved outside the second guide rod in the first guide rail through the second sleeving hole, the second connecting rod can rotate in the extending direction of the second guide rod, the first connecting rod and the second connecting rod are connected in a hinging mode, the hinging position of the first connecting rod and the second connecting rod is located at a hinging point of the first connecting rod/the second connecting rod, and a hinging shaft core wire is perpendicular to the ground.

6. The decompressor controlling method for mental decompression through visual/audio induction according to claim 5,

the first hinged end of the third connecting rod is hinged with the second hinged end of the first connecting rod, the core line of the hinged shaft is perpendicular to the ground, the first hinged end of the fourth connecting rod is hinged with the second hinged end of the second connecting rod, the core line of the hinged shaft is perpendicular to the ground, the third connecting rod and the fourth connecting rod are connected in a hinged mode, the hinged positions of the third connecting rod and the fourth connecting rod are located at the hinged point of the third connecting rod/the fourth connecting rod, and the core line of the hinged shaft is perpendicular to the ground;

the first hinged end of the fifth connecting rod is hinged with the second hinged end of the third connecting rod, a hinged shaft core line is perpendicular to the ground, the sixth connecting rod is hinged with the fourth connecting rod, the hinged shaft core line is perpendicular to the ground, the fifth connecting rod and the sixth connecting rod are connected in a hinged mode, the hinged positions of the fifth connecting rod and the sixth connecting rod are located at hinged points of the fifth connecting rod and the sixth connecting rod, and the hinged shaft core line is perpendicular to the ground.

7. The decompressor control method according to claim 6, wherein the second hinged end of the fifth connecting rod is provided with a third sleeve hole, the fifth connecting rod is movably sleeved outside the second guide rod in the second guide rail through the third sleeve hole, the fifth connecting rod can rotate around the second guide rod in the extending direction, the second hinged end of the sixth connecting rod is provided with a fourth sleeve hole, the sixth connecting rod is movably sleeved outside the first guide rod in the second guide rail through the fourth sleeve hole, and the sixth connecting rod can rotate around the first guide rod in the extending direction;

the four groups of connecting rod decompression members are consistent with the corresponding two groups of guide rails in connection relation.

8. The decompressor controlling method according to claim 1, wherein the connecting member comprises a connecting rod and a supporting rod, the connecting rod is horizontally and fixedly installed on the outer circumferential surface of the installation housing, the extending direction of the connecting rod is parallel to the diameter direction of the connection point of the installation housing, the extending direction of the supporting rod is perpendicular to the ground, one end of the supporting rod is fixedly connected with the second guiding rod, the other end of the supporting rod is provided with a guiding protrusion, the supporting rod is movably sleeved outside the connecting rod through the guiding protrusion, the two supporting rods form a sliding guiding fit, and four groups of connecting members are correspondingly arranged.

9. The decompressor controlling method for psychological decompression through visual/audio induction according to claim 1, wherein the guiding member comprises a connecting bracket, an intermediate sleeve, a hinge rod and a supporting plate, the connecting bracket is fixedly installed in the installation housing, the intermediate sleeve is a circular cylinder structure with openings at two ends, the intermediate sleeve is fixedly installed on the connecting bracket and is coaxially arranged with the installation housing, and the inner diameter of the intermediate sleeve is larger than the diameter of the scale ball;

the hinge rods are fixedly arranged on the outer circular surface of the middle sleeve and are arranged in an inclined manner, the distance between the hinge rods and the outer circular surface of the middle sleeve increases progressively from bottom to top along the direction perpendicular to the moving surface, and a plurality of groups of hinge rods are arranged in an array manner along the circumferential direction of the middle sleeve;

the backup pad be fan-shaped plate body structure, the one end of backup pad is located directly over the middle sleeve, the other end is articulated and articulated shaft heart yearn is on a parallel with ground and perpendicular to articulated rod extending direction with the free end of articulated rod, the backup pad correspondence is provided with a plurality of groups, and a plurality of groups backup pad constitutes the guide inclined plane that is the conical surface shape jointly.

10. The decompressor control method for psychological decompression through visual/audio induction according to claim 1, wherein the traction mechanism comprises a driving rod, a traction rod and a push rod, the extension direction of the driving rod is perpendicular to the ground, the driving rod is fixedly connected to a first guiding rod, the first guiding rod moves and pulls the driving rod to move synchronously, and four groups of driving rods are correspondingly arranged;

the ejector rod is positioned below the installation shell, the ejector rod and the installation shell are coaxially arranged, and a connecting sleeve is coaxially arranged at the bottom end of the ejector rod;

one end of each traction rod is hinged with the top end of the corresponding driving rod, the hinge shaft core line is parallel to the ground and perpendicular to the extending direction of the corresponding driving rod, the other end of each traction rod is hinged with the corresponding connecting sleeve, the hinge shaft core line is parallel to the ground and perpendicular to the extending direction of the corresponding ejector rod, and four groups of traction rods are correspondingly arranged.

Images