CN116290998B - Ice fishing tent - Google Patents

Abstract

The application relates to an ice fishing tent, which relates to the field of tents and comprises a framework and tent cloth tied in the framework, wherein the framework comprises four first transverse connecting rods, four second transverse connecting rods and four vertical connecting rods, every two adjacent first transverse connecting rods are mutually hinged, the four first transverse connecting rods are spliced to form a quadrangle, every two adjacent second transverse connecting rods are fixedly connected, the four second transverse connecting rods are spliced to form a quadrangle, one end of each vertical connecting rod is in ball hinge joint with the fixing position of the two second transverse connecting rods, the other end of each vertical connecting rod is fixedly connected with the hinging position of the two first transverse connecting rods, the first transverse connecting rods comprise two mutually hinged folding rods, a locking assembly for locking the state of the framework at the moment is connected to the framework, and the hinging position of the two folding rods in the windward side and the leeward side of the tent moves towards the direction close to the second transverse connecting rods so as to fold the tent. The application has the effect of reducing the possibility that the tent is separated from the ground (ice surface) under the influence of wind power.

Description

Ice fishing tent

Technical Field

The application relates to the field of tents, in particular to an ice fishing tent.

Background

Modern people have a faster pace of life, learning and work, so many people enjoy fishing leisure when idle. However, in the fishing process, a sunshade tool and a place for rest are needed, particularly in the ice fishing in winter, a place for shielding wind is also needed, and the tent can meet the requirements of people in fishing.

Existing tents are typically attached to the ground (ice surface) by means of studs (ice studs), however, in windy weather, the tent may be affected by wind forces to disengage from the ground (ice surface).

Disclosure of Invention

In order to reduce the possibility that the tent is separated from the ground (ice surface) under the influence of wind power, the application provides an ice fishing tent.

The ice fishing tent provided by the application adopts the following technical scheme:

The utility model provides an ice angles tent, includes the skeleton and ties up at the inside tent cloth of skeleton, the skeleton includes four first horizontal connecting rods, four second horizontal connecting rods and four vertical connecting rods, articulated each other between every two adjacent first horizontal connecting rods, and four first horizontal connecting rod concatenation is the quadrangle, fixed connection between every two adjacent second horizontal connecting rods, and four second horizontal connecting rods also splice to be the quadrangle, the one end of every vertical connecting rod all articulates with the fixed part ball of two second horizontal connecting rods, the other end all with the articulated part fixed connection of two first horizontal connecting rods, first horizontal connecting rod includes two articulated folding bars, be connected with the locking component who locks the state this moment with the skeleton on the skeleton, thereby two folding bars's articulated part moves to the direction that is close to the second horizontal connecting rod in tent windward side and the leeward side, thereby make the tent fold.

Through adopting above-mentioned technical scheme, when meetting the strong wind weather, control locking component makes the skeleton be in adjustable state, adjusts the first horizontal connecting rod of tent windward side and leeward side afterwards, makes the articulated department of every two book poles to being close to the direction motion of second horizontal connecting rod. In this process, the two vertical links in the windward side gradually move in the direction of approaching each other, and the two vertical links in the leeward side also gradually move in the direction of approaching each other, so that the windward side and the leeward side are gradually deformed into triangles. The area of the windward surface and the leeward surface contacting the wind is reduced, so that the possibility that the tent is separated from the ground (ice surface) under the influence of wind force is reduced.

Preferably, the skeleton further comprises four first corner brackets and four second corner brackets, each first corner bracket comprises two first cross bars and a first vertical rod, the two first cross bars are hinged with one side wall of each first vertical rod respectively, each first corner bracket is located between two first transverse connecting rods, two ends of each first transverse connecting rod are in threaded connection with a corresponding first cross bar, each second corner bracket comprises two second cross bars and a second vertical rod, one ends, close to each other, of the two second cross bars are fixedly connected with each other, the joints of the second vertical rods and the two second cross bars are in spherical hinge connection, each second corner bracket is located between the two second transverse connecting rods, and two ends of each second transverse connecting rod are in threaded connection with a corresponding second cross bar.

Through adopting above-mentioned technical scheme, with every first horizontal connecting rod and corresponding first angle frame threaded connection, and with every second horizontal connecting rod and corresponding second angle frame threaded connection, with the one end and corresponding first angle frame threaded connection of every vertical connecting rod, the other end and corresponding second angle frame threaded connection, so convenient to detach and assemble the skeleton.

Preferably, each first transverse connecting rod is provided with a locking component, each locking component comprises a locking rod, one end of each locking rod is hinged with the second transverse connecting rod and is in fastening connection with the second transverse connecting rod through a bolt and a nut, and the other end of each locking rod is in fastening connection with the joint of the two folding rods.

Through adopting above-mentioned technical scheme, through the setting of locking lever, lock between with first horizontal connecting rod and the second horizontal connecting rod, so be convenient for the skeleton be comparatively firm state.

Preferably, a strip hole is formed in one side wall of the locking rod, a sliding rod is fixedly connected to the joint of the two folding rods, the sliding rod penetrates through the strip hole, two nuts are connected to the sliding rod in a threaded mode, and the locking rod is clamped by the two nuts.

Through adopting above-mentioned technical scheme, rotate two nuts and make two nuts break away from and press from both sides tight locking lever, follow rectangular hole slip slide bar afterwards, so be convenient for two rolls over the pole and fold to the direction that is close to each other gradually, rectangular hole has played the effect of direction for the folding of two rolls over the pole.

Preferably, each side wall of the tent cloth is provided with a vent hole, each vent hole is fixedly connected with a ventilating tube bag, the ventilating tube bags are located inside the tent, one end of each ventilating tube bag is connected with the vent hole, and the other end of each ventilating tube bag is communicated with the inside of the tent.

Through adopting above-mentioned technical scheme, the setting of ventilation hole and air funnel bag is convenient for the inside and outside circulation of air of tent, and when the air inlet in toward the tent through the air funnel bag, can judge wind direction and wind-force intensity according to the degree of waving of every air funnel bag.

Preferably, a pocket rope is arranged at one end of the ventilation tube bag far away from the ventilation hole.

Through adopting above-mentioned technical scheme, through the bore of adjustable air funnel bag of regulation pocket rope, the intensity of every side air inlet of so being convenient for adjust the tent.

Preferably, two reinforcing rods are arranged above the framework, two ends of each reinforcing rod are respectively and fixedly connected with a plug-in block, each plug-in hole is formed in the upper surface of the first corner frame, and each plug-in block is respectively plugged in a corresponding plug-in hole and is mutually intersected with the two reinforcing rods.

By adopting the technical scheme, the splicing of the framework is convenient to reinforce through the splicing of the reinforcing rods and the framework, so that the splicing strength of the tent is reinforced.

Preferably, the tent cloth is made of shading materials.

By adopting the technical scheme, the tent is convenient for shading the sun for personnel in the tent and blocking heat radiation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. The area of the windward surface and the leeward surface of the tent contacting wind is reduced, so that the possibility that the tent is separated from the ground (ice surface) under the influence of wind is reduced;

2. the framework is convenient to disassemble and assemble;

3. The wind direction and the wind power strength can be conveniently judged according to the waving degree of each ventilating drum bag.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a tent according to an embodiment of the present application.

Fig. 2 is a schematic structural view of a first corner bracket according to an embodiment of the present application.

Fig. 3 is a schematic structural view of a second corner bracket according to an embodiment of the present application.

Fig. 4 is a schematic structural view showing the folding of the skeleton according to the embodiment of the present application.

Fig. 5 is a schematic structural view of a ventilation duct pocket embodying an embodiment of the present application.

The reference numerals indicate 1, tent cloth, 11, vent holes, 2, framework, 21, corner bracket groups, 211, a first corner bracket, 2111, a first cross bar, 2112, a first vertical bar, 2113, a plug hole, 212, a second corner bracket, 2121, a second cross bar, 2122, a second vertical bar, 22, a first transverse connecting bar, 23, a second transverse connecting bar, 231, a folding bar, 24, a vertical connecting bar, 3, a locking assembly, 31, a locking bar, 311, a long strip hole, 32, a fixed block, 33, a sliding bar, 4, a reinforcing bar, 41, a plug block, 5, a ventilating drum bag, 51 and a pocket rope.

Detailed Description

The present application is described in further detail below with reference to fig. 1-5.

The embodiment of the application discloses an ice fishing tent. Referring to fig. 1, an ice fishing tent comprises a tent cloth 1 and a quadrangular framework 2, wherein the tent cloth 1 is bound inside the framework 2, and the tent cloth 1 is made of a shading material.

To facilitate the splicing of the framework 2, the framework 2 comprises two corner bracket sets 21, a first transverse link 22, a second transverse link 23 and a vertical link 24. The two corner frame groups 21 are a first corner frame group and a second corner frame group which are arranged up and down, the first corner frame group comprises four first corner frames 211, every two adjacent first corner frames 211 are connected through a first transverse connecting rod 22, and the first corner frame group and the four first transverse connecting rods 22 are spliced to form a rectangular frame.

The second corner bracket group comprises four second corner brackets 212, each two adjacent second corner brackets 212 are connected through a second transverse connecting rod 23, and the second corner bracket group and the four second transverse connecting rods 23 are spliced to form a rectangular frame. One first corner frame 211 corresponds to one second corner frame 212, and every two vertically adjacent first corner frames 211 and second corner frames 212 are connected through one vertical connecting rod 24.

Referring to fig. 2, each first corner bracket 211 includes two first cross bars 2111 and one first vertical bar 2112, and a horizontal angle between the two first cross bars 2111 is a right angle. The first vertical bars 2112 are vertically downward, and two first cross bars 2111 are hinged to side walls of the first vertical bars 2112, and the first cross bars 2111 can vertically rotate relative to the first vertical bars 2112. Each first cross bar 2111 is threadably coupled to a respective one of the first cross links 22 and each first vertical bar 2112 is threadably coupled to a respective one of the vertical links 24.

Referring to fig. 3, each second angle bracket 212 includes two second rails 2121 and a second vertical bar 2122, wherein the horizontal angle between the two second rails 2121 is a right angle. The two second rails 2121 are fixedly connected to each other, the second vertical bar 2122 is ball-hinged to the joint of the two second rails 2121, and the second vertical bar 2122 is vertically arranged upwards. Each second cross bar 2121 is threadably coupled to a respective one of the second cross links 23 and each second vertical bar 2122 is threadably coupled to a respective one of the vertical links 24.

Referring to fig. 1 and 2, the first transverse link 22 includes two folding bars 231 positioned on the same straight line, one ends of the two folding bars 231 close to each other are hinged to each other, and one ends of the two folding bars 231 far from each other are in threaded connection with the first transverse bars 2111 in different first corner brackets 211. A locking assembly 3 is connected to each first transverse link 22 to lock the frame 2 in the current position.

In order to reduce the situation that the tent is affected by wind power and is separated from the ground (ice surface) when the heavy wind weather is encountered, the windward side and the leeward side of the tent are reduced according to the wind direction. The loose locking assembly 3 puts the frame 2 in a deformable state and then pushes the hinge of the two folding bars 231 of the windward side of the tent downward, and pushes the hinge of the two folding bars 231 of the leeward side of the tent downward.

At this time, the first transverse link 22 on the windward side of the tent and the first transverse link 22 on the leeward side of the tent are gradually folded, and the two vertical links 24 on the windward side gradually rotate in directions approaching each other to form a triangle, and the two vertical links 24 on the leeward side also gradually rotate in directions approaching each other to form a triangle. The state of the tent at the moment is locked through the locking component 3, so that the areas of the windward side and the leeward side of the tent are reduced, the area of the tent affected by wind force is reduced, and the tent is not easy to separate from the ground (ice surface).

Referring to fig. 1 and 4, each locking assembly 3 includes a locking bar 31 disposed in a vertical direction, two fixing blocks 32 are fixedly connected to an upper surface of each second transverse link 23, a lower end of the locking bar 31 is inserted between the two fixing blocks 32, a bolt sequentially passes through the fixing blocks 32, the locking bar 31 and the fixing blocks 32 and then is connected with a nut in a threaded manner, and the bolt and the nut fixedly connect each locking bar 31 with the corresponding second transverse bar 2121. A long hole 311 is provided in one side wall of the lock lever 31, and the long hole 311 is provided in the vertical direction.

Referring to fig. 4 and 5, a sliding rod 33 is fixedly connected to the hinge portion of each of the two folding rods 231, and the sliding rod 33 is disposed in a direction approaching to the elongated hole 311 and passes through the corresponding elongated hole 311. The sliding rod 33 is connected with two nuts in a threaded manner, the two locking rods 31 are located between the two nuts, the two nuts clamp the sliding rod 33, and at the moment, the two folding rods 231 and the locking rods 31 are locked.

When the windward side and the leeward side of the tent need to be overlapped, the nuts on the sliding rods 33 in the windward side of the tent are loosened, and the nuts on the sliding rods 33 in the leeward side of the tent are loosened, so that the sliding rods 33 can slide along the strip holes 311. The bolts and nuts at the lower ends of the locking bars 31 in the other two sides are loosened, so that the locking bars 31 can rotate around the corresponding second transverse connecting rods 23. Sliding the sliding rods 33 on the windward side and the leeward side of the tent downward, thus facilitating the two folding rods 231 to move and fold in the direction approaching each other, while the other two side surfaces of the framework 2 move in the direction approaching each other.

When the tent is folded, the nuts on the slide bars 33 are turned to lock each of the first cross links 22 with the corresponding locking bar 31, and the bolts and nuts at the lower ends of the locking bars 31 are turned to lock between the locking bars 31 and the second cross links 23.

Referring to fig. 1 and 2, in order to reinforce the frame 2, an insertion hole 2113 is formed in the upper surface of each first corner frame 211, and two reinforcing rods 4 are provided above the tent surface. Two ends of each reinforcing rod 4 are fixedly connected with a plug-in block 41, and the plug-in blocks 41 are positioned on the same side of the reinforcing rods 4. The two reinforcing rods 4 are disposed to cross each other, and the insertion block 41 of each reinforcing rod 4 is tightly inserted into a corresponding insertion hole 2113. When the tent needs to be folded, the reinforcing rod 4 needs to be pulled to separate each plug-in block 41 from the corresponding plug-in hole 2113, and therefore the reinforcing rod 4 is detached.

Referring to fig. 5, each side of the tent cloth 1 is provided with a ventilation hole 11 to facilitate ventilation of the inside of the tent. Each vent hole 11 department all fixedly connected with a ventilator drum bag 5, ventilator drum bag 5 is located the tent inside, and the one end and the vent hole 11 intercommunication of ventilator drum bag 5, the other end communicates in with the tent. Therefore, personnel in the tent can judge the wind direction and the wind force according to the flying condition of the ventilating duct bags 5 on each side wall of the tent, thereby judging the windward side and the leeward side of the tent, and judging whether the tent needs to be folded or not.

The pocket rope 51 is installed at one end of the air funnel pocket 5 far from the vent hole 11, so that the caliber of the air funnel pocket 5 can be adjusted through the pocket rope 51.

The implementation principle of the ice fishing tent provided by the embodiment of the application is that personnel in the tent judge whether the tent needs to be folded according to the flying condition of the ventilating duct bags 5, and when the wind power is large, the personnel judge the windward side and the leeward side according to the ventilating duct bags 5 on each side wall of the tent. The nuts on the slide bar 33 in the windward and leeward sides of the tent are then loosened so that the slide bar 33 can slide along the elongated hole 311.

The connecting bolts and nuts at the lower ends of the locking bars 31 in the other two sides of the tent are loosened, and then the sliding bars 33 on the windward side and the leeward side of the tent are slid down until the second cross bars 2121 on the windward side and the leeward side are folded. In this process, the other two sides of the skeleton 2 move in directions approaching each other. Finally, the nuts on each slide bar 33 are tightened, and the bolts and nuts at the lower end of each lock bar 31 are tightened.

The above embodiments are not intended to limit the scope of the application, so that the equivalent changes of the structure, shape and principle of the application are covered by the scope of the application.

Claims (6)

1. An ice fishing tent, comprising a frame (2) and a tent cloth (1) tied inside the frame (2), characterized in that: the frame (2) comprises four first transverse connecting rods (22), four second transverse connecting rods (23) and four vertical connecting rods (24), every two adjacent first transverse connecting rods (22) are hinged to each other, and the four first transverse connecting rods (22) are spliced to form a quadrilateral, every two adjacent second transverse connecting rods (23) are fixedly connected, and the four second transverse connecting rods (23) are also spliced to form a quadrilateral. The tent is folded in a shape, one end of each vertical link (24) is spherically hinged to the fixed position of the two second horizontal links (23), and the other end is fixedly connected to the hinge of the two first horizontal links (22), the first horizontal link (22) includes two folding rods (231) hinged to each other, and a locking assembly (3) is connected to the frame (2) for locking the frame (2) in this state, and the hinges of the two folding rods (231) on the windward side and the leeward side of the tent move in a direction close to the second horizontal links (23), thereby folding the tent; A locking assembly (3) is mounted on each of the first transverse connecting rods (22), and each of the locking assemblies (3) includes a locking rod (31), one end of the locking rod (31) is hinged to the second transverse connecting rod (23) and is fastened to the second transverse connecting rod (23) via a bolt and nut, and the other end of the locking rod (31) is fastened to the connection point of the two folding rods (231); A long hole (311) is formed on one side wall of the locking rod (31), and a sliding rod (33) is fixedly connected to the connection point of the two folding rods (231). The sliding rod (33) passes through the long hole (311). Two nuts are threadedly connected to the sliding rod (33), and the two nuts clamp the locking rod (31). 2. An ice fishing tent according to claim 1, characterized in that: the frame (2) further comprises four first corner frames (211) and four second corner frames (212), each first corner frame (211) comprises two first cross bars (2111) and a first vertical bar (2112), the two first cross bars (2111) are hinged to one side wall of the first vertical bar (2112), each first corner frame (211) is located between the two first cross connecting bars (22), and both ends of each first cross connecting bar (22) are connected to the corresponding A first crossbar (2111) is threadedly connected, and each second angle frame (212) includes two second crossbars (2121) and a second vertical rod (2122). The two second crossbars (2121) are fixedly connected at their ends close to each other, and the connection between the second vertical rod (2122) and the two second crossbars (2121) is ball-hinged. Each second angle frame (212) is located between two second cross-linking rods (23), and both ends of each second cross-linking rod (23) are threadedly connected to a corresponding second crossbar (2121). 3. An ice fishing tent according to claim 1 or 2, characterized in that: each side wall of the tent cloth (1) is provided with a ventilation hole (11), each ventilation hole (11) is fixedly connected to a ventilation tube bag (5), the ventilation tube bag (5) is located inside the tent, one end of the ventilation tube bag (5) is connected to the ventilation hole (11), and the other end is connected to the inside of the tent. 4. The ice fishing tent according to claim 3, characterized in that a pocket rope (51) is installed at one end of the ventilation tube bag (5) away from the ventilation hole (11). 5. An ice fishing tent according to claim 2, characterized in that: two reinforcement rods (4) are provided above the frame (2), and both ends of each reinforcement rod (4) are fixedly connected to a plug-in block (41), and the upper surface of each first angle frame (211) is provided with a plug-in hole (2113), and each plug-in block (41) is respectively plugged into a corresponding plug-in hole (2113) and the two reinforcement rods (4) cross each other. 6. An ice fishing tent according to claim 1 or 2, characterized in that the tent cloth (1) is a tent cloth (1) made of a light-shielding material.