CN220471490U - Support structure and campsite lamp - Google Patents

Abstract

The utility model relates to the technical field of supporting frames, in particular to a supporting frame structure and a campsite lamp, wherein the supporting frame structure comprises: a sleeve; at least three legs hinged at one end of the sleeve; the mounting seat is slidably arranged in the sleeve, a lock catch key is slidably arranged at the end head of the mounting seat, and the lock catch key can be pressed and restored along the central line direction of the mounting seat; one end of the leg part, which is far away from the sleeve, is detachably clamped with the lock catch key; one of the leg parts or the lock catch keys is provided with an abutting body, the other one of the leg parts or the lock catch keys is provided with an inclined plane or an arc surface which is abutted against the abutting body, and the surface outside the inclined plane or the arc surface is gradually close to the center line along the pressing direction of the lock catch keys. Through set up the conflict body on the leg of the support structure, when pressing the hasp button, the lower rim extrusion conflict body of hasp button can make support structure leg prop open, and the easy conflict card of taking place of support structure is held the phenomenon when having avoided unblock buckling mechanisms.

Description

Support structure and campsite lamp

Technical Field

The utility model belongs to the technical field of supporting frames, and particularly relates to a supporting frame structure and a campsite lamp.

Background

Tripod is widely used in a variety of instruments and lighting devices. For portability, existing tripods mostly have the function of switching the legs between open and storage. Some tripods realize the functions through a sliding sleeve structure. When the telescopic support is opened, the support legs are fixed at a certain angle by using friction resistance, abrasion can be generated along with the increase of the using times, the friction resistance between the support legs and the sleeve is reduced, and when the telescopic support is contracted, shaking is easy to occur between the support legs and the sleeve.

Some tripods make and form the hasp connection between stabilizer blade and the sleeve through buckling mechanism, have solved the stabilizer blade and have accomodate the back problem of rocking. However, when the tripod is opened, the stand bar is often abutted against the buckling mechanism, so that the stand bar cannot be smoothly opened.

In view of the foregoing, a new technology is needed to solve the problem that the tripod legs are blocked by the fastening mechanism when being opened or stored.

Disclosure of Invention

The embodiment of the utility model provides a bracket structure, which aims to solve the problem that the supporting legs of a tripod are blocked due to collision with a buckling mechanism when being opened or stored in the prior art.

The embodiment of the utility model is realized as follows:

a stent structure comprising:

a sleeve;

at least three legs hinged at one end of the sleeve; and

The installation seat is slidably installed in the sleeve, a lock catch key is slidably installed at the end head of the installation seat, and the lock catch key can be pressed and restored along the central line direction of the installation seat;

one end of the leg part, which is far away from the sleeve, is detachably clamped with the lock catch key;

one of the leg parts or the lock catch keys is provided with an abutting body, the other one of the leg parts or the lock catch keys is provided with an inclined plane or an arc surface which is abutted against the abutting body, and the surface outside the inclined plane or the arc surface is gradually close to the center line along the pressing direction of the lock catch keys.

Optionally, the conflict body set up in shank terminal inboard, just the conflict body with hasp button contact point is equipped with first inclined plane or first cambered surface, hasp button with conflict body contact point is equipped with second inclined plane or second cambered surface.

Optionally, the abutting body is in a reinforced plate shape.

Optionally, a spring is arranged between the lock catch key and the mounting seat;

the end, away from the pressing end, of the lock catch key is provided with a sliding column, and the spring is sleeved on the sliding column;

a spring groove is formed in the mounting seat, a through hole is formed in the bottom of the spring groove, and the sliding column is slidably mounted in the through hole;

the limiting buckle for preventing the sliding column from sliding out of the through hole is arranged at the end part of the sliding column and is detachably abutted against the mounting seat.

Optionally, one of the inner side of the tail end of the leg and the outer side of the locking button is provided with a locking hook, and the other is provided with a locking slot which is locked with the locking hook.

Optionally, the fastening hook is disposed on the first inclined plane or the first cambered surface, and the fastening slot is disposed on the second inclined plane or the second cambered surface.

Optionally, each leg portion is rotatably provided with a hinge rod, and one end of the hinge rod away from the leg portion is hinged to the mounting seat.

Optionally, the leg portion includes a foot support mounted at the tail end of the leg portion, and the abutting body is disposed inside the foot support.

Optionally, the buckling hook is arranged at the inner side of the foot support.

Optionally, the campsite lamp includes:

a light emitting section;

a telescopic bracket rod fixed at one end of the light-emitting part; and

A scaffold structure as described above;

the support rod is connected with the mounting seat and can stretch and retract in the sleeve.

The beneficial effects achieved by the utility model are as follows:

through set up the conflict body on the leg of the support structure, when pressing the hasp button, the lower rim extrusion conflict body of hasp button can make support structure leg prop open, and the easy conflict card of taking place of support structure is held the phenomenon when having avoided unblock buckling mechanisms.

Drawings

FIG. 1 is a perspective view of an open state of a stand structure provided by the present utility model;

FIG. 2 is a partial cross-sectional view of a stowed condition of the support structure provided by the present utility model;

fig. 3 is a schematic view of a storage state of the bracket structure provided by the utility model;

FIG. 4 is a schematic illustration of a single leg structure provided by the present utility model;

FIG. 5 is an enlarged view of a portion of a single leg provided by the present utility model;

FIG. 6 is a schematic view of a fastening mechanism in a housing state of a rack structure according to the present utility model;

FIG. 7 is an exploded view of the fastening mechanism provided by the present utility model;

FIG. 8 is a schematic view of a mounting base according to the present utility model;

FIG. 9 is a schematic diagram of a latch button according to the present utility model;

FIG. 10 is a schematic view of the structure of the hinge rod provided by the present utility model;

FIG. 11 is a perspective view of the campsite lamp provided by the utility model in an on state;

fig. 12 is a perspective view of a camping lamp according to the present utility model.

Reference numerals:

100. a sleeve;

101. a first bevel/camber; 102. a second bevel/camber; 103. a free end; 104. a connection end;

110. a mounting base; 111. a through hole; 112. a spring groove;

120. locking a button; 121. a buckling clamping groove;

130. a spring; 140. a limit button; 150. a spool;

200. a leg portion;

210. a collision body;

220. a fastening hook is buckled; 230. a hinge rod; 240. foot support;

300. a light emitting section; 400. and a bracket rod.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. Examples of the embodiments are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements throughout or elements having like or similar functionality. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model. Furthermore, it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the present utility model.

According to the utility model, the supporting body is arranged on the leg of the tripod, and the surface for the lower edge of the lock button to press and slide is also arranged on the supporting body, so that the leg of the tripod can be propped open by pressing the supporting body by the lower edge of the lock button when the lock button is pressed, and the problem that the leg and the buckling mechanism are blocked when the tripod is opened or stored is solved.

Example 1

Referring to fig. 1 to 2, the present embodiment provides a stent structure comprising:

a sleeve 100;

at least three legs 200 hinged at one end of the sleeve 100; and

The installation seat 110 is slidably installed in the sleeve 100, a lock button 120 is slidably installed at the end of the installation seat 110, and the lock button 120 can be pressed and restored along the central line direction of the installation seat 110;

one end of the leg 200, which is far away from the sleeve 100, is detachably clamped with the locking button 120;

one of the leg 200 or the lock button 120 is provided with an abutting body 210, the other is provided with an inclined plane or an arc surface abutting against the abutting body 210, and the surface outside the inclined plane or the arc surface gradually approaches to the center line along the pressing direction of the lock button 120.

In this embodiment, we describe the implementation of three legs 200 with the most stability, the rack structure includes a storage state and an open state, wherein, in the storage state, the three legs 200 are locked by the lock buttons 120 and are in a mutually parallel posture, as shown in fig. 3; as shown in fig. 1, in the open state, the three legs 200 are unlocked from the latch keys 120, spread apart around the sleeve 100, and are angled with respect to the stored state.

Specifically, referring to fig. 4, three legs 200 may be evenly distributed around sleeve 100, and legs 200 may be connected to mount 110 by nesting. One end of the single leg 200 is a connecting end 104 and is hinged at the lower end of the sleeve 100, the other end is a free end 103, the leg 200 is connected with the buckling mechanism 100 through the connecting end 104 and can be contacted with a supporting surface through the free end 103, so that supporting force is generated, and the whole bracket structure is erected. In the stowed condition of the stand structure, the free ends 103 of the three legs 200 are adjacent one another; in the open state, the free ends 103 of the three legs 200 are far away from each other, and at this time, the connection line of the contact points of the three legs 200 and the supporting surface forms a triangle, so that the support structure can be kept stable when the whole is erected by utilizing the principle of stability of the triangle.

It will be readily appreciated that the support surface may be a generally planar surface such as a floor, table top, or the like.

In one embodiment, referring to fig. 1, the latch button 120 is mounted at the lower end of the mounting seat 110, and is elastically slidably connected with the mounting seat 110 in a sleeving manner, so that the latch button 120 and the mounting seat 110 can slide reciprocally relatively, and can be pressed for recovery, and a user can press the latch button 120. In the storage state, pressing the latch button 120 can unlock the three legs 200 and the latch button 120. The lock button 120 is used for controlling the unlocking of the leg 200 and the lock button 120, the lock button 120 may be in a shape of a cylinder with one end closed and the other end hollow, the closed end of the lock button 120 is used for pressing, the hollow end of the lock button 120 is used for guiding sliding connection with the mounting seat 110, and the tail end of the sliding column 150 and the mounting seat 110 can be limited by the limiting buckle 140.

In another embodiment, the three legs 200 and the locking button 120 are specifically connected by a clamping connection, so that in the storage state, the three legs 200 are locked by the locking button 120, so that the legs 200 cannot shake or fall off.

One of the leg 200 or the latch button 120 is provided with an abutting body 210, the other is provided with an inclined plane or an arc surface abutting against the abutting body 210, and the surface outside the inclined plane or the arc surface gradually approaches to the center line of the mounting seat 110 along the pressing direction of the latch button 120. It should be noted that, the abutting body 210 may be disposed on the leg 200 or on the latch button 120; meanwhile, it can be correspondingly known that the inclined plane or the cambered surface can be arranged on the abutting body 210 or the locking button 120; or a bevel or a cambered surface exists on both the latch button 120 and the abutting body 210.

Based on the above structure, when the support structure is opened, the latch button 120 is pressed, the second inclined/cambered surface 102 of the latch button 120 and the first inclined/cambered surface 101 on the abutting body 210 abut, the latch button 120 is continuously pressed, the latch button 120 and the abutting body 210 slide relatively, the abutting body 210 expands outwards, and the leg 200 is further driven to expand outwards, so that unlocking of the three leg 200 is realized. The legs 200 are spread apart with the free ends 103 of the three legs 200 away from each other, and the free ends 103 of each leg 200 are placed on a support surface so that the entire support structure stands up; when the bracket structure is stored, the free ends 103 of the three legs 200 are mutually folded, and the connecting ends 104 of the three legs 200 rotate around the fastening mechanism 100 as a fulcrum, so that the free ends 103 of the three legs 200 are folded together around the fastening mechanism 100. The free end 103 of each leg 200 can be individually engaged with the latch button 120, such that the three legs 200 are locked with the latch button 120, thereby fixing the three legs 200 to the latch mechanism 100.

In summary, each leg 200 of the stored tripod is clamped with the lock button 120, the three legs 200 are locked by the lock mechanism, and each leg 200 is individually fixed by the lock button 120 to prevent the legs 200 from shaking after being stored; when the tripod is opened, the lock button 120 is pressed, the three leg parts 200 are unlocked with the lock button 120, the lock button 120 is pressed by pressing the lock button 120 through the abutting body 210 arranged on the leg parts 200, so that the leg parts 200 are spread, and the locking caused by abutting with the buckling mechanism 100 when the leg parts 200 are opened is prevented, so that the tripod is smoother when being opened.

Example two

Based on the embodiment, we can know that there are various pressing manners between the leg 200 and the latch button 120, referring to fig. 2, we choose an embodiment in which the abutting body 210 is disposed on the leg 200, the first inclined/cambered surface 101 is disposed at the contact position between the abutting body 210 and the latch button 120, and the second inclined/cambered surface 102 is disposed at the contact position between the latch button 120 and the abutting body 210.

The contact body 210 in the present embodiment is in a reinforced plate shape, and the contact portion between the contact body 210 and the latch button 120 is provided with a first inclined/cambered surface 101.

In this embodiment, the shape of the abutting body 210 may be a reinforced plate, and may be a strip rib, and the contact portion between the abutting body 210 and the lock button 120 is provided with a first inclined/cambered surface 101, which is easily understood that the first inclined/cambered surface 101 is the inclined surface or cambered surface that the other one is provided with abutting against the abutting body 210.

It is understood that, when the lower edge of the latch button 120 is a slope, the contact portion of the abutting body 210 and the latch button 120 may be set to be a first slope accordingly. When the lower edge of the latch button 120 is curved, the contact portion of the contact body 210 and the latch button 120 may be set to be a first curved surface, and in this embodiment, the contact portion of the contact body 210 and the latch button 120 is selected to be a first inclined surface.

The shape of the abutting body 210 is a reinforced plate, and a first inclined plane is arranged on the abutting body 210, on one hand, when the lock button 120 is pressed, the first inclined plane slides along the lower edge of the lock button 120, so that the leg 200 is spread, and the abutting phenomenon with the buckling mechanism 100 when the tripod leg 200 is opened is avoided; on the other hand, the abutting body 210 can serve as a reinforcing rib of the leg 200 of the support structure, so that the strength of the leg 200 is increased, and the support of the leg 200 is more stable.

Example III

Referring to fig. 5 and 6, a fastening hook 220 that is fastened with the fastening button 120 is further disposed on the inner side of the end of the leg 200 in the present embodiment;

the latch button 120 is provided with a latch slot 121 engaged with the latch hook 220.

In this embodiment, the inner side of the end of the leg 200 is provided with a fastening hook 220, and the cross-section of the fastening hook may be trapezoidal, and the longer end of the trapezoid may be fastened in the fastening slot 121. The fastening slot 121 may be a square groove, and the inner wall of the groove is used for the fastening hook 220 to be fastened.

Thus, when the leg 200 is stored, the latch button 120 is in close contact with the leg 200, and the latch slot 121 on the latch button 120 is engaged with the latch hook 220 on the inner side of the end of the leg 200, so that the leg 200 is latched on the latch button 120; when the leg 200 is opened, the latch button 120 is pressed, so that the latch slot 121 and the latch hook 220 of the leg 200 are separated from each other, and at this time, the latch button 120 and the leg 200 are unlocked, and the leg 200 can be opened freely.

The leg 200 and the lock button 120 are connected with the lock groove 121 by adopting the tightly matched and tightly matched lock hooks 220, after the leg 200 is stored, each leg 200 is independently locked with the lock button 120, so that the problem of shaking of the leg 200 is solved.

Example IV

Referring to fig. 7, 8 and 9, a spring 130 is disposed between the latch button 120 and the mounting base 110 in the present embodiment;

a sliding column 150 is arranged at one end of the lock button 120 away from the pressing end, and the spring 130 is sleeved on the sliding column 150;

a spring 130 groove 112 is arranged in the mounting seat 110, a through hole 111 is formed in the bottom of the spring 130 groove 112, and the sliding column 150 is slidably mounted in the through hole 111;

a stopper 140 for preventing the sliding pole 150 from sliding out of the through hole 111 is provided at an end of the sliding pole 150 and detachably abuts against the mounting seat 110.

In this embodiment, the buckling mechanism 100 further includes a spring 130, a sliding column 150, a spring slot 112, a through hole 111, and a limit button 140, wherein the spring 130 is used for resetting the locking button 120, and is disposed between the locking button 120 and the mounting base 110. In order to avoid the spring 130 from shifting in the lock button 120, a sliding column 150 is disposed on a side of the lock button 120 away from the pressing end, and the sliding column 150 is cylindrical and is sleeved outside the sliding column 150. In order to facilitate the installation of the spring 130 and the installation seat 110, a spring groove 112 is provided in the installation seat 110, the shape of the spring groove 112 may be a circular ring, and the spring 130 may be embedded in the spring groove 112. A through hole 111 is formed at the bottom of the spring groove 112, and the spool 150 is freely inserted into the through hole 111 and slides in the through hole 111. In order to avoid the disengagement of the locking button 120 and the mounting seat 110, a limit button 140 may be installed at the end of the sliding column 150, and the limit button 140 may be fixedly connected with the sliding column 150 through a screw or may be fixedly connected through embedding.

Specifically, when the buckling mechanism 100 is assembled, the spring 130 may be first sleeved on the sliding column 150, one end of the spring 130 is placed in the spring groove 112, the other end of the spring 130 abuts against and is installed in the inner cavity of the locking button 120, the sliding column 150 sequentially passes through the spring 112 and the through hole 111 at the bottom of the spring groove 112, then is inserted into one side of the installation seat 110 far away from the locking button 120, the limiting buckle 140 is fixedly installed at the tail end of the sliding column 150, after the installation is completed, the locking button 120 and the installation seat 110 can slide relatively in a restorable manner, and in a natural state, the limiting buckle 140 is detachably attached to one side of the installation seat 110 far away from the locking button 120.

Based on the above structure, when the tripod is opened, the latch button 120 is pressed, the compression of the spring 130 is shortened, the overall distance between the latch button 120 and the mounting seat 110 is shortened, the limit button 140 is separated from the mounting seat 110, so that the leg 200 of the tripod is unlocked from the latch button 120 and separated from each other, at the moment, the leg 200 is opened, the latch button 120 is released, the latch button 120 is reset under the elastic force of the spring 130, and the latch button 120 is restored to the position before being pressed; when the tripod is stored, the three legs 200 are folded, the single leg 200 can press the lock catch key 120, the lock catch key 120 presses the spring 130 and moves along the direction away from the free end of the leg 200 along with the spring 130, after the single leg 200 is buckled with the lock catch key 120, the lock catch key 120 is restored to the pre-pressing position under the action of the spring 130, and the lock catch key 120 is locked with the leg 200.

So, be equipped with spacing knot 140 at the end of traveller 150, inject the position of hasp button 120, make hasp button 120 can not break away from with mount pad 110, and be equipped with spring 130 between hasp button 120 and mount pad 110, can reset after the knot button is pressed, realize the continuous operation of hasp button 120, it is more convenient to accomodate or open tripod mechanism.

Example five

Referring to fig. 9, the lower edge of the latch button 120 of the present embodiment is provided with a second slant/curved surface 102.

In the present embodiment, the lower edge of the lock button 120 is provided with the second inclined/cambered surface 102, it is easy to understand that, when the surface of the abutting body 210 for the lower edge of the lock button 120 to press and slide is an inclined surface, the contact position of the lock button 120 and the abutting body 210 can be correspondingly set as an inclined surface; when the sliding surface pressed by the abutting body 210 is an arc surface, the contact position between the latch button 120 and the abutting body 210 can be correspondingly set to be an arc surface, and in this embodiment, the lower edge of the latch button 120 is selected to be an inclined surface.

In this way, the contact portion between the latch button 120 and the abutting body 210 is formed into a continuous smooth arc or inclined plane, so that the friction force between the latch button 120 and the abutting body 210 during mutual pressing and sliding is reduced, and the pressing is smoother.

Example six

Referring to fig. 10, a hinge lever 230 is rotatably installed on any one of the legs 200 of the present embodiment;

the end of the hinge rod 230 remote from the tripod leg 200 is hinged to the mount 110.

In this embodiment, a hinge rod 230 is mounted to either leg 200, and the hinge rod 230 is hinged to the leg 200. The end of the hinge rod 230 remote from the leg 200 may be mounted to the mount 110 in a hinged manner, or may be coupled to the mount 110 in a pivotal connection.

It is to be understood that a hinge rod 230 may be mounted on any leg 200, and the hinge point between the hinge rod 230 and the leg 200 may be located approximately near the center of the leg 200, and the position of the hinge point may be preset according to the size of the opening angle required by the leg 200; in addition, the hinge rod 230 may be provided as a telescopic fixed type to facilitate user-defined adjustment; and either leg 200 may be rotated about the hinge point. The end of the hinge rod 230 remote from the tripod leg 200 may be fixed to the mount 110 in a hinge manner, so that the hinge rod 230 may rotate about the mount 110 as a fulcrum. In this way, the hinge rod 230 connects the vicinity of the center of the leg 200 with the mount 110, and can provide a supporting force in the vicinity of the center of the leg 200 by the hinge rod 230 when the bracket structure is opened, thereby improving the stability of the bracket structure.

In this way, the leg 200 is connected to the mounting base 110 by the hinge rod 230, which increases the rigidity between the leg 200 and the mounting base 110, and makes the bracket structure more stable when working.

Example seven

Referring to fig. 2, 8 and 9, the fastening hook 220 of the present embodiment is disposed on the first inclined/cambered surface 101; the snap-fit detent 121 is disposed on the second sloped/curved surface 102.

In this embodiment, the first inclined surface may be provided with a fastening hook 220, and when the fastening hook 220 is manufactured, the first inclined/cambered surface 101 and the fastening hook 220 may be manufactured in a modularized manner; meanwhile, the fastening slot 121 fastened with the fastening hook 220 may be disposed on the second inclined/cambered surface 102, and the fastening slot 121 and the second inclined/cambered surface 102 may be modularly manufactured when the fastening slot 121 is manufactured; the modular manufacturing has two advantages, namely saving production materials, and increasing the structural strength of the locking button 120 and the abutting body 210, thereby prolonging the service life.

The buckling hook 220 and the first inclined/cambered surface 101 or the buckling clamping groove 121 and the second inclined/cambered surface 102 are in modularized design, and the connection for connecting the buckling hook 220 and the buckling clamping groove 121 is not required to be independently arranged, so that the buckling mechanism 100 is simplified, the connection of the buckling mechanism 100 is more compact, the matching of the connection of the buckling hook 220 and the buckling clamping groove 121 is more compact, and the later replacement and maintenance of the buckling mechanism 100 are also facilitated.

Example eight

Referring to fig. 2 and 9, the leg 200 of the present embodiment is provided with a foot 240 at the end thereof;

the interference body 210 is disposed inside the leg 240.

In this embodiment, a foot 240 is installed at the end of each leg 200, and during manufacturing, the foot 240 can be manufactured separately, and the foot 240 and the leg 200 can be connected by embedding or screw connection; and the inner side of the foot support 240 may be provided with a supporting body 240, and the supporting body 210 and the foot support 240 may be integrally formed.

Based on the above structure, the foot 240 and the leg 200 can be manufactured separately, and the foot 240 and the leg 200 are detachably connected, so that the replacement and repair of the foot 240 and the leg 200 at a later stage are facilitated.

Example nine

Referring to fig. 5, the fastening hook 220 of the present embodiment is disposed inside the leg 240.

In the present embodiment, the fastening hook 220 is disposed at the inner side of the leg 240, and the fastening hook 220 and the leg 240 can be integrally formed. The buckling hooks 220 are arranged on the inner sides of the foot supports 240, so that on one hand, the whole foot support 240 is more compact in structure, later maintenance and replacement of the foot supports 240 are facilitated, and on the other hand, when the legs 200 are stored, the buckling hooks 220 are prevented from hooking other objects, and storage of the support structure is facilitated.

Examples ten

The fastening hook 220 of the present embodiment can be elastically deformed.

In this embodiment, the fastening hook 220 may be made of a plastic material with elastic deformation, and the fastening hook 220 may be elastically deformed when the leg 200 is received or opened. When the leg 200 is stored, the buckling hook 220 is buckled with the buckling slot 121, the buckling hook 220 is elastically deformed, and the impact force generated when the buckling hook 220 is contacted with the buckling slot 121 is relieved, so that the leg is stored more smoothly; when the leg 200 is opened, the buckling hooks 220 are elastically deformed, so that the buckling hooks 220 are separated from the buckling slots 121, and the leg 200 is opened conveniently.

Based on the above structure, the elastically deformed fastening hook 220 can relieve the impact force of the fastening slot 121 contacting the fastening hook 220, so that the fastening between the fastening slot 121 and the fastening hook 220 is smoother.

Example eleven

Referring to fig. 11 and 12, this embodiment provides a campsite lamp, including the above-mentioned supporting structure, the campsite lamp still includes:

a light emitting section 300;

a telescopic bracket bar 400 fixed to one end of the light emitting part 300; and

The support rod 400 is connected to the mounting base 110 and is retractable within the sleeve 100.

In this embodiment, a camping light is further provided, wherein the camping light comprises a storage state and an opening state, and when the camping light is stored, the light emitting part 300 is retracted into the sleeve 100 along with the bracket rod 400, so that the bracket rod 400 and the light emitting part 300 are retracted into the sleeve 100; when the campsite lamp is turned on, the light emitting part 300 is extended along the direction away from the sleeve 100 along with the bracket rod 400, and the bracket structure at the lower end of the sleeve 100 is placed on the supporting surface, so that the campsite lamp is turned on.

In one embodiment, the light emitting part 300 is used for illumination of a campsite lamp, and the light emitting part 300 may provide an illumination light source, which may be an LED lamp in particular. A telescopic bracket bar 400 may be provided at the lower end of the light emitting part 300.

In another embodiment, the bracket lever 400 is used for adjusting the height of the light emitting portion 300, the bracket lever 400 can drive the light emitting portion 300 to extend upwards, so that the height of the light emitting portion 300 is increased, and can also drive the light emitting portion 300 to shrink downwards, so that the height of the light emitting portion 300 is reduced, thereby adjusting the position of the light source, and the light emitting portion 300 and the bracket lever 400 can be fixedly connected through screws.

In yet another embodiment, the exterior of the stand bar 400 is slidably sleeved with the sleeve 100, and when the campsite lamp is stored, the stand bar 400 can be stored in the sleeve 100 together with the light emitting part 300; when the campsite lamp is turned on, the stand bar 400 may be unfolded together with the light emitting part 300 to bring the light emitting part 300 to a desired lighting height.

In the campsite lamp, the support structure is installed at the lower end of the sleeve 100, after the campsite lamp is stored, the three legs 200 are folded and locked with the lock catch keys 120, and the storage support rod 400 and the support structure shrink, so that the volume of the campsite lamp is reduced to the minimum, and the campsite lamp is convenient to carry, store and carry.

By arranging the abutting body on the tripod leg, when the lock button is pressed, the second inclined/cambered surface 102 on the lock button extrudes the first inclined/cambered surface 101 of the abutting body 210, so that the tripod leg 200 can be unfolded, the problem that the tripod fastening mechanism 100 for the campsite lamp is not smooth in fastening is solved, and meanwhile, the problem that the campsite lamp is inconvenient to carry is also solved.

In the description of the present specification, reference to the terms "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiments or examples is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Furthermore, the foregoing description of the preferred embodiment of the utility model is provided for the purpose of illustration only, and is not intended to limit the utility model to the particular form disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (10)

1. A scaffold structure, the scaffold structure comprising:

a sleeve;

at least three legs hinged at one end of the sleeve; and

The installation seat is slidably installed in the sleeve, a lock catch key is slidably installed at the end head of the installation seat, and the lock catch key can be pressed and restored along the central line direction of the installation seat;

one end of the leg part, which is far away from the sleeve, is detachably clamped with the lock catch key;

one of the leg parts or the lock catch keys is provided with an abutting body, the other one of the leg parts or the lock catch keys is provided with an inclined plane or an arc surface which is abutted against the abutting body, and the surface outside the inclined plane or the arc surface is gradually close to the center line along the pressing direction of the lock catch keys.

2. The stand structure of claim 1, wherein the abutting body is disposed at an inner side of the tail end of the leg, a first inclined plane or a first cambered surface is disposed at a contact position of the abutting body and the locking button, and a second inclined plane or a second cambered surface is disposed at a contact position of the locking button and the abutting body.

3. The bracket structure of claim 2, wherein the interfering body is a reinforcing plate.

4. The stand structure of claim 3 wherein a spring is disposed between said latch button and said mount;

the end, away from the pressing end, of the lock catch key is provided with a sliding column, and the spring is sleeved on the sliding column;

a spring groove is formed in the mounting seat, a through hole is formed in the bottom of the spring groove, and the sliding column is slidably mounted in the through hole;

the limiting buckle for preventing the sliding column from sliding out of the through hole is arranged at the end part of the sliding column and is detachably abutted against the mounting seat.

5. The frame structure of claim 4, wherein one of the inner side of the leg end and the outer side of the latch button is provided with a latch hook, and the other is provided with a latch slot engaged with the latch hook.

6. The bracket structure of claim 5, wherein the buckling hook is disposed on the first inclined plane or the first cambered surface, and the buckling slot is disposed on the second inclined plane or the second cambered surface.

7. The support structure of claim 5 wherein a hinge lever is pivotally mounted to each of said legs, an end of said hinge lever remote from said legs being hinged to said mounting base.

8. The support structure of claim 7, wherein said leg includes a foot support mounted to an end of said leg, said interference being disposed inboard of said foot support.

9. The bracket structure of claim 8, wherein the snap-fit hooks are disposed inside the legs.

10. A campsite lamp, characterized in that it comprises:

a light emitting section;

a telescopic bracket rod fixed at one end of the light-emitting part; and

A scaffold according to any one of claims 1 to 9;

the support rod is connected with the mounting seat and can stretch and retract in the sleeve.