Composite material packaged fiber grating sensor and manufacturing method thereof

The invention claimed is: 1. A composite material packaged fiber grating sensor, comprising: a fiber grating sensor component, a composite material coverage layer, a resin package layer, and a composite material substrate layer, wherein: the composite material coverage layer and the composite material substrate layer form a shell that wraps the resin package layer, the fiber grating sensor component comprises an optical fiber, strain grating regions, and a temperature fiber grating including grid regions, where: one end of the optical fiber is connected to an optical fiber connector, the temperature fiber grating is arranged at the outermost region of the other end of the optical fiber, the strain grating grid regions are engraved in the end of the optical fiber that is closer to the temperature fiber grating, the temperature fiber grating and the strain grating grid regions are arranged in series, the optical fiber is straight without any bends, a part of the fiber grating sensor component, which includes at least the temperature fiber grating and the strain grating grid regions, is arranged on the composite material substrate layer and packaged by the resin package layer that is formed by curing resin that filled a region between the composite material substrate layer and the composite material coverage layer, and the temperature fiber grating grid regions and the strain grating grid regions are completely packaged in the resin package layer, the composite material coverage layer and the resin package layer form an integrated molding structure obtained by curing resin that filled a fiber fabric structure in the composite material coverage layer and a gap between the fiber fabric structure and the composite material substrate layer by vacuum-assisted resin infusion, the composite material substrate layer has a flat plate structure, the composite material coverage layer has a streamlined structure, a protective layer is arranged at the outside of the optical fiber that is not packaged in the resin package layer and at a part of the optical fiber that extends to the interior of the resin package layer, the composite material substrate layer comprises a first fiber fabric structure, and a resin layer that is impregnated and cured on the first fiber fabric structure, where the first fiber fabric structure refers to a three-dimensional woven structure made of reinforcing fibers or a two-dimensional planar woven fabric made of reinforcing fibers, and the composite material coverage layer comprises a second fiber fabric structure, and a resin layer impregnated and cured on the second fiber fabric structure, where: the resin layer is obtained by vacuum-assisted infusion of the resin and curing the fiber fabric, and the second fiber fabric structure refers to a three-dimensional woven structure made of reinforcing fibers or a two-dimensional planar woven fabric made of reinforcing fibers. 2. The fiber grating sensor according to claim 1 , wherein the thickness of the composite material substrate layer is less than 1.5 mm. 3. The fiber grating sensor according to claim 1 , wherein the composite material substrate layer is formed molding the fiber fabric using prepreg hot compression molding, liquid resin transfer molding, or vacuum-assisted infusion molding. 4. The fiber grating sensor according to claim 1 , wherein the reinforcing fibers are at least one type of fiber selected from the group consisting of glass fibers, carbon fibers, basalt fibers, aramid fibers, and polyester fibers. 5. The fiber grating sensor according to claim 1 , wherein the resin is an epoxy resin, a phenolic resin, an urethane resin, or a vinyl resin. 6. The fiber grating sensor according to claim 1 , wherein the composite material substrate layer is manufactured by hot compression molding dense and orthogonal woven glass fiber prepreg with a deployment thickness of 0.2-1.0 mm. 7. The fiber grating sensor according to claim 1 , wherein the composite substrate layer is demoulded by using a release cloth so that frosted rough surfaces are formed on the upper and lower surfaces of the composite material substrate layer. 8. The fiber grating sensor according to claim 1 , wherein the second fiber fabric structure in the composite material coverage layer is an electronic-grade orthogonal woven glass fiber cloth. 9. A manufacturing method of a composite material packaged fiber grating sensor, comprising the following procedures: a composite material substrate manufacturing procedure including cutting a fiber fabric or fiber fabric prepreg with a set area, and preparing a composite material substrate by a molding process; a fiber grating sensor component manufacturing procedure including selecting an optical fiber provided with a protective layer on one end, engraving at least two fiber grating grid regions on the other end of the optical fiber without the protective layer, wherein one fiber grating grid region is located at the tail end of the optical fiber that is not covered by the protective layer, a protection pipe is sleeved on the fiber grating grid region at the tail end, then the protection pipe is filled with heat conduction fluid, and the pipe orifice is sealed to form a fiber grating sensing component; an assembly procedure including fixing one of the fiber grating sensor component to the prepared composite material substrate or fixing at least two fiber grating sensor components to the prepared composite material substrate in parallel according to a set interval, and then covering the fiber fabric; a molding procedure including performing vacuum-assisted resin infusion and curing molding on the covered fiber fabric and the gap between the fiber fabric and the composite material substrate layer to obtain a composite material coverage layer and a resin package layer; wherein if the number of the fiber grating sensor components in the assembly procedure is greater than or equal to 2, a cutting procedure is performed after the molding procedure, and the cutting is performed parallel to the direction of the fiber grating sensor components; and an optical fiber connector is connected to the tail end of the optical fiber with the protective layer so as to obtain the composite material packaged fiber grating sensor. 10. The manufacturing method according to claim 9 , wherein in the composite material substrate manufacturing procedure, the molding process can be a prepreg hot molding process, a liquid resin transfer molding process, or a vacuum-assisted infusion molding process. 11. The manufacturing method according to claim 9 , wherein in the fiber grating sensor component manufacturing procedure, the manufacturing method of the optical fiber provided with a protective layer on one end is further as follows: cutting a set length of an optical cable that is wrapped with an outer protective layer and is doped with a photosensitive material, and then stripping a set length of the outer protective layer at one end thereof. 12. The manufacturing method according to claim 9 , wherein in the assembly procedure, the fixing mode is bonding; and the bonding fixing points are respectively at the junction of the optical fiber with the protective layer and the optical fiber without the protective layer, between the grating grid regions, and at the end parts of the protection pipe. 13. The manufacturing method according to claim 9 , wherein in the cutting procedure, during the cutting, the fiber grating sensor component is located on the centerline of the cut strip-shaped composite material. 14. The manufacturing method according to claim 9 , wherein each gra