SUMMERY OF THE UTILITY MODEL
The utility model mainly aims to provide a bracket, aiming at solving the problem that an emergency respirator is inconvenient to carry.
In order to achieve the above object, the present invention provides a bracket, which includes a first bearing member, a second bearing member, and a third bearing member; the first bearing piece is provided with a first bearing surface; the second bearing part is provided with a second bearing surface, the second bearing surface is connected with the first bearing surface, and the second bearing surface and the first bearing surface are arranged on the same plane; the third bearing part is provided with a third bearing surface, one part of the third bearing surface is positioned above the first bearing surface, the other part of the third bearing surface is positioned above the second bearing surface, and the third bearing surface and the first bearing surface form an included angle.
Optionally, the first carrier comprises a first plate body and a first stiffening tube connected to an edge of the first plate body; the third bearing piece comprises a third plate body and a third reinforcing pipe, and the third reinforcing pipe is connected to the edge of the third plate body; the first bearing surface is the first plate body, the third bearing surface is a third plate body, the third plate body and the first plate body are arranged at an included angle, and the first reinforcing pipe is connected with the third reinforcing pipe through an arc pipe.
Optionally, a first limiting plate is connected to the first plate body, and the first limiting plate extends upward; and/or a limiting frame is arranged on the first reinforcing pipe, and one end of the limiting frame extends upwards; and/or a stop plate is connected to the lower end of the third plate body and extends upwards.
Optionally, the second bearing comprises a connecting plate and a second limiting plate; the second bearing surface is the connecting plate, one end of the connecting plate is connected with the first plate body, and the other end of the connecting plate extends in the direction departing from the first plate body; the connecting plate and the first plate body are arranged on the same plane; the second limiting plate is connected to the connecting plate and extends upwards.
Optionally, two connecting plates are arranged, and the two connecting plates are arranged at intervals; each connecting plate is connected with one second limiting plate, and the plate surfaces of the two first limiting plates are arranged oppositely.
Optionally, a second reinforcing pipe is further arranged below the connecting plate, and the second reinforcing pipe is connected with the first reinforcing pipe.
Optionally, the third reinforcement tube comprises an extension tube; the extending direction of the extending pipe is consistent with the extending direction of the third plate body; the extension pipes are provided with two extension pipes and are respectively connected to two opposite side edges of the third plate body; the upper end of the extension pipe is also connected with a handle.
Optionally, the handle comprises at least two support tubes and a connecting tube, each support tube in the at least two support tubes has one end connected to the upper end of the extension tube, and the other end extending in a direction away from the first plate body; two ends of the connecting pipe are respectively connected with one end of the supporting pipe deviating from the first plate body.
Optionally, one end of the support tube facing away from the first plate body is arranged opposite to the third plate body; and/or the upper end of the third plate body is positioned above the first plate body.
Optionally, the third reinforcing pipe further comprises a horizontal pipe, and two ends of the horizontal pipe are respectively connected with the upper ends of the two extension pipes; the transverse pipe is also provided with a hook, and part of the transverse pipe is sunken and bent downwards to form a bent part; the bending part and the hook are oppositely arranged and form a mounting space.
The utility model further provides a first-aid respirator assembly which comprises a host, an accessory bag, an oxygen cylinder and the support, wherein the host is installed on the third bearing piece, the accessory bag is installed on the second bearing piece, and the oxygen cylinder is installed on the first bearing piece.
According to the technical scheme, the second bearing surface is connected with the first bearing surface and is arranged on the same plane with the first bearing surface, so that the parts mounted on the first bearing piece and the second bearing piece are compact. The third bearing surface is arranged above the first bearing surface, the other part of the third bearing surface is arranged above the second bearing surface, and the third bearing surface and the first bearing surface form an included angle, so that the installation layout of the components arranged on the third bearing part and the components arranged on the first bearing part and the second bearing part is further more compact, the installation space is reduced, and the carrying and the lifting of a user are facilitated.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It should be noted that, if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indications are changed accordingly.
In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.
The present invention provides a stent 100.
In an embodiment of the present invention, please refer to fig. 1 and fig. 2 in combination, the bracket 100 includes a first supporting member 110, a second supporting member 120, and a third supporting member 130; the first supporting member 110 has a first supporting surface, the second supporting member 120 has a second supporting surface, and the third supporting member 130 has a third supporting surface; the second bearing surface is connected with the first bearing surface and arranged on the same plane with the first bearing surface; one part of the third bearing surface is positioned above the first bearing surface, the other part of the third bearing surface is positioned above the second bearing surface, and the third bearing surface and the first bearing surface form an included angle.
The support 100 is used for placing various components of the emergency ventilator equipment, which generally includes a main unit 200, an accessory bag 300 and an oxygen cylinder 400, and the first carrier 110, the second carrier 120 and the third carrier 130 of the support 100 correspondingly support the oxygen cylinder 400, the accessory bag 300 and the main unit 200. The first bearing surface of the first bearing member 110 and the second bearing surface of the second bearing member 120 are disposed on the same plane, which is convenient for manufacturing and installation, and on the other hand, the components mounted on the first bearing member 110 and the second bearing member 120 occupy less space when being mounted. The third supporting surface and the first supporting surface are disposed at an included angle, and a portion of the third supporting surface is located above the first supporting surface, and another portion of the third supporting surface is located above the second supporting surface, so that the components mounted on the first supporting member 110, the components mounted on the second supporting member 120, and the components mounted on the third supporting member 130 are mounted compactly, and a large space is prevented from being occupied in a certain direction (for example, a horizontal direction or a vertical direction).
It should be noted that, in the technical solution of the present invention, if a part of the third bearing surface is located above the first bearing surface and another part is located above the second bearing surface, and the third bearing surface and the first bearing surface form an included angle, the third bearing surface and the first bearing surface may form an acute angle or an obtuse angle. It can be understood that when the third bearing surface is arranged at an acute angle with the first bearing surface, the upper end of the third bearing surface is positioned above the first bearing surface; when the third bearing surface and the first bearing surface form an obtuse angle, the upper end of the third bearing surface is positioned above the second bearing surface. Due to the arrangement, on one hand, the whole installation space is compact, so that the whole carrying is more convenient; on the other hand, when the host 200 is installed on the third bearing surface, it is also convenient for the user to know the condition of the patient by observing the host 200.
Specifically, the first carrier 110 and the second carrier 120 may be separately connected or integrated. For better connection, the first carrier 110 and the second carrier 120 may be of an integral structure. The third supporting member 130 may be connected to the first supporting member 110 or the second supporting member 120 through an intermediate connecting member, or one end of the third supporting member may be directly connected to the first supporting member 110 or the second supporting member 120. When the third carrier 130 is connected to the first carrier 110 (or the second carrier 120), the third carrier may be connected by a screw connection, a rivet connection, a welding connection, an adhesion connection, or the like. In addition, the first supporting member 110 may be a hollow structure to save material cost and reduce weight, so as to facilitate the user to carry the stand 100; of course, the first supporting member 110 may not be a hollow structure. The second supporting member 120 may be a hollow structure to save material cost and reduce weight, so as to facilitate the user to carry the stand 100; of course, the second supporting member 120 may not be an hollowed structure. The third supporting member 130 may be a hollow structure to save material cost and reduce weight, so as to facilitate the user to carry the stand 100; of course, the third supporting member 130 may not be an hollowed structure.
In the technical scheme of the utility model, the second bearing surface is connected with the first bearing surface and is arranged on the same plane with the first bearing surface, so that the components mounted on the first bearing piece 110 and the second bearing piece 120 are compact. The third bearing surface is partially positioned above the first bearing surface, the other part is positioned above the second bearing surface, and the third bearing surface and the first bearing surface form an included angle, so that the installation layout of the components mounted on the third bearing member 130 and the components mounted on the first bearing member 110 and the second bearing member 120 is further more compact, the installation space is reduced, and the carrying and lifting by a user are facilitated.
Specifically, referring to fig. 1, fig. 2 and fig. 3, the first supporting member 110 includes a first plate body 111 and a first reinforcing tube 112, the first supporting surface is the first plate body 111, and the first reinforcing tube 112 is connected to an edge of the first plate body 111; the third bearing member 130 includes a third plate body 131 and a third reinforced pipe 132, the third bearing surface is the third plate body 131, and the third reinforced pipe 132 is connected to the edge of the third plate body 131; the third plate body 131 and the first plate body 111 form an included angle, and the first reinforcing tube 112 and the third reinforcing tube 132 are connected through an arc tube 160.
The first plate body 111 has the effect of supporting and installing, and the first plate body 111 can be of a hollow structure or not. It can be understood that, when the first plate body 111 adopts the hollowed-out structure, the first plate body 111 has a light weight, so that the user can conveniently carry the stand 100 and the components mounted on the stand 100. In this embodiment, the first reinforcing tube 112 is connected to the edge of the first plate body 111, so that the edge deformation of the first plate body 111 can be reduced, the strength of the edge of the first plate body 111 can be improved, and the edge of the first plate body 111 can be prevented from scratching a user when the user lifts the bracket 100. Specifically, the first reinforcing pipe 112 and the edge of the first plate body 111 may be connected by means of screws, welding, or the like. When the first reinforcing pipe 112 is connected to the edge of the first plate body 111 by screws, the first plate body 111 can be screwed to the first reinforcing pipe 112 by using angle steel as an intermediate member. For example, one end of the angle steel is connected to the edge of the first plate body 111 by a screw, and the other end is connected to the first reinforcement pipe 112 by a screw. When the first reinforcing pipe 112 is connected to the edge of the first plate body 111 by welding, the edge of the first plate body 111 is welded to the sidewall of the first reinforcing pipe 112 by a welding tool. Of course, in the technical solution of the present invention, the edges of the first reinforcing tube 112 and the first plate body 111 may also be fixed by other connection methods.
Similarly, the third plate body 131 in the third bearing part 130 has a supporting and installing effect, and the third plate body 131 may also adopt a hollow structure or not adopt a hollow structure. When the third plate body 131 has a hollow structure, the third plate body 131 has a light weight, thereby facilitating a user to carry the bracket 100 and components mounted on the bracket 100. In this embodiment, the third reinforcing tube 132 is connected to the edge of the third plate body 131, so that on one hand, the deformation of the edge of the third plate body 131 can be reduced, the strength of the edge of the third plate body 131 can be improved, and on the other hand, the edge of the third plate body 131 can be prevented from scratching a user when the user carries the stent 100. Specifically, the third reinforcing tube 132 and the edge of the third plate body 131 may be connected by means of screws, welding, or the like. The screw connection and welding are the same as the connection between the first reinforcing tube 112 and the first plate body 111, and are not described herein again. In this embodiment, the first plate body 111 and the third plate body 131 are disposed at an included angle, which means that the first plate body 111 and the third plate body 131 can be disposed at an acute angle or an obtuse angle. When the first plate body 111 and the third plate body 131 are disposed at an acute angle, the upper end of the third plate body 131 is located above the first plate body 111; when the first plate body 111 and the third plate body 131 are disposed at an obtuse angle, the upper end of the third plate body 131 is located above the second carrier 120.
The first reinforcing tube 112 is connected with the third reinforcing tube 132 through the arc tube 160, so that the effect of connecting the first carrier 110 with the third carrier 130 is achieved, and the third plate body 131 is not required to be directly connected with the first carrier 110, so that the strength of the third plate body 131 is improved, and the situation that the upper end of the third plate body 131 is pressed to bend downwards and deform after a component with larger weight is installed on the third plate body 131 is avoided. In addition, the circular tube 160 can also have a handle effect.
Specifically, as shown in fig. 1, based on the arrangement that the first plate body 111 and the third plate body 131 form an included angle, in this embodiment, the upper end of the third plate body 131 is located above the first plate body 111. Thus, the first plate body 111 supports and mounts the oxygen cylinder 400. Of course, in other embodiments, the upper end of the third plate body 131 may also be located above the second plate body. Thus, the second plate body supports and mounts the oxygen cylinder 400.
In this embodiment, as shown in fig. 1, the first plate body 111 is connected with a first limiting plate 113, and the first limiting plate 113 extends upward.
The first stopper plate 113 is used to limit a member mounted on the first plate body 111. The first limiting plates 113 may be two, and the two first limiting plates 113 may be respectively disposed near two opposite side edges of the first plate body 111, so that the component mounted on the first plate body 111 may be limited in the connection direction of the two first limiting plates 113. Or, the first limiting plate 113 may be provided with at least four, and the at least four first limiting plates 113 may be respectively disposed near the edges of the first plate body 111 in four directions, so that the periphery of the component mounted on the first plate body 111 may be limited. First limiting plate 113 accessible angle steel is as the connecting piece in order to realize its effect of being connected with first board body 111, so can guarantee the joint strength of first limiting plate 113 and first board body 111 junction.
Specifically, the first limiting plate 113 may be connected to the first plate body 111 through a first angle steel 114, one end of the first angle steel 114 is attached to and fixed to the first plate body 111 (for example, welded or screwed), and the other end is fixedly connected to the first limiting plate 113 (for example, welded or screwed); or a slot is opened at one side of the first limiting plate 113 facing the first plate body 111, one end of the first angle steel 114 is attached to and fixed (for example, welded or screwed) to the first plate body 111, and the other end of the first angle steel can be inserted into the slot, so that the effect of connecting the first limiting plate 113 to the first plate body 111 can be achieved. With such an arrangement, when the other end of the first angle iron 114 is inserted into the slot, the first limiting plate 113 can be detached at any time, and it can be understood that, based on the scheme that the portion of the third bearing member 130 is located above the first bearing member 110, when a user mounts a component on the first bearing member 110, the operating space of the user is limited, so that the first limiting plate 113 can be detached in advance to increase the mounting operating space for mounting the component on the first plate body 111, thereby achieving the effect of facilitating the mounting of the component on the first plate body 111. Of course, in other embodiments, the first limiting plate 113 may also be directly connected to the first plate body 111 by screws, welding, or the like.
Further, as shown in fig. 1, a limiting frame 115 is disposed on the first reinforcing tube 112, and one end of the limiting frame 115 extends upward.
By providing the first reinforcing pipe 112 with the stopper frame 115, one end of the stopper frame 115 extends upward, so that the stopper frame 115 can also restrict the member mounted on the first plate body 111. Specifically, the limiting frame 115 may be formed by connecting a plurality of rod members, for example, the limiting frame 115 may include two rods 1151 connected to the first plate body 111 and two limiting rods 1152 connected to the rods 1151, one end of each rod 1151 is connected to the first reinforcing tube 112, and the other end of each rod 1151 extends in a direction away from the first plate body 111; two stopper rods 1152 are provided, one end of each stopper rod 1152 is connected to the other end of one rod 1151, and the other end of each stopper rod 1152 extends upward. The stopper rod 1152 has a stopper effect on a component mounted on the first plate body 111. Furthermore, the limiting frame 115 may further include a connecting rod 1153, and two ends of the connecting rod 1153 are respectively connected to the other ends of the two limiting rods 1152, so that the limiting frame 115 may have a handle function.
Further, as shown in fig. 1, a stopper plate 133 is connected to a lower end of the third plate body 131, and the stopper plate 133 extends upward.
With this arrangement, the stopper plate 133 can stop the component mounted on the third plate body 131, and prevent the component mounted on the third plate body 131 from slipping down. Specifically, the stopper plate 133 may be connected to the third plate body 131 by welding, or the stopper plate 133 may be integrally formed with the third plate body 131. In addition, the blocking plates 133 may be long, two long blocking plates 133 may be provided, and two blocking plates 133 are disposed at an interval and connected to the lower end of the third plate body 131, so that a gap is left between the two blocking plates 133, and a user can take and place the component on the third plate body 131 by passing a hand through the gap. Of course, in other embodiments, only one stopper plate 133 may be provided, and the stopper plate 133 is connected to the lower end of the third plate body 131.
In the present embodiment, as shown in fig. 1, the second carrier 120 includes a connecting plate 121 and a second stopper plate 122; the second bearing surface is a connecting plate 121, and one end of the connecting plate 121 is connected with the first plate body 111; the other end extends in a direction away from the first plate body 111; the connecting plate 121 and the first plate body 111 are arranged on the same plane; the second limiting plate 122 is connected to the connecting plate 121 and extends upward.
So set up, then connecting plate 121 can play the effect of supporting equipment part, and second limiting plate 122 can play spacing effect to equipment part, reduces the risk that equipment part falls from connecting plate 121.
Further, as shown in fig. 1, two connecting plates 121 are provided, and the two connecting plates 121 are arranged at intervals; each connecting plate 121 is connected to a second limiting plate 122, and the plate surfaces of the two first limiting plates 113 are arranged oppositely.
By arranging two connecting plates 121 arranged at intervals, the pressure of the components on the connecting plates 121 can be balanced; each connecting plate 121 is connected to a second limiting plate 122, and the surfaces of the two first limiting plates 113 are arranged oppositely, so that the device component is better limited in the connecting line direction of the two limiting plates 122.
Further, as shown in fig. 1, a second reinforcing pipe 123 is further disposed below the connecting plate 121, and the second reinforcing pipe 123 is connected to the first reinforcing pipe 112.
So set up, then second reinforced pipe 123 has better supporting effect to connecting plate 121, avoids connecting plate 121 to keep away from the direction of first board body 111 bending deformation after the pressurized to the compressive strength of connecting plate 121 has been improved.
Further, referring to fig. 1 and 3 in combination, the third reinforcing tube 132 includes an extension tube 1321; the extending direction of the extension pipe 1321 coincides with the extending direction of the third plate body 131; the extension pipe 1321 is provided with two and connected to two opposite sides of the third plate body 131; the upper end of the extension pipe 1321 is also connected with a handle 150.
With this arrangement, a user can carry the support 100 and the first-aid ventilator components disposed on the support 100 by lifting the handle 150. Specifically, the handle 150 may be fixedly attached to the extension tube 1321, or may be hingedly or slidably disposed on the extension tube 1321. For example, when the handle 150 is hinged to the extension pipe 1321, the handle 150 can rotate relative to the extension pipe 1321, and the handle 150 can be rotated to a space between the first carrier 110 and the third carrier 130 when the rack 100 is not lifted, so that the occupied space of the rack can be reduced. When the handle 150 is slidably disposed on the extension tube 1321, the handle 150 can slide along the length direction of the extension tube 1321, and further the handle 150 can slide to the lower limit position when not lifted, so that the occupied space of the whole support 100 can be reduced.
Further, as shown in fig. 1, the handle 150 includes at least two support pipes 151 and a connection pipe 152, and each support pipe 151 of the at least two support pipes 151 has one end connected to an upper end of the extension pipe 1321 and the other end extending in a direction away from the first plate body 111; both ends of the connection pipe 152 are respectively connected to ends of the two support pipes 151 facing away from the first plate body 111. By such arrangement, the handle 150 has enough holding space, so that a user can hold the handle 150 conveniently, and the carrying is convenient. Specifically, the connection tube 152 of the handle 150 may be further wrapped with a buffer cotton 153, so that when the user carries the handle 150, the hand injury degree of the user caused by the connection tube 152 can be reduced.
Further, as shown in fig. 3, an end of the support tube 151 facing away from the first plate body 111 is disposed opposite to the third plate body 131.
So configured, on the one hand, the user can conveniently lift the bracket 100; on the other hand, the support tube 151 has a limit function for the components mounted on the third plate body 131 to prevent the components from slipping out from the upper end of the third plate body 131.
Further, referring to fig. 1 and 3, the third reinforcing tube 132 further includes a horizontal tube 1322, and two ends of the horizontal tube 1322 are respectively connected to the upper ends of the two extending tubes 1321; the horizontal pipe 1322 is also provided with a hook 140, and part of the horizontal pipe 1322 is sunken and bent downwards to form a bent part 1323; the bent portion 1323 is disposed opposite to the hook 140 and forms a mounting space.
By providing the hook 140 on the cross tube 1322, the bracket 100 can be hung on an ambulance or an emergency cot by the hook 140, thereby preventing a special person from lifting the bracket 100. And through the relative setting of kink 1323 and couple 140 and formation carry space, then can make when support 100 hangs on pole or board, the pole or the board that is hooked by couple 140 is located to hang in the space and can be spacing by kink 1323, avoids support 100 to slide and rotate relative pole or board to it is more stable when making support 100 hang on pole or board.
Specifically, in order to avoid the interference phenomenon between the rod or the plate and the third plate body 131 when the bracket 100 is hung on the rod or the plate, the hook 140 in the technical solution of the present invention includes a mounting section 141 and a connecting section 142, one end of the mounting section 141 is connected to the horizontal pipe 1322, and the other end extends in a direction away from the third plate body 131; one end of the connection section 142 is connected to the end of the installation section 141 extending in the direction away from the third plate body 131, and the other end extends downward, so that the connection section 142, the installation section 141, and the bent portion 1323 together enclose a mounting space.
The present invention further provides a first-aid respirator assembly, please refer to fig. 2 and fig. 3 in combination, the first-aid respirator assembly includes a main machine 200, an accessory bag 300, an oxygen cylinder 400 and a bracket 100, the specific structure of the bracket 100 refers to the above embodiments, and since the first-aid respirator assembly adopts all technical solutions of all the above embodiments, the first-aid respirator assembly at least has all the beneficial effects brought by the technical solutions of the above embodiments, and details are not repeated herein. The host 200 is mounted on the third carrier 130, the accessory bag 300 is mounted on the second carrier 120, and the oxygen cylinder 400 is mounted on the first carrier 110.
By mounting the mainframe 200 to the third carrier 130, which is located above, it is convenient for the physician to monitor the data on the mainframe 200 to further monitor the condition of the patient. The accessory bag 300 and oxygen cylinder 400 are mounted to the second carrier 120 and the first carrier 110, respectively, which achieves the effect of mounting the other modules in the emergency breathing assembly to the support 100.
Of course, in other embodiments, the accessory bag 300 may also be mounted to the first carrier 110 and the oxygen cylinder 400 mounted to the second carrier 120.
The above description is only an alternative embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the technical solutions of the present invention that are made by using the contents of the specification and the drawings or directly/indirectly applied to other related technical fields are included in the scope of the present invention.