CN209908071U - Folding tent with automatic cornice structure - Google Patents

Abstract

The utility model discloses a folding tent with automatic structure of cornicing, including folding covering or awning on a car, boat, etc. body, folding covering or awning on a car, boat, etc. body includes leg pipe and folding rod subassembly, install through leg pipe slider and leg pipe top piece cooperation between leg pipe and the folding rod subassembly, still include the subassembly of cornicing, the subassembly of cornicing includes the link suit and cornicing rod group, the link suit includes first sliding sleeve, second sliding sleeve and third sliding sleeve, cornicing rod group is including cornicing pole, diagonal draw bar and push rod, first sliding sleeve and cornicing pole sliding fit, first sliding sleeve and the articulated cooperation of push rod, the second sliding sleeve with push rod fixed fit, second sliding sleeve and folding ejector rod sliding fit, second sliding sleeve and the articulated cooperation of diagonal draw bar, third sliding sleeve and folding ejector rod fixed fit, third sliding sleeve and the articulated cooperation of folding diagonal draw bar. The utility model optimizes the movable structure of the push rod by the optimized design and adopts the structural design that the center is fixed and the two ends slide, so that the push rod can finish good smoothness, the length of the push rod is shortened, and the interference is avoided; in addition, the push rod is combined with the first sliding sleeve, and the stress point of the cornice rod can be in a movable state, so that the cornice rod can be turned over and cornice can be conveniently realized; meanwhile, the cornice rod is limited by the first sliding sleeve and the push rod, and cornice stability is improved.

Description

Folding tent with automatic cornice structure

Technical Field

The utility model belongs to the technical field of folding tent technique and specifically relates to a folding tent with automatic structure of cornicing is related to.

Background

The tent has various structural forms, and the tent used for outdoor sun shading is usually a folding tent. The folding tent sunshade area of tradition is less, and in order to increase the sunshade area after the tent opens, then the present eaves formula tent of taking the structure of cornicing, the apex angle department of tent is equipped with the cornicing pole of stretching out, reaches the purpose of increase sunshade area through establishing the surrounding edge on the cornicing pole. The outer end of the cornice rod movably extends out of each upright post. However, in the existing folding tent, the cornice lever is independently arranged relative to the tent main body support, and the operation is required to be performed in two steps when the tent is unfolded or folded. Namely, when the tent is unfolded, the main tent body support is unfolded, and then the cornice rods are unfolded or pulled out one by one, so that the operation is inconvenient to realize due to the fact that the cornice rods are located at higher positions, and otherwise, the same problem exists. The existing folding tent has the problems of complex structure, complex folding and unfolding operation and inconvenience.

Therefore, the publication No. CN107476647A discloses a foldable tent, which has a large sun-shading area, and the cornice rod and the first top rod can be unfolded and folded together, so that the operation is convenient; the transmission part has the reinforcing effect to the second ejector pin after the expansion. The device comprises a stand column assembly and a top rod assembly, wherein the top rod assembly comprises a first top rod, a second top rod and a cornice rod, the inner end part of the first top rod is rotatably connected, the outer end part of the first top rod is rotatably connected with the inner end part of the second top rod, and the outer end part of the second top rod, the inner end part of the cornice rod and the upper end part of the stand column assembly are in pairwise relative rotary connection or coaxial rotary connection; when the tent is in an unfolded state, the first top rod, the second top rod and the cornice rod are respectively unfolded relatively, and the outer end part of the cornice rod extends to the outer side of the corresponding upright post component; when the tent is in a folded state, the first ejector rod, the second ejector rod and the cornice rod are respectively close to each other; each ejector rod component further comprises a transmission piece which is connected between the first ejector rod and the cornice rod and used for enabling the cornice rod and the first ejector rod to be unfolded or folded. The transmission part is a transmission rod which is connected between the first ejector rod and the cornice rod and is used for enabling the cornice rod to be unfolded or folded along with the first ejector rod, the transmission part is a four-bar mechanism which is connected between the first ejector rod and the cornice rod in a rotatable mode, the first ejector rod, the second ejector rod, the cornice rod and the transmission rod form a four-bar linkage, the four rods are linked to be mutually folded and oppositely unfolded, the transmission rod is provided with an inner end part which is connected with the outer end part of the first ejector rod in a rotatable mode through a pivot and an outer end part which is connected with the inner end part of the cornice rod in a rotatable mode through a pivot, the connection position of the transmission rod and the first ejector rod is located on the outer side of the connection position of the second ejector rod and the cornice rod, all connection stress points of the whole cornice structure are fixed positions, and the transmission rod is in a, in addition, the inner end of the transmission rod is positioned at the joint of the first ejector rod and the second ejector rod, the length of the transmission rod is relatively long in the whole folding tent storage process, and particularly in some large folding tents, due to the existence of a multi-stage folding mechanism, the transmission rod is easy to collide with other rod pieces, so that the storage effect is influenced; in addition, the four-bar mechanism is adopted after the cornice is finished, so that the cornice easily shakes when wind power is high, and the using effect is influenced.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention is directed to a folding tent with an automatic cornice structure, which has the advantages of convenient and fast contraction and more reasonable cornice transmission structure.

The utility model provides a technical problem can adopt following technical scheme to realize:

the utility model provides a folding tent with automatic structure of cornicing, includes folding covering or awning on a car, boat, etc. body, folding covering or awning on a car, boat, etc. body includes leg pipe and folding rod subassembly, the leg pipe with install through leg pipe slider and leg pipe top piece cooperation between the folding rod subassembly, its characterized in that: still include the subassembly of cornicing, the subassembly of cornicing includes connection cover group and cornicing pole group, the connection cover group includes first sliding sleeve, second sliding sleeve and third sliding sleeve, cornicing pole group is including cornicing pole, diagonal draw bar and push rod, first sliding sleeve with cornicing pole sliding fit, first sliding sleeve with the articulated cooperation of push rod, the second sliding sleeve with push rod fixed fit, second sliding sleeve and folding ejector pin sliding fit, the second sliding sleeve with the articulated cooperation of diagonal draw bar, the third sliding sleeve with folding ejector pin fixed fit, the third sliding sleeve is with the articulated cooperation of folding diagonal draw bar.

When the folding tent is in a contraction state, the open end of the cornice rod is in an inward position; when the folding tent is in an unfolded state, the open end of the cornice rod is positioned outwards; when the folding tent is changed from a contraction state to an expansion state, the first sliding sleeve gradually slides towards the hinged end of the cornice rod, when the first sliding sleeve slides to a limit position, the cornice rod starts to turn over, and the first sliding sleeve gradually slides towards the open end until the folding tent is completely opened; and a space is arranged between the limit position and the hinge joint end position of the cornice rod.

Cornice rod one end with the leg pipe top is articulated to be cooperated, first sliding sleeve passes through the push rod promotes along cornice rod slides.

When the folding tent is in a contraction state, the end, far away from the hinging position of the push rod and the first sliding sleeve, of the push rod is in the innermost position; when the folding tent is in an unfolded state, the push rod is far away from the end, hinged with the first sliding sleeve, of the push rod to be in the outermost position; when the folding tent is changed from the contraction state to the expansion state, the diagonal draw bar drives the second sliding sleeve to move outwards along the folding ejector rod and drives the push rod to move outwards, and the sliding stroke of the second sliding sleeve is between the third sliding sleeve and the hinging position of the folding ejector rod and the leg pipe jacking piece.

The middle part of the push rod is fixedly installed with the second sliding sleeve, one end of the push rod is installed with the first sliding sleeve in a hinged mode, and the other end of the push rod is sleeved on the third sliding sleeve in a penetrating mode and is in sliding fit.

The push rod comprises a first push rod part and a second push rod part, and the second push rod part is used for sliding on the third sliding sleeve in a telescopic mode.

The leg pipe top piece is provided with a cornice rod mounting groove and a folding ejector rod hinge groove, and the cornice rod is in hinge fit with the wall of the cornice rod mounting groove.

And a push rod placing groove is formed in one side of the cornice rod mounting groove.

The second sliding sleeve is provided with a second hinged lifting lug, the second hinged lifting lug is used for being in hinged fit with one end of the oblique pull rod, the other end of the oblique pull rod is in hinged fit with the folding oblique pull rod, and the second sliding sleeve is further provided with a second push rod through hole and a second folding ejector rod through hole.

And a third hinged lifting lug is arranged on the third sliding sleeve and is used for being hinged and matched with the folding diagonal rod, and a third push rod through hole and a third folding ejector rod through hole are further formed in the third sliding sleeve.

The utility model optimizes the movable structure of the push rod by the optimized design and adopts the structural design that the center is fixed and the two ends slide, so that the push rod can finish good smoothness, the length of the push rod is shortened, and the interference is avoided; in addition, the push rod is combined with the first sliding sleeve, and the stress point of the cornice rod can be in a movable state, so that the cornice rod can be turned over and cornice can be conveniently realized; meanwhile, the cornice rod is limited by the first sliding sleeve and the push rod, and cornice stability is improved.

The features of the present invention will be apparent from the accompanying drawings and from the detailed description of the preferred embodiments which follows.

Drawings

Fig. 1 is a schematic view of an overall expanding structure of the utility model;

FIG. 2 is a first schematic structural view of the cornice assembly of the present invention;

FIG. 3 is a schematic structural view of a cornice assembly of the present invention;

FIG. 4 is a third schematic view of the structure of the cornice assembly of the present invention;

FIG. 5 is a schematic structural view of a second sliding sleeve of the present invention;

FIG. 6 is a schematic structural view of a third sliding sleeve of the present invention;

FIG. 7 is a schematic view of the structure of the cornice assembly of the present invention when the cornice lever is turned over;

FIG. 8 is a schematic view of the structure of the cornice assembly of the present invention when the cornice lever is about to turn over;

FIG. 9 is a schematic view of the structure of the cornice assembly of the present invention when the cornice lever is not turned over;

fig. 10 is a schematic view of the overall expanding structure of the present invention;

fig. 11 is a schematic view of the overall contraction structure of the present invention;

fig. 12 is a schematic view of the integral half-open structure of the present invention;

fig. 13 is a schematic view of the overall expanding structure of the present invention;

wherein 1, cornice components; 11. a cornice lever; 12. a push rod; 13. a diagonal member; 14. a first sliding sleeve; 15. a second sliding sleeve; 151. A second hinged lifting lug; 152. a second push rod through hole; 153. the second folding ejector rod is perforated; 154. a second cornice lever placing groove; 16. a third sliding sleeve; 161. a third hinged lifting lug; 162. a third push rod is perforated; 163. a third folding mandril is perforated; 164. A third cornice lever placing groove; 2. a leg tube; 3. a leg tube slider; 4. a center pole; 5. a center lock assembly; 6. a side bar assembly; 7. a leg tube top piece; 71. a folding ejector rod hinge groove; 72. a cornice lever mounting groove; 73. a push rod placing groove; 8. folding the ejector rod; 9. folding the diagonal rods; A. a hinged end; B. an extreme position; C. an open end.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings.

The terms "inner" and "outer" are used herein with reference to the center point of the collapsible shelter as the term is used herein to refer to the position of the center point of the collapsible shelter as the term is inner relative to the center of the collapsible shelter and vice versa.

As shown in fig. 1 to 13, the utility model provides a folding tent with automatic structure of cornicing, including folding covering or awning on a car, boat, etc. body, folding covering or awning on a car, boat, etc. body includes leg pipe 2 and folding pole subassembly, installs through leg pipe slider 3 and leg pipe top 7 cooperation between leg pipe 2 and the folding pole subassembly.

The leg pipe 2, the leg pipe sliding block 3 and the folding rod component in the folding tent body can adopt corresponding structures in the existing folding tent; wherein the leg tubes 2 are at least 2, conventionally 4 or 6, wherein there are also some multiple-top folding canopies, which can be 8, etc.; the folding rod assembly comprises a central lock assembly 5 positioned at the central part and a plurality of central rods 4 in hinged fit with the central lock assembly 5, and side rod assemblies 6 are arranged between the leg tubes 2, wherein the central lock assembly 5, the side rod assemblies 6, the leg tube sliding blocks 3, the leg tubes 2, the central rods 4 and other parts are all structural characteristics in the prior art, and the corresponding connection relationship is a conventional structural design in the folding tent.

Wherein, leg pipe top 7 is equipped with cornice pole mounting groove 72 and folding ejector pin hinge 71, cornice pole 11 with cornice pole mounting groove 72 cell wall hinge cooperation, cornice pole mounting groove 72 one side is equipped with push rod standing groove 73, the subassembly 1 structure of cornice can effectively be cooperated to the optimal design leg pipe top 7 structure.

The cornice component 1 comprises a connecting sleeve set and a cornice rod set, the connecting sleeve set comprises a first sliding sleeve 14, a second sliding sleeve 15 and a third sliding sleeve 16, and the cornice rod set comprises a cornice rod 11, a diagonal draw bar 13 and a push rod 12.

The first sliding sleeve 14 is in sliding fit with the cornice rod 11, the first sliding sleeve 14 is in hinged fit with the push rod 12, one end of the cornice rod 11 is in hinged fit with the leg pipe top piece 7, and the first sliding sleeve 14 is pushed by the push rod 12 to slide along the cornice rod 11; when the folding tent is in a contracted state, the open end C of the cornice lever 11 is in an inward position; when the folding tent is in the unfolded state, the open end C of the cornice lever 11 is in an outward position; when the folding tent is changed from a contraction state to an expansion state, the first sliding sleeve 14 gradually slides towards the hinged end A of the cornice rod 11, when the first sliding sleeve 14 slides to the limit position B, the cornice rod 11 starts to turn over, and the first sliding sleeve 14 gradually slides towards the open end C until the folding tent is completely opened; and a space is arranged between the limit position B and the position of the hinged end A of the cornice rod 11.

In the above, the open end C and the hinged end a are respectively located at two end positions of the cornice lever 11, wherein the spacing between the extreme position B and the hinged end a is different due to the folding tents with different specifications and sizes, and meanwhile, the spacing must be set between the extreme position B and the hinged end a, which is in order for the cornice lever 11 to be driven by better stress in the overturning process, there is an arc spacing in the overturning process of the cornice lever 11, in addition, the sliding curve of the first sliding sleeve 14 is an arc line, and the first sliding sleeve 14 also gradually moves towards the development end C in the sliding process until the folding tents are completely opened; when the folding tent is completely unfolded, the distance between the first sliding sleeve 14 and the hinged end a is larger than the distance between the limit position B and the hinged end a.

The second sliding sleeve 15 is fixedly matched with the push rod 12, the second sliding sleeve 15 is in sliding fit with the folding ejector rod 8, the second sliding sleeve 15 is in hinged fit with the diagonal draw bar 13, the third sliding sleeve 16 is in sliding fit with the push rod 12, the third sliding sleeve 16 is in fixed fit with the folding ejector rod 8, the third sliding sleeve 16 is in hinged fit with the folding diagonal draw bar 9, the middle part of the push rod 12 is fixedly installed with the second sliding sleeve 15, one end of the push rod 12 is hinged with the first sliding sleeve 14, and the other end of the push rod 12 is sleeved on the third sliding sleeve 16 in a penetrating manner; the push rod 12 comprises a first push rod part 121 and a second push rod part 122, and the second push rod part 122 is used for sliding telescopically on the third sliding sleeve 16; when the folding tent is in a contraction state, the push rod 12 is in an innermost position away from the end where the push rod is hinged with the first sliding sleeve 14; when the folding tent is in the unfolded state, the push rod 12 is at the outermost position away from the hinged position end of the push rod and the first sliding sleeve 14; when the folding tent is changed from the contraction state to the expansion state, the diagonal draw bar 13 drives the second sliding sleeve 15 to move outwards along the folding top rod 8 and drives the push rod 12 to move outwards, and the sliding stroke of the second sliding sleeve 15 is between the hinging positions of the third sliding sleeve 16, the folding top rod 8 and the leg pipe top piece 7.

Further, a second hinged lifting lug 151 is arranged on the second sliding sleeve 15, the second hinged lifting lug 151 is used for being matched with one end of the inclined pull rod 13 in a hinged mode, the other end of the inclined pull rod 13 is matched with the folding inclined rod 9 in a hinged mode, a second push rod through hole 152 and a second folding ejector rod through hole 153 are further formed in the second sliding sleeve 15, a second cornice rod placing groove 154 is formed in the middle of the upper portion of the second sliding sleeve 15, and when the folding tent is in a contraction state, the cornice rod 11 is placed on the second cornice rod placing groove 154.

Further, a third hinge lifting lug 161 is arranged on the third sliding sleeve 16, the third hinge lifting lug 161 is used for being in hinge fit with the folding diagonal rod 9, a third push rod through hole 162 and a third folding ejector rod through hole 163 are further arranged on the third sliding sleeve 16, a third cornice rod placing groove 164 is arranged in the middle of the upper portion of the third sliding sleeve 16, and when the folding tent is in a contraction state, the cornice rod 11 is placed on the third cornice rod placing groove 164.

When the folding tent is in a whole contraction state, as shown in fig. 11, the folding tent is gradually changed to a state of fig. 12 by pulling the leg pipes 2, is in a half-opening state, continues to synchronously pull the leg pipes 2 and complete locking of the central lock assembly 5, and at this stage, the cornice assembly 1 gradually enters a starting state and gradually changes to a state of fig. 13, and completes the expansion of the whole folding tent.

Wherein, one end of the folding diagonal rod is hinged on the leg tube slide block, the other end is hinged on the third hinged lifting lug, the leg tube slide block moves upwards along with the continuous movement, the folding ejector rod is driven to be upwards spread by supporting the third hinged lifting lug, meanwhile, the position of the folding diagonal rod is driven to change along with the continuous movement of the folding diagonal rod, the diagonal rod drives the second sliding sleeve to slide outwards along the folding diagonal rod, the second sliding sleeve synchronously drives the push rod to slide outwards, the push rod drives the first sliding sleeve to slide along the cornice rod in a limiting way, when the push rod drives the first sliding sleeve to slide to be close to or at the hinged position of the cornice rod and the leg tube top piece, the cornice rod continuously receives the thrust of the push rod and the first sliding sleeve continuously receives the force of sliding outwards, therefore, the cornice rod realizes the 180-degree quick turnover through the hinged axis center of the leg tube top piece, wherein the 180-degree turnover angle has certain angle deviation due to the, the overturning does not represent absolute 180-degree overturning, and after the cornice rod is overturned, the continuous thrust of the push rod is released, so that the first sliding sleeve continues to slide outwards for a certain stroke until the folding tent is in a fully opened state; if the contraction is needed, the movement direction and the acceptance of the components are in the opposite state, and then the completion is completed.

The utility model discloses well optimal design adopts three different adapter sleeve structures to realize the atress transmission between each member, wherein the design characteristics of first sliding sleeve lie in can realizing the position on the cornice pole and move, the push rod is used for driving the gliding drive output of first sliding sleeve, thereby can realize that the stress point of cornice pole is in can changing the state, do not receive the atress restriction of fixed connection point, in addition combine the push rod can slide along folding ejector pin direction around, the movement stroke of push rod has been increased, under the prerequisite of guaranteeing the required whole strokes of push rod drive first sliding sleeve, can shorten the length size of push rod itself, reduce material cost, simultaneously can avoid adding because of the push rod, cause the interference to all the members because of length overlength; the second sliding sleeve is used for inputting the driving force of the push rod, and simultaneously, the second sliding sleeve is optimally designed to slide along the folding ejector rod, so that the limitation on the stroke direction of the push rod is conveniently realized; and a third sliding sleeve is additionally arranged, and the push rod slides on the third sliding sleeve, so that the sliding stability of the push rod is improved.

The utility model discloses a design characteristics lie in, utilize the folding structure of strutting of folding tent itself, add the oblique pull rod and realize the output of drive power, combine second sliding sleeve and push rod to realize the second grade transmission, utilize first sliding sleeve to accomplish the atress output to the pole of corning to realize the roll-over motion of the pole of corning, accomplish the upset corning.

The utility model optimizes the movable structure of the push rod by the optimized design and adopts the structural design that the center is fixed and the two ends slide, so that the push rod can finish good smoothness, the length of the push rod is shortened, and the interference is avoided; in addition, the push rod is combined with the first sliding sleeve, and the stress point of the cornice rod can be in a movable state, so that the cornice rod can be turned over and cornice can be conveniently realized; meanwhile, the cornice rod is limited by the first sliding sleeve and the push rod, and cornice stability is improved.

The above, it is only the preferred embodiment of the present invention, not to make any restriction on the utility model, all the bases the technical principle of the present invention is to any simple modification, equivalent change or modification made by the above embodiments, still belong to the technical solution scope of the present invention.

Claims (10)

1. The utility model provides a folding tent with automatic structure of cornicing, includes folding covering or awning on a car, boat, etc. body, folding covering or awning on a car, boat, etc. body includes leg pipe and folding rod subassembly, the leg pipe with install through leg pipe slider and leg pipe top piece cooperation between the folding rod subassembly, its characterized in that: still include the subassembly of cornicing, the subassembly of cornicing includes connection cover group and cornicing pole group, the connection cover group includes first sliding sleeve, second sliding sleeve and third sliding sleeve, cornicing pole group is including cornicing pole, diagonal draw bar and push rod, first sliding sleeve with cornicing pole sliding fit, first sliding sleeve with the articulated cooperation of push rod, the second sliding sleeve with push rod fixed fit, second sliding sleeve and folding ejector pin sliding fit, the second sliding sleeve with the articulated cooperation of diagonal draw bar, the third sliding sleeve with folding ejector pin fixed fit, the third sliding sleeve is with the articulated cooperation of folding diagonal draw bar.

2. A folding tent having an automatic cornice structure according to claim 1, wherein: when the folding tent is in a contraction state, the open end of the cornice rod is in an inward position; when the folding tent is in an unfolded state, the open end of the cornice rod is positioned outwards; when the folding tent is changed from a contraction state to an expansion state, the first sliding sleeve gradually slides towards the hinged end of the cornice rod, when the first sliding sleeve slides to a limit position, the cornice rod starts to turn over, and the first sliding sleeve gradually slides towards the open end until the folding tent is completely opened; and a space is arranged between the limit position and the hinge joint end position of the cornice rod.

3. A folding tent with an automatic cornice structure according to claim 1 or 2, wherein: cornice rod one end with the leg pipe top is articulated to be cooperated, first sliding sleeve passes through the push rod promotes along cornice rod slides.

4. A folding tent with an automatic cornice structure according to claim 1 or 2, wherein: when the folding tent is in a contraction state, the end, far away from the hinging position of the push rod and the first sliding sleeve, of the push rod is in the innermost position; when the folding tent is in an unfolded state, the push rod is far away from the end, hinged with the first sliding sleeve, of the push rod to be in the outermost position; when the folding tent is changed from the contraction state to the expansion state, the diagonal draw bar drives the second sliding sleeve to move outwards along the folding ejector rod and drives the push rod to move outwards, and the sliding stroke of the second sliding sleeve is between the third sliding sleeve and the hinging position of the folding ejector rod and the leg pipe jacking piece.

5. A folding tent with an automatic cornice structure according to claim 4, wherein: the middle part of the push rod is fixedly installed with the second sliding sleeve, one end of the push rod is installed with the first sliding sleeve in a hinged mode, and the other end of the push rod is sleeved on the third sliding sleeve in a penetrating mode and is in sliding fit.

6. A folding tent having an automatic cornice structure according to claim 5, wherein: the push rod comprises a first push rod part and a second push rod part, and the second push rod part is used for sliding on the third sliding sleeve in a telescopic mode.

7. A folding tent with an automatic cornice structure according to claim 1 or 2, wherein: the leg pipe top piece is provided with a cornice rod mounting groove and a folding ejector rod hinge groove, and the cornice rod is in hinge fit with the wall of the cornice rod mounting groove.

8. A folding tent having an automatic cornice structure according to claim 5, wherein: and a push rod placing groove is formed in one side of the cornice rod mounting groove.

9. A folding tent having an automatic cornice structure according to claim 1, wherein: the second sliding sleeve is provided with a second hinged lifting lug, the second hinged lifting lug is used for being in hinged fit with one end of the oblique pull rod, the other end of the oblique pull rod is in hinged fit with the folding oblique pull rod, and the second sliding sleeve is further provided with a second push rod through hole and a second folding ejector rod through hole.

10. A folding tent having an automatic cornice structure according to claim 1, wherein: and a third hinged lifting lug is arranged on the third sliding sleeve and is used for being hinged and matched with the folding diagonal rod, and a third push rod through hole and a third folding ejector rod through hole are further formed in the third sliding sleeve.

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