CN107887463B - A kind of pre-splicing frame component pressurizing unit of photovoltaic - Google Patents

Abstract

The invention discloses a kind of pre-splicing frame component pressurizing units of photovoltaic, including pedestal, the two pairs of pressing arms of setting on the base, any pair of pressing arm is equipped with a fixed press arm and an activity pressing arm, and the activity pressing arm in two pairs of pressing arms is linked by transmission group zoarium.Under the driving of the transmission group zoarium, activity pressing arm simultaneously operation in two pairs of pressing arms, respectively from the pre-splicing frame component of photovoltaic axially and radially squeezed on pedestal, change the first status of the axial compression pre-splicing frame component of the photovoltaic pre-splicing frame component of radial compression photovoltaic again in the prior art, to improve extruding efficiency.

Description

A kind of pre-splicing frame component pressurizing unit of photovoltaic

Technical field

The present invention relates to energy technology fields, and in particular to heliotechnics.

Background technique

Application No. is the patents of 201120225752.X to be related to a kind of pre-splicing frame component pressurizing unit of photovoltaic, including The pressing arm of pedestal and setting on the base, pressing arm are four, constitute two pairs, first pair of pressing arm is right along the axial direction of pedestal Claim setting, second pair of pressing arm is arranged along the radial symmetric of pedestal, with reference to the attached drawing of above-mentioned patent application document.First pair of extruding Pressing arm fixed setting in arm, is set as the first fixed press arm, another pressing arm is driven by the first cylinder, is set as the One activity pressing arm；Pressing arm fixed setting in second pair of pressing arm, is set as the second fixed press arm, another extruding Arm is driven by the second cylinder, is set as the second activity pressing arm.

Summary of the invention

Technical problem solved by the invention: in the pre-splicing frame component pressurizing unit of photovoltaic, how to realize that first is living The mechanical linkage of dynamic pressing arm and the second activity pressing arm, to improve extruding efficiency.

In order to solve the above technical problems, the invention provides the following technical scheme: a kind of pre-splicing frame component of photovoltaic squeezes Pressure device, including pedestal, the two pairs of pressing arms of setting on the base, any pair of pressing arm is equipped with a fixed press arm and one Activity pressing arm, the activity pressing arm in two pairs of pressing arms are linked by transmission group zoarium.

Under the driving of the transmission group zoarium, the activity pressing arm in two pairs of pressing arms is moved at the same time, respectively from axial direction With the pre-splicing frame component of photovoltaic on radial compression pedestal, first axial compression photovoltaic is pre-splicing in the prior art for change The status of the frame component pre-splicing frame component of radial compression photovoltaic again, to improve extruding efficiency.

The transmission group is fit, including plate-like base, the rotating cylinder being articulated on plate-like base, is articulated on plate-like base And it is located at the rotary shaft in rotating cylinder；

The inner sidewall of rotating cylinder is equipped with telescopic rod, and the length direction of telescopic rod is directed toward the center of rotating cylinder；

Disk-shaped member, the edge spill gap of disk-shaped member are installed in rotary shaft；

The axial line of rotary shaft deviates the center line of rotating cylinder, and rotating cylinder is rotated with telescopic rod, when rotation medial wall of the tube When the enough telescopic rods in the distance between disk-shaped member edge protrude into the spill gap, telescopic rod protrudes into the spill gap, and Drive disk-shaped member rotation；When rotating medial wall of the tube and disk-shaped member Edge Distance is greater than the maximum length of telescopic rod, telescopic rod is de- From the spill gap.

As described above, if telescopic rod is located at the place A of rotation medial wall of the tube, the rotating cylinder rotates, at A and dish type When the distance between part edge is equal to or less than the maximum length of telescopic rod, telescopic rod protrudes into the spill gap, and telescopic rod supports It is pressed on the side wall of spill gap, and disk-shaped member is driven to rotate.With the rotation of rotating cylinder, at above-mentioned A with disk-shaped member edge When distance is greater than the maximum length of telescopic rod, the side wall of telescopic rod and spill gap is disengaged, and rotating cylinder can continue to rotate, but Disk-shaped member no longer rotates with.In this way, the biggish rotating cylinder driving disk-shaped member of rotation angle rotates smaller angle, rotation angle is not Accurate rotating cylinder can drive disk-shaped member to rotate accurate angle.

In two pairs of pressing arms, the first activity pressing arm in first pair of pressing arm is connect with the first transmission component, the One transmission component is connect with the rotating cylinder；The second activity pressing arm in second pair of pressing arm is connect with the second transmission component, Second transmission component and the rotation axis connection.

The movement of transmission group zoarium, the first transmission component drive the first activity pressing arm, and the second transmission component driving second is living Dynamic pressing arm.Due to the rotation angle accuracy of disk-shaped member, rotary shaft can be such that the second activity squeezes by the second transmission component Pressure arm precise displacement makes the pre-splicing frame component of photovoltaic obtain accurate radial compression, radial compression in place after, rotating cylinder Amplitude is freely rotated with certain, the rotating cylinder is rotated in the amplitude, rotary shaft can't be driven, be so, it is possible Guarantee axially and radially capable of being pressed into place for the pre-splicing frame component of photovoltaic.

The first activity pressing arm is mounted on the first transmission component by screw rod and fastening nut.Loosen fastening spiral shell Mother, screw rod can be displaced with respect to the first transmission component, until when suitable location, fastening nut standing screw, in this way, the first activity is squeezed The position of pressure arm can be adjusted.In the case where the first activity pressing arm and certain the second activity pressing arm interaction relation, The adjustment of first activity pressing arm position can adapt to the pre-splicing frame component of the different photovoltaic of size.

Detailed description of the invention

Following further describes the present invention with reference to the drawings:

Fig. 1 is a kind of schematic diagram of the pre-splicing frame component pressurizing unit of photovoltaic；

Fig. 2 is the planar structure schematic diagram of transmission group zoarium；

Fig. 3 is the perspective view of transmission group zoarium；

Fig. 4 is the combining structure schematic diagram of rotary shaft and brake apparatus in transmission group zoarium；

Fig. 5 is the schematic diagram of rotary shaft and another visual angle of the composite structure of brake apparatus in transmission group zoarium；

Fig. 6 is the structural schematic diagram of rotating cylinder in transmission group zoarium；

Fig. 7 is the structural schematic diagram of brake release slide block assembly in transmission group zoarium；

Fig. 8 is the structural schematic diagram of any annular detent in a pair of of annular detent in transmission group zoarium.

Symbol description in figure:

10, pedestal；

21, the first activity pressing arm；211, screw rod；212, fastening nut；22, the second activity pressing arm；23, first is fixed Pressing arm；24, the second fixed press arm；

30, the first transmission component；31, gear member；310, gear member mounting base；32, screw rod；33, movable block；341, transfer Component axis；342, middle rotating disk；343, driven sprocket；35, drive sprocket；36, chain；

40, the second transmission component；41, transmission gear；42, rack gear；420, rack gear seat；43, transmission shaft；430, transmission shaft Seat；

A10, plate-like base；

A20, rotating cylinder；A21, telescopic rod；A22, brake release accessory；

A30, rotary shaft；A31, disk-shaped member；A32, spill gap；

A40, brake apparatus；A41, braking pedestal；A410, sliding block sliding slot；A42, brake assemblies；A420, a pair of of loop system Moving part；A421, V-arrangement sliding slot；A422, tipper；A423, straight trough；A424, locating piece；A43, brake release slide block assembly； A431, straight-bar is slided；A432, braking solution lock slide；A433, unlock rod；A434, positioning pin；

50, the pre-splicing frame component of photovoltaic.

Specific embodiment

Following specific embodiments are referring to figs. 1 to Fig. 8.

A kind of pre-splicing frame component pressurizing unit of photovoltaic, including pedestal 10, setting two pairs of pressing arms on the base, Any pair of pressing arm is equipped with a fixed press arm and an activity pressing arm, and the activity pressing arm in two pairs of pressing arms passes through biography Dynamic assembly a linkage.

The transmission group zoarium a including plate-like base a10, the rotating cylinder a20 being articulated on plate-like base, is articulated in disk Rotary shaft a30 on shape pedestal and in rotating cylinder.

The inner sidewall of rotating cylinder is equipped with telescopic rod a21, and the length direction of telescopic rod is directed toward the center of rotating cylinder.Rotary shaft On disk-shaped member a31, the edge spill gap a32 of disk-shaped member are installed.The axial line of rotary shaft deviates the center of rotating cylinder Line, rotating cylinder are rotated with telescopic rod, when rotation the distance between medial wall of the tube and disk-shaped member edge telescopic rod enough protrude into institute When stating spill gap, telescopic rod protrudes into the spill gap, and disk-shaped member is driven to rotate；When rotation medial wall of the tube and disk-shaped member side When edge distance is greater than the maximum length of telescopic rod, telescopic rod is detached from the spill gap.

The telescopic rod a21 includes tubular element, extensible member, telescopic rod spring, and telescopic rod spring is arranged in tubular element, stretches Contracting part is plugged in tubular element and is pressed on telescopic rod spring.

The quantity of spill gap a32 is three, three spill gap along disk-shaped member a31 circumference to being uniformly distributed, stretch Bar a21 drives disk-shaped member to rotate 120 degree from any spill gap of three spill gap is protruded into the spill gap is detached from.

As described above, if three spill gap are respectively the first gap, the second gap, third gap, original state, First gap is in B location, and the second gap is in location of C, and third gap is in the position D.It is stretched with the telescopic rod that rotating cylinder rotates Enter the first gap, after driving disk-shaped member rotates 120 degree, telescopic rod is detached from the first gap, at this point, the first gap is in C It sets, the second gap is in the position D, and third gap is in B location.Later, with the telescopic rod of rotating cylinder rotation since length is inadequate And cross the second gap.Later, third gap is protruded into the telescopic rod that rotating cylinder rotates, driving disk-shaped member rotates 120 degree Afterwards, telescopic rod is detached from third gap, at this point, the first gap is in the position D, the second gap is in B location, and third gap is in C Position.Repeatedly, rotating cylinder continuous rotation, and the identical time rotation in disk-shaped member interval is primary, the angle phase rotated every time Together.Specifically, rotating cylinder rotates a circle, and disk-shaped member rotates one third week.

The brake apparatus a40 braked to rotary shaft a30, the inner sidewall of rotating cylinder a20 are installed on plate-like base a10 It is equipped with the brake release accessory a22 cooperated with the brake apparatus.

The brake apparatus a40 includes the braking pedestal a41 being mounted on plate-like base a10, is mounted on braking pedestal Brake assemblies a42, be slidably fitted in braking pedestal on brake release slide block assembly a43；Under normality, brake assemblies braking rotation Shaft a30.The brake release accessory is one section of arc block being arranged in rotation medial wall of the tube.Rotating cylinder is with telescopic rod A21 and brake release accessory a22 rotation, when rotation the distance between medial wall of the tube and the edge disk-shaped member a31 telescopic rod enough are stretched When entering the spill gap a32, the brake release accessory contacts the brake release slide block assembly, and the braking is driven to solve Except slide block assembly slides on braking pedestal a41, brake release slide block assembly drives the brake assemblies a42, brake assemblies solution Except the braking to rotary shaft, synchronously, telescopic rod protrudes into the spill gap, and disk-shaped member is driven to rotate.On the inside of rotating cylinder When wall and disk-shaped member Edge Distance are greater than the maximum length of telescopic rod, telescopic rod is detached from the spill gap, the brake release Accessory is disengaged with the brake release slide block assembly, and the brake release slide block assembly resets, and the brake assemblies reset, Brake assemblies again brake rotary shaft.

As described above, one section of arc block and brake release slide block assembly offset when starting, and brake assemblies are released to rotation The braking of axis, telescopic rod protrude into spill gap and start to drive disk-shaped member rotation；One section of arc block and brake release slide block assembly It offsets holding a period of time, in this time, for rotary shaft not by the braking of brake assemblies, telescopic rod drives disk-shaped member rotation；One Section arc block and brake release slide block assembly be when disengaging, and telescopic rod is detached from disk-shaped member, brake assemblies brake rotation shaft again. The setting of brake apparatus is braked, to guarantee that disk-shaped member and rotary shaft are every after so that disk-shaped member and rotary shaft is rotated predetermined angular The angle of secondary rotation is scheduled, accurate.

About brake apparatus a40, the brake assemblies a42 includes that head end is hinged and tail end is resiliently connected together A pair of of annular detent a420, a pair of of annular detent surround the rotary shaft a30 and with rotary shaft CONTACT WITH FRICTION.A pair of of ring The tail end of shape moving part opens up V-arrangement sliding slot a421, is combined in V-arrangement sliding slot and slides straight-bar a431, slides straight-bar setting and is braking It solving on lock slide a432, in sliding block sliding slot a410, sliding block sliding slot is provided on braking pedestal a41 for braking solution lock slide cooperation, The elastic component of reset is equipped between sliding block sliding slot and braking solution lock slide, braking solution lock slide is equipped with and the brake release The unlock rod a433 of accessory a22 contact；Straight-bar, braking solution lock slide, the unlock rod of sliding is slided for brake release The component part of block assembly a43.When solution lock slide moves linearly along sliding block sliding slot to rotating shaft center direction, straight-bar is slided Make linear slide in V-arrangement sliding slot, the tail end of a pair of of annular detent opens, and a pair of of annular detent is far from rotary shaft.

As described above, under the driving of one section of arc block, braking solution lock slide is mobile to rotary axis direction, cunning thereon Row straight-bar drives the tail end of a pair of of annular detent to open, i.e., the tail end of two annular detents in a pair of of annular detent is remote From in this way, a pair of of annular detent no longer locking rotary shaft, rotary shaft is freely rotatable；At this point, the elastic component of the reset Gather elastic potential energy.When one section of arc block and braking solution lock slide disengage, the elastic component of the reset The braking solution lock slide is driven to reset, a pair of of annular detent resets therewith, again brake rotation shaft.

About brake apparatus a40, the brake assemblies a42 further includes that determining for a pair of of annular detent a420 tail end is arranged in Position block a424, locating piece open up location hole.The brake release slide block assembly a43 further includes setting in braking solution lock slide A432 it is upper and with the location hole cooperation positioning pin a434.The V-arrangement sliding slot a421 includes one section of tipper a422 and one section Straight trough a423, one section of straight trough is far from the rotary shaft a30 and one section of tipper is close to the rotary shaft, one section of straight trough It is parallel to the positioning pin and is parallel to the line of travel of braking solution lock slide.

As described above, braking solution lock slide is mobile to rotary axis direction, slides straight-bar and slides in one section of straight trough first, Positioning pin is extracted from location hole.Later, it slides straight-bar to slide in one section of tipper, the tail end of a pair of of annular detent is mutual It is separate.When braking solution lock slide is to far from rotary axis direction reset movement, slides straight-bar and slided in one section of tipper, Yi Duihuan The tail end of shape moving part is drawn close, again brake rotation shaft；Later, it slides straight-bar to slide in one section of straight trough, positioning pin is inserted again Enter location hole, the state of a pair of of annular detent brake rotation shaft is locked, to improve a pair of of annular detent brake rotation shaft Validity and stability.

The workflow of the transmission group zoarium is as follows: rotating cylinder a20 is with telescopic rod a21 and brake release accessory a22 Rotation, when brake release accessory a22 drives brake release slide block assembly a43, brake release slide block assembly a43 to drive brake assemblies When a42 releases the braking to rotary shaft a30, telescopic rod a21 protrudes into spill gap a32, and disk-shaped member a31 is driven to rotate predetermined angle Degree；Later, telescopic rod a21 is detached from spill gap, and synchronously, brake release accessory a22 and brake release slide block assembly a43 are detached from Contact, brake assemblies a42 reset and again brake rotation shaft a30.

With the rotation of rotating cylinder a20, when telescopic rod a21 protrudes into next spill gap a32, brake release cooperates a22 It is synchronously contacted with the brake release slide block assembly a43, and drives its movement.In this way, continuous rotating cylinder a20 rotation fortune It is dynamic, it is converted into the rotary motion of intermittent disk-shaped member a31 and rotary shaft a30, and disk-shaped member a31 and rotary shaft a30 revolve every time The angle turned is fixed.

Two pairs of pressing arms, respectively first pair of pressing arm and second pair of pressing arm, first pair of pressing arm include first fixed Pressing arm 23 and the first activity pressing arm 21, second pair of pressing arm include the second fixed press arm 24 and the second activity pressing arm 22。

First activity pressing arm 21 is connect with the first transmission component 30, and the first transmission component is connect with the rotating cylinder a20； Second activity pressing arm 22 is connect with the second transmission component 40, and the second transmission component is connect with the rotary shaft a30.

First transmission component 30 includes transfer component, gear member 31, screw rod 32, movable block 33；The transfer component It links with the rotating cylinder a20；The gear member and the transfer component link, and the center of gear member opens up threaded hole；It is described Screw rod and the threaded hole cooperate；The movable block is mounted on the screw rod；The first activity pressing arm 21 is mounted on institute It states on movable block.Wherein, transfer component includes installation transfer component axis 341 on the base, is mounted on transfer component axis Middle rotating disk 342 and driven sprocket 343, middle rotating disk 342 are fixedly connected with driven sprocket 343, are installed on the rotating cylinder a20 Drive sprocket 35, drive sprocket are connect with driven sprocket by chain 36.The middle rotating disk is engaged with the gear member 31, institute It states gear member to be articulated in gear member mounting base 310, gear member mounting base is mounted on pedestal 10.

Second transmission component 40 includes the transmission gear 41 and rack gear 42 of engagement, and the transmission gear is mounted on transmission On axis 43, it is driven rotary shaft a30 described in axis connection, the second activity pressing arm 22 is mounted on the rack gear.Wherein, rack gear It is slidably fitted on rack gear seat 420, rack gear seat is mounted on pedestal 10, and the rack gear seat is equipped with drive axle seat 430, the biography Moving axis is mounted on the drive axle seat.

The first activity pressing arm 21 is mounted on the first transmission component 30 by screw rod 211 and fastening nut 212.

In practical operation, the pre-splicing frame component of photovoltaic is placed on pedestal 10, is located between two pairs of pressing arms.Transmission Assembly a movement, rotating cylinder a20 are acted by rotating disk 342 in the driving of chain 36, gear member 31, and threaded hole thereon drives Dynamic screw rod 32 moves linearly, and screw rod drives movable block 33 and the linear movement of the first activity pressing arm 21.The rotation of transmission group zoarium Axis a30 drives transmission gear 41 to act by transmission shaft 43, and transmission gear drive rack 42 moves linearly, the second activity pressing arm 22 linear movements.Above-mentioned first activity pressing arm cooperates the first fixed press arm 23 to the axial direction of the pre-splicing frame component of photovoltaic Squeezed, above-mentioned second activity pressing arm cooperate the second fixed press arm 24 to the pre-splicing frame component of photovoltaic it is radial into Row squeezes.Wherein, the ratio of the first activity pressing arm and the second activity pressing arm displacement depends on the pre-splicing frame of photovoltaic The axial length of component and the ratio of radical length.

The above content is only better embodiment of the invention, for those of ordinary skill in the art, according to the present invention Thought, there will be changes in the specific implementation manner and application range, and the content of the present specification should not be construed as to this hair Bright limitation.

Claims (8)

1. a kind of pre-splicing frame component pressurizing unit of photovoltaic, including pedestal (10), the two pairs of pressing arms of setting on the base, Any pair of pressing arm is equipped with a fixed press arm and an activity pressing arm, it is characterised in that: the activity in two pairs of pressing arms Pressing arm passes through transmission group fit (a) linkage；

The transmission group is fit (a), including plate-like base (a10), the rotating cylinder (a20) being articulated on plate-like base, is articulated in Rotary shaft (a30) on plate-like base and in rotating cylinder；

The inner sidewall of rotating cylinder is equipped with telescopic rod (a21), and the length direction of telescopic rod is directed toward the center of rotating cylinder；

It is equipped in rotary shaft disk-shaped member (a31), the edge spill gap (a32) of disk-shaped member；

The axial line of rotary shaft deviates the center line of rotating cylinder, and rotating cylinder is rotated with telescopic rod, when rotation medial wall of the tube and disk When the enough telescopic rods in the distance between shape part edge protrude into the spill gap, telescopic rod protrudes into the spill gap, and drives Disk-shaped member rotation；When rotating medial wall of the tube and disk-shaped member Edge Distance is greater than the maximum length of telescopic rod, telescopic rod is detached from institute State spill gap；

In two pairs of pressing arms, the first activity pressing arm (21) and the first transmission component (30) in first pair of pressing arm are even It connects, the first transmission component is connect with the rotating cylinder (a20)；The second activity pressing arm (22) and second in second pair of pressing arm Transmission component (40) connection, the second transmission component are connect with the rotary shaft (a30).

2. a kind of pre-splicing frame component pressurizing unit of photovoltaic as described in claim 1, it is characterised in that: spill gap (a32) quantity is three, three spill gap along disk-shaped member (a31) circumference to being uniformly distributed, telescopic rod (a21) is from protruding into Any spill gap of three spill gap rotates 120 degree to the spill gap, driving disk-shaped member is detached from.

3. a kind of pre-splicing frame component pressurizing unit of photovoltaic as described in claim 1, it is characterised in that: plate-like base (a10) brake apparatus (a40) braked to rotary shaft (a30) is installed on, the inner sidewall of rotating cylinder (a20) be equipped with The brake release accessory (a22) of the brake apparatus cooperation；

The brake apparatus includes the braking pedestal (a41) being mounted on plate-like base (a10), is mounted on the system braked on pedestal Dynamic component (a42), the brake release slide block assembly (a43) being slidably fitted on braking pedestal；Under normality, brake assemblies braking rotation Shaft (a30)；

The brake release accessory is one section of arc block being arranged in rotation medial wall of the tube；

Rotating cylinder is rotated with telescopic rod (a21) and brake release accessory (a22), as rotation medial wall of the tube and disk-shaped member (a31) When the enough telescopic rods in the distance between edge protrude into spill gap (a32), the brake release accessory contacts the braking Slide block assembly is released, and the brake release slide block assembly is driven to slide in braking pedestal (a41), brake release slide block assembly It drives the brake assemblies (a42), brake assemblies release the braking to rotary shaft, and synchronously, telescopic rod protrudes into the spill and slits Mouthful, and disk-shaped member is driven to rotate；

When rotating medial wall of the tube and disk-shaped member Edge Distance is greater than the maximum length of telescopic rod, telescopic rod is detached from the spill and slits Mouthful, the brake release accessory is disengaged with the brake release slide block assembly, and the brake release slide block assembly resets, institute Brake assemblies reset is stated, brake assemblies again brake rotary shaft.

4. a kind of pre-splicing frame component pressurizing unit of photovoltaic as claimed in claim 3, it is characterised in that: the braking group Part (a42) includes that head end is hinged and a pair of of annular detent (a420) that tail end is resiliently connected together, a pair of of annular Brake component surround the rotary shaft (a30) and with rotary shaft CONTACT WITH FRICTION；

The tail end of a pair of of annular detent opens up V-arrangement sliding slot (a421), is combined in V-arrangement sliding slot and slides straight-bar (a431), slides Straight-bar setting is in braking solution lock slide (a432), and in sliding block sliding slot (a410), sliding block sliding slot is opened for braking solution lock slide cooperation It is located in braking pedestal (a41), the elastic component of reset, braking solution lock slide is equipped between sliding block sliding slot and braking solution lock slide It is equipped with the unlock rod (a433) contacted with the brake release accessory (a22)；It is described to slide straight-bar, braking unlock cunning Block, the component part that the unlock rod is brake release slide block assembly (a43)；

When solution lock slide moves linearly along sliding block sliding slot to rotating shaft center direction, slides straight-bar and make in V-arrangement sliding slot directly The tail end of line sliding, a pair of of annular detent opens, and a pair of of annular detent is far from rotary shaft.

5. a kind of pre-splicing frame component pressurizing unit of photovoltaic as claimed in claim 4, it is characterised in that: the braking group Part (a42) further includes locating piece (a424) of the setting in a pair of of annular detent (a420) tail end, and locating piece opens up location hole；

The brake release slide block assembly (a43) further include setting the braking solve lock slide (a432) on and with the positioning The positioning pin (a434) of hole cooperation；

The V-arrangement sliding slot (a421) includes one section of tipper (a422) and one section of straight trough (a423), and one section of straight trough is far from the rotation Close to the rotary shaft, one section of straight trough is parallel to the positioning pin and is parallel to for shaft (a30) and one section of tipper The line of travel of braking solution lock slide.

6. a kind of pre-splicing frame component pressurizing unit of photovoltaic as described in claim 1, it is characterised in that: described first is living Dynamic pressing arm (21) are mounted on the first transmission component (30) by screw rod (211) and fastening nut (212).

7. a kind of pre-splicing frame component pressurizing unit of photovoltaic as described in claim 1, it is characterised in that: described first passes Dynamic component (30) include transfer component, gear member (31), screw rod (32), movable block (33)；

The transfer component and the rotating cylinder (a20) link；

The gear member and the transfer component link, and the center of gear member opens up threaded hole；

The screw rod and the threaded hole cooperate；

The movable block is mounted on the screw rod；

The first activity pressing arm (21) is mounted on the movable block.

8. a kind of pre-splicing frame component pressurizing unit of photovoltaic as described in claim 1, it is characterised in that: described second passes Dynamic component (40) include the transmission gear (41) and rack gear (42) of engagement, and the transmission gear is mounted on transmission shaft (43), are passed Moving axis connects the rotary shaft (a30), and the second activity pressing arm (22) is mounted on the rack gear.