CN217993175U - Top bracing structure for wind power blade female die - Google Patents

Abstract

A top bracing structure for a wind power blade female die comprises a bottom frame for fixed bracing and a plurality of top bracing mechanisms which are slidably mounted on the bottom frame, wherein each top bracing mechanism comprises a bottom supporting block and 2 top bracing frames which are slidably mounted on the bottom supporting block, and arc-shaped supporting plates matched with the wind power blade female die are fixedly mounted on the top bracing frames; the two sides of the bottom supporting block are respectively provided with a transverse sliding block, the lateral parts of the two sides of the bottom frame are respectively provided with a transverse sliding groove convenient for the transverse sliding block to slide back and forth, the transverse sliding blocks are arranged in the transverse sliding grooves, the bottom of the top supporting frame is respectively provided with a longitudinal sliding block, the top of the bottom plate supporting block is respectively provided with a longitudinal sliding groove convenient for the longitudinal sliding block to slide back and forth, and the longitudinal sliding block is arranged in the longitudinal sliding groove. The application scope is wide, helps reduce cost, reduces occupation of exterior space to better satisfy actual user demand.

Description

Top bracing structure for wind power blade female die

Technical Field

The utility model relates to a wind-powered electricity generation blade mould technical field, especially a wind-powered electricity generation blade is shore structure for bed die.

Background

At present, wind-powered electricity generation blade generally adopts the blade mould to make, the blade mould generally divide into bed die and formpiston, the bed die is used for the motionlessness, the formpiston can overturn and carry out the compound die that realizes the blade with the bed die, prior art, the bed die all need utilize the fixed bolster fixed, but the structure of current fixed bolster generally can not adjust, can only be applicable to the use of a bed die, application scope is little, therefore different bed dies need different fixed bolsters, not only the input cost is big, be unfavorable for reduce cost, and different fixed bolster area is big, the site space requires highly, be more difficult to satisfy actual user demand.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to prior art not enough, provide a wind-powered electricity generation blade is shore structure for bed die that application scope is wide, area is little, help reduce cost.

The technical problem to be solved by the utility model is realized through the following technical scheme. The utility model relates to a wind-powered electricity generation blade bed die is with shore structure, including the bottom frame that is used for fixed stay and a plurality of shore mechanisms of slidable mounting on the bottom frame, shore mechanism includes bottom sprag piece and 2 top support frames of slidable mounting on the bottom sprag piece, all fixed mounting has the arc layer board that cooperates with the wind-powered electricity generation blade bed die on the top support frame; the two sides of the bottom supporting block are respectively provided with a transverse sliding block, the lateral parts of the two sides of the bottom frame are respectively provided with a transverse sliding groove convenient for the transverse sliding block to slide back and forth, the transverse sliding blocks are arranged in the transverse sliding grooves, the bottom of each top supporting frame is provided with a longitudinal sliding block, the top of each bottom plate supporting block is provided with a longitudinal sliding groove convenient for the longitudinal sliding block to slide back and forth, the longitudinal sliding blocks are arranged in the longitudinal sliding grooves, one top supporting frame is provided with an adjusting rod, the other top supporting frame is provided with an adjusting cylinder matched with the adjusting rod, and one end of the adjusting rod is inserted into the adjusting cylinder.

The utility model discloses the technical problem that will solve can also further realize through following technical scheme, to above wind-powered electricity generation blade is shore structure for the bed die, still soon be equipped with a plurality of horizontal fixing bolts that are used for pushing up tightly fixedly to horizontal slider on the bottom frame of horizontal spout department.

The utility model discloses the technical problem that will solve can also further realize through following technical scheme, to above wind-powered electricity generation blade is shore structure for the bed die, still soon be equipped with on the bottom supporting shoe of vertical spout both sides and be used for carrying out the vertical fixing bolt that tightly fixes on top to vertical slider.

The utility model discloses the technical problem that will solve can also further realize through following technical scheme, to above wind-powered electricity generation blade is shore structure for the bed die, still be equipped with soon on adjusting a section of thick bamboo and be used for carrying out the tight fixed regulation fixing bolt in top to the regulating stem.

The utility model discloses the technical problem that will solve can also further realize through following technical scheme, to above wind-powered electricity generation blade is supporting structure for the bed die, the bottom sprag piece includes supporting shoe and bottom sprag piece, goes up the supporting shoe through a plurality of damping spring shock absorbers fixed mounting at the top of bottom sprag piece, and vertical spout sets up on last supporting shoe, and horizontal slider setting is on the bottom sprag piece.

The utility model discloses the technical problem that solve can also further realize through following technical scheme, to above wind-powered electricity generation blade is top supporting structure for the bed die, damping spring shock absorber is provided with 3-4, and 3-4 damping spring shock absorbers are from the opposite side equidistant even setting of the one side of last supporting shoe to the upper supporting shoe.

Compared with the prior art, the utility model discloses a set up bottom frame and the cooperation of shore mechanism, the realization is to the shore of wind-powered electricity generation blade bed die, shore mechanism includes bottom sprag piece and 2 shore frame, the bottom sprag piece can carry out lateral sliding on the bottom frame, so that carry out the shore to the different positions of wind-powered electricity generation blade bed die as required, 2 shore frame can carry out longitudinal sliding on the bottom sprag piece, so that be suitable for the different shapes of the different positions of wind-powered electricity generation blade mould, thereby realized that a shore structure can be applicable to the fixed of different wind-powered electricity generation blade bed dies, wide application range, help reduce cost, reduce occupation of exterior space, thereby better satisfy actual user demand.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a side view of the structure of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the present invention are combined to clearly and completely describe the technical solutions in the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 2, a top bracing structure for a wind power blade female die comprises a bottom frame 1 for fixed support and a plurality of top bracing mechanisms slidably mounted on the bottom frame 1, wherein the bottom frame 1 is used for being fixed on the ground to play a role of main support, so that the top bracing structure is prevented from moving in use, and the firmness of fixing the blade female die is ensured; the top bracing mechanisms are used for being directly matched and fixed with the blade female dies, and meanwhile, the top bracing mechanisms are arranged and can slide on the bottom frame 1 to realize position adjustment so as to meet the requirements of fixing top bracing on different blade female dies;

specifically, the top bracing mechanism comprises a bottom supporting block and 2 top bracing frames 5 which are slidably mounted on the bottom supporting block, and arc-shaped supporting plates 6 matched with the wind power blade female die are fixedly mounted on the top bracing frames 5; the arc-shaped supporting plates 6 are used for being in direct contact with the blade female dies, so that the blade female dies can be fixed more firmly and reliably, and 2 arc-shaped supporting plates 6 are arranged, so that the blade female dies can be supported and supported from two sides; the top bracing frame 5 where the arc-shaped supporting plates 6 are located can slide along the bottom supporting block, so that the distance between the 2 arc-shaped supporting plates 6 can be conveniently adjusted, and the requirements of fixing top bracing on different blade female dies can be conveniently met;

preferably, in order to facilitate the relative movement of the top support frame 5 and the bottom plate support block, the bottom of the top support frame 5 is provided with a longitudinal slider 10, the top of the bottom plate support block is provided with a longitudinal sliding groove for the longitudinal slider 10 to slide back and forth, the longitudinal slider 10 is arranged in the longitudinal sliding groove, and the top support frame 5 can move on the bottom support block by the sliding of the longitudinal slider 10 in the longitudinal sliding groove;

in order to realize the fixing operation of the top support frame 5 after being adjusted in place, longitudinal fixing bolts 11 for tightly jacking and fixing the longitudinal slide block 10 are further screwed on the bottom supporting blocks on the two sides of the longitudinal sliding chute, and after the top support frame 5 moves in place, the longitudinal fixing bolts 11 can be used for tightly jacking and fixing the longitudinal slide block 10 so as to realize the tight jacking and fixing of the top support frame 5;

in order to further facilitate the position adjustment and the fixing operation of the top support frames 5, an adjusting rod 13 is arranged on one of the top support frames 5, an adjusting cylinder 12 matched with the adjusting rod 13 is arranged on the other top support frame 5, one end of the adjusting rod 13 is inserted into the adjusting cylinder 12, the position adjustment of the top support frame 5 can be realized by adjusting the length of the adjusting rod 13 inserted into the adjusting cylinder 12, and an adjusting and fixing bolt 14 for tightly supporting and fixing the adjusting rod 13 is also screwed on the adjusting cylinder 12 and is used for tightly supporting and fixing the adjusting rod 13 after the adjusting rod 13 is adjusted in place;

preferably, the adjusting cylinder 12 and the adjusting rod 13 are respectively and fixedly installed at the side parts of the 2 top bracing frames 5 through connecting plates, and meanwhile, the adjusting cylinder 12 does not protrude out of the top bracing frame 5, so that the 2 top bracing frames 5 can be conveniently butted together;

secondly, the bottom supporting block is also slidably mounted on the bottom frame 1, specifically, the two sides of the bottom supporting block are respectively provided with a transverse sliding block 8, the side parts of the two sides of the bottom frame 1 are respectively provided with a transverse sliding chute 7 convenient for the transverse sliding block 8 to slide in a reciprocating manner, the transverse sliding blocks 8 are arranged in the transverse sliding chutes 7, and the bottom supporting block can move on the bottom frame 1 through the sliding of the transverse sliding blocks 8 in the transverse sliding chutes 7, so that the position adjustment of each jacking mechanism is realized;

in order to fix the bottom supporting block, a plurality of transverse fixing bolts 9 for tightly jacking and fixing the transverse sliding block 8 are further screwed on the bottom frame 1 at the transverse sliding groove 7, and after the bottom supporting block moves in place, the transverse fixing bolts 9 can be used for tightly jacking and fixing the transverse sliding block 8 so as to realize the tight jacking and fixing of the jacking mechanism;

the bottom sprag piece includes supporting shoe 4 and bottom sprag 2, goes up supporting shoe 4 through 3 fixed mounting in the top of bottom sprag piece 2 of a plurality of damping spring shock absorbers, and vertical spout sets up on last supporting shoe 4, and horizontal slider 8 sets up on bottom sprag piece 2. The damping spring shock absorber 3 is low in natural frequency, good in vibration isolation effect, compact in structure and convenient to install and use, the upper supporting block 4 and the lower supporting block 2 are fixedly connected, the effects of buffering and vibration isolation can be conveniently achieved when a blade female die fixed on the top supporting frame 5 is collided or pressed down, and the blade female die and the top supporting frame 5 can be protected to a certain extent;

preferably, 3-4 damping spring shock absorbers 3 are arranged, and 3-4 damping spring shock absorbers 3 are uniformly arranged at equal intervals from one side of the upper supporting block 4 to the other side of the upper supporting block 4, so that the upper supporting block 4 can be comprehensively, uniformly and reliably supported, and uniform buffering and vibration isolating effects can be achieved between the upper supporting block 4 and the lower supporting block 2.

When the blade female die is used, the bottom frame 1 is fixedly installed, the number of required jacking mechanisms is selected according to needs, the required jacking mechanisms are installed on the bottom frame 1 in a sliding mode, the position of the blade female die arranged on the bottom frame 1 is adjusted, the position of the arc-shaped supporting plate 6 is adjusted by the jacking frame 5 according to the size and the shape of the blade female die, the blade female die is placed on the arc-shaped supporting plate 6 and fixed, and finally the jacking frame 5 and the bottom supporting block are fixed by the adjusting fixing bolts 14, the longitudinal fixing bolts 11 and the transverse fixing bolts 9;

certainly, the wind-powered electricity generation blade is shore structure for bed die also can be applicable to wind-powered electricity generation blade formpiston that this application provided, but with the help of outside tipping arrangement to can only need utilize a wind-powered electricity generation blade is shore structure for bed die that this application provided, can realize the fixed use of different wind-powered electricity generation blade bed dies, formpiston, help reduce cost, reduce occuping of exterior space, thereby better satisfied actual user demand.

Claims (6)

1. The utility model provides a wind-powered electricity generation blade is shore structure for bed die which characterized in that: the wind power blade female die support device comprises a bottom frame for fixed support and a plurality of top support mechanisms slidably mounted on the bottom frame, wherein each top support mechanism comprises a bottom support block and 2 top support frames slidably mounted on the bottom support block, and arc-shaped support plates matched with the wind power blade female die are fixedly mounted on the top support frames; the two sides of the bottom supporting block are respectively provided with a transverse sliding block, the lateral parts of the two sides of the bottom frame are respectively provided with a transverse sliding groove convenient for the transverse sliding block to slide back and forth, the transverse sliding blocks are arranged in the transverse sliding grooves, the bottom of each top supporting block is provided with a longitudinal sliding block, the top of each bottom supporting block is provided with a longitudinal sliding groove convenient for the longitudinal sliding block to slide back and forth, the longitudinal sliding blocks are arranged in the longitudinal sliding grooves, one top supporting block is provided with an adjusting rod, the other top supporting block is provided with an adjusting cylinder matched with the adjusting rod, and one end of the adjusting rod is inserted into the adjusting cylinder.

2. The jacking structure for the wind power blade female mold as claimed in claim 1, wherein: and a plurality of transverse fixing bolts for tightly jacking and fixing the transverse sliding block are also screwed on the bottom frame at the transverse sliding groove.

3. The jacking structure for the wind power blade female mold according to claim 1 or 2, wherein: and the bottom supporting blocks at two sides of the longitudinal sliding groove are also screwed with longitudinal fixing bolts for tightly supporting and fixing the longitudinal sliding block.

4. The jacking structure for the female die of the wind turbine blade as claimed in claim 1, wherein: an adjusting and fixing bolt for tightly jacking and fixing the adjusting rod is also screwed on the adjusting cylinder.

5. The jacking structure for the female die of the wind turbine blade as claimed in claim 1, wherein: the bottom supporting block comprises an upper supporting block and a lower supporting block, the upper supporting block is fixedly installed at the top of the lower supporting block through a plurality of damping spring shock absorbers, a longitudinal sliding groove is formed in the upper supporting block, and a transverse sliding block is arranged on the lower supporting block.

6. The jacking structure for the female die of the wind turbine blade as claimed in claim 5, wherein: 3-4 damping spring shock absorbers are arranged, and the 3-4 damping spring shock absorbers are uniformly arranged from one side of the upper supporting block to the other side of the upper supporting block at equal intervals.

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