CN114228301A

CN114228301A - Reciprocating type surfboard inner core fiber cloth layer stacking and laminating equipment

Info

Publication number: CN114228301A
Application number: CN202111495850.XA
Authority: CN
Inventors: 唐贤海
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-09
Filing date: 2021-12-09
Publication date: 2022-03-25

Abstract

The invention relates to the field of surfboards, in particular to reciprocating surfboard inner core fiber cloth layer stacking and laminating equipment. The technical problem is as follows: after the fiber composite surfboard inner core is cut, a large number of fiber filaments are difficult to attach at the peripheral edge, and meanwhile, resin is difficult to permeate basalt fiber cloth when the basalt fiber cloth is attached, so that the quality of the surfboard is affected. The technical scheme is as follows: a reciprocating surfboard inner core fiber cloth layer stacking and laminating device comprises a support frame, a glue scraping unit and the like; the middle parts of the two supporting frames are connected with a frictioning unit. The invention realizes the stacking and laying of the fiber cloth of the inner core of the surfboard, the bonding between the surfboard and the fiber cloth is tighter through a reciprocating mode, meanwhile, the fiber yarns generated after the edge of the surfboard is cut are pressed and pasted, and the redundant resin generated by the pasting of the surfboard and the fiber cloth is used for reinforcing, so that the fiber yarns are more firmly pasted with the edge of the surfboard, and the loose condition is prevented.

Description

Reciprocating type surfboard inner core fiber cloth layer stacking and laminating equipment

Technical Field

The invention relates to the field of surfboards, in particular to reciprocating surfboard inner core fiber cloth layer stacking and laminating equipment.

Background

The manufacturing method of the existing surfboard comprises the steps of cutting a manufactured fiber composite surfboard inner core, attaching a layer of basalt fiber cloth to the upper surface of the fiber composite surfboard inner core, then coating resin on the basalt fiber cloth, and attaching a layer of basalt fiber cloth again.

Disclosure of Invention

The invention provides reciprocating type surfboard inner core fiber cloth layer laminating and fitting equipment, aiming at overcoming the defects that after a fiber composite surfboard inner core is cut, a large number of fiber yarns are difficult to fit at the peripheral edge, and meanwhile, resin is difficult to permeate basalt fiber cloth when the basalt fiber cloth is fitted, so that the quality of a surfboard is affected.

The technical scheme is as follows: a reciprocating surfboard inner core fiber cloth layer stacking and laminating device comprises a support frame, an objective table, a sucker, a cloth rolling cylinder, a glue scraping unit, a cutting unit, a pushing unit and an auxiliary unit; an object stage is arranged between the two support frames; four suckers are connected to the upper surface of the objective table in a rectangular manner; the rear parts of the two supporting frames are connected with cloth rolling cylinders; the middle parts of the two support frames are connected with a glue scraping unit which is used for enabling resin to permeate basalt fiber cloth to the surfboard; the upper parts of the two supporting frames are connected with a cutting unit for cutting the surfboard; the middle parts of the two support frames are connected with a pushing unit, the pushing unit is positioned below the glue scraping unit, and the pushing unit is connected with an objective table and used for tightly adhering the cellosilk at the edge of the surfing board; the upper surface of the objective table is connected with an auxiliary unit for assisting the operation of the glue scraping unit.

As a further preferred scheme, the glue scraping unit comprises a first electric sliding rail, a first electric sliding block, a connecting plate, a glue scraping component, an automatic traction buckle, a first electric push rod and a first rack; the middle parts of the two supporting frames are respectively fixedly connected with a first electric slide rail; the two first electric sliding rails are respectively connected with a first electric sliding block in a sliding manner; the opposite sides of the two first electric sliding blocks are fixedly connected with a connecting plate respectively; a glue scraping component is connected between the two connecting plates; the rear sides of the two connecting plates are respectively fixedly connected with an automatic traction buckle; two first electric push rods are fixedly connected to the front sides of the lower parts and the rear sides of the lower parts of the two support frames respectively; the telescopic parts of the four first electric push rods are fixedly connected with a first rack respectively.

As a further preferable scheme, the glue scraping component comprises a first rotating shaft, a connecting rod, a second rotating shaft, a first flat gear, a second flat gear, a rolling rod, a scraping plate and a pressure glue rod; the lower parts of the two connecting plates are rotationally connected with a first rotating shaft; the left end and the right end of the first rotating shaft are fixedly connected with a first flat gear respectively; the left part and the right part of the first rotating shaft are respectively fixedly connected with a connecting rod, and the two connecting rods are positioned between the two first flat gears; the upper parts of the two connecting rods are rotatably connected with a second rotating shaft; the outer surface of the second rotating shaft is fixedly connected with a rolling rod; the left end and the right end of the second rotating shaft are respectively fixedly connected with a second flat gear; the lower parts of the two connecting rods are fixedly connected with scrapers; the left part of the rear side and the right part of the rear side of the scraper are respectively connected with a pressure rubber rod in a rotating way.

As a further preferred scheme, the outer surface of the rolling rod is annularly arrayed with a plurality of felting needles for pricking the basalt fiber cloth.

As a further preferable scheme, the cutting unit comprises a second electric sliding rail, a second electric sliding block, a transverse plate, a third electric sliding rail, a third electric sliding block, a second electric push rod, an electric rotating disc and a cutter; two second electric slide rails are symmetrically and fixedly connected to the upper parts of the two support frames; the two second electric sliding rails are respectively connected with a second electric sliding block in a sliding manner; transverse plates are fixedly connected to the opposite sides of the two second electric sliding blocks; the lower surface of the transverse plate is fixedly connected with a third electric slide rail; a third electric sliding block is connected to the third electric sliding rail in a sliding manner; the lower surface of the third electric sliding block is fixedly connected with a second electric push rod; the telescopic part of the second electric push rod is fixedly connected with an electric turntable; the lower surface of the electric turntable is fixedly connected with a cutter.

As a further preferable scheme, the pushing unit comprises a support plate, a third electric push rod, a pushing block, a swing rod, a pressing block, a telescopic spring rod, a guide rail, a moving block and a third rotating shaft; a support plate is fixedly connected between the rear parts of the two support frames; two third electric push rods are symmetrically and fixedly connected to the front side of the support plate; the telescopic parts of the two third electric push rods are fixedly connected with push blocks; a third rotating shaft is rotatably connected between the cross rods at the lower parts of the two support frames; the middle part of the third rotating shaft is rotatably connected with two swing rods which are symmetrical left and right; the front part of the objective table is fixedly connected with a telescopic spring rod; the rear end of the telescopic spring rod is fixedly connected with a pressing block; two moving blocks are symmetrically and fixedly connected to the lower surface of the pressing block; the lower parts of the two moving blocks are respectively connected with a guide rail in a sliding way, and the lower parts of the two guide rails are fixedly connected with the objective table.

As a further preferred option, the push block is provided with a convex shape for pushing the rear side of the cut surfboard.

As a further preferred option, the pressing block is provided with a concave shape for pressing the front side of the cut surfboard.

As a further preferable scheme, the lower surface of the front side of the pressing block is provided with two inclined blocks which are used for assisting the swing rod to push the pressing block.

As a further preferable mode, the auxiliary unit includes a bracket and a second rack; the upper surface of the objective table is fixedly connected with two brackets which are symmetrical left and right; the upper surfaces of the two brackets are fixedly connected with a second rack respectively.

Compared with the prior art, the invention has the beneficial effects that: the method realizes the laminated laying of the basalt fiber cloth on the inner core of the surfboard, ensures that the surfboard is bonded with the basalt fiber cloth more tightly in a reciprocating mode, simultaneously carries out pressing and pasting operation on fiber yarns generated after the edge of the surfboard is cut, and reinforces by means of redundant resin generated by pasting the surfboard with the basalt fiber cloth, so that the fiber yarns are pasted with the edge of the surfboard more firmly, and the loose condition is prevented.

Drawings

Fig. 1 is a schematic perspective view of a first three-dimensional structure of the reciprocating surfboard core fiber cloth layer laminating device according to the present invention;

FIG. 2 is a schematic view of a second three-dimensional structure of the reciprocating surfboard core fiber cloth layer laminating device according to the present invention;

FIG. 3 is a schematic perspective view of a glue scraping unit of the reciprocating surfboard core fiber cloth layer laminating device according to the present invention;

FIG. 4 is a schematic view of a partial three-dimensional structure of a glue scraping unit of the reciprocating surfboard core fiber cloth layer laminating device according to the present invention;

FIG. 5 is a schematic perspective view of a squeegee assembly of the reciprocating surfboard core fiber cloth layer laminating apparatus of the present invention;

FIG. 6 is a schematic perspective view of a cutting unit of the reciprocating surfboard core fiber cloth layer laminating device according to the present invention;

FIG. 7 is a schematic diagram of a second three-dimensional structure of a cutting unit of the reciprocating surfboard core fiber cloth layer laminating and attaching device according to the present invention;

FIG. 8 is a schematic perspective view of a pushing unit of the reciprocating surfboard core fiber cloth layer laminating apparatus according to the present invention;

FIG. 9 is a schematic diagram of a second three-dimensional structure of a pushing unit of the reciprocating surfboard core fiber cloth layer laminating device according to the present invention;

fig. 10 is a schematic perspective view of an auxiliary unit of the reciprocating surfboard core fiber cloth laminating device according to the present invention.

Wherein: 1-a support frame, 2-an objective table, 3-a sucker, 4-a cloth roller, 201-a first electric slide rail, 202-a first electric slide block, 203-a connecting plate, 204-a glue scraping component, 20401-a first rotating shaft, 20402-a connecting rod, 20403-a second rotating shaft, 20404-a first flat gear, 20405-a second flat gear, 20406-a rolling rod, 20407-a scraping plate, 20408-a pressure glue rod, 205-an automatic traction buckle, 206-a first electric push rod, 207-a first rack, 301-a second electric slide rail, 302-a second electric slide block, 303-a transverse plate, 304-a third electric slide rail, 305-a third electric slide block, 306-a second electric push rod, 307-an electric turntable, 308-a cutter, 401-a support plate, 402-a third electric push rod, 403-push block, 404-swing rod, 405-press block, 406-telescopic spring rod, 407-guide rail, 408-moving block, 409-third rotating shaft, 501-bracket and 502-second rack.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

A reciprocating surfboard core fiber cloth lamination and lamination device is shown in figures 1-10 and comprises a support frame 1, an object stage 2, a suction disc 3, a cloth roller 4, a glue scraping unit, a cutting unit, a pushing unit and an auxiliary unit; an objective table 2 is arranged between the two support frames 1; the upper surface of the objective table 2 is connected with four suckers 3 in a rectangular manner; the rear parts of the two support frames 1 are connected with a cloth rolling cylinder 4; the middle parts of the two support frames 1 are connected with a glue scraping unit; the upper parts of the two support frames 1 are connected with a cutting unit; the middle parts of the two support frames 1 are connected with pushing units, the pushing units are positioned below the glue scraping units, and the pushing units are connected with the objective table 2; an auxiliary unit is connected to the upper surface of the stage 2.

When the device works, the support frame 1 and the objective table 2 are horizontally placed on the ground, then a power supply is connected externally, an operator places a surfing board with the surface coated with resin on the suction disc 3, then tightly buckles basalt fiber cloth in the cloth winding drum 4 on the glue scraping unit, then controls the glue scraping unit to be started to move forwards, the glue scraping unit uniformly scrapes the resin on the surfboard and guides the redundant resin to the edge of the surfboard, meanwhile, the basalt fiber cloth is paved on the surface of the surfboard, then the cutting unit is controlled to cut the basalt fiber cloth and the surfboard in a specific shape to obtain a required inner core plate of the surfboard, then the glue scraping unit switches to another working state and moves backwards to reset, the resin on the surfboard penetrates into the surface of the basalt fiber cloth in the moving process, so that the basalt fiber cloth is tightly attached to the surfboard, then, the basalt fiber cloth in the cloth winding drum 4 is tightly buckled on the glue scraping unit again, controlling the glue scraping unit to move forwards again, paving new basalt fiber cloth on the basalt fiber cloth coated with resin before, attaching fiber filaments appearing after the left and right side edges of the surfboard are cut to the edge of the surfboard in the moving process of the glue scraping unit, simultaneously controlling the pushing and pressing unit to tightly press and attach the fiber filaments on the front and back side edges of the surfboard, preventing the surfboard from having problems caused by loose fiber filament structure, and finally manually turning the surface of the surfboard to repeat the steps to realize the lamination of the basalt fiber cloth; the method realizes the laminated laying of the basalt fiber cloth on the inner core of the surfboard, ensures that the surfboard is bonded with the basalt fiber cloth more tightly in a reciprocating mode, simultaneously carries out pressing and pasting operation on fiber yarns generated after the edge of the surfboard is cut, and reinforces by means of redundant resin generated by pasting the surfboard with the basalt fiber cloth, so that the fiber yarns are pasted with the edge of the surfboard more firmly, and the loose condition is prevented.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and fig. 3 to 10, the glue scraping unit includes a first electric slide rail 201, a first electric slide block 202, a connecting plate 203, a glue scraping assembly 204, an automatic traction buckle 205, a first electric push rod 206 and a first rack 207; the middle parts of the two support frames 1 are respectively connected with a first electric slide rail 201 through bolts; a first electric sliding block 202 is connected to each of the two first electric sliding rails 201 in a sliding manner; the opposite sides of the two first electric sliding blocks 202 are respectively connected with a connecting plate 203 through bolts; a glue scraping component 204 is connected between the two connecting plates 203; the rear sides of the two connecting plates 203 are respectively fixedly connected with an automatic traction buckle 205; two first electric push rods 206 are fixedly connected to the front side and the rear side of the lower part of the two support frames 1 respectively; the four first electric push rods 206 are respectively fixedly connected with a first rack 207.

The scraping component 204 comprises a first rotating shaft 20401, a connecting rod 20402, a second rotating shaft 20403, a first pinion 20404, a second pinion 20405, a rolling rod 20406, a scraping plate 20407 and a pressure rubber rod 20408; a first rotating shaft 20401 is rotatably connected between the lower parts of the two connecting plates 203; a first flat gear 20404 is fixedly connected to each of the left end and the right end of the first rotating shaft 20401; a connecting rod 20402 is fixedly connected to each of the left and right portions of the first rotating shaft 20401, and the two connecting rods 20402 are located between the two first flat gears 20404; the upper parts of the two connecting rods 20402 are rotatably connected with a second rotating shaft 20403; a rolling rod 20406 is fixedly connected to the outer surface of the second rotating shaft 20403; a second flat gear 20405 is fixedly connected to the left end and the right end of the second rotating shaft 20403 respectively; scrapers 20407 are fixedly connected to the lower parts of the two connecting rods 20402; the left part of the rear side and the right part of the rear side of the scraper 20407 are respectively connected with a pressure rubber bar 20408 in a rotating manner.

A plurality of pricking pins are annularly arrayed on the outer surface of the rolling rod 20406 for pricking the basalt fiber cloth.

The cutting unit comprises a second electric slide rail 301, a second electric slide block 302, a transverse plate 303, a third electric slide rail 304, a third electric slide block 305, a second electric push rod 306, an electric rotary disc 307 and a cutter 308; two second electric slide rails 301 are symmetrically and fixedly connected to the upper parts of the two support frames 1; a second electric sliding block 302 is connected to each of the two second electric sliding rails 301 in a sliding manner; transverse plates 303 are fixedly connected to opposite sides of the two second electric sliding blocks 302; the lower surface of the transverse plate 303 is connected with a third electric slide rail 304 through bolts; a third electric sliding block 305 is connected on the third electric sliding rail 304 in a sliding manner; a second electric push rod 306 is fixedly connected to the lower surface of the third electric slide block 305; an electric rotating disc 307 is fixedly connected with the telescopic part of the second electric push rod 306; the lower surface of the electric turntable 307 is fixedly connected with a cutter 308.

The pushing unit comprises a support plate 401, a third electric push rod 402, a pushing block 403, a swing rod 404, a pressing block 405, a telescopic spring rod 406, a guide rail 407, a moving block 408 and a third rotating shaft 409; a support plate 401 is fixedly connected between the rear parts of the two support frames 1; two third electric push rods 402 are symmetrically and fixedly connected to the front side of the support plate 401; the telescopic parts of the two third electric push rods 402 are fixedly connected with push blocks 403; a third rotating shaft 409 is rotatably connected between the cross bars at the lower parts of the two support frames 1; the middle part of the third rotating shaft 409 is rotatably connected with two swing rods 404 which are symmetrical left and right; the front part of the objective table 2 is fixedly connected with a telescopic spring rod 406; the rear end of the telescopic spring rod 406 is fixedly connected with a pressing block 405; two moving blocks 408 are symmetrically and fixedly connected to the lower surface of the pressing block 405; the lower parts of the two moving blocks 408 are respectively connected with a guide rail 407 in a sliding way, and the lower parts of the two guide rails 407 are fixedly connected with the objective table 2.

The push block 403 is provided in a convex shape for pushing the rear side of the cut surfboard.

The pressing block 405 is provided in an inward concave shape for pressing the front side of the cut surfboard.

The lower surface of the front side of the pressing block 405 is provided with two inclined blocks for assisting the swing rod 404 to push the pressing block 405.

The auxiliary unit comprises a bracket 501 and a second rack 502; the upper surface of the objective table 2 is fixedly connected with two brackets 501 which are symmetrical left and right; the upper surfaces of the two brackets 501 are respectively fixedly connected with a second rack 502.

During work, an operator places a surfing board coated with resin on the surface on the suction cup 3 of the objective table 2, simultaneously buckles basalt fiber cloth of a cloth cylinder on the automatic traction buckle 205, then controls the first electric slide rail 201 to drive the first electric slide block 202 to move forwards, the first electric slide block 202 drives the connecting plate 203 to move, the connecting plate 203 drives the frictioning component 204 to move forwards, the scraping plate 20407 uniformly scrapes the resin on the surface of the surfing board in the moving process, the automatic traction buckle 205 drives the basalt fiber cloth to move forwards and lay the basalt fiber cloth on the surface of the surfing board, then controls the two front electric push rods 206 to extend, so that the first rack 207 rises to be meshed with the first pinion 20404, the first pinion 20404 moves on the first rack 207, the first pinion 20404 drives the first rotating shaft 20401 to rotate for a half turn, the first rotating shaft 20401 drives the connecting rod 20402 to rotate for a half turn, the rolling rod 20406 and the scraping plate 20407 are mutually exchanged, then the second electric slide rail 301 is controlled to drive the second electric slide block 302 to move, the second electric slide block 302 drives the transverse plate 303 to move, the transverse plate 303 drives the third electric slide rail 304 to move, meanwhile, the third electric slide rail 304 is controlled to drive the third electric slide block 305 to move, the second electric push rod 306 is controlled to extend to cut the cutter 308 against basalt fiber cloth and surfing boards, a required surfing board shape is cut according to requirements, then the first electric push rod 206 is controlled to shrink, the first electric push rod 206 drives the first rack 207 to descend, the first electric slide rail 201 is controlled to drive the first electric slide block 202 to move backwards for resetting, in the process of moving backwards for resetting, the second flat gear 20405 and the second rack 502 are meshed and move on the second flat gear 20405, the second flat gear 20405 drives the rolling rod 20406 to rotate, the rolling rod 20406 performs rolling needling operation on the basalt fiber cloth to enable resin on the surface of the surfing board to penetrate the surface of the basalt fiber cloth, so that the surfing board is attached to the basalt fiber cloth more tightly, meanwhile, the pressure glue rod 20408 performs pressing operation on fiber filaments generated after cutting the left side and the right side of the surfing board made of fiber materials, so that the fiber filaments can be tightly attached to the two sides of the surfing board without loosening, then the extension of the two rear first electric push rods 206 is controlled again, the first electric push rod 206 drives the first rack 207 to ascend, the first rack 207 drives the first pinion 20404 to rotate, the first pinion 20404 drives the first rotating shaft 20401 to rotate, the first rotating shaft 20401 drives the connecting rod 20402 to overturn, the rolling rod 20406 and the scraper 20407 are transposed again to return to the initial state, then the third electric push rod 402 is controlled to extend, the third electric push rod 402 drives the push block 403 to move forward, pushing the surfing board, attaching the rear side fiber of the surfing board to the edge of the surfing board, simultaneously touching the push block 403 with the swing rod 404, pressing down the rear end of the swing rod 404, swinging the swing rod 404 by taking a third rotating shaft 409 as an axis, descending the rear end, ascending the front end of the swing rod 404, applying a thrust force to the press block 405, moving the press block 405 backwards on the guide rail 407 through a moving block 408, pushing and pressing the front side of the surfing board, pressing the fiber of the front side of the surfing board to the edge of the surfing board, then resetting, finally repeating the operation of laying the basalt fiber cloth, laying the second basalt fiber cloth on the press block, and repeating the resetting operation to enable the first basalt fiber cloth and the second basalt fiber cloth to be attached more tightly; the mechanism completes the laminating and clinging operation of the basalt fiber cloth of the surfing board.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims

1. A reciprocating surfboard inner core fiber cloth layer laminating device comprises a support frame (1), an objective table (2), a suction cup (3) and a cloth rolling barrel (4); an objective table (2) is arranged between the two support frames (1); four suckers (3) are connected to the upper surface of the objective table (2) in a rectangular manner; the rear parts of the two support frames (1) are connected with a cloth rolling barrel (4); the device is characterized by also comprising a glue scraping unit, a cutting unit, a pushing unit and an auxiliary unit; the middle parts of the two support frames (1) are connected with a glue scraping unit which is used for enabling resin to permeate basalt fiber cloth to the surfboard; the upper parts of the two support frames (1) are connected with cutting units for cutting the surfboard; the middle parts of the two support frames (1) are connected with pushing units, the pushing units are positioned below the glue scraping units, and the pushing units are connected with an object stage (2) and used for tightly attaching to the surfboard edge cellosilk; the upper surface of the objective table (2) is connected with an auxiliary unit for assisting the operation of the glue scraping unit.

2. The laminating and attaching device for the fiber cloth layer of the inner core of the reciprocating surfboard as claimed in claim 1, wherein the glue scraping unit comprises a first electric sliding rail (201), a first electric sliding block (202), a connecting plate (203), a glue scraping component (204), an automatic traction buckle (205), a first electric push rod (206) and a first rack (207); the middle parts of the two support frames (1) are respectively fixedly connected with a first electric slide rail (201); the two first electric slide rails (201) are respectively connected with a first electric slide block (202) in a sliding manner; the opposite sides of the two first electric sliding blocks (202) are respectively fixedly connected with a connecting plate (203); a frictioning component (204) is connected between the two connecting plates (203); the rear sides of the two connecting plates (203) are respectively fixedly connected with an automatic traction buckle (205); two first electric push rods (206) are fixedly connected to the front side and the rear side of the lower part of the two support frames (1) respectively; the telescopic parts of the four first electric push rods (206) are respectively fixedly connected with a first rack (207).

3. The device for laminating the fiber cloth layer of the inner core of the reciprocating surfboard according to claim 2, wherein the glue scraping component (204) comprises a first rotating shaft (20401), a connecting rod (20402), a second rotating shaft (20403), a first flat gear (20404), a second flat gear (20405), a rolling bar (20406), a scraping plate (20407) and a pressure glue bar (20408); a first rotating shaft (20401) is rotatably connected between the lower parts of the two connecting plates (203); the left end and the right end of the first rotating shaft (20401) are fixedly connected with a first flat gear (20404) respectively; a connecting rod (20402) is fixedly connected to the left part and the right part of the first rotating shaft (20401), and the two connecting rods (20402) are positioned between the two first flat gears (20404); the upper parts of the two connecting rods (20402) are rotatably connected with a second rotating shaft (20403); the outer surface of the second rotating shaft (20403) is fixedly connected with a rolling rod (20406); a second flat gear (20405) is fixedly connected to the left end and the right end of the second rotating shaft (20403) respectively; scrapers (20407) are fixedly connected to the lower parts of the two connecting rods (20402); the left part and the right part of the back side of the scraper (20407) are respectively connected with a pressure rubber bar (20408) in a rotating way.

4. The reciprocating type surfboard core fiber cloth laminating device as claimed in claim 3, wherein the outer surface of the grinding rod (20406) is annularly arrayed with a plurality of pricking pins for pricking holes on the basalt fiber cloth.

5. The laminating equipment for the fiber cloth layer of the inner core of the reciprocating surfboard as claimed in claim 4, wherein the cutting unit comprises a second electric slide rail (301), a second electric slide block (302), a transverse plate (303), a third electric slide rail (304), a third electric slide block (305), a second electric push rod (306), an electric rotary table (307) and a cutter (308); two second electric slide rails (301) are symmetrically and fixedly connected to the upper parts of the two support frames (1); a second electric slide block (302) is connected to each of the two second electric slide rails (301) in a sliding manner; transverse plates (303) are fixedly connected to the opposite sides of the two second electric sliding blocks (302); a third electric slide rail (304) is fixedly connected to the lower surface of the transverse plate (303); a third electric slide block (305) is connected on the third electric slide rail (304) in a sliding way; a second electric push rod (306) is fixedly connected to the lower surface of the third electric slide block (305); an electric rotating disc (307) is fixedly connected with the telescopic part of the second electric push rod (306); the lower surface of the electric turntable (307) is fixedly connected with a cutter (308).

6. The device for laminating the fiber cloth layer of the inner core of the reciprocating surfboard as claimed in claim 5, wherein the pushing unit comprises a support plate (401), a third electric push rod (402), a push block (403), a swing rod (404), a press block (405), a telescopic spring rod (406), a guide rail (407), a moving block (408) and a third rotating shaft (409); a support plate (401) is fixedly connected between the rear parts of the two support frames (1); two third electric push rods (402) are symmetrically and fixedly connected to the front side of the support plate (401); the telescopic parts of the two third electric push rods (402) are fixedly connected with push blocks (403); a third rotating shaft (409) is rotatably connected between the cross bars at the lower parts of the two support frames (1); the middle part of the third rotating shaft (409) is rotatably connected with two swing rods (404) which are symmetrical left and right; the front part of the objective table (2) is fixedly connected with a telescopic spring rod (406); the rear end of the telescopic spring rod (406) is fixedly connected with a pressing block (405); two moving blocks (408) are symmetrically and fixedly connected to the lower surface of the pressing block (405); the lower parts of the two moving blocks (408) are respectively connected with a guide rail (407) in a sliding way, and the lower parts of the two guide rails (407) are fixedly connected with the objective table (2).

7. The reciprocating type surfboard core fiber cloth lamination device as claimed in claim 6, wherein the push block (403) is formed in an outward convex shape for pushing the rear side of the cut surfboard.

8. The apparatus of claim 6, wherein the press block (405) is formed in a concave shape to press the front side of the cut surfboard.

9. The device for laminating the fiber cloth layer of the inner core of the reciprocating surfboard as claimed in claim 6, wherein the front lower surface of the pressing block (405) is provided with two inclined blocks for assisting the swing rod (404) to push the pressing block (405).

10. The laminating device for the fiber cloth layer of the inner core of the reciprocating surfboard as claimed in claim 9, wherein the auxiliary unit comprises a bracket (501) and a second rack (502); two brackets (501) which are symmetrical left and right are fixedly connected to the upper surface of the objective table (2); the upper surfaces of the two brackets (501) are respectively fixedly connected with a second rack (502).