CN207442740U - A kind of against shock solar cell module stent - Google Patents

Abstract

The utility model is related to solar cell protection technology fields, specially a kind of against shock solar cell module stent, including stent, scissors damping, damped platform, spring fastening and monoblock type rolling bearing, wherein scissors damping is used to carry out bumper and absorbing shock to bracket end, damped platform is used to carry out solar cell multivariant bumper and absorbing shock, and spring fastening is used to carry out two level damping to solar cell.The utility model is depressurized by scissors damping to acting on the active force on stent into row buffering; bracket end is avoided because the vibrations that external environment reason generates are directly transferred at solar cell; direct buffer protection is carried out to solar cell mounted thereto by damped platform; since multivariant buffering can be carried out; and then it avoids multi-faceted impact and causes the situation of cell damage; two level damping is carried out by spring fastening; so that vibrations are gradually reduced during transmission, and then add present apparatus shockproof properties.

Description

A kind of against shock solar cell module stent

Technical field

The utility model is related to solar cell protection technology fields, are specially a kind of against shock solar cell module branch Frame.

Background technology

Current international energy situation is relatively severe, and each state can all replace the new energy of conventional fossil energy in strongly searching Source.In addition the security of nuclear energy power generation allows people to query, and wind-energy water is larger by region and seasonal effect, however solar energy is used as and takes Not to the utmost, inexhaustible clean energy resource is concerned and is used.With global large-scale ground, roof solar photovoltaic system System is widely popularized and applies, and solar energy power generating becomes one of essential power generation source in supply of electric power, simultaneously In order to ensure reliable, the safe and stable operation of photovoltaic component system, must be requested that all parts of solar components have good The performances such as wind resistance well, anti-crushing by snow, corrosion-resistant.

The solar electric power supply system supporting mechanism for the antidetonation that utility model patent Publication No. CN106411234A is provided, bag It includes：Two fixed-hinged supports are fixedly installed on solar panel bottom close to intermediate position；The upper and lower end branch of spring Seat is respectively arranged at the upper end and lower end of solar panel；Spring upper end bearing includes upper holder block, upper compression Pillar and upper spring, upper holder block are fixed on roof, between upper spring connection upper holder block and solar panel；Upper compression strut It is cylindric or prism devices support structures made of compressible rubber with lower compression strut；Further include at least two groups of X fonts Telescope support alternately near fixed-hinged support, stretches with the swing of solar panel.X fonts are stretched in this device Contracting stent is supported solar cell module, and the structure that connecting rod is connected is used to carry out damping when receiving vibrations in it Portion can not be into row buffering, and then vibrations can not quickly be eliminated and its damping direction is along vertical battery component Direction carries out, and damping multi-faceted can not be carried out to solar cell module, and damping effect unobvious can not adapt to the outer of complexity Boundary's environment.

Utility model patent Publication No. CN202855753U discloses a kind of solar photovoltaic assembly mounting support structure, The solar photovoltaic assembly mounting support structure, it is described including crossbeam and several support posts positioned at the below the crossbeam The end that support post corresponds to neighbouring crossbeam is cased with the attachment cap being fastenedly connected, and the attachment cap is equipped with connector sleeve, the company Female connector can be sleeved on crossbeam, and is matched with the shape of crossbeam, and attachment cap is fastenedly connected by connector sleeve and crossbeam；It is set on crossbeam There are several buttons that are located by connecting for being used to fix solar panel, the both sides of the button that is located by connecting, which are set, allows solar cell The positioning support slot that plate side is set.This device carries out antidetonation only with the method for reinforcing, in face of larger jerk Shi Wufa is eliminated, and then the work that battery can not be protected to stablize.

Utility model content

The purpose of this utility model is to provide a kind of against shock solar cell module stent, to solve above-mentioned background skill The problem of being proposed in art.

To achieve the above object, the utility model provides following technical solution：

A kind of against shock solar cell module stent, including stent, scissors damping, damped platform, spring fastening With monoblock type rolling bearing, wherein：

Four scissors dampings are respectively and fixedly installed in the support leg of stent, and scissors damping includes support Plate, sliding block, buffer spring I and transmission arm, the support plate are equipped with two guide rails, the activity peace respectively of the guide rail in the support plate Equipped with a sliding block, the both ends of two transmission arms are rotated respectively by the sliding block to oppose on axis pin and two support plates to be connected It connects, four buffer springs I are separately mounted in guide rail；

Damped platform, including shock bracket, shaft, rope, torsional spring, damping and battery support plate, the damping branch Frame one end is rotatably installed on two monoblock type rolling bearings, and wherein shock bracket has an inclination angle with stent, and the shaft passes through Bearing is rack-mount, at least there are two rope one end is solidly set in shaft, the other end is fixedly connected with shock bracket, two The torsional spring is set in the both ends of shaft, and the battery support plate is movably arranged on by four dampings in shock bracket, with And；

Damping includes static housing, buffer spring II, guide groove, movable plate, buffer spring III and gas spring, described Static housing is fixedly mounted in shock bracket, and the guide groove is movably arranged on inside static housing, and end face is slow by four It rushes spring II to be flexibly connected with static housing, the movable plate is movably arranged in guide groove, described III one end of buffer spring and work Movable plate is fixedly connected, the other end is fixedly connected with guide groove inner wall, described gas spring one end is hinged on movable plate, the other end with Battery support plate is fixedly connected.

Preferably, it is flexibly connected between two transmission arms by axis pin, described I one end of buffer spring is fixed with sliding block Connection, the other end are fixedly connected with guide rail inner wall.

Preferably, one end of the torsional spring is extended in stent, the other end is extended in shaft.

Preferably, two spring fastenings are fixedly mounted on stent.

Preferably, two monoblock type rolling bearings are respectively and fixedly installed on spring fastening.

Compared with prior art, the beneficial effects of the utility model are：

1. the utility model is depressurized by scissors damping to acting on the active force on stent into row buffering, avoid Bracket end is directly transferred to because of the vibrations that external environment reason generates at solar cell.

2. the utility model carries out direct buffer protection by damped platform to solar cell mounted thereto, by In multivariant buffering can be carried out, and then avoid multi-faceted vibrations and cause the situation of cell damage.

3. the utility model carries out two level damping by spring fastening so that it shakes and is gradually reduced during transmission, And then add present apparatus shockproof properties.

Description of the drawings

Fig. 1 is the utility model overall structure schematic three dimensional views；

Fig. 2 is the utility model damped platform top view；

Fig. 3 is the utility model scissors damping schematic three dimensional views；

Fig. 4 is the utility model damping schematic three dimensional views；

Fig. 5 is the utility model guide groove schematic three dimensional views；

Fig. 6 is the utility model torsional spring schematic three dimensional views.

In figure：1 stent, 2 scissors dampings, 3 damped platforms, 4 spring fastenings, 5 monoblock type rolling bearings, 21 supports Plate, 22 sliding blocks, 23 buffer springs I, 24 transmission arms, 211 guide rails, 31 shock brackets, 32 shafts, 33 ropes, 34 torsional springs, 35 dampings Mechanism, 36 battery support plates, 351 static housings, 352 buffer springs II, 353 guide grooves, 354 movable plates, 355 buffer springs III, 356 Gas spring.

Specific embodiment

The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out It clearly and completely describes, it is clear that the described embodiments are only a part of the embodiments of the utility model rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are without making creative work All other embodiments obtained shall fall within the protection scope of the present invention.

Embodiment：

It please refers to Fig.1 to Fig. 6, the utility model provides a kind of technical solution：

A kind of against shock solar cell module stent, including stent 1, scissors damping 2, damped platform 3, spring branch Seat 4 and monoblock type rolling bearing 5, wherein：

Four scissors dampings 2 are respectively and fixedly installed in the support leg of stent 1, and scissors damping 2 includes support Plate 21, sliding block 22, buffer spring I 23 and transmission arm 24, support plate 21 are equipped with two guide rails 211, the guide rail 211 in support plate 21 A sliding block 22 is movably installed with respectively, is flexibly connected between two transmission arms 24 by axis pin, the both ends point of two transmission arms 24 It is not rotatablely connected by axis pin with the sliding block 22 to oppose in two support plates 21, four buffer springs I 23 are separately mounted to In guide rail 211, wherein I 23 one end of buffer spring is fixedly connected with sliding block 22, the other end is fixedly connected with the inner wall of guide rail 211；

Damped platform 3, including shock bracket 31, shaft 32, rope 33, torsional spring 34, damping 35 and battery support plate 36,31 one end of shock bracket is rotatably installed on two monoblock type rolling bearings 5, and wherein shock bracket 31 and stent 1 is inclined Angle is more than zero degree and is less than 90 degree, and shaft 32 is mounted on by bearing in stent 1, is at least solidly set on there are two 33 one end of rope In shaft 32, the other end be fixedly connected with shock bracket 31, two torsional springs 34 are set in the both ends of shaft 32, wherein torsional spring 34 One end is extended in stent 1, the other end is extended in shaft 32, and battery support plate 36 is movably arranged on by four dampings 35 In shock bracket 31, wherein damping 35 includes static housing 351, buffer spring II 352, guide groove 353, movable plate 354, slow Spring III 355 and gas spring 356 are rushed, static housing 351 is fixedly mounted in shock bracket 31, and guide groove 353 is movably arranged on Inside static housing 351, end face is flexibly connected by four buffer springs II 352 with static housing 351, and movable plate 354 is lived Dynamic to be mounted in guide groove 353, III 355 one end of buffer spring is fixedly connected with movable plate 354, the other end and 353 inner wall of guide groove are consolidated Fixed connection, 356 one end of gas spring is hinged on movable plate 354, the other end is fixedly connected with battery support plate 36.

Two spring fastenings 4 are fixedly mounted on stent 1.

Two monoblock type rolling bearings 5 are respectively and fixedly installed on spring fastening 4.

Present apparatus operation principle is：One end that four scissors dampings 2 are not installed at stent 1 is fixedly mounted on first In region to be installed, then solar cell is fixedly mounted on battery support plate 36, solar cell after installation is complete It is used.

When solar cell shakes with 1 parallel end of stent, battery support plate 36 presses against damping 35, and then damping Gas spring 356 in mechanism 35 is compressed into cylinder body generates cushion effect, and then gas spring 356 promotes movable plate 354 to compress Buffer spring III 355 generates cushion effect and guide groove 353 and can be moved in static housing 351, passes through four buffer springs II 352 pairs of guide grooves 353 generate cushion effects, in gas spring 356 and buffer spring II 352 and III 355 restoring force of buffer spring It acts on lower pair to swing in spring fastening 4 with 1 parallel end of stent progress bumper and absorbing shock and shock bracket 31, be put in spring fastening 4 The elastic force of spring weakens vibrations in dynamic process, since shock bracket 31 is swung so shock bracket 31 pulls rope Rope 33, and then rope 33 can be swung, and spring fastening 4 is enabled effectively to weaken vibrations during swing.

When solar cell and 1 vertical end of stent shake, battery support plate 36 presses against damping 35, and then damping Gas spring 356 in mechanism 35 compresses generation cushion effect into cylinder body and gas spring 356 promotes movable plate 354 to compress Buffer spring III 355 generates cushion effect, and the vibrations on battery support plate 36 at this time are weakened, and then shock bracket 31 pulls rope 33, since rope 33 is in shaft 32, so rope 33 pulls the rotation of the progress certain angle of shaft 32, due to shaft 32 A pair of of torsional spring 34 is equipped with so shaft 32 carries out reciprocal rotation, and then the vibrations on rope 33 are weakened, then four Two sliding blocks 22 being mounted in a support plate 21 in a scissors damping 2 to away from direction move, and then be mounted on Two buffer springs I 23 in bottom surface upper backup pad 21 are in tensional state, and two in 1 upper backup pad 21 of stent Buffer spring I 23 is in compressive state, and then the angle increase between two transmission arms 24, and two pieces of support plates 21 are mutually leaned at this time Closely, then two pieces of support plates 21 are located remotely from each other under the action of the restoring force of spring, and then pass through two pieces during vibrations Support plate 21 and two buffer springs I 23 weaken into row buffering, and then by the direction vibrations of vertical support frame 1, pass through dress Multi-faceted bumper and absorbing shock can be carried out by putting the cooperation of interior different dampings, cope with the vibrations of different condition generation.

While there has been shown and described that the embodiment of the utility model, for the ordinary skill in the art, It is appreciated that in the case where not departing from the principle of the utility model and spirit can these embodiments be carried out with a variety of variations, repaiied Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of against shock solar cell module stent, including stent (1), scissors damping (2), damped platform (3), bullet Spring bearing (4) and monoblock type rolling bearing (5), it is characterised in that：

Four scissors dampings (2) are respectively and fixedly installed in the support leg of stent (1), scissors damping (2) bag Support plate (21), sliding block (22), buffer spring I (23) and transmission arm (24) are included, the support plate (21) is equipped with two guide rails (211), the guide rail (211) on the support plate (21) is movably installed with a sliding block (22), two transmission arms (24) respectively Both ends pass through the sliding block (22) that opposes on axis pin and two support plates (21) respectively and be rotatablely connected, four buffering elastics Spring I (23) is separately mounted in guide rail (211)；

Damped platform (3), including shock bracket (31), shaft (32), rope (33), torsional spring (34), damping (35) and Battery support plate (36), described shock bracket (31) one end are rotatably installed on two monoblock type rolling bearings (5), wherein damping branch Frame (31) has an inclination angle with stent (1), and the shaft (32) is mounted on by bearing on stent (1), and at least there are two ropes (33) one end is solidly set in shaft (32), the other end is fixedly connected with shock bracket (31), and two torsional springs (34) are set in The both ends of shaft (32), the battery support plate (36) are movably arranged on by four dampings (35) in shock bracket (31), And；

Damping (35) includes static housing (351), buffer spring II (352), guide groove (353), movable plate (354), buffering Spring III (355) and gas spring (356), the static housing (351) are fixedly mounted in shock bracket (31), the guide groove (353) it is internal to be movably arranged on static housing (351), end face passes through four buffer springs II (352) and static housing (351) Flexible connection, the movable plate (354) are movably arranged in guide groove (353), described III (355) one end of buffer spring and movable plate (354) be fixedly connected, the other end is fixedly connected with guide groove (353) inner wall, described gas spring (356) one end is hinged on movable plate (354) on, the other end is fixedly connected with battery support plate (36).

2. a kind of against shock solar cell module stent according to claim 1, it is characterised in that：Two transmissions Arm is flexibly connected between (24) by axis pin, and described I (23) one end of buffer spring is fixedly connected with sliding block (22), the other end is with leading Rail (211) inner wall is fixedly connected.

3. a kind of against shock solar cell module stent according to claim 1, it is characterised in that：The torsional spring (34) One end extend in stent (1), the other end is extended in shaft (32).

4. a kind of against shock solar cell module stent according to claim 1, it is characterised in that：Two springs Bearing (4) is fixedly mounted on stent (1).

5. a kind of against shock solar cell module stent according to claim 1, it is characterised in that：Two entirety Formula rolling bearing (5) is respectively and fixedly installed on spring fastening (4).