CN204213563U - The remote controller of belt supporting frame - Google Patents

Abstract

A kind of remote controller of belt supporting frame, described support is connected in the housing of remote controller, described support comprises gripper frame and inserted link, described gripper frame is for clamping remote controller, described inserted link is dismountable to be inserted in housing, described gripper frame and inserted link are rotatably connected, the quick release when not needing to use support, easy to use.

Description

The remote controller of belt supporting frame

Technical field

The utility model relates to a kind of remote controller of Wireless Communication Design, particularly relates to a kind of remote controller of belt supporting frame.

Background technique

In the field of taking photo by plane, usually can need to use some electronic display units as mobile phone, flat board etc., these equipment need fixing on a remote control to facilitate user while remote controller in advance usually, can see the image frame of shooting of taking photo by plane.

When taking photo by plane in prior art, these electronic display units and remote controller generally adopt and are fixedly connected with, cannot quick-detachment, cause very large use inconvenience.

Model utility content

In view of this, the remote controller that a kind of quick release, belt supporting frame easy to use are provided is necessary.

A remote controller for belt supporting frame, described support is connected in the housing of remote controller, and described support comprises gripper frame and inserted link, and described gripper frame is for clamping remote controller, and described inserted link is dismountable to be inserted in housing, and described gripper frame and inserted link are rotatably connected.

A kind of remote controller of belt supporting frame, described support is connected in the housing of remote controller, and described support comprises gripper frame and inserted link, and described gripper frame is for clamping remote controller, described gripper frame and inserted link are rotatably connected, and described inserted link is dismountable to be inserted in the remote controller receptacle of housing.

The remote controller of the belt supporting frame that the utility model mode of execution provides is inserted in housing because the inserted link of support is dismountable, therefore to its fixed in position, can take fast when needs are used when not needing to use support.

Further, in one embodiment, a snap ring is arranged in housing, and when described inserted link is inserted in housing, described inserted link is located in described snap ring, and described snap ring makes described inserted link snap in described snap ring by elastic strain.

In one embodiment, described snap ring is 3/1sts annulus, and the end of described inserted link is provided with a spherical pin, and the internal diameter of described snap ring is less than the external diameter of described pin, and described pin makes snap ring elastic strain through described snap ring thus sticks in described snap ring.

In one embodiment, the end of the corresponding described inserted link of an adsorbent is arranged in the housing, and described inserted link can be attracted towards the direction near adsorbent by adsorbent.

In one embodiment, described adsorbent is magnet, and described inserted link is magnetic, and described adsorbent is arranged at the below of snap ring, and when described inserted link is inserted in housing, described adsorbent attracts described inserted link to aim at described snap ring.

In one embodiment, described inserted link and housing one of them at least one rib is set, another arranges the guiding groove corresponding with rib, and described at least one rib and guiding groove are all arranged along the bearing of trend of described inserted link, and described guiding groove inserts in the process of housing at inserted link and plays leading role.

In one embodiment, described rib is two, described two ribs are arranged on the external diameter of inserted link and the bearing of trend along described inserted link is arranged, described guiding groove is two, described two guiding grooves are arranged in the housing, the corresponding rib of each guiding groove, described guiding groove inserts in the process of housing at inserted link and plays leading role.

In one embodiment, the coupling shaft that described gripper frame comprises the first bare terminal end, the second bare terminal end docked with the first bare terminal end and protrudes out away from the first bare terminal end direction from the second bare terminal end court, described coupling shaft is rotationally connected with the top of described inserted link, and the width between described first bare terminal end and the second bare terminal end is whole according to the size adjustable of clamped remote controller.

In one embodiment, the first shoulder hole is formed in described first bare terminal end, the second shoulder hole is formed in described second bare terminal end, a slide bar is worn in described first shoulder hole and described second shoulder hole, one end of described slide bar is fixed in the first shoulder hole, and the other end of described slide bar slides and is contained in the second shoulder hole.

In one embodiment, the outer sheathed spring of described slide bar, the sheathed lock shaft nut of the end being contained in one end of the second shoulder hole of described slide bar, described spring one end flexibly supports the shoulder at described second shoulder hole, and the other end flexibly supports on described lock shaft nut.

In one embodiment, described coupling shaft is positioned at the bottom of described gripper frame, and the top of described connection the tip of the axis and described inserted link is rotationally connected, and it is arbitrarily angled that the angle between described coupling shaft and inserted link can be fixed on.

In one embodiment, described connection the tip of the axis forms two relative sides, described coupling shaft offers an attachment hole, described attachment hole runs through bi-side, the top of described inserted link offers a breach, the both sides of described breach are two inner side surfaces of described inserted link, described inserted link is offered a perforation, described perforation runs through two inner side surfaces of described inserted link, a connection piece is located in the perforation of inserted link and the attachment hole of coupling shaft, connection the tip of the axis is made to be contained in the breach of inserted link, the bi-side of coupling shaft and two inner side surfaces of inserted link are fitted between two respectively, it is arbitrarily angled that fastening described link makes coupling shaft and inserted link be fixed on.

In one embodiment, two guiding grooves, a snap ring and an adsorbent are arranged in described remote controller receptacle, described remote controller receptacle is the hole of a lengthwise, described two guiding grooves are arranged in remote controller receptacle from the bearing of trend of remote controller receptacle, described snap ring radial direction is arranged on the inner circumferential of remote controller receptacle, and described adsorbent is arranged on the bottom of described remote controller receptacle.

In one embodiment, described snap ring is 3/4ths annulus, described inserted link end arranges a spherical pin, the internal diameter of described snap ring is less than the external diameter of described pin, described inserted link is formed two ribs, described two ribs are corresponding with described two guiding grooves to be arranged, and described inserted link and described adsorbent attract each other.

In one embodiment, during described support-folding, the gripper frame of described support is mutually vertical with inserted link, and the height of described support is greater than the height stretched out of described rocking bar.

Accompanying drawing explanation

Fig. 1 is the assembling schematic diagram of the remote controller of a kind of belt supporting frame that the utility model mode of execution provides.

Fig. 2 is support in the remote controller that provides of the utility model mode of execution along the sectional view of side first support arm and the second support arm.

Fig. 3 is the schematic diagram of the support elongated condition of Fig. 2.

Fig. 4 is the sectional view of remote controller along the V-V place of the part of installing support of Fig. 1.

Fig. 5 is the schematic diagram of support-folding another angle in the housing in Fig. 1.

Primary component symbol description

Remote controller	1
		Support	100
Housing	200
		Rocking bar	300
Gripper frame	10
		First bare terminal end	11
First support arm	111
		First cross bar	112
First shoulder hole	113
		Macropore	1131
Aperture	1132
		Projection	114
Second bare terminal end	12
		Second support arm	121
Second cross bar	122
		Second shoulder hole	123
First hole	1231
		Second hole	1232
3rd hole	1233
		Slide bar	124
Spring	125
		Lock shaft nut	126
Coupling shaft	13
		Side	131
Attachment hole	132
		Inserted link	20
Breach	21
		Inner side surface	22
Perforation	23
		Link	24
Screw rod	241
		Nut	242
Rib	26
		Pin	27
Remote controller receptacle	30
		Guiding groove	31
Snap ring	32
		Adsorbent	33

Following embodiment will further illustrate the utility model in conjunction with above-mentioned accompanying drawing.

Embodiment

Refer to Fig. 1 and Fig. 2, Fig. 1 is the remote controller 1 of the utility model mode of execution, comprises support 100, remote controller housing 200 and rocking bar 300.Described support 100 is installed in housing 200.Described support 100 can be used for the electronic display unit such as supporting mobile phone, flat board.In the present embodiment, described housing 200 is the housing of the remote controller in model plane equipment.

Described support 100 comprises gripper frame 10 and inserted link 20, and gripper frame 10 is for clamping various electronic display unit (not shown), and inserted link 20 is inserted in be fixed on housing 200 by support 100 in housing 200, and gripper frame 10 and inserted link 20 are rotatably connected.

Please simultaneously see Fig. 2 and Fig. 3, described gripper frame 10 comprises the first bare terminal end 11, the second bare terminal end 12 docked with the first bare terminal end 11 and from the second bare terminal end 12 towards the coupling shaft 13 protruded out away from the first bare terminal end 11 direction.First bare terminal end 11 and the second bare terminal end 12 support one end of remote controller respectively when clamping remote controller, both dock formation one "] " type, in another angle, both are butted into a rectangular box.In the present embodiment, the inner side of gripper frame 10 covers one deck padded coaming, with the outer surface preventing remote controller from scratching remote controller when being folded in support 100.

Width between first bare terminal end 11 and the second bare terminal end 12 is whole according to the size adjustable of clamped remote controller.When the first bare terminal end 11 and the second bare terminal end 12 dock mutually, width is between the two D.First bare terminal end 11 can stretch along the direction away from the second bare terminal end 12, to increase distance between the two.

Please refer to Fig. 3 and Fig. 4, first bare terminal end 11 comprises two spaced the first support arms 111 and one first cross bar 112 being connected two first support arms 111, second bare terminal end 12 comprises two spaced the second support arms 121 and one second cross bar 122, first support arm 111 and the second support arm 121 and mutually docks between two.For a pair, the first support arm 111 of docking and the structure of the second support arm 121 are described mutually below.Offer along its bearing of trend the diameter that the diameter of the first shoulder hole 113, first shoulder hole 113 near the hole of the interface of the first support arm 111 be greater than another hole in first support arm 111, both are respectively macropore 1131 and aperture 1132.The interface place of the first support arm 111 outwards protrudes out formation one projection 114.The second shoulder hole 123 is offered along its bearing of trend in second support arm 121, second shoulder hole 123 has the different hole of three diameters, projection 114 from prone first hole 1231 of docking for accommodating first support arm 111, prevent both from interface place, gliding dislocations occurring when being docked on the second support arm 121 to make the first support arm 111, this first hole 1231 has maximum diameter, minimum hole depth; Second hole 1232 has minimum diameter, and hole depth is slightly larger than the first hole 1231; The hole depth in the 3rd hole 1233 is maximum, and its diameter is slightly larger than the second hole 1232.

One slide bar 124 is located in the first shoulder hole 113 and the second shoulder hole 123.One end of this slide bar 124 forms interference fit with the aperture 1132 of the first shoulder hole 113 of the first support arm 111 or is threaded, to be fixedly connected with the first support arm 111.The other end of slide bar 124 is contained in the second shoulder hole 123 of the second support arm 121 slidably, and the outer sheathed spring 125 of slide bar 124, slide bar 124 is contained in the sheathed lock shaft nut 126 of end of the second shoulder hole 123, and spring 125 supports the shoulder between second hole 1232 and the 3rd hole 1233 of lock shaft nut 126 and the second shoulder hole 123.

Under general state, spring 125 flexibly supports between lock shaft nut 126 and the second support arm 121, make the slide bar 124 be fixedly connected on the first support arm 111 have a pulling force near the second support arm 121, thus make the closed butt joint of both the first support arm 111 and the second support arm 121;

When loaded remote controller has larger size, when needing the distance of increase first support arm 111 and the second support arm 121, the first support arm 111 is pulled towards the direction away from the second support arm 121, there is further elastic strain under tension in spring 125, when remote controller is loaded gripper frame 10, the elastic force that spring 125 produces converts chucking power to, thus is tightly clamped in gripper frame 10 by remote controller.

Described coupling shaft 13 is positioned at the bottom of gripper frame 10, and the end of this coupling shaft 13 forms two relative sides 131, and coupling shaft 13 offers an attachment hole 132, attachment hole 132 runs through bi-side 131.

The roughly cylindrical body of rod of described inserted link 20, its upper end offers the end of a breach 21 for accommodating coupling shaft 13.These breach 21 both sides are for being respectively an inner side surface 22.Inserted link 20 offers a perforation 23, this perforation 23 runs through two inner side surfaces 22.The end of coupling shaft 13 is contained in the breach 21 of inserted link 20, fits with two inner side surfaces 22 of inserted link 20 respectively in the bi-side of coupling shaft 13.A connection piece 24 comprises screw rod 241 and nut 242, is located in the perforation 23 of inserted link 20 by screw rod 241, and is located in the attachment hole 132 of coupling shaft 13 simultaneously, nut 242 is screwed in one end of screw rod 241.When tightening nut 242, the inner side surface 22 of breach 21 both sides of inserted link 20 can be made to fit tightly with the bi-side 131 of coupling shaft 13, and the frictional force between face and face increases, thus stops the rotation of coupling shaft 13 and inserted link 20, both to be fixed.When unclamping nut 242, coupling shaft 13 and inserted link 20 can be made relative to attachment hole 132, bore a hole and 23 to rotate.Certainly, in other embodiments, described link 24 can provide a pretightening force, make coupling shaft 13 and inserted link 20 fastening, when without any External Force Acting, the self gravitation of gripper frame 10 cannot overcome the pretightening force that link 24 applies on coupling shaft 13 and inserted link 20 and the frictional force produced, thus in its natural state, can not anyly rotate between coupling shaft 13 and inserted link 20; And when the external world is applied to the external force of gripper frame 10 1 deflection, then can overcome the frictional force between coupling shaft 13 and inserted link 20, make gripper frame 10 turn to arbitrarily angled relative to inserted link 20, and do not need to adopt special instrument to complete the deflection of this support 100.

The diameter of the cylinder at the middle part of described inserted link 20 is less than the diameter of upper end cylinder.In the middle part of inserted link 20, the periphery of cylinder forms two relative ribs 26.The tapered tapered shape in lower end of inserted link 20, its top is formed with a pin 27, and this pin 27 is roughly spherical in shape.

Please again consult Fig. 1 and Fig. 4, described housing 200 offers a remote controller receptacle 30 plugged for support 100, this remote controller receptacle 30 is roughly the poroid of a lengthwise, plugs for inserted link 20.Two guiding groove 31, snap ring 32 and adsorbents 33 are provided with in remote controller receptacle 30.The structure that the adsorbable certain material of adsorbent 33 is made, in the present embodiment, adsorbent 33 is a magnet, and inserted link 20 is a magnetic inserted link.Adsorbent 33 is arranged on the bottom of remote controller receptacle 30, the below of snap ring 32, and when inserted link 20 inserts remote controller receptacle 30, adsorbent 33 can attract inserted link 20 rapid alignment snap ring 32, and close downwards.Two guiding groove 31 symmetries be arranged in remote controller receptacle 30, each guiding groove 31 is for the rib 26 on the inserted link 20 of accommodating gripper frame 10, and guiding groove 31 inserts in the process of remote controller receptacle 30 at inserted link 20 and plays leading role.Snap ring 32 is arranged at the position of the close bottom of remote controller receptacle 30, and this snap ring 32 is roughly one 3/4 circles, and its internal diameter is slightly less than the external diameter of the pin 27 of inserted link 20.When inserted link 20 inserts remote controller receptacle 30, the pin 27 of inserted link 20 supports snap ring 32 downwards, makes snap ring 32 that elastic strain occur, thus increasing the internal diameter of snap ring 32, pin 27 is passed through, and then snap ring 32 recovers deformation, thus pin 27 is snapped in snap ring 32, prevent inserted link 20 from skidding off easily.When support 100 laid down by needs, only need upwards pull inserted link 20, the pin 27 of inserted link 20 be extracted from snap ring 32, can easily inserted link 20 be dismantled from the remote controller receptacle 30 of housing 200, in this process, snap ring 32 can experience an elastic strain equally and recover deformation.

The guiding groove 31 installed in described housing 200, snap ring 32 and adsorbent 33 can be detachably connected in housing 200 by auxiliary stand 100 smoothly.When support 100 used by needs, unscrew link 24, make the gripper frame 10 of support 100 turn to the position of needs relative to inserted link 20, then tighten link 24, thus make gripper frame 10 and inserted link 20 be fixed on predetermined angle; When not needing to use support 100, the gripper frame 10 of support 100 being rotated to and fits with housing 200, thus support 100 is folded up.Now, gripper frame 10 is mutually vertical with inserted link 20, and the height of support 100 is greater than stretching out highly of rocking bar 300, thus can protect rocking bar 300 not by other object collisions.

Be understandable that, for the person of ordinary skill of the art, other various corresponding change and distortion can be made according to technical conceive of the present utility model, and all these change the protection domain that all should belong to the utility model claim with distortion.

Claims (16)

1. the remote controller of a belt supporting frame, described support is connected in the housing of remote controller, it is characterized in that: described support comprises gripper frame and inserted link, and described gripper frame is for clamping remote controller, described inserted link is dismountable to be inserted in housing, and described gripper frame and inserted link are rotatably connected.

2. the remote controller of belt supporting frame as claimed in claim 1, it is characterized in that: a snap ring is arranged in housing, when described inserted link is inserted in housing, described inserted link is located in described snap ring, and described snap ring makes described inserted link snap in described snap ring by elastic strain.

3. the remote controller of belt supporting frame as claimed in claim 2, it is characterized in that: described snap ring is 3/1sts annulus, the end of described inserted link is provided with a spherical pin, the internal diameter of described snap ring is less than the external diameter of described pin, and described pin makes snap ring elastic strain through described snap ring thus sticks in described snap ring.

4. the remote controller of belt supporting frame as claimed in claim 2, is characterized in that: the end of the corresponding described inserted link of an adsorbent is arranged in the housing, and described inserted link can be attracted towards the direction near adsorbent by adsorbent.

5. the remote controller of belt supporting frame as claimed in claim 4, it is characterized in that: described adsorbent is magnet, described inserted link is magnetic, and described adsorbent is arranged at the below of snap ring, when described inserted link is inserted in housing, described adsorbent attracts described inserted link to aim at described snap ring.

6. the remote controller of belt supporting frame as claimed in claim 2, it is characterized in that: described inserted link and housing one of them at least one rib is set, another arranges the guiding groove corresponding with rib, described at least one rib and guiding groove are all arranged along the bearing of trend of described inserted link, and described guiding groove inserts in the process of housing at inserted link and plays leading role.

7. the remote controller of belt supporting frame as claimed in claim 6, it is characterized in that: described rib is two, described two ribs are arranged on the external diameter of inserted link and the bearing of trend along described inserted link is arranged, described guiding groove is two, described two guiding grooves are arranged in the housing, the corresponding rib of each guiding groove, described guiding groove inserts in the process of housing at inserted link and plays leading role.

8. the remote controller of belt supporting frame as claimed in claim 1, it is characterized in that: the coupling shaft that described gripper frame comprises the first bare terminal end, the second bare terminal end docked with the first bare terminal end and protrudes out away from the first bare terminal end direction from the second bare terminal end court, described coupling shaft is rotationally connected with the top of described inserted link, and the width between described first bare terminal end and the second bare terminal end is whole according to the size adjustable of clamped remote controller.

9. the remote controller of belt supporting frame as claimed in claim 8, it is characterized in that: in described first bare terminal end, form the first shoulder hole, the second shoulder hole is formed in described second bare terminal end, a slide bar is worn in described first shoulder hole and described second shoulder hole, one end of described slide bar is fixed in the first shoulder hole, and the other end of described slide bar slides and is contained in the second shoulder hole.

10. the remote controller of belt supporting frame as claimed in claim 9, it is characterized in that: the outer sheathed spring of described slide bar, the sheathed lock shaft nut of the end being contained in one end of the second shoulder hole of described slide bar, described spring one end flexibly supports the shoulder at described second shoulder hole, and the other end flexibly supports on described lock shaft nut.

The remote controller of 11. belt supporting frames as claimed in claim 8, it is characterized in that: described coupling shaft is positioned at the bottom of described gripper frame, the top of described connection the tip of the axis and described inserted link is rotationally connected, and it is arbitrarily angled that the angle between described coupling shaft and inserted link can be fixed on.

The remote controller of 12. belt supporting frames as claimed in claim 11, it is characterized in that: described connection the tip of the axis forms two relative sides, described coupling shaft offers an attachment hole, described attachment hole runs through bi-side, the top of described inserted link offers a breach, the both sides of described breach are two inner side surfaces of described inserted link, described inserted link is offered a perforation, described perforation runs through two inner side surfaces of described inserted link, a connection piece is located in the perforation of inserted link and the attachment hole of coupling shaft, connection the tip of the axis is made to be contained in the breach of inserted link, the bi-side of coupling shaft and two inner side surfaces of inserted link are fitted between two respectively, it is arbitrarily angled that fastening described link makes coupling shaft and inserted link be fixed on.

The remote controller of 13. 1 kinds of belt supporting frames, described support is connected in the housing of remote controller, it is characterized in that: described support comprises gripper frame and inserted link, described gripper frame is for clamping remote controller, described gripper frame and inserted link are rotatably connected, and described inserted link is dismountable to be inserted in the remote controller receptacle of housing.

The remote controller of 14. belt supporting frames as claimed in claim 13, it is characterized in that: two guiding grooves, a snap ring and an adsorbent are arranged in described remote controller receptacle, described remote controller receptacle is the hole of a lengthwise, described two guiding grooves are arranged in remote controller receptacle from the bearing of trend of remote controller receptacle, described snap ring radial direction is arranged on the inner circumferential of remote controller receptacle, and described adsorbent is arranged on the bottom of described remote controller receptacle.

The remote controller of 15. belt supporting frames as claimed in claim 14, it is characterized in that: described snap ring is 3/4ths annulus, described inserted link end arranges a spherical pin, the internal diameter of described snap ring is less than the external diameter of described pin, described inserted link is formed two ribs, described two ribs are corresponding with described two guiding grooves to be arranged, and described inserted link and described adsorbent attract each other.

The remote controller of 16. belt supporting frames as claimed in claim 15, it is characterized in that: also comprise rocking bar, during described support-folding, the gripper frame of described support is mutually vertical with inserted link, the height of described support is greater than the height stretched out of described rocking bar.