CN216722330U

CN216722330U - Seedling culture thermal insulation shed support

Info

Publication number: CN216722330U
Application number: CN202220236652.5U
Authority: CN
Inventors: 苏三奎; 李天德; 郭庆; 宋梅菊; 铁梅芳; 盛晓霞; 王元杰; 隋萍; 胡玉智; 刘少学; 毛德虎; 李秀丽; 焦凤梅; 崔雨牧; 张玉萍; 任廷钢; 段成明; 李艳波; 刘永全; 夸尔新加
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-26
Filing date: 2022-01-26
Publication date: 2022-06-14
Anticipated expiration: 2032-01-26

Abstract

The utility model discloses a seedling culture heat preservation shed support which comprises a main support with an inverted U-shaped structure, wherein an auxiliary support with an inverted U-shaped structure is rotatably connected to the middle part of the inner side of the main support, at least one connecting rod is rotatably sleeved on each side vertical section of the main support, and the other end of each connecting rod is in threaded connection with the side wall of the corresponding side vertical section of the auxiliary support through a nut sleeve. The two adjacent auxiliary brackets are fixedly connected through the nut sleeves, and the connecting rods on the two main brackets are fixedly connected, so that the bracket frame bodies of the heat preservation shed are quickly connected; the bracket frame body can be quickly disassembled through the nut sleeves, and the auxiliary brackets on the single bracket are fixedly connected with the connecting rod through the nut sleeves, so that the bracket integrally forms a plane frame structure, and the stacking and the transportation of the bracket are facilitated; the detachable connection mode is adopted, so that the local replacement, the maintenance and the recycling of the bracket are facilitated.

Description

Seedling culture thermal insulation shed support

Technical Field

The utility model relates to the field of thermal insulation sheds, in particular to a seedling thermal insulation shed support.

Background

At present, the greenhouse cultivation technology in China is rapidly developed, the problem of vegetables in slack season in winter is basically eliminated in the north, and the problems of rain prevention, sun shading and the like are basically solved in the south. In the seedling raising stage of vegetables and fruit trees, a seedling raising bed is usually erected by adopting a heat preservation frame so as to ensure a proper temperature and humidity environment. In the prior art, the frame strips made of wood or bamboo are mostly adopted and are tied by ropes or steel wires to form the thermal insulation shed support. Because humidity in the greenhouse is big easily causes bamboo article, woodwork to milden and rot, so these materials are heavy influences greenhouse internal environment again, and life is uneven, still need frequently dismouting replacement according to season, and work load is big, and the wasting of resources is serious, influences greenhouse inside clean and tidy again. Most of the existing metal heat-insulating sheds are manufactured as required, the installation and maintenance processes of the supporting frames are complex, and a large amount of time, manpower and material resources are consumed; once the building is finished, the building is not easy to change, and partial parts are difficult to replace.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides a seedling culture heat preservation shed support which is convenient to assemble and disassemble, high in overall strength after connection, convenient to stack and transport after disassembly and convenient to partially replace, maintain and recycle.

In order to realize the effect, the utility model adopts the technical scheme that:

the utility model provides a thermal-insulation shed support grows seedlings, includes the main support of the type of falling U structure, the inboard middle part of main support rotates and is connected with the assistance support that is the type of falling U structure, all rotate on the perpendicular section of every side of main support and cup jointed at least one connecting rod, the other end of connecting rod passes through nut sleeve and the lateral wall threaded connection who assists the perpendicular section of the corresponding side of support.

Furthermore, one end of the connecting rod is provided with a thread section, the side wall of the vertical section of the auxiliary support is fixedly provided with a thread column, and two ends of the nut sleeve are respectively connected with the thread end and the thread column simultaneously.

Further, the length of the thread section and the length of the thread column are not smaller than the length of the nut sleeve.

Furthermore, at least one annular groove is formed in the vertical section of the main support, and a lantern ring movably sleeved in the annular groove is fixedly arranged at the other end of the connecting rod.

Furthermore, the side wall of the lantern ring is provided with a through opening.

Furthermore, the width of the auxiliary support is half of the width of the main support, and the length of the connecting rod is one fourth of the width of the main support.

Furthermore, at least one inserting column is fixedly arranged on the side wall of one side of the main support, and inserting holes corresponding to the inserting columns are formed in the side wall of the other side of the main support.

Furthermore, the cross section shape of the plug column is matched with that of the plug hole, and the length of the plug column is not more than the depth of the plug hole.

Compared with the prior art, the utility model has the following beneficial effects: according to the utility model, the rotatable auxiliary supports and the connecting rods are arranged at the bottoms of the main supports, the auxiliary supports and the connecting rods are respectively rotated to positions vertical to the main supports, after the two main supports are arranged in parallel, the two adjacent auxiliary supports are fixedly connected through the nut sleeves, and the connecting rods on the two main supports are fixedly connected through the nut sleeves, so that the support frame bodies of the heat preservation shed are quickly connected and formed, and the integral supporting strength is higher; the bracket frame body can be quickly disassembled through the nut sleeve, the auxiliary bracket and the connecting rod are respectively rotated to the positions parallel to the main bracket, and then the auxiliary bracket on the single bracket is fixedly connected with the connecting rod through the nut sleeve, so that the bracket is integrally formed into a plane frame structure, and the stacking and the transportation of the bracket are facilitated; the detachable connection mode is adopted, so that the local replacement, the maintenance and the recycling of the bracket are facilitated.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic perspective view of the main support of the present invention;

FIG. 4 is a schematic perspective view of the secondary support;

FIG. 5 is a schematic perspective view of the connecting rod;

FIG. 6 is a perspective view of the two brackets in a connected state;

FIG. 7 is a schematic perspective view of three or more brackets in a connected state;

fig. 8 is a structural schematic view of a plurality of brackets in a stacked and stored state.

Wherein: the device comprises a main support 1, an annular groove 11, a plug column 12, a plug hole 13, a connecting stud 14, an auxiliary support 2, a threaded column 21, a connecting hole 22, a connecting rod 3, a threaded section 31, a lantern ring 32 and a nut sleeve 4.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the utility model easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the utility model.

Referring to fig. 1 to 5, a seedling thermal insulation shed support comprises a main support 1 with an inverted U-shaped structure, and an auxiliary support 2 with an inverted U-shaped structure is rotatably connected to the middle of the inner side of the main support 1. The main support 1 and the auxiliary support 2 are of an arch structure formed by bending stainless steel materials or aluminum alloy materials, and the width and the height of the arch structure are determined according to actual use requirements. The bottom ends of the vertical sections at the two sides of the main support 1 and the auxiliary support 2 are both in a tip shape, so that the main support 1 and the auxiliary support 2 can be conveniently inserted in soil.

The top diapire center department welded fastening of main support 1 has connecting stud 14, and the top center department of assisting support 2 has seted up connecting hole 22, and connecting stud 14 threaded connection has the nut after penetrating in connecting hole 22, can make and assist support 2 arbitrary angle rotation in main support 1 to realize the fastening through the nut.

Two connecting rods 3 are sleeved on each side vertical section of the main support 1 in a rotating mode, and the other ends of the connecting rods 3 are in threaded connection with the side wall of the corresponding side vertical section of the auxiliary support 2 through nut sleeves 4. Specifically, one end of the connecting rod 3 is provided with a threaded section 31, a threaded column 21 is fixedly welded on the side wall of the vertical section of the auxiliary support 2, and two ends of the nut sleeve 4 are respectively connected with the threaded end 31 and the threaded column 21 simultaneously. Preferably, the width of the auxiliary bracket 2 is half of the width of the main bracket 1, the length of the connecting rod 3 is one fourth of the width of the main bracket 1, and the auxiliary bracket 2 and the connecting rod 3 are positioned on the same plane of the inner side of the main bracket 1 after being connected through the nut sleeve 4, so that the stacking and transportation of the brackets are facilitated, and the stacking state is shown in fig. 8. Preferably, two inserting-connecting columns 12 are fixedly arranged on one side wall of the main support 1, inserting-connecting holes 13 corresponding to the inserting-connecting columns 12 are formed in the other side wall of the main support, and after the two inserting-connecting columns 12 are inserted into the two inserting-connecting holes 13, the two adjacent supports can be integrally stacked, so that the stacked supports can be integrally bound and carried for transportation.

Furthermore, the cross section of the inserting column 12 is matched with the cross section of the inserting hole 13, the length of the inserting column 12 is not larger than the depth of the inserting hole 13, and the length of the inserting column 12 and the depth of the inserting hole 13 are not larger than half of the thickness of the main support 1, so that two adjacent supports can be abutted and fixed in relative positions after being stacked.

Further, the length of the thread section 31 and the length of the thread post 21 are not smaller than the length of the nut sleeve 4, so that when the nut sleeve 4 is completely screwed into the thread section 31, the other end of the nut sleeve 4 is completely separated from the thread post 21, and when the nut sleeve 4 is completely screwed into the thread post 21, the other end of the nut sleeve 4 is completely separated from the thread section 31, so that the nut sleeve 4 can be always connected to the bracket without being lost.

Be provided with two annular grooves 11 on the vertical section of main support 1, the other end of connecting rod 3 is fixed to be provided with the activity and cup joints the lantern ring 32 in annular groove 11, and the external diameter of the lantern ring 32 is the same with the external diameter of the vertical section of main support 1, the internal diameter of the lantern ring 32 and the external diameter phase-match of annular groove 11, the opening has been seted up on the lateral wall of the lantern ring 32, make lantern ring 32 accessible opening joint in annular groove 11, connecting rod 3 can rotate on main support 1, and connecting rod 3 and lantern ring 32 can not cause adverse effect to the pile of two adjacent supports.

In actual use, the brackets in this embodiment are inserted into the ground at an appropriate distance in order, which is the same as the practical use of the conventional general-purpose thermal insulation booth bracket.

If two brackets are connected to each other to be used as a unit, the connected state is as shown in fig. 6. Specifically, each nut sleeve 4 on the two supports is firstly and respectively shifted, so that the nut sleeve 4 moves towards one side to be completely screwed into the threaded section 31 and be completely separated from the threaded column 21, or moves towards the other side to be completely screwed into the threaded column 21 and be completely separated from the threaded section 31; loosening nuts for connecting the main support 1 and the auxiliary supports 2 to enable the auxiliary supports 2 to be in a free rotation state, rotating the auxiliary supports 2 on the two supports to a position vertical to the main support 1, then butting threaded columns 21 on the two auxiliary supports 2, and connecting the two threaded columns 21 through a nut sleeve 4 retained on one of the threaded columns 21, so that the auxiliary supports 2 and the main support 1 form a cross-shaped middle support; the connecting rods 3 on the two supports are respectively rotated to positions vertical to the main supports 1, the connecting rods 3 are paired pairwise, the thread sections 31 on the connecting rods 3 are also butted pairwise, the two paired thread sections 31 are connected through the nut sleeve 4 retained on one thread section 31 in each pair, and the four pairs of connecting rods 3 form side protection supports at two side positions between the two main supports 1; and then the nut connecting the main bracket 1 and the auxiliary bracket 2 is screwed. So, two supports can connect into firm arched frame structure, and two main supports 1 automatically form the parallel structure of distance, with two support unit exclusive uses, or arrange a plurality of two support units in proper order and use, can construct the braced frame of thermal-insulation shed fast.

If three or more brackets are used for connection, the connected state is as shown in fig. 7. For convenience of description, the connection of three brackets is taken as an example and defined as a first bracket, a second bracket and a third bracket, and the connecting rods on each bracket are defined as an upper connecting rod and a lower connecting rod. The position adjustment between the auxiliary support 2 and the main support 2 and the connection manner between the two auxiliary supports 2 are the same as those described above, and are not repeated. Respectively rotating the upper connecting rods on the first support and the second support to positions vertical to the main support 1, enabling the upper connecting rods to be paired pairwise, connecting the two paired threaded sections 31 through the nut sleeve 4 retained on one threaded section 31 in each pair, enabling the two paired upper connecting rods to form side protection supports at two side positions between the first support and the second support, and then screwing the nuts connecting the main support 1 and the auxiliary support 2 in the first support and the second support; the lower connecting rods on the second support and the third support are respectively rotated to the position vertical to the main support 1, the lower connecting rods are paired pairwise, the two paired threaded sections 31 are connected through the nut sleeve 4 retained on one threaded section 31 in each pair, the two pairs of lower connecting rods form side protection supports at the two sides between the second support and the third support, and then nuts for connecting the main support 1 and the auxiliary support 2 in the second support and the third support are screwed. So, can continue to increase the support to accomplish the connection one by one, then the support can connect into firm arched frame structure, and every main support 1 forms the parallel structure of distance automatically, and the frame after the connection is automatic linear arrangement also, can found the braced frame of thermal-insulation shed fast.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a thermal-insulation shed support of growing seedlings, includes main support (1) of the type of falling U structure, its characterized in that: the utility model discloses a support of falling U type structure, including the inboard middle part of main support (1), all rotate on the perpendicular section of every side of main support (1) and cup jointed at least one connecting rod (3), the other end of connecting rod (3) passes through nut sleeve (4) and assists the lateral wall threaded connection of the perpendicular section of the corresponding side of support (2).

2. A seedling thermal-insulation shed support according to claim 1, which is characterized in that: one end of the connecting rod (3) is provided with a threaded section (31), a threaded column (21) is fixedly arranged on the side wall of the vertical section of the auxiliary support (2), and two ends of the nut sleeve (4) are respectively and simultaneously connected with the threaded section (31) and the threaded column (21).

3. A seedling thermal-insulation shed support according to claim 2, characterized in that: the length of the thread section (31) and the length of the thread column (21) are both not less than the length of the nut sleeve (4).

4. A seedling thermal-insulation shed support according to claim 2, characterized in that: the vertical section of the main support (1) is provided with at least one annular groove (11), and the other end of the connecting rod (3) is fixedly provided with a lantern ring (32) movably sleeved in the annular groove (11).

5. A seedling thermal-insulation shed support according to claim 4, which is characterized in that: the side wall of the lantern ring (32) is provided with a through hole.

6. A seedling thermal-insulation shed support according to any one of claims 1 to 5, which is characterized in that: the width of the auxiliary support (2) is half of the width of the main support (1), and the length of the connecting rod (3) is one fourth of the width of the main support (1).

7. A seedling thermal-insulation shed support according to claim 6, which is characterized in that: at least one inserting column (12) is fixedly arranged on the side wall of one side of the main support (1), and an inserting hole (13) corresponding to the inserting column (12) is formed in the side wall of the other side.

8. A seedling thermal-insulation shed support according to claim 7, characterized in that: the section shape of the plug column (12) is matched with that of the plug hole (13), and the length of the plug column (12) is not more than the depth of the plug hole (13).