阅读说明：本技术 一种户外多功能登山杖 (Outdoor multi-functional alpin-stock ) 是由 夏继英 潘祖国 陈昊哲 于 2019-11-14 设计创作，主要内容包括：本发明公开了一种户外多功能登山杖,其结构包括安装筒,所述安装筒内设置有开口的内腔,所述内腔内转动的设置有转动柄,所述转动柄内设置有开口的容腔,所述容腔上侧设置有位于所述转动柄内且开口的容纳腔,所述容纳腔内设置有能够折叠展开形成挂钩结构的摆动装卡装置,所述内腔内设置有用于使所述转动柄展开或者折叠于所述内腔内的拉动折叠装置,所述安装筒右侧设置有用于与登山杖固定的配合连接装置,此设备采用了所述摆动装卡装置、拉动折叠装置和配合连接装置的设计,使设备能够与登山杖进行配合连接,在紧急时刻可以快速弹出形成挂钩结构,且设备便于折叠与多次使用,具有良好的便利性及实用性。(The invention discloses an outdoor multifunctional alpenstock, which structurally comprises an installation barrel, wherein an open inner cavity is arranged in the installation barrel, a rotating handle is rotationally arranged in the inner cavity, an open containing cavity is arranged in the rotating handle, an open containing cavity is arranged on the upper side of the containing cavity, the containing cavity is positioned in the rotating handle, a swinging clamping device capable of being folded and unfolded to form a hook structure is arranged in the containing cavity, a pulling and folding device used for unfolding or folding the rotating handle in the inner cavity is arranged in the inner cavity, a matching and connecting device used for fixing the alpenstock is arranged on the right side of the installation barrel, the equipment adopts the design of the swinging clamping device, the pulling and folding device and the matching and connecting device, so that the equipment can be matched and connected with the alpenstock, can be quickly popped to form the hook structure in emergency, and is convenient to fold and use for multiple times, has good convenience and practicability.)

1. The utility model provides an outdoor multi-functional alpin-stock, its characterized in that, includes installation section of thick bamboo (103), be provided with open-ended inner chamber (104) in installation section of thick bamboo (103), be provided with rotation handle (106) of inner chamber (104) internal rotation, be provided with open-ended appearance chamber (105) in rotation handle (106), appearance chamber (105) upside is provided with and is located rotate handle (106) in and open-ended holds chamber (107), it can fold the swing dress card device (950) that expandes to form the couple structure to be provided with in chamber (107), be provided with in inner chamber (104) and be used for making rotation handle (106) expand or fold in pulling folding device (951) in inner chamber (104), installation section of thick bamboo (103) right side is provided with and is used for cooperation connecting device (952) fixed with the alpin-stock.

2. The outdoor multifunctional alpenstock of claim 1, wherein: swing dress card device (950) include with hold fixed spiral shaft (302) of chamber (107) end wall, spiral shaft (302) surface pivoted is provided with meshing gear (301), meshing gear (301) terminal surface has set firmly returning face plate (108), a plurality of cooperation link plates (303) have set firmly to returning face plate (108) a side terminal surface, meshing gear (301) one side is provided with the drive meshing gear (301) carry out pivoted drive assembly, it is provided with the restriction in chamber (107) returning face plate (108) swing angle's restriction subassembly.

3. The outdoor multifunctional alpenstock of claim 2, wherein: drive assembly includes will hold chamber (107) confined apron (401), meshing gear (301) upside be provided with hold chamber (107) end wall normal running fit connected rotation axis body (712), rotation axis body (712) surface sets firmly initiative meshing gear (714), initiative meshing gear (714) with meshing gear (301) meshing, it is provided with the drive in rotation axis body (712) and holding chamber (107) end wall initiative meshing gear (714) rotate in order to realize meshing gear (301) pivoted transmission structure.

4. The outdoor multifunctional alpenstock of claim 3, wherein: the transmission structure comprises a connecting fixing plate (706) fixedly arranged on the end wall of the accommodating cavity (107), a track bar (703) is fixedly arranged on the upper end face of the connecting fixing plate (706), an open moving groove (704) is arranged in the track bar (703), a matching sliding seat (702) is arranged in the moving groove (704) in a sliding manner, a motor mounting block (708) is fixedly arranged on the upper end face of the connecting fixing plate (706), a driving motor (707) is fixedly arranged on one side end face of the motor mounting block (708), a motor output shaft (709) is arranged in the driving motor (707) in a power connection manner, a matching inner thread plate (705) is arranged on the outer surface of the motor output shaft (709) in a threaded matching manner, the matching inner thread plate (705) is fixed with the matching sliding seat (702), a swing rod (701) is arranged in the matching sliding seat (702) in a rotating manner, and an outer rotating block (713) is fixedly arranged, a semi-cylinder (711) is fixedly arranged on one side end face of the outer rotating block (713), a rotating seat block (715) is rotatably arranged on the end face of the semi-cylinder (711), and the rotating seat block (715) is fixed with the swinging rod (701).

5. The outdoor multifunctional alpenstock of claim 2, wherein: the limiting assembly comprises a sliding cavity (506) which is arranged in the rotating handle (106) and is symmetrical, an opening of the sliding cavity (506) is formed, an external thread shaft (505) is fixedly arranged between end walls of two sides of the sliding cavity (506), an internal thread block (504) is arranged on the outer surface of the external thread shaft (505) in a thread fit connection mode, a limiting rod (507) is fixedly arranged between the internal thread block (504), and a manual rotating structure for driving the external thread shaft (505) to rotate is arranged on one side of the sliding cavity (506).

6. The outdoor multifunctional alpenstock of claim 5, wherein: manual rotating-structure including set up in rotate handle (106) in and be located dress card chamber (502) of sliding chamber (506) one side, dress card chamber (502) opening sets up, dress card chamber (502) internal rotation be provided with and rotate cylinder (503), rotate cylinder (503) with external screw thread axle (505) power is connected, it is provided with straight board (501) to rotate cylinder (503) surface pivoted.

7. The outdoor multifunctional alpenstock of claim 1, wherein: the pulling and folding device (951) comprises a vertical plate (402) fixedly arranged in the end wall of the inner cavity (104), a compression spring (404) is fixedly arranged on the end surface of the vertical plate (402), a through hole (403) is formed in the vertical plate (402), a movable vertical plate (602) is fixedly arranged on the end surface of one side of the compression spring (404), the movable vertical plate (602) is connected with the inner cavity (104) in a sliding fit manner, a circular sliding shaft (601) is fixedly arranged on the end surface of the movable vertical plate (602), the circular sliding shaft (601) is positioned in the compression spring (404), symmetrical movable circular rods (603) are fixedly arranged on the end surface of the movable vertical plate (602) positioned on the other side of the circular sliding shaft (601), a clamping sliding block (604) is arranged on the outer side of the movable circular rods (603), and the clamping sliding block (604) is connected with the movable circular rods (603) in a rotating, dress card slider (604) with inner chamber (104) sliding fit connects, dress card slider (604) one end sets firmly connecting rod (610), connecting rod (610) terminal surface sets firmly rotates seat (611), rotate seat (611) with hold chamber (105) normal running fit and connect, be provided with the symmetry in inner chamber (104) both sides end wall and will remove the restriction subassembly of riser (602) restriction dress card, restriction subassembly one side be provided with be convenient for with remove the subassembly that slides that riser (602) pulling removed.

8. The outdoor multifunctional alpenstock of claim 7, wherein: the limiting assembly comprises a gear installation cavity (206) communicated and symmetrical with the end wall of the inner cavity (104), a motor installation cavity (205) in the installation cylinder (103) is arranged below the gear installation cavity (206), a matched gear (203) is arranged in the gear installation cavity (206) in a rotating mode, a driving motor (204) is fixedly arranged on the upper end wall of the motor installation cavity (205), the driving motor (204) is in power connection with the matched gear (203), and an open-ended abutting cavity (410) is formed in the outer surface of the matched gear (203).

9. The outdoor multifunctional alpenstock of claim 7, wherein: the sliding assembly comprises sliding grooves (201) which are arranged in end walls on two sides of an inner cavity (104) and are symmetrical, the sliding grooves (201) are located on one side of a motor installation cavity (205), the sliding grooves (201) penetrate through the sliding grooves, symmetrical sliding plates (620) are fixedly arranged on end surfaces on two sides of a moving vertical plate (602), the sliding plates (620) are connected with the sliding grooves (201) in a sliding fit mode, and rotating plates (605) are arranged in the sliding plates (620) in a rotating mode.

10. The outdoor multifunctional alpenstock of claim 1, wherein: the matching connection device (952) comprises a fixed barrel (102) in threaded matching connection with the outer surface of the installation barrel (103), and an open threaded hole (101) is formed in the fixed barrel (102).

Technical Field

The invention belongs to the technical field of outdoor equipment, and particularly relates to an outdoor multifunctional alpenstock.

Background

Disclosure of Invention

The invention aims to solve the problems and provides equipment with the advantages that the flexible structure is adopted to realize the ejection of a hook structure in the equipment, so that the problem that people cannot stop after falling off in the mountain climbing process is effectively avoided, and the like.

The invention is realized by the following technical scheme: the invention discloses an outdoor multifunctional alpenstock, which comprises an installation barrel, wherein an open inner cavity is arranged in the installation barrel, a rotating handle is rotationally arranged in the inner cavity, an open accommodating cavity is arranged in the rotating handle, an accommodating cavity which is positioned in the rotating handle and is open is arranged on the upper side of the accommodating cavity, a swinging clamping device which can be folded and unfolded to form a hook structure is arranged in the accommodating cavity, a pulling and folding device which is used for unfolding or folding the rotating handle in the inner cavity is arranged in the inner cavity, and a matching and connecting device which is used for being fixed with the alpenstock is arranged on the right side of the installation barrel, so that the device is utilized to realize the efficient work of equipment.

Further technical scheme, swing dress card device include with hold the fixed spiral shaft of chamber end wall, spiral shaft surface pivoted is provided with the meshing gear, the meshing gear terminal surface has set firmly the returning face plate, a plurality of cooperation link plates have set firmly to returning face plate side end face, meshing gear one side is provided with the drive the meshing gear carries out pivoted drive assembly, it is provided with the restriction to hold the intracavity the restriction subassembly of returning face plate swing angle to utilize above-mentioned structure to realize the swing and the swing angle adjustment of returning face plate.

According to a further technical scheme, the driving assembly comprises a cover plate with a closed accommodating cavity, a rotating shaft body is arranged on the upper side of the meshing gear and is connected with the end wall of the accommodating cavity in a rotating matching mode, an active meshing gear is fixedly arranged on the outer surface of the rotating shaft body and is meshed with the meshing gear, and a transmission structure which drives the active meshing gear to rotate so as to realize the rotation of the meshing gear is arranged in the end wall of the rotating shaft body and the accommodating cavity, so that the active meshing gear rotates by utilizing the transmission structure.

The technical scheme is that the transmission structure comprises a connecting fixing plate fixedly arranged on the end wall of the accommodating cavity, a track strip is fixedly arranged on the upper end face of the connecting fixing plate, an open moving groove is formed in the track strip, a matched sliding seat is arranged in the moving groove in a sliding manner, a motor mounting block is fixedly arranged on the upper end face of the connecting fixing plate, a driving motor is fixedly arranged on one side end face of the motor mounting block, a motor output shaft is arranged in the driving motor in a power connection manner, a matched inner thread plate is arranged on the outer surface of the motor output shaft in a threaded fit manner, the matched inner thread plate is fixed with the matched sliding seat, a swing rod is rotatably arranged in the matched sliding seat, an outer side rotating block is fixedly arranged on the outer surface of the rotating shaft, a semi-cylindrical body is fixedly arranged on one side end face of the outer side, the rotary seat block is fixed with the swing rod, so that the turnover plate is driven to swing by the structure.

Further technical scheme, the restriction subassembly including set up in just the slip chamber of symmetry in the rotation handle, slip chamber opening sets up, the external screw thread axle has set firmly between the end wall of slip chamber both sides, external screw thread axle surface screw-thread fit connection is provided with the internal thread piece, the restriction pole has set firmly between the internal thread piece, it is provided with the drive to slide chamber one side external screw thread axle pivoted manual rotating-structure to utilize manual rotating-structure to drive the internal thread piece removes.

Further technical scheme, manual revolution mechanic including set up in just be located in rotating the handle the dress card chamber of sliding chamber one side, dress card chamber opening sets up, dress card intracavity pivoted is provided with the rotation cylinder, rotate the cylinder with external screw thread axle power connection, it is provided with the straight board to rotate cylinder surface pivoted, thereby utilizes the folding function of straight board makes the straight board drives it rotates and makes to rotate the cylinder external screw thread axle rotates.

According to a further technical scheme, the pulling and folding device comprises a vertical plate fixedly arranged in the end wall of the inner cavity, a compression spring is fixedly arranged on the end face of the vertical plate, a penetrating through hole is formed in the vertical plate, a moving vertical plate is fixedly arranged on the end face of one side of the compression spring, the moving vertical plate is connected with the inner cavity in a sliding fit manner, a circular sliding shaft is fixedly arranged on the end face of the moving vertical plate, the circular sliding shaft is positioned in the compression spring, symmetrical moving round rods are fixedly arranged on the end face of the moving vertical plate positioned on the other side of the circular sliding shaft, a clamping slide block is arranged on the outer side of the moving round rod and is connected with the moving round rod in a rotating fit manner, the clamping slide block is connected with the inner cavity in a sliding fit manner, a connecting rod is fixedly arranged on one end face of the clamping slide block, a rotating seat is fixedly arranged, the inner cavity both sides end wall is provided with symmetrical and will the restriction subassembly of removal riser restriction dress card, restriction subassembly one side be provided with be convenient for with the subassembly that slides that removes the riser pulling and remove to utilize above-mentioned subassembly to realize the slip and the dress card of removal riser.

Further technical scheme, the restriction subassembly include with the gear installation cavity of inner chamber end wall intercommunication and symmetry, gear installation cavity below be provided with in motor installation cavity in the installation section of thick bamboo, the gear installation cavity internal rotation be provided with the cooperation gear, motor installation cavity upper end wall has set firmly driving motor, driving motor with cooperation gear power is connected, cooperation gear surface is provided with the open-ended chamber that offsets, thereby utilizes the chamber that offsets restricts remove the riser.

Further technical scheme, the subassembly that slides including set up in the inner chamber both sides end wall and the spout of symmetry, the spout is located motor installation cavity one side, the spout runs through the setting, the shifting board that the symmetry has set firmly to remove riser both sides terminal surface, the shifting board with spout sliding fit connects, the shifting board internal rotation is provided with the board that revolves to utilize above-mentioned structure to make the shifting board is convenient for slide.

According to the technical scheme, the matching connection device comprises a fixing barrel which is in threaded matching connection with the outer surface of the mounting barrel, and an open threaded hole is formed in the fixing barrel, so that the equipment and the alpenstock are effectively fixed by the aid of the structure.

The invention has the beneficial effects that: this equipment has adopted swing dress card device, pulling folding device and cooperation connecting device's design makes equipment can cooperate with the alpin-stock to be connected, can pop out fast at the emergency and form the couple structure, prevents that personnel's person safety is influenced in the personnel climbing in-process appearance from landing or removing, and equipment is convenient for fold and repetitious usage, has good convenience and practicality.

The above advantages are embodied in that the structural design of the fixed cylinder and the threaded hole is utilized to connect the equipment with the alpenstock in a better matching manner, so that the equipment can be used in practice, the turnover plate, the rotating handle, the accommodating cavity, the inner cavity and the like are utilized, the equipment has a folding function, the space is saved, and the equipment can be unfolded conveniently The design of the semi-cylinder, the outer rotating block and the rotating shaft body enables the power of the driving motor to be timely and efficiently transmitted to the active meshing gear to enable the active meshing gear to rotate, a connecting rod type structure is adopted, the structural stability is effectively improved, the structural strength is improved, the phenomenon that the active meshing gear and the meshing gear are meshed and failed or the connecting rod structure is broken when a person uses the equipment is prevented, the use safety of the equipment is improved, the straight plate and the rotating cylinder are connected in a rotating fit mode so as to be convenient for hiding and containing the straight plate, the space of the equipment is saved, the external thread shaft is rotated to drive the internal thread block and the limiting rod to move by utilizing the method of rotating the rotating cylinder, the turnover plate is limited by the limiting rod, and the phenomenon that the active meshing gear and the meshing gear are meshed and failed or the connecting rod structure is broken when the person uses the equipment is prevented, the clamping matching of the turnover plate and a rock gully is influenced, the distance of the limiting rod can be adjusted to adjust the swing angle of the turnover plate, the adjustment can be carried out according to geological regions so as to realize the more efficient clamping of the turnover plate and a matching hanging plate with the rock gully and prevent equipment from being in an invalid state, the design of the compression spring is utilized to enable the movable vertical plate to have the function of elastic compression so that the movable vertical plate can indirectly drive the rotating handle to swing to realize the rapid ejection of the rotating handle, the inner cavity end wall can efficiently limit the rotating handle so as to prevent the phenomenon that the rotating handle exceeds the swing angle and prevent the equipment from being invalid, and the design of the sliding plate and the rotating plate is beneficial to the force application of personnel when the movable vertical plate is folded, and a certain distance is formed between the movable vertical plate and the sliding plate and the rotating plate, the advantages that when the movable vertical plate is clamped and fixed by the matching gear and the abutting cavity, the sliding plate just moves to the end wall of the sliding groove, the movable vertical plate is further compressed by the compression spring, the compression spring elastically clamps the movable vertical plate on one side of the abutting cavity, the movable vertical plate can be popped out under the control of personnel by utilizing the structural design of the driving motor, the matching gear and the cover plate, the mechanical structure has more failure conditions compared with the traditional mechanical structure, the driving motor hardly has failure conditions as long as the structure is not damaged, the practical stability of the equipment is improved, the structural design of the cover plate has the advantages that the accommodating cavity is closed, and the normal work of the equipment is prevented from being influenced by sundries in a folding state, circular sliding shaft and fenestrate cooperation are connected and are made it is more stable to remove the riser operation, make it is in to remove the riser compression spring is in compression state can be stable set up in the inner chamber.

Drawings

FIG. 1 is a schematic diagram of the apparatus of the present invention;

FIG. 2 is a schematic bottom view of the apparatus of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view in the direction A of the mounting cartridge of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic view of the present invention in the direction B of the rotation handle of FIG. 2;

FIG. 5 is a schematic rear side plan view of the apparatus of FIG. 1 in accordance with the present invention;

FIG. 6 is a schematic view of the stationary cartridge of FIG. 5 in the direction of C in accordance with the present invention;

FIG. 7 is a schematic view of the lumen of FIG. 5 taken in the direction D in accordance with the present invention;

FIG. 8 is a schematic view of the invention in the direction E of the turn lever of FIG. 5;

FIG. 9 is a schematic view of the lumen of FIG. 5 in the direction F of the present invention;

FIG. 10 is a schematic top view of the apparatus of FIG. 1 according to the present invention;

FIG. 11 is a schematic view in the direction G of the mounting cartridge of FIG. 10 in accordance with the present invention;

FIG. 12 is a rear side schematic top view of the apparatus of FIG. 1 in accordance with the present invention;

FIG. 13 is a schematic view of the roll-over panel of FIG. 12 in the direction H in accordance with the present invention;

FIG. 14 is a schematic view in the direction I of the roll-over panel of FIG. 13 in accordance with the present invention;

in the figure, a threaded hole 101, a fixed cylinder 102, a mounting cylinder 103, an inner cavity 104, a containing cavity 105, a rotating handle 106, a containing cavity 107, a turnover plate 108, a sliding groove 201, a matching gear 203, a driving motor 204, a motor mounting cavity 205, a gear mounting cavity 206, a meshing gear 301, a rotating shaft 302, a matching hanging plate 303, a cover plate 401, a vertical plate 402, a through hole 403, a compression spring 404, a propping cavity 410, a straight plate 501, a clamping cavity 502, a rotating cylinder 503, an internal thread block 504, an external thread shaft 505, a sliding cavity 506, a limiting rod 507, a circular sliding shaft 601, a moving vertical plate 602, a moving circular rod 603, a clamping sliding block 604, a rotating plate 605, a connecting rod 610, a rotating seat 611, a sliding plate 620, a swinging rod 701, a matching sliding seat 702, a track strip 703, a moving groove 704, a matching internal thread plate 705, a connecting fixing plate 706, a driving motor 707, a motor mounting block, a motor output shaft 709, a semi-, An outer rotating block 713, a driving meshing gear 714, a rotating seat block 715, a swinging clamping device 950, a pulling and folding device 951 and a matching connecting device 952.

Detailed Description

As shown in fig. 1 to 14, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the following up-down, left-right and front-back directions are consistent with the up-down, left-right and front-back directions of the projection relation of the device in fig. 1, the outdoor multifunctional alpenstock comprises an installation cylinder 103, an open inner cavity 104 is arranged in the installation cylinder 103, a rotating handle 106 is rotatably arranged in the inner cavity 104, an open accommodating cavity 105 is arranged in the rotating handle 106, an accommodating cavity 107 which is positioned in the rotating handle 106 and is open is arranged on the upper side of the accommodating cavity 105, a swinging clamping device 950 which can be folded and unfolded to form a hook structure is arranged in the accommodating cavity 107, a pulling and folding device 951 which is used for enabling the rotating handle 106 to be unfolded or folded in the inner cavity 104 is arranged in the inner cavity 104, and a matching and connecting device 952 which is used for fixing the alpenstock is arranged on the.

Beneficially, the swing clamping device 950 comprises a rotating shaft 302 fixed to the end wall of the accommodating cavity 107, the diameter of the rotating shaft 302 is at least 1cm, a meshing gear 301 is rotatably arranged on the outer surface of the rotating shaft 302, a turnover plate 108 is fixedly arranged on the end surface of the meshing gear 301, a plurality of matching hanging plates 303 are fixedly arranged on the end surface of one side of the turnover plate 108, the directions of the matching hanging plates 303 on the left side and the right side are opposite, the length of the matching hanging plates 303 is at least 2cm, a driving assembly for driving the meshing gear 301 to rotate is arranged on one side of the meshing gear 301, and a limiting assembly for limiting the swing angle of the turnover plate 108 is arranged in the accommodating cavity 107, so that the swing and swing angle.

Advantageously, the driving assembly includes a cover plate 401 for closing the accommodating cavity 107, a rotating shaft body 712 connected with the end wall of the accommodating cavity 107 in a rotating fit manner is disposed on the upper side of the engaging gear 301, the diameter of the rotating shaft body 712 is at least 1cm, a driving engaging gear 714 is fixedly disposed on the outer surface of the rotating shaft body 712, the driving engaging gear 714 is engaged with the engaging gear 301, and a transmission structure for driving the driving engaging gear 714 to rotate to realize rotation of the engaging gear 301 is disposed in the end wall of the rotating shaft body 712 and the accommodating cavity 107, so that the driving engaging gear 714 is rotated by the transmission structure.

Beneficially, the transmission structure includes a connecting fixing plate 706 fixedly disposed on the end wall of the accommodating cavity 107, the connecting fixing plate 706 has a width of at least 1cm, a track bar 703 is fixedly disposed on the upper end surface of the connecting fixing plate 706, an open moving groove 704 is disposed in the track bar 703, the depth of the moving groove 704 is at least 0.5cm, a matching sliding seat 702 is slidably disposed in the moving groove 704, a motor mounting block 708 is fixedly disposed on the upper end surface of the connecting fixing plate 706, a driving motor 707 is fixedly disposed on one side end surface of the motor mounting block 708, a motor output shaft 709 is disposed in the driving motor 707 in a power connection manner, the length of the motor output shaft 709 is at least 3cm, a matching inner threaded plate 705 is disposed on the outer surface of the motor output shaft in a threaded connection manner, the matching inner threaded plate 705 is fixed with the matching sliding seat 702, a swing rod 701 is rotatably disposed in the matching sliding seat 702, the length of the swing rod 701 is at, the half cylinder 711 is fixedly arranged on one side end face of the outer rotating block 713, the rotating seat block 715 is rotatably arranged on the end face of the half cylinder 711, and the rotating seat block 715 is fixed with the swinging rod 701, so that the overturning plate 108 is driven to swing by the structure.

Beneficially, the limiting assembly comprises a sliding cavity 506 which is symmetrically arranged in the rotating handle 106, the sliding cavity 506 is provided with an opening, the length of the sliding cavity 506 is smaller than the width of the rotating handle 106, an external thread shaft 505 is fixedly arranged between end walls on two sides of the sliding cavity 506, the diameter of the external thread shaft 505 is smaller than the width of the sliding cavity 506, an internal thread block 504 is arranged on the outer surface of the external thread shaft 505 in a threaded fit connection mode, a limiting rod 507 is fixedly arranged between the internal thread blocks 504, the diameter of the limiting rod 507 is at least 0.5cm, a manual rotating structure which drives the external thread shaft 505 to rotate is arranged on one side of the sliding cavity 506, and therefore the internal thread block 504 is driven to move by.

Advantageously, the manual rotation structure includes a card installation cavity 502 disposed in the rotation handle 106 and located on one side of the sliding cavity 506, the card installation cavity 502 is open, a rotation cylinder 503 is rotatably disposed in the card installation cavity 502, the rotation cylinder 503 is in power connection with the external threaded shaft 505, a straight plate 501 is rotatably disposed on the outer surface of the rotation cylinder 503, the length of the straight plate 501 is at least 2cm, and therefore the straight plate 501 drives the rotation cylinder 503 to rotate and further the external threaded shaft 505 to rotate by utilizing the folding function of the straight plate 501.

Beneficially, wherein the pulling and folding device 951 comprises an upright plate 402 fixed in the end wall of the inner cavity 104, a compression spring 404 is fixed on the end surface of the upright plate 402, a through hole 403 is formed in the upright plate 402, the diameter of the through hole 403 is at least 1cm, a movable upright plate 602 is fixed on one side end surface of the compression spring 404, the movable upright plate 602 is connected with the inner cavity 104 in a sliding fit manner, a circular sliding shaft 601 is fixed on the end surface of the movable upright plate 602, the circular sliding shaft 601 is located in the compression spring 404, the diameter of the circular sliding shaft 601 is the same as that of the through hole 403, a symmetrical movable round rod 603 is fixed on the end surface of the movable upright plate 602 located on the other side of the circular sliding shaft 601, the diameter of the movable round rod 603 is larger than that of the circular sliding shaft 601, a clamping slider 604 is arranged on the outer side of the movable round rod 603, the clamping slider 604, one end face of the clamping sliding block 604 is fixedly provided with a connecting rod 610, the end face of the connecting rod 610 is fixedly provided with a rotating seat 611, the rotating seat 611 is connected with the accommodating cavity 105 in a rotating matching mode, the end walls on the two sides of the inner cavity 104 are internally provided with symmetrical limiting components which limit the clamping of the moving vertical plate 602, and one side of each limiting component is provided with a sliding component which is convenient for pulling the moving vertical plate 602 to move, so that the sliding and clamping of the moving vertical plate 602 are realized by utilizing the components.

Beneficially, the limiting assembly comprises a gear installation cavity 206 which is communicated with the end wall of the inner cavity 104 and is symmetrical, a motor installation cavity 205 which is arranged in the installation cylinder 103 is arranged below the gear installation cavity 206, a matching gear 203 is rotatably arranged in the gear installation cavity 206, a driving motor 204 is fixedly arranged on the upper end wall of the motor installation cavity 205, the driving motor 204 is in power connection with the matching gear 203, an open abutting cavity 410 is arranged on the outer surface of the matching gear 203, and the abutting cavity 410 is of a quarter-notch structure, so that the moving vertical plate 602 is limited by the abutting cavity 410.

Advantageously, the sliding assembly comprises sliding grooves 201 which are symmetrically arranged in end walls on two sides of the inner cavity 104, the sliding grooves 201 are located on one side of the motor installation cavity 205, the sliding grooves 201 are arranged in a penetrating manner, symmetrical sliding plates 620 are fixedly arranged on end surfaces on two sides of the moving vertical plate 602, the sliding plates 620 are connected with the sliding grooves 201 in a sliding fit manner, and a rotating plate 605 is rotatably arranged in the sliding plates 620, so that the sliding plates 620 can slide conveniently by using the structure.

Advantageously, the fitting connection device 952 includes a fixed cylinder 102 in threaded fitting connection with the outer surface of the mounting cylinder 103, an open threaded hole 101 is formed in the fixed cylinder 102, the diameter of the fixed cylinder 102 is larger than that of the mounting cylinder 103, and the diameter of the threaded hole 101 is smaller than that of the fixed cylinder 102, so that the device can be effectively fixed to the alpenstock by using the above structure.

The devices, assemblies and structures are in a stop state in an initial state, the equipment is fixedly connected with the alpenstock in an external space in the initial state of the equipment, the threaded holes 101 are adopted to be in threaded fit connection with the alpenstock, and the structures of the equipment are in an expanded state in the initial state of the equipment.

When the equipment works, people can use the unfolded equipment to hang rock gullies and the like when the equipment is in danger so as to prevent the people from continuously falling or sliding, thereby effectively preventing the safety of the people.

When the swing angle of the flipping board 108 is adjusted, the straight board 501 is pulled out, and after the straight board 501 is rotated, the straight board 501 drives the rotating cylinder 503 to rotate, so that the rotating cylinder 503 drives the external threaded shaft 505 to rotate, and the internal threaded block 504 drives the limiting rod 507 to move, at this time, the position of the limiting rod 507 can be adjusted, and the angle of the flipping board 108 limited by the limiting rod 507 after swinging changes.

When the roll-over plate 108 is ready to be ejected, the driving motor 707 drives the motor output shaft 709 to rotate after operating, so that the motor output shaft 709 drives the matching inner thread plate 705 to move, the matching sliding seat 702 fixed with the matching inner thread plate 705 drives the swing rod 701 to swing after sliding in the moving groove 704, the semi-cylinder 711 indirectly drives the rotating shaft body 712 and the outer rotating block 713 to rotate after swinging the swing rod 701, the driving engaging gear 714 drives the engaging gear 301 to rotate after rotating, at this time, the roll-over plate 108 fixed with the engaging gear 301 can swing, and at this time, a person can utilize the matching hanging plate 303 to clamp and fix the device and the rock gully.

When the rotating handle 106 is folded and popped up, firstly, after the rotating handle 106 is swung, the connecting rod 610 is driven to swing by swinging the rotating handle 106, the connecting rod 610 drives the clamping slider 604 and the connecting rod 610 to swing, at the moment, the clamping slider 604 can move in the end wall of the inner cavity 104, the moving circular rod 603 drives the moving vertical plate 602 to slide, at the moment, the rotating plate 605 can also rotate out from the sliding plate 620, the rotating plate 605 and the sliding plate 620 are pulled to slide the moving vertical plate 602, when the sliding chute 201 is approached, a certain distance is arranged between the rotating plate 605, the sliding plate 620 and the moving vertical plate 602, when the sliding plate 620 and the rotating plate 605 slide to the position abutting against the end wall of the sliding chute 201, the moving vertical plate 602 is just clamped by the matching gear 203 and the abutting cavity 410, at the moment, the compression spring 404 is in a fully compressed state, when the matching gear 203 and the abutting cavity 410 are used for clamping the moving, the driving motor 204 can drive the matching gear 203 to rotate to realize the function, at the moment, the rotating handle 106 is completely folded in the inner cavity 104, when the rotating handle 106 is popped out, the driving motor 204 drives the matching gear 203 to rotate, so that the abutting cavity 410 is separated from the moving vertical plate 602 to be clamped, the elastic force of the compression spring 404 drives the moving vertical plate 602 to move, the moving vertical plate 602 drives the moving round rod 603 and other structures to move, and the rotating handle 106 is completely popped out, because the rotating handle 106 needs to be stressed, the rotating handle 106 is limited by the end wall of the inner cavity 104, the rotating handle cannot be continuously turned over so as to be convenient for personnel to use equipment, and the matching connection of the circular sliding shaft 601 and the through hole 403 ensures that the moving vertical plate.

The invention has the beneficial effects that: this equipment has adopted the design of swing dress card device 950, pulling folding device 951 and cooperation connecting device 952, makes equipment can cooperate with the alpin-stock to be connected, can pop out fast at the emergency and form the couple structure, prevents that personnel's personal safety is influenced in the personnel's mountain-climbing in-process appearance from landing or removing, and equipment is convenient for fold and repetitious usage, has good convenience and practicality.

The advantages are that the structural design of the fixed cylinder 102 and the threaded hole 101 is utilized to enable the equipment to be better matched and connected with the alpenstock so as to be convenient for the practical use of the equipment, the structural design of the overturning plate 108, the rotating handle 106, the accommodating cavity 107, the accommodating cavity 105, the inner cavity 104 and the like is utilized to enable the equipment to have a folding function so as to save space and also facilitate the unfolding of the equipment, the specific expression is that the design of opposite directions among the matching hanging plates 303 is utilized to enable stable clamping to be carried out when a rock ravine is hung so as to prevent looseness, power can be timely transmitted to the meshing gear 301 in a mode of meshing the driving meshing gear 714 and the meshing gear 301 so as to enable the angle adjustment of the overturning plate 108 to be more convenient, and the driving motor 707, the motor mounting block 708, the matching inner threaded plate 705, the matching sliding seat 702, the moving groove 704, the rail strip 703, the swinging rod 701 and the driving, The design of the rotary seat block 715, the semi-cylinder 711, the outside rotating block 713 and the rotating shaft body 712 enables the power of the driving motor 707 to be timely and efficiently transmitted to the driving meshing gear 714, so that the driving meshing gear 714 rotates, a connecting rod type structure is adopted, the structural stability is effectively improved, the structural strength is improved, the phenomenon that the meshing failure of the driving meshing gear 714 and the meshing gear 301 or the fracture of the connecting rod structure occurs when a person uses the equipment is prevented, the use safety of the equipment is improved, the hiding and the containing of the straight plate 501 are facilitated by the way that the straight plate 501 is in rotating fit connection with the rotating cylinder 503, the space of the equipment is saved, the method of rotating the rotating cylinder 503 is utilized, the external thread shaft 505 rotates to drive the internal thread block 504 and the limiting rod 507 to move, the turnover plate 108 is limited by the limiting rod 507, and the phenomenon that the meshing failure of the driving meshing gear 714 and the meshing gear 301 or the fracture of the connecting rod structure occurs when, the clamping fit of the roll-over plate 108 and a rock ravine is influenced, the distance of the limiting rod 507 can be adjusted to adjust the swing angle of the roll-over plate 108, the roll-over plate 108 and the matching hanging plate 303 can be more efficiently clamped with the rock ravine according to geological regions, the invalid state of the device is prevented, the movable vertical plate 602 has the function of elastic compression by utilizing the design of the compression spring 404, the movable vertical plate 602 can indirectly drive the rotating handle 106 to swing to realize the rapid ejection of the rotating handle 106, the end wall of the inner cavity 104 can effectively limit the rotating handle 106 to prevent the rotating handle 106 from exceeding the swing angle, the device is prevented from being invalid, the design of the sliding plate 620 and the rotating plate 605 is beneficial to the convenience of force application of the movable vertical plate 602 during folding, a certain distance is formed between the movable vertical plate 602 and the sliding plate 620 as well as between the rotating plate 605, and the movable vertical plate 602 is clamped and fixed by the matching gear 203 and the abutting cavity 410, the sliding plate 620 moves to the end wall of the sliding chute 201, so that the condition that the compression spring 404 is further compressed by the moving vertical plate 602 occurs, the compression spring 404 elastically clamps the moving vertical plate 602 on one side of the abutting cavity 410, and the structural design of the driving motor 204, the matching gear 203 and the cover plate 401 is utilized to enable the moving vertical plate 602 to be ejected out under the control of personnel by utilizing the elastic force of the compression spring 404, so that the structure has high efficiency, compared with the traditional mechanical structure, the mechanical structure has more failure situations, the practical stability of the equipment is improved as long as the structure of the driving motor 204 is not damaged and the failure hardly occurs, the structural design of the cover plate 401 has the advantages that the accommodating cavity 107 is closed, the equipment is prevented from being influenced by sundries in a folded state to normally work, the circular sliding shaft 601 is connected with the through hole 403 in a matched mode, so that the moving vertical plate 602 runs more stably, and the moving vertical plate 602 is arranged in the inner cavity 104 stably in a compression state of the compression spring 404.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although more threaded holes 101, a fixed cylinder 102, a mounting cylinder 103, an inner cavity 104, a receiving cavity 105, a rotating handle 106, a receiving cavity 107, a turnover plate 108, a sliding groove 201, a matching gear 203, a driving motor 204, a motor mounting cavity 205, a gear mounting cavity 206, a meshing gear 301, a rotating shaft 302, a matching hanging plate 303, a cover plate 401, a vertical plate 402, a through hole 403, a compression spring 404, a propping cavity 410, a straight plate 501, a clamping cavity 502, a rotating column 503, an internal thread block 504, an external thread shaft 505, a sliding cavity 506, a limiting rod 507, a circular sliding shaft 601, a moving vertical plate 602, a moving circular rod 603, a clamping sliding block 604, a rotating plate 605, a connecting rod 610, a rotating seat 611, a sliding plate 620, a swinging rod 701, a matching sliding seat 702, a track bar 703, a moving groove 704, a matching internal thread plate 705, a connecting fixed plate 706, a driving motor 707, a motor mounting block 708, a motor output shaft 709, semi-cylinders 711, rotation axles 712, outside rotation blocks 713, active meshing gear 714, rotating seat blocks 715, swing chucking device 950, pull folding device 951, mating connection device 952, etc., without excluding the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention and they are to be interpreted as any additional limitation which is not in accordance with the spirit of the present invention.