CN208924153U - Pull-out mechanism for photovoltaic module plate - Google Patents

Abstract

The utility model discloses a kind of pull-out mechanisms for photovoltaic module plate, including level-one sliding rail and second level sliding rail；Level-one sliding rail includes the first scalable sliding rail for being mounted in storage device, and the first changeover mechanism for installation photovoltaic component plate；First changeover mechanism is mounted on the first scalable sliding rail, and is unfolded and is withdrawn with respect to storage device by the first scalable sliding rail；The second level sliding rail includes the second scalable sliding rail for being mounted on the first changeover mechanism, and the second changeover mechanism for installation photovoltaic component plate；Second changeover mechanism is mounted on the described second scalable sliding rail, and is unfolded and is withdrawn with respect to the first changeover mechanism by the second scalable sliding rail.The mechanism of the utility model is applied in the installation of photovoltaic module plate, without complicated each part of assembling, only the first changeover mechanism for being equipped with photovoltaic module plate and the second changeover mechanism need to successively be pulled out, be very suitable for the emergency relief project of the open air such as field, isolated island.

Description

Pull-out mechanism for photovoltaic module plate

Technical field

The utility model relates to a kind of pull-out mechanisms for photovoltaic module plate, belong to photovoltaic technology field.

Background technique

Photovoltaic power generation is a kind of technology that luminous energy is directly changed into electric energy using semiconductor photovoltaic effect.Photovoltaic hair Electricity is widely used in a variety of occasions because of cleanliness without any pollution.The application of photovoltaic power generation has fixed and tracking mode, wherein again with fixation Formula is as most common, most mature application form.However, no matter stationary applications or tracking mode application, it is necessary to be fixed on A certain occasion can not move, and to landform, climate requirements are higher, can not generally be applicable in.No matter stationary applications or tracking mode Using, it is necessary to including photovoltaic module, bracket, cement base etc., corresponding photovoltaic bracket is then designed, is fixed with cement base It prevents from being turned over by strong wind.Then there is a common drawback in such structure, i.e., can not flexible arrangement.Using the fixed light of cement base Component is lied prostrate, once sizing, can not adjust position again substantially.For there is the place of emergency requirement electricity consumption, even if bracket and photovoltaic group Part can also remove, but to that a large amount of human and material resources must be spent to install behind scene, waste valuable time.

The photovoltaic application installation at scene is first to transport the auxiliary facilities such as component and bracket to scene, then could pacify component On bracket, and firm banking, such photovoltaic application is typically only capable to carry out in the good place of design planning, at some families Outside, in emergency relief project, cannot meet, furthermore outdoor, emergency relief scene is frequently not flat, open soil, Common photovoltaic module will be unable to apply in distinguishingly type.

Utility model content

The technical problem to be solved by the utility model is to overcoming the deficiencies of the prior art and provide a kind of for photovoltaic group The pull-out mechanism of part plate, can not flexible installation question with solve photovoltaic module plate.

In order to solve the above-mentioned technical problem, the technical solution of the utility model is: a kind of pull for photovoltaic module plate Mechanism, including level-one sliding rail and second level sliding rail；

The level-one sliding rail includes the first scalable sliding rail for being mounted in storage device, and for installing photovoltaic First changeover mechanism of component palette；First changeover mechanism is mounted on the first scalable sliding rail, and scalable by first Sliding rail is unfolded and withdraws with respect to storage device；

The second level sliding rail includes the second scalable sliding rail for being mounted on the first changeover mechanism, and for installing Second changeover mechanism of photovoltaic module plate；Second changeover mechanism is mounted on the described second scalable sliding rail, and passes through the Two scalable sliding rails are unfolded and withdraw with respect to the first changeover mechanism.

Further, the described first scalable sliding rail includes the first mounting rail, the first girder and the first load curb girder, and described the For one mounting rail for being fixedly connected on the inside of storage device, the lateral wall of first girder is equipped with guide rail, the first mounting rail It is mounted on can slide back and forth on the first girder upper rail, load side rails is provided on the inner sidewall of the first girder, first is negative It carries curb girder to be mounted on the load side rails, and can be slid back and forth along load side rails, first changeover mechanism and first Load curb girder is fixedly connected.

Further, the front end of the track ligand of first mounting rail is provided with convex block, in the institute of first girder The rear end for stating guide rail is provided with limited block for preventing the first girder from slipping from the first mounting rail, the limit on the first girder Position block is stuck on the convex block of the first mounting rail, and the first girder pull is in place.

Further, the front end of the load side rails on the inside of the first girder is equipped with convex block, the rear end of the first load curb girder Equipped with the limited block for preventing the first load curb girder from slipping from the first girder, when the limited block on the first load curb girder is stuck in On the convex block for loading side rails, the first load curb girder pull is in place.

Further, the described second scalable sliding rail includes the second mounting rail, the second girder and the second load curb girder, and described the Two mounting rails are mounted on the inner sidewall of the first changeover mechanism in which can slide back and forth, the lateral wall of second girder and the second peace Dress beam is fixedly connected, and load side rails are provided on the inner sidewall of the second girder, and the second load curb girder is mounted on the second girder The load side rails on, and can be slid back and forth along the load side rails, second changeover mechanism is fixedly connected on second Load the inside of curb girder.

Further, the front end of the load side rails on second girder is equipped with convex block, after described second loads curb girder End is equipped with limited block, on the convex block of load side rails that the limited block of the second load curb girder is stuck in the second girder, the second load Curb girder pull is in place.

After above-mentioned technical proposal, the utility model has the following beneficial effects:

1) first changeover mechanism of the utility model is pulled out from storage device under the drive of the first scalable sliding rail Come, in turn, the second changeover mechanism is pulled out from the first changeover mechanism under the drive of the second scalable sliding rail to be come, will be originally practical Novel mechanism is applied in the installation of photovoltaic module plate, without complicated each part of assembling, need to will only be equipped with photovoltaic module The first changeover mechanism and the second changeover mechanism of plate successively pull out, and are very suitable for promptly rescuing for the open air such as field, isolated island Help the long-term power supply in project.

2) the second of the utility model the scalable sliding rail drives the second changeover mechanism that can be retracted to the first changeover mechanism completely Inside, the first changeover mechanism are driven when withdrawing by the first scalable sliding rail, the first changeover mechanism and be recycled to its internal two Grade sliding rail can be retracted in storage device completely under the drive of the first scalable sliding rail.Using the light of the mechanism of the utility model It is very convenient to lie prostrate component palette disassembly, moreover, under receiving state, convenient transportation.

3) in the utility model, the first scalable sliding rail and the second scalable sliding rail are all made of mounting rail, girder and load The structure that the multistage sliding beam of curb girder composition stretches in succession, can guarantee there is foot in the first changeover mechanism and the second changeover mechanism Under conditions of enough space developments, the volume of receiving state is minimized.

4) in the utility model, changeover mechanism is not slidably fitted on girder directly, but is fixedly connected with a load curb girder, It is slidably fitted on the load side rails on girder by loading curb girder, the purpose of setting load curb girder is to increase girder to negative The load-bearing capacity of load.

Detailed description of the invention

Fig. 1 is the state diagram that the level-one sliding rail, second level sliding rail of the utility model are fully deployed；

Fig. 2 is the partial enlarged view of the second level sliding rail of the utility model；

Fig. 3 is the state diagram of the level-one sliding rail expansion of the utility model, the storage of second level sliding rail；

Fig. 4 is the state diagram that the level-one sliding rail, second level sliding rail of the utility model are stored completely；

Fig. 5 is the portion the E enlarged drawing of Fig. 4.

Specific embodiment

In order to make the content of the utility model be easier to be clearly understood, below according to specific embodiment and combine attached Figure, is described in further detail the utility model.

Unless not defining, the technical term or scientific term used herein is should be in the utility model fields The ordinary meaning that personage with general technical ability is understood.Used in the utility model patent specification and claims " first ", " second " and similar word are not offered as any sequence, quantity or importance, and are used only to distinguish different Component part.Equally, the similar word such as "one" or " one " does not indicate that quantity limits yet, but indicates there is at least one It is a.

As shown in Figures 1 to 5, a kind of pull-out mechanism for photovoltaic module plate, is adapted to mount in storage device, is used for Installation and support photovoltaic module plate, and the photovoltaic module plate installed thereon is retracted in storage device.Storage device can be Cabinet, cabinet body etc. with storage function.This pull-out mechanism for being used for photovoltaic module plate includes level-one sliding rail and second level sliding rail.Its Middle second level sliding rail is stored to level-one sliding rail completely.

The level-one sliding rail includes the first scalable sliding rail for being mounted in storage device, and for installing photovoltaic First changeover mechanism 4 of component palette；First changeover mechanism 4 is mounted on the first scalable sliding rail, and can be stretched by first Contracting sliding rail is unfolded and withdraws with respect to storage device.The first scalable sliding rail expansion drives the first changeover mechanism 4 and installs thereon Photovoltaic module plate is pulled out from storage device to be come；Second scalable sliding rail is withdrawn, and is driven the first changeover mechanism 4 and is pacified thereon The photovoltaic module plate of dress is retracted in storage device.

The second level sliding rail includes the second scalable sliding rail for being mounted on the first changeover mechanism 4, and for pacifying Fill the second changeover mechanism 8 of photovoltaic module plate；Second changeover mechanism 8 is mounted on the described second scalable sliding rail, and is led to The second scalable sliding rail is crossed to be unfolded and withdraw with respect to the first changeover mechanism 4.Second scalable sliding rail expansion, drives the second switching machine Structure 8 and the photovoltaic module plate installed thereon are pulled out from the first changeover mechanism to be come；Second scalable sliding rail is withdrawn, and drives second Changeover mechanism 8 and the photovoltaic module plate installed thereon are retracted in the first changeover mechanism 4.There is foot inside first changeover mechanism 4 Enough spaces, it is sufficient to allow second level slide track telescopic freely.

First changeover mechanism 4 of the utility model is pulled out from storage device under the drive of the first scalable sliding rail Come, in turn, the second changeover mechanism 4 is pulled out from the first changeover mechanism under the drive of the second scalable sliding rail to be come, by this reality It is applied with novel mechanism in the installation of photovoltaic module plate, without complicated each part of assembling, photovoltaic group need to will be only installed The first changeover mechanism 4 and the second changeover mechanism 8 of part plate successively pull out, and are very suitable for the tight of the open air such as field, isolated island The long-term power supply in project is helped in first aid.When the utility model and photovoltaic module plate are installed, the bottom of the second changeover mechanism 8 Installation photovoltaic component plate, the two sides installation photovoltaic component plate of the first changeover mechanism guarantee first turn so in this way, in storage The photovoltaic module plate of 4 two sides of connection mechanism is located at the two sides of the photovoltaic module plate of 8 bottom of the second changeover mechanism, two groups of photovoltaic module plates It does not influence mutually, the volume after making storage is minimum.

The scalable sliding rail of the second of the utility model drives the second changeover mechanism 8 that can be retracted to the first changeover mechanism 4 completely Inside, the first changeover mechanism 4 are driven when withdrawing by the first scalable sliding rail, the first changeover mechanism 4 and to be recycled to it internal Second level sliding rail can be retracted in storage device completely under the drive of the first scalable sliding rail.Using the mechanism of the utility model The disassembly of photovoltaic module plate is very convenient, moreover, under receiving state, convenient transportation.

Fig. 1 shows the specific structure of the first scalable sliding rail.The first scalable sliding rail include the first mounting rail 1, First girder 2 and the first load curb girder 3, for first mounting rail 1 for being fixedly connected on the inside of storage device, described first is main The lateral wall of beam 2 is equipped with guide rail, and the first mounting rail 1 is mounted on 2 upper rail of the first girder in which can slide back and forth, the first installation The inner sidewall of beam 1 is equipped with track ligand, and the first mounting rail 1 is mounted on the guide rail of the first girder 2 by track ligand thereon On, also, the first girder can be slid back and forth by the cooperation of guide rail and track ligand with respect to the first mounting rail.First girder 2 Load side rails 9 are provided on inner sidewall, the first load curb girder 3 is mounted on the load side rails 9, and can be led along load-side Rail 9 slides back and forth, and first changeover mechanism 4 is fixedly connected with the first load curb girder 3.In the present embodiment, the first scalable cunning The structure that rail is stretched in succession using multistage sliding beam, can be in the item for guaranteeing that the first changeover mechanism 4 has enough space developments Under part, the volume of receiving state is minimized.

First changeover mechanism 4 is not slidably fitted in directly on the first girder 2, but is fixedly connected with one first load curb girder 3, It is slidably fitted on the load side rails 9 on the first girder 2 by the first load curb girder 3, setting the first load curb girder 3 is used for Increase the load-bearing capacity of 6 pairs of the second girder loads.

The front end of the track ligand of first mounting rail 1 is provided with convex block 1-1, described in first girder 2 The rear end of guide rail is provided with the limited block 10 for preventing the first girder 2 from slipping from the first mounting rail 1, when on the first girder 2 Limited block 10 be stuck on the convex block 1-1 of the first mounting rail 1, in place, Fig. 1 shows 2 pull of the first girder to 2 pull of the first girder State in place.Limited block 10 is set on the first girder 2, and convex block 1-1 is set on the first mounting rail 1, can be prevented First girder 2 is slipped from the first mounting rail 1.Convex block 1-1 on first mounting rail 1 can also use limited block 10.This implementation In example, the limited block 10 on the first girder 2 is decorative pearl on top of an official cap limited block.Convex block 1-1 on the first mounting rail 1 is also decorative pearl on top of an official cap limit Block.

The front end of the load side rails 9 of first girder, 2 inside is equipped with convex block, and the rear end of the first load curb girder 3 is equipped with Limited block 10 for preventing the first load curb girder 3 from slipping from the first girder 2, the limited block 10 on the first load curb girder 3 It is stuck on the convex block of load side rails 9, the first load 3 pull of curb girder is in place.On the load side rails 9 of first girder, 2 inside Convex block can also use limited block 10.In the present embodiment, the limited block on the first load curb girder 3 is decorative pearl on top of an official cap limited block.First is main Convex block on the load side rails 9 of 2 inside of beam is also decorative pearl on top of an official cap limited block.

Fig. 2 shows the specific structures of the second scalable sliding rail.The second scalable sliding rail include the second mounting rail 5, Second girder 6 and the second load curb girder 7, second mounting rail 5 are mounted on the interior of the first changeover mechanism 4 in which can slide back and forth On side wall, settable guide rail on the inner sidewall of the first changeover mechanism 4, the second mounting rail 5 is mounted on guide rail, and before and after guide rail Sliding.Guide rail can be dovetail guide, then the second mounting rail 5 is equipped with corresponding dovetail groove, it is sliding by dovetail groove thereon Dynamic cooperation is on the dovetail guide on the first changeover mechanism 4.

The lateral wall of second girder 6 is fixedly connected with the second mounting rail 5, is provided on the inner sidewall of the second girder 6 Side rails 9 are loaded, the second load curb girder 7 is mounted on the load side rails 9 on the second girder 6, and can be along the load-side Guide rail 9 slides back and forth, and second changeover mechanism 8 is fixedly connected on the inside of the second load curb girder 7.In the present embodiment, second The structure that scalable sliding rail is stretched in succession using multistage sliding beam can have enough spaces guaranteeing the second changeover mechanism 8 Under conditions of expansion, the volume of receiving state is minimized.

Second changeover mechanism 8 is not slidably fitted in directly on the second girder 6, but is fixedly connected with one second load curb girder 7, It is slidably fitted on the load side rails 9 on the second girder 6 by the second load curb girder 7, setting the second load curb girder 7 is used for Increase the load-bearing capacity of 6 pairs of the second girder loads.

The front end of load side rails 9 on second girder 6 is equipped with convex block, and the rear end of the second load curb girder 7 is set There is limited block, on the convex block of load side rails 9 that the limited block of the second load curb girder 7 is stuck in the second girder 6, the second load-side 7 pull of beam is in place.The convex block on load side rails 9 on second girder 6 can use limited block 11.In the present embodiment, second The limited block 11 loaded on curb girder 7 uses rectangular limited block, likewise, the convex block on the load side rails 9 on the second girder 6 Using rectangular limited block.

Mounting hole is provided on second changeover mechanism 8 and the second girder 6.The mounting hole of second changeover mechanism 8 is arranged in Between, photovoltaic module plate is by hinge, cushion block and is mounted on the mounting hole of the second rail changeover mechanism 8.When in receiving state, light Volt component palette is vertically accommodated in the underface of the second changeover mechanism 8.

First changeover mechanism 4 is provided with mounting hole in side wall, and photovoltaic module is mounted on the upper of the first changeover mechanism 4 by hinge It states on mounting hole.When in receiving state, photovoltaic module plate is located at the lower section of the side wall of the first changeover mechanism 4, to make second The photovoltaic module plate installed on changeover mechanism 8 can be accommodated in completely inside the first changeover mechanism 4, pacified on the second changeover mechanism 4 The photovoltaic module plate of dress is located at two sides, does not have an impact to the storage of the second changeover mechanism 4 to storage device.Second level sliding rail is whole After the completion of storage, the structure of lamination storage is formed, as shown in the figure.

In order to increase the stability of present apparatus installation, first changeover mechanism 4 and the second changeover mechanism 8 are mounted on Pull ring can use steel wire penetrating pull ring, be fixed on ground when level-one sliding rail and second level sliding rail pull open, and photovoltaic module plate is unfolded On ground hook on so that overall structure is more stable, do not influenced by extraneous wind.

The environmental suitability of the pull-out mechanism for photovoltaic module plate of the utility model is strong, can be used for from coastal to dagger-axe Wall, each operating condition at -30 DEG C -60 DEG C.The utility model is designed using slide rail type, can be greatly reduced in transportational process and be occupied Volume, level-one sliding rail and second level sliding rail front-back can arrange photovoltaic module plate, maximally utilize photovoltaic module power generation.Sliding rail It can fix and be accommodated in storage device, once assembling, can quickly be arranged by storage device, especially suitable for being badly in need of electricity consumption Occasion, and not by landform, the limitation of environment.The utility model cooperates photovoltaic module plate to use, and is particularly suitable for application to field, orphan Long-term power supply on island.

Particular embodiments described above, to the utility model solve the technical issues of, technical scheme and beneficial effects into It has gone further description, it should be understood that the foregoing is merely specific embodiment of the utility model, and has not had to In limitation the utility model, within the spirit and principle of the utility model, any modification, equivalent substitution and improvement done Deng should be included within the scope of protection of this utility model.

Claims (6)

1. a kind of pull-out mechanism for photovoltaic module plate, it is characterised in that: including level-one sliding rail and second level sliding rail；

The level-one sliding rail includes the first scalable sliding rail for being mounted in storage device, and is used for installation photovoltaic component The first changeover mechanism (4) of plate；First changeover mechanism (4) is mounted on the first scalable sliding rail, and can stretch by first Contracting sliding rail is unfolded and withdraws with respect to storage device；

The second level sliding rail includes the second scalable sliding rail for being mounted on the first changeover mechanism (4), and for installing The second changeover mechanism (8) of photovoltaic module plate；Second changeover mechanism (8) is mounted on the described second scalable sliding rail, and It is unfolded and withdraws with respect to the first changeover mechanism (4) by the second scalable sliding rail.

2. the pull-out mechanism according to claim 1 for photovoltaic module plate, it is characterised in that: the first scalable cunning Rail includes the first mounting rail (1), the first girder (2) and the first load curb girder (3), and first mounting rail (1) connects for fixed It connects on the inside of storage device, the lateral wall of first girder (2) is equipped with guide rail (2-1), and the first mounting rail (1) can front and back cunning It is mounted on the first girder (2) upper rail (2-1) dynamicly, load side rails (9) is provided on the inner sidewall of the first girder (2), First load curb girder (3) is mounted on the load side rails (9), and can be slid back and forth along load side rails (9), described first Changeover mechanism (4) is fixedly connected with the first load curb girder (3).

3. the pull-out mechanism according to claim 2 for photovoltaic module plate, it is characterised in that: in first mounting rail (1) front end is provided with convex block (1-1), is provided in the rear end of the guide rail (2-1) of first girder (2) for preventing The limited block (10) that first girder (2) is slipped from the first mounting rail (1), when the limited block (10) on the first girder (2) is stuck in On the convex block (1-1) of first mounting rail (1), the first girder (2) pull is in place.

4. the pull-out mechanism according to claim 3 for photovoltaic module plate, it is characterised in that: on the inside of the first girder (2) Load side rails (9) front end be equipped with convex block, it is described first load curb girder (3) rear end be equipped with for preventing the first load-side The limited block (10) that beam (3) is slipped from the first girder (2), when the limited block (10) in the first load curb girder (3) is stuck in load On the convex block of side rails (9), first load curb girder (3) pull is in place.

5. the pull-out mechanism according to claim 2 for photovoltaic module plate, it is characterised in that: the second scalable cunning Rail includes that the second mounting rail (5), the second girder (6) and the second load curb girder (7), second mounting rail (5) can slide back and forth Ground is mounted on the inner sidewall of the first changeover mechanism (4), and the lateral wall and the second mounting rail (5) of second girder (6) are fixed It connects, load side rails (9) is provided on the inner sidewall of the second girder (6), the second load curb girder (7) is mounted on the second girder (6) it on the load side rails (9) on, and can be slid back and forth along the load side rails (9), second changeover mechanism (8) It is fixedly connected on the inside of the second load curb girder (7).

6. the pull-out mechanism according to claim 5 for photovoltaic module plate, it is characterised in that: second girder (6) On the front ends of load side rails (9) be equipped with convex block, the rear end of second load curb girder (7) is equipped with limited block, when second negative The limited block for carrying curb girder (7) is stuck on the convex block of load side rails (9) of the second girder (6), and second load curb girder (7) pull arrives Position.