CN204134151U - A kind of Multifunctional upside down machine structure - Google Patents

Abstract

The utility model discloses a kind of Multifunctional upside down machine structure, this upside down machine comprises herringbone and backboard, support side is provided with location crossbeam, described location crossbeam and backboard frame form upside down machine handstand location structure by positioning element, this support opposite side and backboard frame one end are provided with locating sleeve group, each locating sleeve group comprises two sleeve pipes fixed respectively and inside support arm, described two locating sleeve groups coordinate with a pair stay pipe grafting, described support opposite side is fixed with support ring, thus utilize upside down machine multiple location supporting construction and realize multi-functional effect of upside down machine.The utility model increases many groups sleeve pipe that can coordinate with stay pipe grafting on support, realize multiple physical training style, between support and backboard frame, increase location structure more easily simultaneously, increase fine setting position-limit mechanism simultaneously, and then obtain can the mechanism of multistage adjustment backboard angle, thus this upside down machine is made to have the advantages such as multi-functional, location steadiness is high, applied widely.

Description

A kind of Multifunctional upside down machine structure

Technical field

The utility model relates to a kind of Multifunctional upside down machine structure, divides belong to body-building apparatus technical field by International Patent Classification (IPC) (IPC).

Background technology

Upside down machine is a kind of popular body-building apparatus, is a kind of body-building apparatus by using machinery to carry out auxiliary making human body stand on head.Handstand is commonly called as " handstanding ", and Han dynasty claims " planting ", and the Eastern Jin Dynasty claims " driving in the wrong direction ", and the Tang Dynasty claims " throwing down ", and the Ming Dynasty claims " handstand ", etc., it is also a final posture of current west Yoga art.Handstand body-building already in the world and in history by sporting world, Wushu circles, medical circle put into practice and prove.All very popular in the U.S., Japan, Britain, Sweden, Germany etc. at present.By standing upside down, allow the blood of human body is reverse flows to brain, every day, you only need use 5-10 minutes, were equivalent to supplementary sleep 2 hours.

At present, existing upside down machine can only realize the function of making human body stand on head, and the backboard angle adjustment mechanism in upside down machine comprises two kinds mostly: one increases by three gear adjusting structures on upside down machine support, and described three gear adjusting structures are comprise the regulating block with three locating holes, this regulating block is fixed on upside down machine support, described three locating hole longitudinal arrangements, and each locating hole is all fixed with suitable alignment pin grafting, and alignment pin coordinates the location realizing backboard angle just with backboard, such structure only has the adjustment of three gears and the stability of each location is not enough, cause locate failure, thus reduce the security in using, another kind is dragline type backboard location structure, its crossbeam at support and backboard support are all provided with the engaging lug of locating hole, and between two engaging lugs, utilize location stay cord to connect, thus realize the location of backboard, this structure medium pulling rope can only limit a position at every turn, need then to need repeatedly change or regulate pulling rope length when different angles, use extremely inconvenience, and safety in utilization is not high.

Thus, the present inventor considers to improve existing upside down machine structure, and this case produces thus.

Utility model content

For the deficiencies in the prior art, the utility model provides a kind of Multifunctional upside down machine structure, it increases many groups sleeve pipe that can coordinate with stay pipe grafting on support, realize multiple physical training style, between support and backboard frame, increase location structure more easily simultaneously, increase fine setting position-limit mechanism, and then obtain can the mechanism of multistage adjustment backboard angle simultaneously, thus make this upside down machine have the advantages such as multi-functional, location steadiness is high, applied widely.

For achieving the above object, the utility model is achieved through the following technical solutions:

A kind of Multifunctional upside down machine structure, this upside down machine comprises herringbone and backboard, wherein:

Backboard, it comprises backboard frame and backboard body, and backboard body is fixed on backboard frame, backboard frame and support assorted hinged, form rotary handstand mechanism;

Support, its side is provided with location crossbeam, described location crossbeam and backboard frame form upside down machine handstand location structure by positioning element, this support opposite side and backboard frame one end are provided with locating sleeve group, each locating sleeve group comprises two sleeve pipes fixed respectively and inside support arm, described two locating sleeve groups coordinate with a pair stay pipe grafting, and described support opposite side is fixed with support ring, thus utilize upside down machine multiple location supporting construction and realize multi-functional effect of upside down machine.

Further, described support ring, after backboard and location crossbeam are fixing, it is all the level of state with ground, and hypomere and corresponding support is in vertical state, thus effectively realizes arm support way up, deep-knee-bend and arm support and lift leg and transport three kinds of motion modes such as merit.

Further, described positioning element comprises backboard frame chucking lug and an alignment pin, described backboard frame chucking lug to be fixed on backboard frame and to coordinate with the locating hole of crossbeam correspondence position, wherein said backboard frame chucking lug lower arcuate surface to press on the crossbeam of location and backboard frame chucking lug with locate locating hole on crossbeam and coordinate and form placed channel, aforementioned alignment pin is through placed channel, and the location formed between backboard and support is fixed.

Further, described backboard frame chucking lug side offers the through hole of accommodating alignment pin.

Further, cushion pad is provided with between described backboard frame chucking lug lower arcuate surface and location crossbeam.

Further, described cushion pad for having flexible cushion, as rubber blanket etc.

Further, this upside down machine also comprises fine setting position-limit mechanism, and described fine tuning structure to be positioned on support and to coordinate with backboard frame the angular adjustment realizing backboard opposite brackets.

Further, described fine setting position-limit mechanism comprises multistage adjusting knob, movable block and jointed shaft, described jointed shaft is that support is connected axis body with backboard frame and realizes the hinged of support and backboard frame, described movable block is positioned at upside down machine support, and multistage adjusting knob is connected with movable block through rack side wall and realizes linking, thus formed by the location structure of multistage adjusting knob lateral adjustments movable block position in support, described movable block one end has to protrude supports block, and the arc locating surface that this protrusion supports on block and jointed shaft is connected, thus form the fine tuning structure of location tergal position.

Further, described fine setting position-limit mechanism is for regulating the adjustment of scope between 0 ° ~ 140 °.

Further, described multistage adjusting knob comprises with the spiral cover of positioning component, rotating shaft and positioning seat; Described spiral cover is connected linkage with rotating shaft, and rotating shaft is connected with aforementioned movable block, this spiral cover is buckled on positioning seat, described positioning component is embedded in locating hole corresponding to spiral cover, described positioning seat offers multiple locating slot suitable with positioning component, aforementioned positioning component coordinates with locating slot locates, thus forms multistage adjustment structure.

Further, described rotating shaft is the thread spindle of the section of being threaded, and this rotating shaft is passed movable block and coordinated with the thread segment of movable block through-hole wall, forms the linkage structure be threaded.

Further, described positioning component comprises spring and positioning bead, and described positioning bead is butted on spring and forms location structure.

Further, described jointed shaft is the connecting axle for connection bracket and backboard, and this jointed shaft is stepped, its convex section has a helicoid, and this helicoid and the protrusion on movable block support block and compress mutually, form the location structure after regulating.

Compared with prior art, advantage of the present utility model:

1, the utility model is on the basis of guaranteeing the function of upside down machine own, locating sleeve group is increased below support and on backboard frame, described two sleeve pipe groups and same a pair stay pipe grafting, and then extend on the basis of upside down machine, chin-up is (when backboard frame is fixed with location crossbeam, and stay pipe coordinates with locating sleeve group grafting on backboard frame), push-up (when backboard frame is fixed with location crossbeam, and stay pipe coordinates with locating sleeve group grafting below support);

2, support described in the utility model is provided with support ring, this support ring is after backboard and location crossbeam are fixing, its upper-lower section is all the level of state with ground, thus again extends arm support way up, deep-knee-bend and arm support and lift three kinds of motion modes such as leg fortune merit etc.;

3, the utility model also add the convenient fixed structure realized between backboard frame and location crossbeam, and it effectively realizes convenient fixing and firm high effect, thus guarantees user's security in use;

4, the utility model utilizes multistage adjusting knob to regulate the position of movable block, and movable block and jointed shaft compress formation location structure mutually, thus the multistage location realizing upside down machine backboard regulates, and then it is more convenient to make upside down machine use, position stability is good simultaneously, thus improves the security in using;

In sum, the basis at upside down machine itself with handstand function increases other five kinds of motions, and then obtain the upside down machines of six kinds of motions, and it has the effects such as safe to use, multistage adjustment.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation;

Fig. 2 is Fig. 1 side view;

Fig. 3 is A place enlarged drawing in Fig. 2;

Fig. 4 is the frame of backboard described in the utility model and location beam engagement fixed structure schematic diagram;

Fig. 5 finely tunes position-limit mechanism structural representation described in the utility model;

Fig. 6 is the structural representation of jointed shaft described in the utility model;

Fig. 7 finely tunes position-limit mechanism to be installed on structural representation on upside down machine described in the utility model;

Fig. 8 is multistage adjusting knob structural representation described in the utility model;

Fig. 9 is that user uses the utility model for the design sketch of the shape body that stands upside down;

Figure 10 is that user uses the utility model for the design sketch (now backboard frame is fixedly connected with location crossbeam) of chin-up;

Figure 11 is that user uses the utility model for the design sketch (now backboard frame is fixedly connected with location crossbeam) of arm support way up;

Figure 12 is that user uses the utility model for the design sketch (now backboard frame is fixedly connected with location crossbeam) of deep-knee-bend;

Figure 13 is that user uses the utility model to lift leg fortune merit (design sketch now backboard frame is fixedly connected with location crossbeam) for arm support;

Figure 14 is that user uses the utility model for the design sketch of push-up campaign.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Embodiment: refer to shown in Fig. 1 to Fig. 4, a kind of Multifunctional upside down machine structure, this upside down machine B comprises herringbone 1 and backboard 2; Described backboard 2 comprises backboard frame 21 and backboard body 22, and backboard body 22 is fixed on backboard frame 21, backboard frame 21 and support 1 coordination hinge, form rotary handstand mechanism, described backboard frame 22 and support 1 coordination hinge, and this upside down machine is also provided with fine setting position-limit mechanism 3, this fine tuning structure 3 is positioned at 0 ° ~ 140 ° angular adjustment coordinating on support 1 and with backboard frame 22 and realize backboard opposite brackets.

Refer to shown in Fig. 1 to Fig. 4, aforementioned brackets 1 side is provided with location crossbeam 11, described location crossbeam 11 and backboard frame 22 form upside down machine handstand location structure by positioning element 4, this support 1 opposite side and backboard frame 22 one end are provided with locating sleeve group 5, each locating sleeve group 2 comprises two sleeve pipes fixed respectively and inside support arm, described two locating sleeve groups 5 coordinate with the grafting of a pair stay pipe 6, described support 1 opposite side is fixed with support ring 7, thus utilizes upside down machine multiple location supporting construction and realize multi-functional effect of upside down machine.The utility model is on the basis of guaranteeing the function (see figure 9) of upside down machine B own, locating sleeve group 5 is increased below support 1 and on backboard frame 22, described two sleeve pipe groups 5 and same a pair stay pipe 6 grafting, and then extend on the basis of upside down machine, chin-up (see figure 10) is (when backboard frame is fixed with location crossbeam, and stay pipe coordinates with locating sleeve group grafting on backboard frame), push-up (see Figure 14) (when backboard frame is fixed with location crossbeam, and stay pipe coordinates with locating sleeve group grafting below support).Support described in the utility model is provided with support ring 7, this support ring 7 is after backboard and location crossbeam 11 are fixing, its upper-lower section is all the level of state with ground, thus again extends arm support way up (see Figure 11), deep-knee-bend (see Figure 12) and arm support and lift leg (see Figure 13) and transport three kinds of motion modes such as merit.

Refer to shown in Fig. 1 to Fig. 4, aforementioned positioning element 4 comprises backboard frame chucking lug 41 and an alignment pin 42, described backboard frame chucking lug 41 to be fixed on backboard frame 22 and to coordinate with the locating hole 13 of crossbeam 11 correspondence position, wherein said backboard frame chucking lug 41 lower arcuate surface to press on the crossbeam 11 of location and backboard frame chucking lug 41 with locate locating hole 43 on crossbeam 22 and coordinate and form placed channel, aforementioned alignment pin 42 is through placed channel, and the location formed between backboard 2 and support 1 is fixed.Described backboard frame chucking lug 41 side offers the through hole 00 of accommodating alignment pin.Described backboard frame chucking lug lower arcuate surface and location crossbeam between be provided with cushion pad 8, described cushion pad 8 for having flexible cushion, as rubber blanket etc.

Refer to shown in Fig. 1 to Fig. 8, aforementioned fine setting position-limit mechanism 3 comprises multistage adjusting knob 31, movable block 32 and jointed shaft 33, described jointed shaft 32 is connected axis body for support 1 with backboard frame 22 and realizes the hinged of support 1 and backboard frame 22, described movable block 32 is positioned at upside down machine support 1, and multistage adjusting knob 31 is connected with movable block 32 through support 1 sidewall and realizes linking, thus formed by the location structure of multistage adjusting knob 31 lateral adjustments movable block 32 position in support 1, described movable block 32 one end has to protrude supports block 321, and the arc locating surface that this protrusion supports on block 321 and jointed shaft 33 is connected, thus form the fine tuning structure of location tergal position.

Refer to shown in Fig. 1 to Fig. 8, aforementioned multistage adjusting knob 31 comprises with the spiral cover 311 of positioning component 314, rotating shaft 312 and positioning seat 313; Described spiral cover 311 is connected linkage with rotating shaft 312, and rotating shaft 312 is connected with aforementioned movable block 32, this spiral cover 311 is buckled on positioning seat 313, described positioning component 314 is embedded in the locating hole of spiral cover 311 correspondence, described positioning seat 313 offers multiple locating slot 300 suitable with positioning component 314, aforementioned positioning component 314 coordinates with locating slot 300 locates, thus forms multistage adjustment structure.

Refer to shown in Fig. 1 to Fig. 8, the thread spindle that aforementioned rotation axis 312 is the section of being threaded, and this rotating shaft 312 is passed movable block 32 and coordinate with the thread segment of movable block 32 through-hole wall, forms the linkage structure be threaded.

Refer to shown in Fig. 1 to Fig. 8, aforementioned positioning component 314 comprises spring 3141 and positioning bead 3142, and described positioning bead 3142 is butted on spring 3141 and forms location structure.

Refer to shown in Fig. 1 to Fig. 8, aforementioned hinge axle 33 is that this jointed shaft is stepped, its convex section has a helicoid for the connecting axle of connection bracket 1 with backboard 2, and this helicoid and the protrusion on movable block support block and compress mutually, form the location structure after regulating.

Above, be only the embodiment utilizing this origination techniques content, the modification that any those skilled in the art use this creation to do, change, all belong to the scope of the claims that this creation is advocated, and be not limited to those disclosed embodiments.

Claims (9)

1. a Multifunctional upside down machine structure, is characterized in that: this upside down machine comprises herringbone and backboard, wherein:

Backboard, it comprises backboard frame and backboard body, and backboard body is fixed on backboard frame, backboard frame and support assorted hinged, form rotary handstand mechanism;

Support, its side is provided with location crossbeam, described location crossbeam and backboard frame form upside down machine handstand location structure by positioning element, this support opposite side and backboard frame one end are provided with locating sleeve group, each locating sleeve group comprises two sleeve pipes fixed respectively and inside support arm, described two locating sleeve groups coordinate with a pair stay pipe grafting, and described support opposite side is fixed with support ring, thus utilize upside down machine multiple location supporting construction and realize multi-functional effect of upside down machine.

2. a kind of Multifunctional upside down machine structure according to claim 1, it is characterized in that: described positioning element comprises backboard frame chucking lug and an alignment pin, described backboard frame chucking lug to be fixed on backboard frame and to coordinate with the locating hole of crossbeam correspondence position, wherein said backboard frame chucking lug lower arcuate surface to press on the crossbeam of location and backboard frame chucking lug with locate locating hole on crossbeam and coordinate and form placed channel, aforementioned alignment pin is through placed channel, and the location formed between backboard and support is fixed.

3. a kind of Multifunctional upside down machine structure according to claim 2, is characterized in that: described backboard frame chucking lug side offers the through hole of accommodating alignment pin.

4. a kind of Multifunctional upside down machine structure according to claim 2, is characterized in that: be provided with cushion pad between described backboard frame chucking lug lower arcuate surface and location crossbeam.

5. a kind of Multifunctional upside down machine structure according to claim 1, is characterized in that: this upside down machine also comprises fine setting position-limit mechanism, and described fine tuning structure to be positioned on support and to coordinate with backboard frame the angular adjustment realizing backboard opposite brackets.

6. a kind of Multifunctional upside down machine structure according to claim 5, it is characterized in that: described fine setting position-limit mechanism comprises multistage adjusting knob, movable block and jointed shaft, described jointed shaft is that support is connected axis body with backboard frame and realizes the hinged of support and backboard frame, described movable block is positioned at upside down machine support, and multistage adjusting knob is connected with movable block through rack side wall and realizes linking, thus formed by the location structure of multistage adjusting knob lateral adjustments movable block position in support, described movable block one end has to protrude supports block, and the arc locating surface that this protrusion supports on block and jointed shaft is connected, thus form the fine tuning structure of location tergal position.

7. a kind of Multifunctional upside down machine structure according to claim 6, is characterized in that: described multistage adjusting knob comprises with the spiral cover of positioning component, rotating shaft and positioning seat; Described spiral cover is connected linkage with rotating shaft, and rotating shaft is connected with aforementioned movable block, this spiral cover is buckled on positioning seat, described positioning component is embedded in locating hole corresponding to spiral cover, described positioning seat offers multiple locating slot suitable with positioning component, aforementioned positioning component coordinates with locating slot locates, thus forms multistage adjustment structure.

8. a kind of Multifunctional upside down machine structure according to claim 7, it is characterized in that: described positioning component comprises spring and positioning bead, described positioning bead is butted on spring and forms location structure.

9. a kind of Multifunctional upside down machine structure according to claim 6, it is characterized in that: described jointed shaft is the connecting axle for connection bracket and backboard, this jointed shaft is stepped, its convex section has a helicoid, this helicoid and the protrusion on movable block support block and compress mutually, form the location structure after regulating.