CN111572782B - Automatic meteorological monitoring parachute handheld part and method - Google Patents

Abstract

The invention relates to the field of security and health of paratroopers, in particular to a hand-held part and a method for an automatic meteorological monitoring parachute. The parachute structure comprises a parachute separating part (3), the parachute separating part (3) is a framework of the parachute, a plurality of additional rods (7) are arranged on the framework of the parachute, the additional rods (7) comprise auxiliary rings (4), the auxiliary rings (4) comprise two arc-shaped sections, and the arc-shaped sections are an additional right hole ring (8) and an additional left hole ring (9); the parachute comprises a parachute separating part (3) and is characterized by further comprising a stay wire (1), wherein the stay wire (1) sequentially and alternately penetrates through auxiliary rings (4) of the adjacent parachute separating parts (3), and a left comprehensive stay wire (6) and a right comprehensive stay wire (2) respectively extend out of two sides of the stay wire; the additional right eyelet (8) and the additional left eyelet (9) are respectively used for accommodating a pull line, and when the left comprehensive pull line (6) and the right comprehensive pull line (2) are tensioned, the two adjacent parachute separating parts (3) can be contacted or even closed.

Description

Automatic meteorological monitoring parachute handheld part and method

Technical Field

The invention relates to the field of security and health of paratroopers, in particular to a hand-held part and a method for an automatic meteorological monitoring parachute.

Background

If the parachute is in the air, if a bullet exists or for other reasons, the parachute is very dangerous to break.

Disclosure of Invention

The purpose of the invention is as follows: in order to provide a parachute structure and a parachute method with a better effect and a combined skeleton type crevasse capable of being repaired at high altitude, specific purposes are seen in a plurality of substantial technical effects of a specific implementation part.

In order to achieve the purpose, the invention adopts the following technical scheme:

the first scheme is as follows:

the parachute structure with the combined skeleton and the crevasse capable of being repaired at high altitude is characterized by comprising a parachute separating part 3, wherein the parachute separating part 3 is a skeleton of a parachute, a plurality of additional rods 7 are arranged on the skeleton of the parachute, each additional rod 7 comprises an auxiliary ring 4, each auxiliary ring 4 comprises two arc-shaped sections, and each arc-shaped section comprises an additional right hole ring 8 and an additional left hole ring 9; the parachute comprises a parachute separating part 3 and a pull wire 1, wherein the pull wire 1 sequentially and alternately penetrates through auxiliary rings 4 of the adjacent parachute separating parts 3, and a left comprehensive pull wire 6 and a right comprehensive pull wire 2 respectively extend out of two sides of the parachute; the additional right eyelet 8 and the additional left eyelet 9 are respectively used for accommodating a pull line, and when the left comprehensive pull line 6 and the right comprehensive pull line 2 are tensioned, the two adjacent parachute separating parts 3 can be contacted or even closed.

The invention has the further technical scheme that the parachute separating part 3 is made of magnetic materials.

The invention has the further technical proposal that the additional rod 7 and the auxiliary ring 4 are arranged upwards or downwards, and the umbrella cloth of the parachute is sewed on the framework.

The invention further adopts the technical scheme that the edges of the parachute are connected through a connecting rope to connect the parachute backpack system and the human body fixing part.

The invention has the further technical scheme that the parachute separating part 3 is made of a light high polymer material.

The invention has the further technical scheme that a plurality of subareas of the parachute divided by the framework respectively comprise a wind pressure sensor which can measure the corresponding upward wind pressure; and judging the damage if the wind pressure of the damaged partition is inconsistent with that of other partitions.

The invention further adopts the technical scheme that the left comprehensive stay wire 6 and the right comprehensive stay wire 2 are respectively retracted and extended through an automatic weather monitoring parachute handheld part 11, the automatic weather monitoring parachute handheld part 11 comprises a handheld ring, the handheld ring comprises a horizontal shaft, a plurality of switches 12 are arranged on the horizontal circumference, each switch 12 corresponds to one retraction and extension part 13, the retraction and extension parts can retract and extend a wire 14, the wire 14 comprises the left comprehensive stay wire 6 and the right comprehensive stay wire 2, and the left comprehensive stay wire 6 and the right comprehensive stay wire 2 can be retracted and extended on the retraction and extension parts 13 after converging and passing through holes in a wire retracting and extending bracket 15.

The further technical scheme of the invention is that the horizontal shaft, the shaft arranged on the winding and unwinding part 13 and the wire winding and unwinding bracket 15 are integrated, and a gap is formed between the wire winding and unwinding bracket 15 and the winding and unwinding part 13.

The invention has the further technical scheme that the retractable part 13 comprises a retractable part roller shell 131, a retractable part motor 133 is arranged on a retractable part bottom sheet 132, a retractable part gear 137 is arranged on the retractable part motor shaft 134 of the retractable part motor 133 through a retractable part bearing 135 and then in the retractable part roller shell 131, and the retractable part gear 137 is meshed with the retractable part roller shell internal gear 136; the bottom plate 132 of the retractable part is fixed on the transverse shaft, and the housing 131 of the retractable part can be driven by the teeth 137 of the retractable part to rotate to realize retraction.

A method for repairing a skeleton combined type crevasse at high altitude is characterized in that by utilizing the parachute structure, when a certain partition of the parachute is shot out of the crevasse by a cannon or a bullet to cause serious air leakage;

when the pilot presses the switch 12, the two parachute separating parts 3 of the corresponding subareas can be contacted and even closed, and then the closing of the crevasse subareas is realized.

Scheme II:

automatic meteorological monitoring parachute handheld part, a serial communication port, the left side is synthesized and is acted as go-between 6 and the right side is synthesized and act as go-between 2 and receive and release through automatic meteorological monitoring parachute handheld part 11 separately, automatic meteorological monitoring parachute handheld part 11 contains handheld ring, handheld ring contains horizontal axle, horizontal week contains a plurality of switches 12, every switch 12 corresponds one and receive and releases the part 13, receive and release the part and can receive and release line 14, receive and release line 14 and synthesize act as go-between 2 for the left side is synthesized and acts as go-between 6 and the right side, the left side is synthesized and is acted as go-between 6 and the right side is synthesized and act as go-between 2 and can receive and release on receiving and releasing the part 13 after converging through the hole on the receive and release line support 15.

The further technical scheme of the invention is that the horizontal shaft, the shaft arranged on the winding and unwinding part 13 and the wire winding and unwinding bracket 15 are integrated, and a gap is formed between the wire winding and unwinding bracket 15 and the winding and unwinding part 13.

The invention has the further technical scheme that the retractable part 13 comprises a retractable part roller shell 131, a retractable part motor 133 is arranged on a retractable part bottom sheet 132, a retractable part gear 137 is arranged on the retractable part motor shaft 134 of the retractable part motor 133 through a retractable part bearing 135 and then in the retractable part roller shell 131, and the retractable part gear 137 is meshed with the retractable part roller shell internal gear 136; the bottom plate 132 of the retractable part is fixed on the transverse shaft, and the housing 131 of the retractable part can be driven by the teeth 137 of the retractable part to rotate to realize retraction.

The invention has the further technical scheme that the hand-held ring is hollow, and the electric wire runs in the hand-held ring; the motor 133 of the retraction part comprises a self-contained storage battery which is arranged in a battery compartment of the hollow hand-held ring, and the battery compartment is embedded in the hand-held ring.

The present invention has the further technical scheme that wind pressure sensors respectively contained in a plurality of subareas of the parachute divided by the framework are in communication connection with the motor 133 of the collecting and releasing part and can control the positive and negative rotation of the motor 133 of the collecting and releasing part.

The method for adjusting the physical shape of the parachute without a crevasse is characterized in that the parachute structure which can be repaired at high altitude by utilizing the hand-held part of the automatic meteorological monitoring parachute and the skeleton combined crevasse is utilized,

the parachute structure comprises a parachute separating part 3, the parachute separating part 3 is a framework of the parachute, a plurality of additional rods 7 are arranged on the framework of the parachute, the additional rods 7 comprise auxiliary rings 4, each auxiliary ring 4 comprises two arc-shaped sections, and the arc-shaped sections are an additional right hole ring 8 and an additional left hole ring 9; the parachute comprises a parachute separating part 3 and a pull wire 1, wherein the pull wire 1 sequentially and alternately penetrates through auxiliary rings 4 of the adjacent parachute separating parts 3, and a left comprehensive pull wire 6 and a right comprehensive pull wire 2 respectively extend out of two sides of the parachute; the additional right eyelet ring 8 and the additional left eyelet ring 9 are respectively used for accommodating a pull line, and when the left comprehensive pull line 6 and the right comprehensive pull line 2 are tensioned, the two adjacent parachute separating parts 3 can be contacted or even closed;

by pressing the switch 12, the two parachute parting sections 3 of the corresponding divisions can be contacted or even closed; the adjustment of the shape of the parachute is realized, and then the integral aerodynamic state is adjusted, and further the falling condition is adjusted.

Compared with the prior art, the invention adopting the technical scheme has the following beneficial effects: the two parachute separating parts 3 of the corresponding subareas can be contacted and even closed, and further the closure of the crevasse subareas is realized. The safety is better. Is suitable for emergency use in the air.

Drawings

To further illustrate the present invention, further description is provided below with reference to the accompanying drawings:

FIG. 1 is a schematic diagram of the inventive structure;

FIG. 2 is a schematic view showing the structure of a partition of the parachute;

FIG. 3 is a schematic view of a further modification of FIG. 1;

FIG. 4 is a schematic view of the handle structure;

FIG. 5 is a power perspective view of the retraction portion unit;

FIG. 6 is a power perspective view of the retraction section assembly;

FIG. 7 is a power perspective view of the retraction portion unit;

FIG. 8 is a power perspective view of the retraction section assembly;

wherein: 1. a pull wire; 2. a right comprehensive stay wire; 3. a parachute-separating section; 4. an auxiliary ring; 5. a parachute canopy; 6. a left comprehensive stay wire; 7. an additional rod; 8. adding a right hole ring; 9. adding a left hole ring; 10. the edge of the parachute; 11. a hand-held portion of an automatic weather monitoring parachute; 12. a switch; 13. a storing and releasing part; 14. taking up and paying off the wire; 15. taking up and paying off the wire bracket; 131. collecting and releasing part of the roller shell; 132. receiving and releasing a partial bottom sheet; 133. a motor for retracting and releasing part; 134. a motor shaft of the retraction part; 135. a part of bearings are stored; 136. internal teeth of a roller shell of the collecting and releasing part; 137. and (4) retracting and releasing part of teeth.

Detailed Description

The present invention will be further illustrated with reference to the accompanying drawings and specific embodiments, which are to be understood as merely illustrative of the invention and not as limiting the scope of the invention. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The patent provides a plurality of parallel schemes, and different expressions belong to an improved scheme based on a basic scheme or a parallel scheme. Each solution has its own unique features.

The first scheme is as follows:

the first embodiment is as follows: with reference to all of the accompanying drawings;

the parachute structure with the combined skeleton and the crevasse capable of being repaired at high altitude is characterized by comprising a parachute separating part 3, wherein the parachute separating part 3 is a skeleton of a parachute, a plurality of additional rods 7 are arranged on the skeleton of the parachute, each additional rod 7 comprises an auxiliary ring 4, each auxiliary ring 4 comprises two arc-shaped sections, and each arc-shaped section comprises an additional right hole ring 8 and an additional left hole ring 9; the parachute comprises a parachute separating part 3 and a pull wire 1, wherein the pull wire 1 sequentially and alternately penetrates through auxiliary rings 4 of the adjacent parachute separating parts 3, and a left comprehensive pull wire 6 and a right comprehensive pull wire 2 respectively extend out of two sides of the parachute; the additional right eyelet 8 and the additional left eyelet 9 are respectively used for accommodating a pull line, and when the left comprehensive pull line 6 and the right comprehensive pull line 2 are tensioned, the two adjacent parachute separating parts 3 can be contacted or even closed. The technical scheme of the invention has the following substantial technical effects and the realization process: a method for repairing a skeleton combined type crevasse at high altitude is characterized in that by utilizing the parachute structure, when a certain partition of the parachute is shot out of the crevasse by a cannon or a bullet to cause serious air leakage; when the pilot presses the switch 12, the two parachute separating parts 3 of the corresponding subareas can be contacted and even closed, and then the closing of the crevasse subareas is realized. The safety is better.

Creatively, the above effects exist independently, and the combination of the above results can be completed by a set of structure.

Example two: as a further improvement or in a side-by-side or alternatively independent solution, the parachute-dividing part 3 is made of magnetic material. The technical scheme of the invention has the following substantial technical effects and the realization process: the magnetic material facilitates magnetic attraction.

Example three: as a further development or a side-by-side or alternatively independent solution, the attachment bar 7 and the auxiliary ring 4 are arranged upwards or downwards, and the canopy of the parachute is sewn to the frame.

Example four: as a further development, either a parallel solution or an alternative independent solution, the edges of the parachute itself are connected by connecting ropes to connect the parachute backpack system and the human body fixing part.

Example five: as a further improvement or a parallel scheme or an alternative independent scheme, the parachute separating part 3 is made of a light high polymer material.

Example six: as a further improvement or a parallel scheme or an alternative independent scheme, each of a plurality of subareas of the parachute divided by the framework comprises a wind pressure sensor which can measure the corresponding upward wind pressure; and judging the damage if the wind pressure of the damaged partition is inconsistent with that of other partitions. The technical scheme of the invention has the following substantial technical effects and the realization process: the wind pressure sensor can be replaced by an airflow speed sensor, and the possibility of a break at the position is judged when high airflow is high after the umbrella is opened. The sensor is provided with a button battery.

Example seven: as a further improved scheme or a parallel scheme or a selectable independent scheme, the left comprehensive stay wire 6 and the right comprehensive stay wire 2 are respectively retracted and extended through an automatic weather monitoring parachute handheld part 11, the automatic weather monitoring parachute handheld part 11 comprises a handheld ring, the handheld ring comprises a horizontal shaft, a plurality of switches 12 are arranged on the horizontal circumference, each switch 12 corresponds to one retraction and extension part 13, the retraction and extension parts can retract and extend a retraction and extension wire 14, the retraction and extension wires 14 are the left comprehensive stay wire 6 and the right comprehensive stay wire 2, and the left comprehensive stay wire 6 and the right comprehensive stay wire 2 can be retracted and extended on the retraction and extension parts 13 after converging through holes in a retraction and extension wire support 15. The technical scheme of the invention has the following substantial technical effects and the realization process: by pressing the switch 12, the two parachute parting sections 3 of the corresponding divisions can be contacted or even closed; the adjustment of the shape of the parachute is realized, and then the integral aerodynamic state is adjusted, and further the falling condition is adjusted.

Example eight: as a further development or a side-by-side development or alternatively an independent development, the horizontal axis, the axis on which the take-up and pay-off portion 13 is mounted, and the take-up and pay-off wire holder 15 are integrated, with a gap being included between the take-up and pay-off wire holder 15 and the take-up and pay-off portion 13.

Example nine: as a further improvement scheme or a parallel scheme or a selectable independent scheme, the retractable part 13 comprises a retractable part roller shell 131, a retractable part motor 133 is mounted on a retractable part bottom plate 132, a retractable part shaft 134 of the retractable part motor 133 is mounted above and in the retractable part roller shell 131 through a retractable part bearing 135, a retractable part gear 137 is mounted on the retractable part shaft 134, and the retractable part gear 137 is meshed with the retractable part roller shell internal gear 136; the bottom plate 132 of the retractable part is fixed on the transverse shaft, and the housing 131 of the retractable part can be driven by the teeth 137 of the retractable part to rotate to realize retraction.

Scheme II:

example ten: as a further improved scheme or a parallel scheme or a selectable independent scheme, the automatic weather monitoring parachute handheld part is characterized in that a left comprehensive pull line 6 and a right comprehensive pull line 2 are respectively retracted and extended through the automatic weather monitoring parachute handheld part 11, the automatic weather monitoring parachute handheld part 11 comprises a handheld ring, the handheld ring comprises a horizontal shaft, a plurality of switches 12 are arranged on the horizontal circumference, each switch 12 corresponds to one retraction and extension part 13, the retraction and extension parts can retract a retraction and extension line 14, the retraction and extension lines 14 are the left comprehensive pull line 6 and the right comprehensive pull line 2, and the left comprehensive pull line 6 and the right comprehensive pull line 2 can be retracted and extended on the retraction and extension parts 13 after converging through holes in a retraction and extension line support 15. The technical scheme of the invention has the following substantial technical effects and the realization process: this embodiment is a structure that can be sold and used separately.

Example eleven: as a further development or a side-by-side development or alternatively an independent development, the horizontal axis, the axis on which the take-up and pay-off portion 13 is mounted, and the take-up and pay-off wire holder 15 are integrated, with a gap being included between the take-up and pay-off wire holder 15 and the take-up and pay-off portion 13.

Example twelve: as a further improvement scheme or a parallel scheme or a selectable independent scheme, the retractable part 13 comprises a retractable part roller shell 131, a retractable part motor 133 is mounted on a retractable part bottom plate 132, a retractable part shaft 134 of the retractable part motor 133 is mounted above and in the retractable part roller shell 131 through a retractable part bearing 135, a retractable part gear 137 is mounted on the retractable part shaft 134, and the retractable part gear 137 is meshed with the retractable part roller shell internal gear 136; the bottom plate 132 of the retractable part is fixed on the transverse shaft, and the housing 131 of the retractable part can be driven by the teeth 137 of the retractable part to rotate to realize retraction.

Example thirteen: as a further development or a side-by-side or alternatively a stand-alone solution, the hand ring is hollow, in which the electrical lines run; the motor 133 of the retraction part comprises a self-contained storage battery which is arranged in a battery compartment of the hollow hand-held ring, and the battery compartment is embedded in the hand-held ring.

Example fourteen: as a further improvement scheme or a parallel scheme or an optional independent scheme, the wind pressure sensors respectively contained in a plurality of subareas of the parachute divided by the framework are in communication connection with the motor 133 of the collecting and releasing part and can control the positive and negative rotation of the motor 133 of the collecting and releasing part. The technical scheme of the invention has the following substantial technical effects and the realization process: the embodiment and the six embodiment are jointly controlled, so that the safety is higher.

Example fifteen: as a further improved scheme or a parallel scheme or an optional independent scheme, the method for adjusting the physical shape of the parachute without the crevasses is characterized in that the parachute structure which can be repaired at high altitude by the combination of the hand-held part of the automatic weather monitoring parachute and the framework is utilized,

the parachute structure comprises a parachute separating part 3, the parachute separating part 3 is a framework of the parachute, a plurality of additional rods 7 are arranged on the framework of the parachute, the additional rods 7 comprise auxiliary rings 4, each auxiliary ring 4 comprises two arc-shaped sections, and the arc-shaped sections are an additional right hole ring 8 and an additional left hole ring 9; the parachute comprises a parachute separating part 3 and a pull wire 1, wherein the pull wire 1 sequentially and alternately penetrates through auxiliary rings 4 of the adjacent parachute separating parts 3, and a left comprehensive pull wire 6 and a right comprehensive pull wire 2 respectively extend out of two sides of the parachute; the additional right eyelet ring 8 and the additional left eyelet ring 9 are respectively used for accommodating a pull line, and when the left comprehensive pull line 6 and the right comprehensive pull line 2 are tensioned, the two adjacent parachute separating parts 3 can be contacted or even closed;

by pressing the switch 12, the two parachute parting sections 3 of the corresponding divisions can be contacted or even closed; the adjustment of the shape of the parachute is realized, and then the integral aerodynamic state is adjusted, and further the falling condition is adjusted.

Creatively, the above effects exist independently, and the combination of the above results can be completed by a set of structure.

The technical effect that above structure was realized realizes clearly, if do not consider additional technical scheme, this patent name can also be a parachute. Some details are not shown in the figures.

It should be noted that the plurality of schemes provided in this patent include their own basic schemes, which are independent of each other and are not restricted to each other, but they may be combined with each other without conflict, so as to achieve a plurality of effects.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, and the invention is to be limited to the embodiments described above.

Claims (6)

1. The automatic meteorological monitoring parachute handheld part is characterized in that the automatic meteorological monitoring parachute handheld part (11) comprises a handheld ring, the handheld ring comprises a horizontal shaft, a plurality of switches (12) are arranged on the horizontal shaft, each switch (12) corresponds to one folding and unfolding part (13), the folding and unfolding parts can fold and unfold a folding and unfolding line (14), the folding and unfolding lines (14) are a left comprehensive pull line (6) and a right comprehensive pull line (2), and the left comprehensive pull line (6) and the right comprehensive pull line (2) can be folded and unfolded on the folding and unfolding parts (13) after converging through holes in a folding and unfolding line support (15); the left comprehensive stay wire (6) and the right comprehensive stay wire (2) can be respectively retracted and extended through the automatic meteorological monitoring parachute handheld part (11);

when the left comprehensive pull wire (6) and the right comprehensive pull wire (2) are tightened, the two adjacent parachute separating parts (3) can be contacted or even closed.

2. An automated weather-monitoring parachute hand-held section as claimed in claim 1, wherein the horizontal shaft, the shaft on which the deploying and retracting section (13) is mounted, and the line take-up and pay-off bracket (15) are integrated, and a gap is provided between the line take-up and pay-off bracket (15) and the deploying and retracting section (13).

3. The automated weather-monitoring parachute hand-held part of claim 1, wherein the deploying and retracting part (13) comprises a deploying and retracting part roller housing (131), a deploying and retracting part motor (133) is mounted on a bottom plate (132) of the deploying and retracting part, a deploying and retracting part motor shaft (134) of the deploying and retracting part motor (133) is mounted in the deploying and retracting part roller housing (131) through a deploying and retracting part bearing (135), a deploying and retracting part gear (137) is mounted on the deploying and retracting part motor shaft (134), and the deploying and retracting part gear (137) is meshed with internal teeth (136) of the deploying and retracting part roller housing; the bottom plate (132) of the retractable part is fixed on the transverse shaft, and the housing (131) of the retractable part can be driven by the teeth (137) of the retractable part to rotate to realize retraction.

4. An automated weather monitoring parachute handset as recited in claim 3, wherein the handset ring is hollow and the electrical wiring runs through it; the storage part motor (133) comprises a self-contained storage battery, the storage battery is positioned in a battery compartment of the hollow handheld ring, and the battery compartment is embedded in the handheld ring.

5. The automated weather-monitoring parachute hand-held section of claim 4, wherein the wind pressure sensors included in each of the plurality of sectors of the parachute divided by the framework are communicatively connected to the deploying and retracting section motor (133) and control the forward and reverse rotation of the deploying and retracting section motor (133).

6. Method for adjusting the physical shape of a parachute without breaching, characterized in that, with the automatic meteorological monitoring of the parachute handset as claimed in any one of claims 1 to 5,

the parachute structure comprises a parachute separating part (3), the parachute separating part (3) is a framework of the parachute, a plurality of additional rods (7) are arranged on the framework of the parachute, the additional rods (7) comprise auxiliary rings (4), the auxiliary rings (4) comprise two arc-shaped sections, and the arc-shaped sections are an additional right hole ring (8) and an additional left hole ring (9); the parachute comprises a parachute separating part (3) and is characterized by further comprising a stay wire (1), wherein the stay wire (1) sequentially and alternately penetrates through auxiliary rings (4) of the adjacent parachute separating parts (3), and a left comprehensive stay wire (6) and a right comprehensive stay wire (2) respectively extend out of two sides of the stay wire; the additional right eyelet (8) and the additional left eyelet (9) are respectively used for accommodating a pull line, and when the left comprehensive pull line (6) and the right comprehensive pull line (2) are tightened, two adjacent parachute separating parts (3) can be contacted or even closed;

the two parachute separating parts (3) of the corresponding subareas can be contacted or even closed by pressing the switch (12); the adjustment of the shape of the parachute is realized, and then the integral aerodynamic state is adjusted, and further the falling condition is adjusted.

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