CN215667739U - Basalt fiber composite rib glue dipping tank - Google Patents

Abstract

A basalt fiber composite rib impregnation tank relates to the field of basalt fiber composite rib processing, and comprises an impregnation tank body, two inclined blocks, an impregnation pressing component, a basalt fiber composite rib winding drum mounting seat, two guide blocks, a tension rod, an impregnation pressing component mounting seat, 3 glue scraping component mounting seats and glue scraping components; the basalt fiber composite rib reel is arranged on the basalt fiber composite rib reel mounting seat; the tension rod is arranged at the right end inside the glue dipping tank body; the two inclined blocks are respectively arranged at the left end and the right end in the impregnation tank body; the first guide block, the third frictioning component mounting seat, the second frictioning component mounting seat, the first frictioning component mounting seat, the glue dipping pressing component mounting seat and the second guide block are sequentially mounted at the upper end of the glue dipping tank body; the impregnation pressing component is arranged on the impregnation pressing component mounting seat; the frictioning subassembly is installed on three frictioning subassembly mount pads. The utility model has thorough gum dipping and good gum dipping effect.

Description

Basalt fiber composite rib glue dipping tank

Technical Field

The utility model relates to the technical field of basalt fiber composite rib processing, in particular to a basalt fiber composite rib impregnation tank.

Background

The basalt fiber is a novel inorganic environment-friendly green high-performance fiber material, and can be widely applied to a plurality of fields, such as fiber reinforced composite materials, friction materials, shipbuilding materials, heat insulation materials, the automobile industry, high-temperature filter fabrics, water conservancy slope protection fields and the like.

The basalt fiber composite rib is formed by compounding a plurality of strands of basalt fibers. In the basalt fiber composite bar processing process, gum dipping treatment is required. At present, the existing glue dipping tank is simple in design and has the problems of incomplete glue dipping, poor glue dipping effect and the like.

SUMMERY OF THE UTILITY MODEL

The utility model provides a basalt fiber composite rib impregnation tank, aiming at solving the problems of incomplete impregnation and poor impregnation effect of the existing impregnation tank.

The technical scheme adopted by the utility model for solving the technical problem is as follows:

the utility model relates to a basalt fiber composite rib impregnation tank, which comprises: the glue dipping device comprises a glue dipping groove body, a first inclined block, a glue dipping compression assembly, a second inclined block, a basalt fiber composite rib reel mounting seat, a second guide block, a tension rod, a glue dipping compression assembly mounting seat, a first glue scraping assembly mounting seat, a second glue scraping assembly mounting seat, a third glue scraping assembly mounting seat, a first guide block and a glue scraping assembly; the basalt fiber composite rib reel mounting seat is arranged at the right end of the outer side of the impregnation tank body; the basalt fiber composite rib reel is arranged on the basalt fiber composite rib reel mounting seat; the tension rod is arranged at the right end inside the glue dipping tank body; the first inclined block is obliquely arranged at the left end in the glue dipping tank body; the second inclined block is obliquely arranged at the right end in the glue dipping tank body; the first guide block, the third frictioning component mounting seat, the second frictioning component mounting seat, the first frictioning component mounting seat, the glue dipping pressing component mounting seat and the second guide block are sequentially mounted at the upper end of the glue dipping tank body from left to right; the impregnation pressing component is arranged on the impregnation pressing component mounting seat; the frictioning component is arranged on the first frictioning component mounting seat, the second frictioning component mounting seat and the third frictioning component mounting seat.

Further, the first guide block is arranged at the upper edge of the left end of the glue dipping tank body; a plurality of guide holes which are uniformly distributed are formed in the first guide block, and the guide holes are horizontally and transversely arranged.

Further, the second guide block is arranged at the upper edge of the right end of the glue dipping tank body; a plurality of guide holes which are uniformly distributed are formed in the second guide block, and the guide holes are horizontally and transversely arranged.

Furthermore, the third frictioning component mounting seat, the second frictioning component mounting seat and the first frictioning component mounting seat are identical in structure, the third frictioning component mounting seat is higher than the second frictioning component mounting seat, and the second frictioning component mounting seat is higher than the first frictioning component mounting seat.

Furthermore, the number of the third frictioning component mounting seats, the second frictioning component mounting seats and the first frictioning component mounting seats is 2, and the two third frictioning component mounting seats are symmetrically arranged at the upper edges of the front end and the rear end of the glue dipping tank body; the two second glue scraping component mounting seats are symmetrically arranged on the upper edges of the front end and the rear end of the glue dipping tank body; the two first glue scraping component mounting seats are symmetrically arranged at the upper edges of the front end and the rear end of the glue dipping tank body.

Further, a first L-shaped clamping groove is formed in the first frictioning component mounting base, a second L-shaped clamping groove is formed in the second frictioning component mounting base, and a third L-shaped clamping groove is formed in the third frictioning component mounting base; the opening directions of the first L-shaped clamping groove, the second L-shaped clamping groove and the third L-shaped clamping groove are consistent.

Further, the glue scraping component consists of a first side vertical plate, a first glue scraping plate, a second glue scraping plate, a third glue scraping plate, a second side vertical plate, a first side vertical plate strut, a first second side vertical plate strut limiting plate, a second side vertical plate strut limiting plate, a third second side vertical plate strut limiting plate, a first side vertical plate strut limiting plate, a second side vertical plate strut limiting plate, a third first side vertical plate strut and a third side vertical plate strut limiting plate; the first side vertical plate and the second side vertical plate have the same structure and size; the first side vertical plate is provided with three mounting holes, the upper end surface of the first side vertical plate is obliquely arranged, namely, the first side vertical plate is high from left to right, the three mounting holes are sequentially arranged from left to right, and the three mounting holes are arranged from left to right and from high to low along the inclined surface at the upper end of the first side vertical plate; the first side vertical plate strut, the second side vertical plate strut and the third side vertical plate strut are all arranged on the outer wall of the first side vertical plate, and the first side vertical plate strut, the second side vertical plate strut and the third side vertical plate strut are arranged in one-to-one correspondence with the three mounting holes of the first side vertical plate; the first side vertical plate strut limiting plate is fixed at one end part of the first side vertical plate strut, the second side vertical plate strut limiting plate is fixed at the second end part of the first side vertical plate strut, and the third side vertical plate strut limiting plate is fixed at the third end part of the first side vertical plate strut; the first side vertical plate strut, the second side vertical plate strut and the third side vertical plate strut are all arranged on the outer wall of the second side vertical plate, and the first side vertical plate strut, the second side vertical plate strut and the third side vertical plate strut are arranged in one-to-one correspondence with the three mounting holes of the second side vertical plate; the first side vertical plate strut limiting plate is fixed at one end part of the second side vertical plate strut, the second side vertical plate strut limiting plate is fixed at the second side vertical plate strut end part, and the third side vertical plate strut limiting plate is arranged at the third side vertical plate strut end part; two ends of the first glue scraping plate are respectively fixed on the inner walls of the first side vertical plate and the second side vertical plate, two ends of the second glue scraping plate are respectively fixed on the inner walls of the first side vertical plate and the second side vertical plate, and two ends of the third glue scraping plate are respectively fixed on the inner walls of the first side vertical plate and the second side vertical plate; the first glue scraping plate, the second glue scraping plate and the third glue scraping plate are vertically arranged and are perpendicular to the first side vertical plate and the second side vertical plate; the first glue scraping plate, the second glue scraping plate and the third glue scraping plate are arranged from high to low;

the first side vertical plate is installed corresponding to a first glue scraping component installation seat, a second glue scraping component installation seat and a third glue scraping component installation seat on the upper edge of the front end of the glue dipping groove body; the second side vertical plate is installed corresponding to a first glue scraping component installation seat, a second glue scraping component installation seat and a third glue scraping component installation seat on the upper edge of the rear end of the glue dipping groove body; the first side vertical plate strut, the second side vertical plate strut and the third side vertical plate strut are respectively arranged in a third L-shaped clamping groove of a third frictioning component mounting seat at the upper edge of the front end of the gum dipping groove body, a second L-shaped clamping groove of a second frictioning component mounting seat and a first L-shaped clamping groove of a first frictioning component mounting seat; the first side vertical plate strut, the second side vertical plate strut and the second side vertical plate strut are respectively arranged in a third L-shaped clamping groove of a third frictioning component mounting seat at the upper edge of the rear end of the gum dipping groove body, a second L-shaped clamping groove of a second frictioning component mounting seat and a first L-shaped clamping groove of a first frictioning component mounting seat.

Furthermore, the number of the glue dipping compression assembly installation seats is 2, and the two glue dipping compression assembly installation seats are symmetrically arranged on the upper edges of the front end and the rear end of the glue dipping tank body; the glue dipping and compressing assembly mounting seat mainly comprises a mounting seat bottom plate, a second mounting seat L-shaped clamping groove, a first mounting seat L-shaped clamping groove and a mounting seat side plate; the mounting base bottom plate is fixed on the edge of the upper end of the glue dipping tank body; the side plate of the mounting seat is fixed on the bottom plate of the mounting seat; the side plate of the installation base is respectively provided with a first installation base L-shaped clamping groove and a second installation base L-shaped clamping groove, and the opening directions of the first installation base L-shaped clamping groove and the second installation base L-shaped clamping groove are consistent.

Further, the gumming pressing assembly consists of a first trapezoidal pressing frame, a first trapezoidal pressing frame strut limiting block, a second trapezoidal pressing frame strut limiting block, a first trapezoidal pressing frame strut, a second trapezoidal pressing frame strut, a first cross rod, a third cross rod, a first trapezoidal pressing frame strut, a second trapezoidal pressing frame strut limiting block, a second trapezoidal pressing frame strut, a second trapezoidal pressing frame and a second cross rod; the first trapezoid pressing frame strut and the second trapezoid pressing frame strut are respectively arranged at the upper end of the first trapezoid pressing frame, the first trapezoid pressing frame strut limiting block is fixed at one end of the first trapezoid pressing frame strut, and the second trapezoid pressing frame strut limiting block is fixed at the two end of the first trapezoid pressing frame strut; the first trapezoid pressing frame strut and the second trapezoid pressing frame strut are respectively arranged at the upper end of the second trapezoid pressing frame, the first trapezoid pressing frame strut limiting block is fixed at one end part of the second trapezoid pressing frame strut, and the second trapezoid pressing frame strut limiting block is fixed at the two end parts of the second trapezoid pressing frame strut; the first trapezoidal pressing frame and the second trapezoidal pressing frame are connected through a first cross rod, a third cross rod and a second cross rod; one ends of the first cross rod and the second cross rod are fixed on the inner wall of the lower end of the first trapezoidal pressing frame, and the other ends of the first cross rod and the second cross rod are fixed on the inner wall of the lower end of the second trapezoidal pressing frame; one end of a third cross rod is fixed in the middle of the inner wall of the upper end of the first trapezoidal pressing frame, and the other end of the third cross rod is fixed in the middle of the inner wall of the upper end of the second trapezoidal pressing frame; the first trapezoidal compression frame strut and the second trapezoidal compression frame strut are respectively arranged in a first mounting seat L-shaped clamping groove and a second mounting seat L-shaped clamping groove at the upper edge of the front end of the glue dipping tank body; the first trapezoidal compression frame strut and the second trapezoidal compression frame strut are respectively installed in a first installation seat L-shaped clamping groove and a second installation seat L-shaped clamping groove at the upper edge of the rear end of the glue dipping tank body.

The utility model has the beneficial effects that:

when the basalt fiber composite rib impregnation tank is used, the end part of the basalt fiber composite rib on the basalt fiber composite rib reel passes through the guide hole on the second guide block and is tightly pressed at the lower end of the tension rod, then is tightly pressed at the lower ends of the second cross rod and the first cross rod of the impregnation pressing assembly, then passes through the upper end of the third glue scraping plate, the lower end of the second glue scraping plate and the upper end of the first glue scraping plate and finally passes through the guide hole of the first guide block, and finally the end part of the basalt fiber composite rib is pulled by a tractor to complete the impregnation process.

In the gum dipping process, the guide effect on the basalt fiber composite rib is realized through the second guide block and the first guide block; further guiding and preliminary pressing actions are carried out on the basalt fiber composite bars through tension rods; the pressing and dipping effects on the basalt fiber composite bars are realized through the dipping and pressing assembly, the basalt fiber composite bars can be fully immersed, meanwhile, the basalt fiber composite bars can be better unfolded through the combined action of the tension rod and the dipping and pressing assembly, the basalt fiber composite bars are fully immersed, the problem of uneven tension of the basalt fiber composite bars in the winding process is solved, and the tension of yarns is kept consistent as much as possible; the scraping effect of the scraping component on the excessive glue amount on the surface of the basalt fiber composite rib is realized, and the excessive glue amount on the surface of the basalt fiber composite rib is scraped; the first inclined block and the second inclined block enable the excessive glue on the surface of the basalt fiber composite rib to be gathered at the middle position of the glue dipping groove body after falling, the excessive glue can be extruded and then flows back to the glue dipping groove body again, and the production cost is saved.

After the impregnation is finished, the impregnation pressing component can be unloaded from the impregnation pressing component mounting seat, the impregnation pressing component can be conveniently installed and unloaded from the impregnation pressing component mounting seat through the second mounting seat L-shaped clamping groove and the first mounting seat L-shaped clamping groove on the impregnation pressing component mounting seat, and the operation is simple and convenient. The glue scraping component can be unloaded from the first glue scraping component mounting seat, the second glue scraping component mounting seat and the third glue scraping component mounting seat, the glue scraping component can be conveniently installed and unloaded from the first glue scraping component mounting seat, the second glue scraping component mounting seat and the third glue scraping component mounting seat through the third L-shaped clamping groove of the third glue scraping component mounting seat, the second L-shaped clamping groove of the second glue scraping component mounting seat and the first L-shaped clamping groove of the first glue scraping component mounting seat, and the operation is simple and convenient.

Drawings

FIG. 1 is a schematic structural diagram of a basalt fiber composite rib dipping tank.

Fig. 2 is a schematic structural diagram of a glue dipping and pressing assembly mounting seat.

Fig. 3 is a schematic structural diagram of a gumming pressing assembly.

Fig. 4 is a schematic perspective view of the squeegee assembly.

Fig. 5 is a front view of the squeegee assembly.

Fig. 6 is a bottom view of the squeegee assembly.

Fig. 7 is a schematic structural view of the first side vertical plate.

In the figure, 1, a glue dipping groove body, 2, a first inclined block, 3, a basalt fiber composite rib, 4, a glue dipping compression assembly, 5, a second inclined block, 6, a basalt fiber composite rib reel, 7, a basalt fiber composite rib reel installation seat, 8, a second guide block, 9, a tension rod, 10, a glue dipping compression assembly installation seat, 11, a first glue scraping assembly installation seat, 12, a second glue scraping assembly installation seat, 13, a third glue scraping assembly installation seat, 14, a first guide block, 15 and a glue scraping assembly.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the basalt fiber composite rib impregnation tank mainly comprises a impregnation tank body 1, a first inclined block 2, an impregnation pressing component 4, a second inclined block 5, a basalt fiber composite rib reel 6, a basalt fiber composite rib reel mounting seat 7, a second guide block 8, a tension rod 9, an impregnation pressing component mounting seat 10, a first frictioning component mounting seat 11, a second frictioning component mounting seat 12, a third frictioning component mounting seat 13, a first guide block 14 and a frictioning component 15.

The basalt fiber composite rib reel installation seat 7 is arranged at the right end of the outer side of the glue dipping tank body 1.

The basalt fiber composite rib winding drum 6 is installed on the basalt fiber composite rib winding drum installation seat 7.

The tension rod 9 is arranged at the right end inside the glue dipping tank body 1.

The first inclined block 2 is obliquely arranged at the left end inside the glue dipping tank body 1; the second inclined block 5 is obliquely arranged at the right end inside the glue dipping tank body 1.

The first guide block 14, the third frictioning component mounting base 13, the second frictioning component mounting base 12, the first frictioning component mounting base 11, the glue dipping compression component mounting base 10 and the second guide block 8 are sequentially mounted at the upper end of the glue dipping tank body 1 from left to right.

The first guide block 14 is arranged at the upper edge of the left end of the glue dipping tank body 1. The first guide block 14 is provided with a plurality of guide holes 140 uniformly distributed, and the plurality of guide holes 140 are horizontally and transversely arranged.

The second guide block 8 is arranged at the upper edge of the right end of the glue dipping tank body 1. The second guide block 8 is provided with a plurality of guide holes 801 which are uniformly distributed, and the plurality of guide holes 801 are horizontally and transversely arranged.

The third frictioning component mounting base 13, the second frictioning component mounting base 12 and the first frictioning component mounting base 11 are identical in structure, the third frictioning component mounting base 13 is higher than the second frictioning component mounting base 12, and the second frictioning component mounting base 12 is higher than the first frictioning component mounting base 11.

The number of the third frictioning component mounting seats 13, the second frictioning component mounting seats 12 and the first frictioning component mounting seats 11 is 2, and the two third frictioning component mounting seats 13 are symmetrically arranged at the upper edges of the front end and the rear end of the glue dipping tank body 1; the two second glue scraping component mounting seats 12 are symmetrically arranged on the upper edges of the front end and the rear end of the glue dipping tank body 1; two first frictioning subassembly mount pads 11 symmetry sets up at steeping vat body 1 front and back both ends upper edge.

The first frictioning component mounting base 11 is provided with a first L-shaped clamping groove 110, the second frictioning component mounting base 12 is provided with a second L-shaped clamping groove 120, and the third frictioning component mounting base 13 is provided with a third L-shaped clamping groove 130. The opening directions of the first L-shaped fastening groove 110, the second L-shaped fastening groove 120 and the third L-shaped fastening groove 130 are the same.

The frictioning assembly 15 is installed on the first frictioning assembly mounting base 11, the second frictioning assembly mounting base 12 and the third frictioning assembly mounting base 13. As shown in fig. 4 to 7, the glue scraping assembly 15 mainly includes a first side vertical plate 1501, a first glue scraping plate 1502, a second glue scraping plate 1503, a third glue scraping plate 1504, a second side vertical plate 1505, a first side vertical plate strut 1506, a first side vertical plate strut limiting plate 1507, a second side vertical plate strut 1508, a second side vertical plate strut limiting plate 1509, a third side vertical plate strut 1510, a third side vertical plate strut limiting plate 1511, a first side vertical plate strut 1512, a first side vertical plate strut limiting plate 1513, a second side vertical plate strut 1514, a second side vertical plate strut limiting plate 1515, a third side vertical plate strut 1516, and a third side vertical plate strut limiting plate 1517. The first and second side risers 1501, 1505 are identical in structure and size. As shown in fig. 7, three mounting holes are formed in the first side plate 1501, an upper end surface of the first side plate 1501 is inclined, that is, the first side plate is high from left to right, the three mounting holes are sequentially formed from left to right, and the three mounting holes are formed from high to low from left to right along an upper end inclined surface of the first side plate 1501.

First side vertical plate strut 1512, first side vertical plate strut two 1514 and first side vertical plate strut three 1516 are all installed on the outer wall of first side vertical plate 1501, and first side vertical plate strut 1512, first side vertical plate strut two 1514 and first side vertical plate strut three 1516 are installed in one-to-one correspondence with the three installation holes of first side vertical plate 1501. First side vertical plate strut limiting plate 1513 is fixed at the end of first side vertical plate strut 1512, second side vertical plate strut limiting plate 1515 is fixed at the end of second side vertical plate strut 1514, and third side vertical plate strut limiting plate 1517 is fixed at the end of third side vertical plate strut 1516.

The first side vertical plate strut 1506, the second side vertical plate strut 1508 and the third side vertical plate strut 1510 are all installed on the outer wall of the second side vertical plate 1505, and the first side vertical plate strut 1506, the second side vertical plate strut 1508, the third side vertical plate strut 1510 and the three installation holes of the second side vertical plate 1505 are installed in a one-to-one correspondence manner. Second first side vertical plate strut limiting plate 1507 is fixed at the end of second first side vertical plate strut 1506, second side vertical plate strut limiting plate 1509 is fixed at the end of second side vertical plate strut 1508, and third second side vertical plate strut limiting plate 1511 is mounted at the end of second third side vertical plate strut 1510.

Two ends of the first glue scraping plate 1502 are respectively fixed on the inner walls of the first side vertical plate 1501 and the second side vertical plate 1505, two ends of the second glue scraping plate 1503 are respectively fixed on the inner walls of the first side vertical plate 1501 and the second side vertical plate 1505, and two ends of the third glue scraping plate 1504 are respectively fixed on the inner walls of the first side vertical plate 1501 and the second side vertical plate 1505. And the first glue scraping plate 1502, the second glue scraping plate 1503 and the third glue scraping plate 1504 are all vertically installed, and the first glue scraping plate 1502, the second glue scraping plate 1503 and the third glue scraping plate 1504 are all perpendicular to the first side vertical plate 1501 and the second side vertical plate 1505. The first squeegee 1502, the second squeegee 1503 and the third squeegee 1504 are arranged from high to low.

The first side vertical plate 1501 is installed corresponding to the first frictioning assembly installation base 11, the second frictioning assembly installation base 12 and the third frictioning assembly installation base 13 on the upper edge of the front end of the glue dipping tank body 1; the second side vertical plate 1505 is installed corresponding to the first frictioning assembly installation seat 11, the second frictioning assembly installation seat 12 and the third frictioning assembly installation seat 13 on the upper edge of the rear end of the glue dipping tank body 1. Specifically, the first side vertical plate strut 1512, the second first side vertical plate strut 1514 and the third first side vertical plate strut 1516 are respectively installed in the third L-shaped fastening groove 130 of the third frictioning component installation base 13, the second L-shaped fastening groove 120 of the second frictioning component installation base 12 and the first L-shaped fastening groove 110 of the first frictioning component installation base 11 at the upper edge of the front end of the gum dipping tank body 1. The first side vertical plate strut 1506, the second side vertical plate strut 1508 and the third side vertical plate strut 1510 are respectively installed in the third L-shaped fastening groove 130 of the third frictioning component installation base 13, the second L-shaped fastening groove 120 of the second frictioning component installation base 12 and the first L-shaped fastening groove 110 of the first frictioning component installation base 11 at the upper edge of the rear end of the gum dipping tank body 1.

The number of the glue dipping pressing component installation bases 10 is 2, and the two glue dipping pressing component installation bases 10 are symmetrically arranged on the upper edges of the front end and the rear end of the glue dipping tank body 1. As shown in fig. 2, the glue dipping pressing assembly mounting base 10 mainly includes a mounting base bottom plate 101, a second mounting base L-shaped clamping groove 102, a first mounting base L-shaped clamping groove 103, and a mounting base side plate 104. The mounting base bottom plate 101 is fixed on the edge of the upper end of the glue dipping tank body 1. The mount side plate 104 is fixed to the mount base plate 101. The side plate 104 of the installation base is respectively provided with a first installation base L-shaped clamping groove 103 and a second installation base L-shaped clamping groove 102, and the opening directions of the first installation base L-shaped clamping groove 103 and the second installation base L-shaped clamping groove 102 are consistent.

The impregnation pressing component 4 is installed on the impregnation pressing component installation base 10. As shown in fig. 3, the glue dipping compressing assembly 4 mainly comprises a first trapezoidal compressing frame 401, a first trapezoidal compressing frame pillar limiting block 402, a first trapezoidal compressing frame pillar limiting block second 403, a first trapezoidal compressing frame pillar first 404, a first trapezoidal compressing frame pillar second 405, a first cross bar 406, a third cross bar 407, a second trapezoidal compressing frame pillar first 408, a second trapezoidal compressing frame pillar limiting block first 409, a second trapezoidal compressing frame pillar limiting block second 410, a second trapezoidal compressing frame pillar second 411, a second trapezoidal compressing frame 412 and a second cross bar 413. A first trapezoid pressing frame strut 404 and a second trapezoid pressing frame strut 405 are respectively installed at the upper end of a first trapezoid pressing frame 401, a first trapezoid pressing frame strut limiting block 402 is fixed at the end portion of the first trapezoid pressing frame strut 404, and a second trapezoid pressing frame strut limiting block 403 is fixed at the end portion of the second trapezoid pressing frame strut 405. The first trapezoid pressing frame support column 408 and the second trapezoid pressing frame support column 411 are respectively installed at the upper end of the second trapezoid pressing frame 412, the first trapezoid pressing frame support column limiting block 409 is fixed at the end portion of the first trapezoid pressing frame support column 408, and the second trapezoid pressing frame support column limiting block second 410 is fixed at the end portion of the second trapezoid pressing frame support column second 411. The first trapezoidal pressing frame 401 and the second trapezoidal pressing frame 412 are connected through a first cross bar 406, a third cross bar 407 and a second cross bar 413. One end of each of the first cross bar 406 and the second cross bar 413 is fixed on the inner wall of the lower end of the first trapezoid pressing frame 401, and the other end of each of the first cross bar 406 and the second cross bar 413 is fixed on the inner wall of the lower end of the second trapezoid pressing frame 412. One end of the third cross bar 407 is fixed in the middle of the inner wall of the upper end of the first trapezoid pressing frame 401, and the other end of the third cross bar 407 is fixed in the middle of the inner wall of the upper end of the second trapezoid pressing frame 412. The first trapezoidal compression frame strut 404 and the second trapezoidal compression frame strut 405 are respectively installed in the first mounting seat L-shaped clamping groove 103 and the second mounting seat L-shaped clamping groove 102 on the upper edge of the front end of the glue dipping tank body 1. The first trapezoidal pressing frame strut 408 and the second trapezoidal pressing frame strut 411 are respectively installed in the first mounting seat L-shaped clamping groove 103 and the second mounting seat L-shaped clamping groove 102 on the upper edge of the rear end of the glue dipping tank body 1.

When the basalt fiber composite rib impregnation tank is used, the end part of the basalt fiber composite rib 3 on the basalt fiber composite rib reel 6 penetrates through the guide hole 801 on the second guide block 8 to be tightly pressed at the lower end of the tension rod 9, then is tightly pressed at the lower ends of the second cross rod 413 and the first cross rod 406 of the impregnation pressing assembly 4, then passes through the upper end of the third glue scraping plate 1504, the lower end of the second glue scraping plate 1503 and the upper end of the first glue scraping plate 1502, finally penetrates through the guide hole 140 of the first guide block 14, and finally the end part of the basalt fiber composite rib 3 is drawn by a tractor to complete the impregnation process.

In the gum dipping process, the second guide block 8 and the first guide block 14 are used for realizing the guide effect on the basalt fiber composite rib 3; further guiding and preliminary pressing actions are carried out on the basalt fiber composite ribs 3 through the tension rods 9; the pressing and dipping effects on the basalt fiber composite rib 3 are realized through the dipping and pressing assembly 4, the basalt fiber composite rib 3 can be fully soaked, meanwhile, the basalt fiber composite rib 3 can be better unfolded through the combined action of the tension rod 9 and the dipping and pressing assembly 4, the basalt fiber composite rib 3 is fully soaked, the problem that the tension of the basalt fiber composite rib 3 is uneven in the winding process is solved, and the tension of the yarn is kept consistent as much as possible; the scraping function of the excessive glue amount on the surface of the basalt fiber composite rib 3 is realized through the glue scraping component 15, and the excessive glue amount on the surface of the basalt fiber composite rib 3 is scraped; the first inclined block 2 and the second inclined block 5 enable the excessive glue on the surface of the basalt fiber composite rib 3 to be gathered at the middle position of the glue dipping groove body 1 after falling, the excessive glue can be extruded and then flows back to the glue dipping groove body 1 again, and the production cost is saved.

After the impregnation is completed, the impregnation pressing component 4 can be unloaded from the impregnation pressing component mounting seat 10, the impregnation pressing component 4 can be conveniently installed and unloaded from the impregnation pressing component mounting seat 10 through the second mounting seat L-shaped clamping groove 102 and the first mounting seat L-shaped clamping groove 103 on the impregnation pressing component mounting seat 10, and the operation is simple and convenient. The frictioning component 15 can be also unloaded from the first frictioning component mounting seat 11, the second frictioning component mounting seat 12 and the third frictioning component mounting seat 13, the frictioning component 15 can be conveniently installed and unloaded from the first frictioning component mounting seat 11, the second frictioning component mounting seat 12 and the third frictioning component mounting seat 13 through the third L-shaped clamping groove 130 of the third frictioning component mounting seat 13, the second L-shaped clamping groove 120 of the second frictioning component mounting seat 12 and the first L-shaped clamping groove 110 of the first frictioning component mounting seat 11, and the third frictioning component mounting seat 13, and the operation is simple and convenient.

In the description of the present invention, it is to be understood that the terms "central", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered as limiting the scope of the present invention.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: it is to be understood that modifications may be made to the technical solutions described in the foregoing embodiments, or equivalents may be substituted for some of the technical features thereof, but such modifications or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. The utility model provides a compound muscle steeping vat of basalt fiber which characterized in that includes: the glue dipping device comprises a glue dipping groove body, a first inclined block, a glue dipping compression assembly, a second inclined block, a basalt fiber composite rib reel mounting seat, a second guide block, a tension rod, a glue dipping compression assembly mounting seat, a first glue scraping assembly mounting seat, a second glue scraping assembly mounting seat, a third glue scraping assembly mounting seat, a first guide block and a glue scraping assembly; the basalt fiber composite rib reel mounting seat is arranged at the right end of the outer side of the impregnation tank body; the basalt fiber composite rib reel is arranged on the basalt fiber composite rib reel mounting seat; the tension rod is arranged at the right end inside the glue dipping tank body; the first inclined block is obliquely arranged at the left end in the glue dipping tank body; the second inclined block is obliquely arranged at the right end in the glue dipping tank body; the first guide block, the third frictioning component mounting seat, the second frictioning component mounting seat, the first frictioning component mounting seat, the glue dipping pressing component mounting seat and the second guide block are sequentially mounted at the upper end of the glue dipping tank body from left to right; the impregnation pressing component is arranged on the impregnation pressing component mounting seat; the frictioning component is arranged on the first frictioning component mounting seat, the second frictioning component mounting seat and the third frictioning component mounting seat.

2. The basalt fiber composite rib glue dipping tank of claim 1, wherein the first guide block is arranged at the upper edge of the left end of the glue dipping tank body; a plurality of guide holes which are uniformly distributed are formed in the first guide block, and the guide holes are horizontally and transversely arranged.

3. The basalt fiber composite reinforcement impregnation tank of claim 1, wherein the second guide block is arranged at the upper edge of the right end of the impregnation tank body; a plurality of guide holes which are uniformly distributed are formed in the second guide block, and the guide holes are horizontally and transversely arranged.

4. The basalt fiber composite rib glue dipping tank according to claim 1, wherein the third glue scraping component mounting seat, the second glue scraping component mounting seat and the first glue scraping component mounting seat are identical in structure, the third glue scraping component mounting seat is higher than the second glue scraping component mounting seat, and the second glue scraping component mounting seat is higher than the first glue scraping component mounting seat.

5. The basalt fiber composite rib glue dipping tank according to claim 4, wherein the number of the third glue scraping component mounting bases, the second glue scraping component mounting bases and the first glue scraping component mounting bases is 2, and the two third glue scraping component mounting bases are symmetrically arranged at the upper edges of the front end and the rear end of the glue dipping tank body; the two second glue scraping component mounting seats are symmetrically arranged on the upper edges of the front end and the rear end of the glue dipping tank body; the two first glue scraping component mounting seats are symmetrically arranged at the upper edges of the front end and the rear end of the glue dipping tank body.

6. The basalt fiber composite reinforcement impregnation tank of claim 5, wherein the first glue scraping component mounting seat is provided with a first L-shaped clamping groove, the second glue scraping component mounting seat is provided with a second L-shaped clamping groove, and the third glue scraping component mounting seat is provided with a third L-shaped clamping groove; the opening directions of the first L-shaped clamping groove, the second L-shaped clamping groove and the third L-shaped clamping groove are consistent.

7. The basalt fiber composite reinforcement glue dipping tank according to claim 6, wherein the glue scraping assembly comprises a first side vertical plate, a first glue scraping plate, a second glue scraping plate, a third glue scraping plate, a second side vertical plate, a first side vertical plate pillar limiting plate, a second side vertical plate pillar second, a second side vertical plate pillar limiting plate second, a third side vertical plate pillar limiting plate, a first side vertical plate pillar limiting plate, a second side vertical plate pillar limiting plate, a third side vertical plate pillar and a third side vertical plate pillar limiting plate; the first side vertical plate and the second side vertical plate have the same structure and size; the first side vertical plate is provided with three mounting holes, the upper end surface of the first side vertical plate is obliquely arranged, namely, the first side vertical plate is high from left to right, the three mounting holes are sequentially arranged from left to right, and the three mounting holes are arranged from left to right and from high to low along the inclined surface at the upper end of the first side vertical plate; the first side vertical plate strut, the second side vertical plate strut and the third side vertical plate strut are all arranged on the outer wall of the first side vertical plate, and the first side vertical plate strut, the second side vertical plate strut and the third side vertical plate strut are arranged in one-to-one correspondence with the three mounting holes of the first side vertical plate; the first side vertical plate strut limiting plate is fixed at one end part of the first side vertical plate strut, the second side vertical plate strut limiting plate is fixed at the second end part of the first side vertical plate strut, and the third side vertical plate strut limiting plate is fixed at the third end part of the first side vertical plate strut; the first side vertical plate strut, the second side vertical plate strut and the third side vertical plate strut are all arranged on the outer wall of the second side vertical plate, and the first side vertical plate strut, the second side vertical plate strut and the third side vertical plate strut are arranged in one-to-one correspondence with the three mounting holes of the second side vertical plate; the first side vertical plate strut limiting plate is fixed at one end part of the second side vertical plate strut, the second side vertical plate strut limiting plate is fixed at the second side vertical plate strut end part, and the third side vertical plate strut limiting plate is arranged at the third side vertical plate strut end part; two ends of the first glue scraping plate are respectively fixed on the inner walls of the first side vertical plate and the second side vertical plate, two ends of the second glue scraping plate are respectively fixed on the inner walls of the first side vertical plate and the second side vertical plate, and two ends of the third glue scraping plate are respectively fixed on the inner walls of the first side vertical plate and the second side vertical plate; the first glue scraping plate, the second glue scraping plate and the third glue scraping plate are vertically arranged and are perpendicular to the first side vertical plate and the second side vertical plate; the first glue scraping plate, the second glue scraping plate and the third glue scraping plate are arranged from high to low;

the first side vertical plate is installed corresponding to a first glue scraping component installation seat, a second glue scraping component installation seat and a third glue scraping component installation seat on the upper edge of the front end of the glue dipping groove body; the second side vertical plate is installed corresponding to a first glue scraping component installation seat, a second glue scraping component installation seat and a third glue scraping component installation seat on the upper edge of the rear end of the glue dipping groove body; the first side vertical plate strut, the second side vertical plate strut and the third side vertical plate strut are respectively arranged in a third L-shaped clamping groove of a third frictioning component mounting seat at the upper edge of the front end of the gum dipping groove body, a second L-shaped clamping groove of a second frictioning component mounting seat and a first L-shaped clamping groove of a first frictioning component mounting seat; the first side vertical plate strut, the second side vertical plate strut and the second side vertical plate strut are respectively arranged in a third L-shaped clamping groove of a third frictioning component mounting seat at the upper edge of the rear end of the gum dipping groove body, a second L-shaped clamping groove of a second frictioning component mounting seat and a first L-shaped clamping groove of a first frictioning component mounting seat.

8. The basalt fiber composite rib glue dipping tank according to claim 1, wherein the number of the glue dipping compression assembly installation seats is 2, and the two glue dipping compression assembly installation seats are symmetrically arranged on the upper edges of the front end and the rear end of the glue dipping tank body; the glue dipping and compressing assembly mounting seat mainly comprises a mounting seat bottom plate, a second mounting seat L-shaped clamping groove, a first mounting seat L-shaped clamping groove and a mounting seat side plate; the mounting base bottom plate is fixed on the edge of the upper end of the glue dipping tank body; the side plate of the mounting seat is fixed on the bottom plate of the mounting seat; the side plate of the installation base is respectively provided with a first installation base L-shaped clamping groove and a second installation base L-shaped clamping groove, and the opening directions of the first installation base L-shaped clamping groove and the second installation base L-shaped clamping groove are consistent.

9. The basalt fiber composite reinforcement glue dipping tank according to claim 8, wherein the glue dipping compression assembly is composed of a first trapezoidal compression frame, a first trapezoidal compression frame strut limiting block, a second trapezoidal compression frame strut limiting block, a first trapezoidal compression frame strut, a second trapezoidal compression frame strut, a first cross rod, a third cross rod, a first trapezoidal compression frame strut, a second trapezoidal compression frame strut limiting block, a second trapezoidal compression frame strut, a second trapezoidal compression frame and a second cross rod; the first trapezoid pressing frame strut and the second trapezoid pressing frame strut are respectively arranged at the upper end of the first trapezoid pressing frame, the first trapezoid pressing frame strut limiting block is fixed at one end of the first trapezoid pressing frame strut, and the second trapezoid pressing frame strut limiting block is fixed at the two end of the first trapezoid pressing frame strut; the first trapezoid pressing frame strut and the second trapezoid pressing frame strut are respectively arranged at the upper end of the second trapezoid pressing frame, the first trapezoid pressing frame strut limiting block is fixed at one end part of the second trapezoid pressing frame strut, and the second trapezoid pressing frame strut limiting block is fixed at the two end parts of the second trapezoid pressing frame strut; the first trapezoidal pressing frame and the second trapezoidal pressing frame are connected through a first cross rod, a third cross rod and a second cross rod; one ends of the first cross rod and the second cross rod are fixed on the inner wall of the lower end of the first trapezoidal pressing frame, and the other ends of the first cross rod and the second cross rod are fixed on the inner wall of the lower end of the second trapezoidal pressing frame; one end of a third cross rod is fixed in the middle of the inner wall of the upper end of the first trapezoidal pressing frame, and the other end of the third cross rod is fixed in the middle of the inner wall of the upper end of the second trapezoidal pressing frame; the first trapezoidal compression frame strut and the second trapezoidal compression frame strut are respectively arranged in a first mounting seat L-shaped clamping groove and a second mounting seat L-shaped clamping groove at the upper edge of the front end of the glue dipping tank body; the first trapezoidal compression frame strut and the second trapezoidal compression frame strut are respectively installed in a first installation seat L-shaped clamping groove and a second installation seat L-shaped clamping groove at the upper edge of the rear end of the glue dipping tank body.

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