Disclosure of Invention
In view of the foregoing, it is desirable to provide a storage pack assembly and a solar device, which are capable of improving the support stability of a folded solar panel, thereby improving the wind resistance and facilitating storage.
The embodiment of the utility model provides a storage bag assembly, which is applied to a folding solar panel, wherein the folding solar panel comprises a plurality of connected unit panels, two adjacent unit panels can be folded along the joint, and the storage bag assembly comprises a storage bag, a limiting piece and a supporting rod. The storage bag comprises a first bag body and a second bag body which are connected, and the first bag body and the second bag body can be folded along the connecting part to store the folding solar panel. The limiting piece is arranged on one of the storage bag or the unit plate, and when the limiting piece is arranged on the storage bag, the limiting piece is positioned on the inner surfaces of the first bag body and the second bag body. One end of the supporting rod is rotatably connected to the other one of the storage bag or the unit plate, and the other end of the supporting rod can be selectively limited at different positions of the limiting piece. The support rod has an unfolded state and a folded state. When the support bar is in the unfolded state, one end of the support bar is supported on the unit plate, and the other end of the support bar is supported on the storage bag, so that the support bar is matched with the storage bag to support the unit plate. When the supporting rod is in a folded state, the limiting piece and the supporting rod are folded relatively, so that the unit plates are allowed to be contained in the containing bag.
The utility model provides a collecting bag subassembly is in when expanding the state at the bracing piece, collecting bag subassembly supports folding solar panel jointly through bracing piece and collecting bag cooperation, can increase weight and with the area of contact on ground through the collecting bag for overall structure is difficult for tipping, forms more stable support, and when the bracing piece is in folding state, locating part and bracing piece can fold relatively, so that the cell board can be accomodate in the collecting bag, so that accomodate, and the one end of bracing piece can be spacing in the different positions of locating part, realizes folding solar panel different angle supports, thereby can improve solar panel conversion rate.
In some embodiments, the end of the support rod is slidably engaged with the stop member, and when the support rod is in the extended state, the end of the support rod is capable of sliding toward one end of the stop member and being limited to the stop member to increase the tilt angle of the unit panel, and the end of the support rod is also capable of sliding toward the other end of the stop member to decrease the tilt angle of the unit panel until switching to the folded state. The sliding fit can make the regulation operation of bracing piece more convenient to promote the use convenience of collecting bag subassembly.
In some embodiments, the storage pack assembly further comprises a first hinge support, one end of the first hinge support is rotatably connected to one end of the support rod, and the other end of the first hinge support is connected to the limiting member and can slide along the limiting member. The first hinged support can enable the supporting rod to be rotatably connected with the limiting piece, so that position adjustment of the supporting rod relative to limiting is realized, and different inclination angles of the unit plates are supported
In some embodiments, the first hinge support includes positioning seat and connecting portion, the positioning seat is connected to the one end of connecting portion, the other end of connecting portion articulates the bracing piece, the locating part has the spout towards one side of bracing piece, the spout extends along the length direction of locating part, the locating part is equipped with spacing portion in the opposite both sides of spout, have the opening between two spacing portions, in the positioning seat arranged in the spout, the connecting portion stretches out the spout from the opening in order to connect the bracing piece, spacing portion is spacing in the spout with the positioning seat, avoid the positioning seat to break away from the spout, thereby ensure the connection between bracing piece and the locating part. The supporting rod is rotationally connected with the first hinged support instead of being integrally formed, so that the whole bottom surface of the positioning seat can be attached to the bottom surface of the chute when the supporting rod is at different angles, and the stability of the unit plate is improved.
In some embodiments, the bottom of the chute is provided with a plurality of protrusions along the length direction, and the positioning seat is propped against the bottom of the protrusions, so that the protrusions stop the positioning seat, and then position the relative position between the supporting rod and the limiting piece, and the supporting rod is prevented from continuously sliding along the chute under the action of the gravity of the unit plate.
In some embodiments, the sum of the thickness of the positioning seat and the height of the protrusion is smaller than or equal to the depth of the chute, so that the positioning seat can easily slide along the chute beyond the protrusion, the protrusion is prevented from being blocked by the positioning seat, and the position of the support rod relative to the limiting piece is further allowed to be adjusted.
In some embodiments, the chute and the opening penetrate through two ends of the limiting piece along the length direction, so that the first hinged support can be installed into the chute from two ends of the limiting piece, and therefore assembly efficiency is improved.
In some embodiments, the storage bag assembly further comprises a second hinged support, one end of the second hinged support is rotatably connected to the support bar, and the other end of the second hinged support is mounted on the inner surface of the first bag body and the second bag body or mounted on the cell plate. The second hinged support can realize that one end of the support rod far away from the limiting piece is rotationally connected with the storage bag or the unit plate, so that the support rod is switched between an unfolding state and a folding state.
In some embodiments, the storage pack assembly further comprises a connector link configured to detachably connect the cell plate to the first bag body and the second bag body, and when the storage pack assembly is in the unfolded state, the connector link connects the bottom of the cell plate to the first bag body and the second bag body to limit the cell plate, so that the storage pack cooperates with the support rod to support the cell plate together, thereby improving stability of the cell plate.
The embodiment of the utility model also provides solar equipment, which comprises a folding solar panel and the storage bag assembly in any embodiment, wherein the folding solar panel comprises a plurality of connected unit panels, and any two adjacent unit panels can be folded along the connecting position so as to be stored in the storage bag assembly.
The solar equipment that the present case provided has promoted the support stability and accomodate the convenience of folding solar panel through foretell collecting bag subassembly, can realize simultaneously folding solar panel different angle support to can improve solar panel conversion rate.
Detailed Description
The following description of the embodiments of the present utility model refers to the accompanying drawings, which illustrate some, but not all embodiments of the utility model.
It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "or/and" as used herein includes any and all combinations of one or more of the associated listed items.
At present, portable solar panel comprises solar panel and support generally, and the support is installed in solar panel's face of being shaded for support solar panel subaerial, and the inclination on the relative ground of accessible support regulation solar panel, for conveniently carrying, the volume and the weight of support can be designed relatively less usually, but can lead to support and ground area of contact little and dead weight not enough like this for overall structure's supporting stability is relatively poor, and the wind-resistance is not enough.
In view of the foregoing, it is desirable to provide a storage pack assembly and a solar device, which are capable of improving the support stability of a folded solar panel, thereby improving the wind resistance and facilitating storage. The storage bag component is applied to a folding solar panel, the folding solar panel comprises a plurality of unit panels connected, two adjacent unit panels can be folded along the joint, and the storage bag component comprises a storage bag, a limiting part and a supporting rod. The storage bag comprises a first bag body and a second bag body which are connected, and the first bag body and the second bag body can be folded along the connecting part to store the folding solar panel. The limiting piece is arranged on one of the storage bag or the unit plate, and when the limiting piece is arranged on the storage bag, the limiting piece is positioned on the inner surfaces of the first bag body and the second bag body. One end of the supporting rod is rotatably connected to the other one of the storage bag or the unit plate, and the other end of the supporting rod can be selectively limited at different positions of the limiting piece. The support rod has an unfolded state and a folded state. When the support bar is in the unfolded state, one end of the support bar is supported on the unit plate, and the other end of the support bar is supported on the storage bag, so that the support bar is matched with the storage bag to support the unit plate. When the supporting rod is in a folded state, the limiting piece and the supporting rod are folded relatively, so that the unit plates are allowed to be contained in the containing bag.
The utility model provides a collecting bag subassembly is in when expanding the state at the bracing piece, collecting bag subassembly supports folding solar panel jointly through bracing piece and collecting bag cooperation, can increase weight and with the area of contact on ground through the collecting bag for overall structure is difficult for tipping, forms more stable support, when the bracing piece is in folding state, locating part and bracing piece can fold relatively, so that the cell board can be accomodate in the collecting bag, so that accomodate, and the one end of bracing piece can be spacing in the different positions of locating part, realizes folding solar panel different angle supports, thereby can improve solar panel conversion rate.
Some embodiments of the present utility model are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments may be combined with each other without collision.
Referring to fig. 1 to 3, an embodiment of the present utility model provides a storage pack assembly 100 for supporting and storing a folded solar panel 200. The folding solar panel 200 includes a plurality of connected unit panels 300, and adjacent two unit panels 300 are connected by a flexible structure such as cloth, so that the adjacent two unit panels 300 can be folded along the connection, and the unit panels 300 are used for receiving sunlight and converting light energy into electric energy. When the folded solar panel 200 is unfolded, the storage pack assembly 100 can stably support the unfolded unit panel 300 to a desired inclination angle. When the folded solar panel 200 is folded, the storage pack assembly 100 can store the folded solar panel 200 so as to protect and carry the folded solar panel 200.
The storage bag assembly 100 comprises a storage bag 10, wherein the storage bag 10 comprises a first bag body 11 and a second bag body 12 which are connected, and the first bag body 11 and the second bag body 12 can be folded along the connecting position. The folded first bag body 11 and the second bag body 12 are covered, so that a storage cavity can be defined between the first bag body 11 and the second bag body 12, and the storage cavity is used for storing the folded solar panel 200. The unfolded first bag body 11 and the second bag body 12 can fully expose the folded solar panel 200 in the storage cavity so as to unfold the folded solar panel 200.
As an exemplary example, the edges of the first bag body 11 and the second bag body 12 are provided with a zipper 13, and the folded first bag body 11 and the second bag body 12 are connected through the zipper 13 to close the receiving cavity, thereby protecting the folded solar panel 200. In addition, the handles 14 are disposed on the sides of the first bag body 11 and the second bag body 12 facing away from the connection part, and the handles 14 are used for facilitating stable carrying of the storage bag 10 after the first bag body 11 and the second bag body 12 are folded. In other embodiments, the first bag 11 and the second bag 12 after being folded may be connected by a buckle, so long as the storage cavity can be closed.
The storage pack assembly 100 further includes a stopper 20 and a support bar 30. One end of the supporting rod 30 is connected to the limiting member 20, and the connection portion between the supporting rod 30 and the limiting member 20 can be selectively positioned at different positions of the limiting member 20. The limiting member 20 is disposed on one of the storage pack 10 or the unit plate 300, and an end of the supporting rod 30 remote from the limiting member 20 is rotatably connected to the other of the storage pack 10 or the unit plate 300, i.e., as shown in fig. 4 and 5, when the limiting member 20 is disposed on the storage pack 10, an end of the supporting rod 30 remote from the limiting member 20 is rotatably connected to the unit plate 300, or as shown in fig. 1 and 2, when the limiting member 20 is disposed on the unit plate 300, an end of the supporting rod 30 remote from the limiting member 20 is rotatably connected to the storage pack 10. When the limiting member 20 is disposed on the storage bag 10, the limiting member 20 is disposed on the inner surfaces of the first bag body 11 and the second bag body 12, and when the limiting member 20 is disposed on the unit plate 300, the limiting member 20 is disposed on the back surface of the unit plate 300.
As an exemplary example, the unit panel 300 may be a bifacial solar panel, and the unit panel 300 may include a bifacial battery cell region and a frame region surrounding the bifacial battery cell region, wherein both the front and back sides of the bifacial battery cell region may receive light energy and generate electric energy, and the frame region plays a role in protecting the bifacial battery cell region and is not used for generating electricity. When the limiting member 20 is disposed on the storage pack 10, one end of the supporting rod 30, which is far away from the limiting member 20, is rotatably connected to the frame region of the unit plate 300, so as to avoid shielding the double-sided battery cell region and reduce the photoelectric conversion rate. When the limiting member 20 is disposed on the unit board 300, the limiting member 20 can be disposed on the frame region of the unit board 300, so as to avoid shielding the double-sided battery cell region.
The support bar 30 has an expanded state. When the first bag 11 and the second bag 12 are unfolded, the support rods 30 can be in an unfolded state, and the support rods 30 in the unfolded state are used for supporting the unit plates 300 to a required inclination angle.
When the support rods 30 need to be in an unfolding state to receive sunlight by using the unit plates 300, the first bag body 11 and the second bag body 12 are unfolded, the first bag body 11 and the second bag body 12 are placed on the placement surface, the position of the joint of the support rods 30 and the limiting pieces 20 relative to the limiting pieces 20 is adjusted until the top ends of the support rods 30 are supported on the unit plates 300, the bottom ends of the support rods 30 are supported on the storage bags 10, so that the support rods 30 support the unit plates 300 to a required inclination angle, the bottoms of the unit plates 300 are connected to the first bag body 11 or the second bag body 12, at this time, the storage bag assembly 100 supports the unit plates 300 in the folded solar plates 200 together through the cooperation of the support rods 30 and the storage bags 10, rather than only supporting the unit plates 300 through the support rods 30, so that the support rods 30 can increase the weight by means of the storage bags 10, the whole structure of the storage bag assembly 100 is not easy to overturn, and the support rods 30 can also increase the contact area with the placement surface by means of the storage bags 10, so that the whole structure of the storage bag assembly 100 is increased and friction of the placement surface is not easy to slide or shake, and the storage bag assembly 100 is realized, and the folding stability of the folded solar plates 200 is improved, and the folded and stable solar plates 200 are supported. As an exemplary example, the placement surfaces of the first bag 11 and the second bag 12 may be the ground, a balcony, a roof of a caravan, or the like.
The support bar 30 also has a folded state. The support bar 30 in a folded state can be folded with respect to the stopper 20 so that the unit panel 300 is adjacent to the first bag body 11 and the second bag body 12, thereby allowing the first bag body 11 and the second bag body 12 to be folded to receive the unit panel 300.
When the unit plate 300 needs to be stored, the position of the joint of the supporting rod 30 and the limiting member 20 relative to the limiting member 20 is adjusted first, so that the supporting rod 30 is folded relative to the limiting member 20 until the unit plate 300 is close to the first bag body 11 and the second bag body 12, and then the first bag body 11 and the second bag body 12 are folded until the first bag body 11 and the second bag body 12 are covered, so that the unit plate 300 is stored in the storage cavity.
In some embodiments, each unit plate 300 in the folded solar panel 200 is rectangular, the plurality of unit plates 300 are arranged along a single direction and are sequentially connected, the first bag body 11 and the second bag body 12 are the same in size, the size of each unit plate 300 is close to that of the first bag body 11, so that the first bag body 11 can only store one unit plate 300 along the plate surface direction of the unit plate 300, and the plurality of unit plates 300 are stacked in the storage bag 10. When the unit panel 300 has one, the unfolded bottom of the unit panel 300 is connected to the first bag 11 or the second bag 12 to improve stability. When the unit plates 300 are provided with two, the bottom of one unit plate 300 after being unfolded is supported on the first bag body 11, the bottom of the other unit plate 300 after being unfolded is supported on the second bag body 12, and the connection part between the two unit plates 300 connected with the first bag body 11 and the second bag body 12 corresponds to the connection part between the first bag body 11 and the second bag body 12, so that the two unit plates 300 can be driven to be folded together when the first bag body 11 and the second bag body 12 are folded, and the storage efficiency is improved. When the unit plates 300 have more than two, the opposite sides of the two unit plates 300 connected to the first bag 11 and the second bag 12 can be selectively connected to the rest of the unit plates 300, and the bottoms of the rest of the unit plates 300 are supported on the placing surface without being connected to the first bag 11 or the second bag 12.
In some embodiments, the receptacle assembly 100 further comprises a connector 40, the connector 40 for detachably connecting the cell plate 300 to the first bag body 11 or the second bag body 12. When the unit panel 300 is unfolded, the connecting buckle 40 connects the bottom of the unit panel 300 to the first bag 11 or the second bag 12, so that the storage bag 10 is matched with the unit panel 300, thereby improving the stability of the unit panel 300.
In some embodiments, the connector 40 is in the shape of a closed loop end-to-end, the connector 40 being able to pass through the bottom of the cell plate 300 and the first bag 11 or the second bag 12 to connect the cell plate 300 to the first bag 11 or the second bag 12. One portion of the connector 40 can be rotated relative to the other portion to form a ring shape with the notch released from closure, and thus the cell plate 300, the first bag body 11, or the second bag body 12 can be attached to the connector 40 or detached from the connector 40 through the notch. As an exemplary example, the connection buckle 40 is a snap buckle or the like.
In some embodiments, the end of the supporting rod 30 is slidably engaged with the limiting member 20, and when the supporting rod 30 is in the unfolded state, the end of the supporting rod 30 can slide toward one end of the limiting member 20 and be limited at a certain position of the limiting member 20, so as to support the unit plate 300 to a desired inclination angle; the end of the support bar 30 can also be slid toward the other end of the stopper 20 to reduce the inclination angle of the unit panel 300 until the support bar 30 is switched to the folded state. The sliding fit can make the adjustment operation of the support bar 30 more convenient to promote the convenience of use of the storage pack assembly 100.
In some embodiments, the storage pack assembly 100 further includes a first hinge bracket 50, one end of the first hinge bracket 50 is rotatably connected to one end of the support bar 30, and the other end of the first hinge bracket 30 is connected to the stopper 20 and is slidable along the stopper 20. The first hinge supports 50 enable the support bar 30 to be rotatably connected to the stopper 20, thereby achieving position adjustment of the support bar 30 with respect to the stopper 20 to support the unit plates 300 to different inclination angles.
Referring to fig. 6, in some embodiments, the first hinge support 50 includes a positioning seat 51 and a connecting portion 52, one end of the connecting portion 52 is connected to the positioning seat 51, and the other end of the connecting portion 52 is hinged to the support rod 30. The side of the limiting piece 20 facing the supporting rod 30 is provided with a sliding groove 21, and the sliding groove 21 extends along the length direction of the limiting piece 20. The stopper 20 is provided with stopper portions 22 on opposite sides in the width direction of the chute 21, and an opening 23 is defined between the two stopper portions 22. The positioning seat 51 is disposed in the chute 21, the connecting portion 52 extends out of the chute 21 from the opening 23 to connect the support rod 30, and the limiting portion 22 is used for limiting the positioning seat 51 in the chute 21, so as to prevent the positioning seat 51 from being separated from the chute 21, and further ensure connection between the support rod 30 and the limiting member 20. The support bar 30 and the first hinge support 50 are rotatably connected, not integrally formed, so that the entire bottom surface of the positioning seat 51 can be attached to the bottom surface of the chute 21 when the support bar 30 is at different angles, thereby improving the stability of the unit plate 300.
As an exemplary example, the positioning seat 51 is rounded so that contact between both sides of the positioning seat 51 and the groove wall of the chute 21 is minimized, thereby reducing friction in order to adjust the support bar 30.
In some embodiments, the bottom of the chute 21 is provided with a plurality of protrusions 211 along the length direction, and when the supporting rod 30 is in the unfolded state, the top of the positioning seat 51 abuts against the bottom of the protrusions 211, so that the protrusions 211 stop the positioning seat 51, thereby positioning the relative position between the supporting rod 30 and the limiting member 20, and avoiding the supporting rod 30 from continuing to slide along the chute 21 under the gravity action of the unit plate 300.
In some embodiments, the sum of the thickness of the positioning seat 51 and the height of the protrusion 211 is less than or equal to the depth of the chute 21, so that the positioning seat 51 can easily slide along the chute 21 beyond the protrusion 211, avoiding the protrusion 211 from locking the positioning seat 51, and thus allowing the position of the support rod 30 relative to the limiting member 20 to be adjusted.
By way of exemplary example, the protrusion 211 is generally hemispherical so that the positioning seat 51 can easily slide along the chute 21 past the protrusion 211, avoiding the protrusion 211 from seizing the positioning seat 51 to enhance the feel of the support bar 30.
In other embodiments, a positioning groove (not shown) is formed at the bottom of the positioning seat 51, and the protrusion 211 can be inserted into the positioning groove, so that the relative position between the support rod 30 and the limiting member 20 is positioned, and the stability of the support rod 30 relative to the limiting member 20 can be improved by matching the positioning groove with the protrusion 211. By way of exemplary example, the positioning grooves and the protrusions 211 are hemispherical, so as to facilitate adjusting the support bar 30 and improve the use feeling of the support bar 30.
In some embodiments, the sliding groove 21 and the opening 23 penetrate through two ends of the limiting member 20 along the length direction, so that the first hinge support 50 can be installed into the sliding groove 21 from two ends of the limiting member 20, thereby improving the assembly efficiency.
In other embodiments, the end of the supporting rod 30 and the limiting member 20 may be in a plug-in fit (not shown), instead of a sliding fit, for example, the end of the supporting rod 30 has a plug, the limiting member 20 is provided with a plurality of jacks arranged along the length direction, and the plug can be selectively inserted into the required jacks to adjust the position of the supporting rod 30 relative to the limiting member 20, thereby adjusting the inclination angle of the unit board 300.
In other embodiments, the end portion of the supporting rod 30 and the limiting member 20 may be fixed by magnetic attraction (not shown), the end portion of the supporting rod 30 is provided with a magnetic member, such as a magnet, and the limiting member 20 is provided with a plurality of magnetic members along the length direction, and the magnetic member at the end portion of the supporting rod 30 may selectively attract the magnetic member of the limiting member 20, so that the relative position of the supporting rod 30 and the limiting member 20 is fixed by friction between the supporting rod 30 and the limiting member 20, and the position of the supporting rod 30 relative to the limiting member 20 is adjusted.
In some embodiments, the storage bag assembly 100 further includes a second hinge support 60, one end of the second hinge support 60 is rotatably connected to one end of the support bar 30 remote from the first hinge support 50, the other end of the second hinge support 60 is mounted to the inner surfaces of the first bag body 11 and the second bag body 12, or the other end of the second hinge support 60 is mounted to the cell plate 300. When the limiting member 20 is disposed on the unit plate 300, the second hinge support 60 is disposed on the inner surfaces of the first bag body 11 and the second bag body 12; when the limiting member 20 is disposed on the inner surfaces of the first bag body 11 and the second bag body 12, the second hinge support 60 is disposed on the unit plate 300. The second hinge support 60 can realize that one end of the support bar 30 away from the limiting member 20 is rotatably connected with the storage pack 10 or the unit plate 300, so as to realize the switching of the support bar 30 between the unfolded state and the folded state.
Referring to fig. 1 to 3, the present utility model further provides a solar apparatus 400, including a folded solar panel 200 and a storage pack assembly 100. The folded solar panel 200 includes a plurality of rectangular unit panels 300 connected in a single direction, and adjacent two unit panels 300 may be folded along the connection. After the folded solar panel 200 is unfolded, two unit panels 300 are supported by the storage pack assembly 100 to a desired inclination angle, and the rest unit panels 300 are driven to the desired inclination angle. After the folded solar panel 200 is folded, the folded solar panel 200 can be stored in the storage pack assembly 100 for carrying.
The solar device 400 provided by the scheme improves the support stability and the storage convenience of the folding solar panel 200 through the storage bag assembly 100.
In addition, those skilled in the art will recognize that the foregoing embodiments are merely illustrative of the present utility model and are not intended to be limiting, as appropriate modifications and variations of the foregoing embodiments are within the scope of the disclosure of the utility model.