CN113997443A - Device is mediated with high efficiency to combined material for preparation of glass tempering manure pit - Google Patents

Abstract

The invention relates to the field of glass fiber reinforced plastic septic tank preparation equipment, in particular to a composite material efficient kneading device for preparing a glass fiber reinforced plastic septic tank, which comprises a cylinder barrel for mixing and infiltrating reinforced glass fibers and resin glue solution, and also comprises: the pressurizing circulation mechanism is arranged on the cylinder barrel and communicated with the cylinder barrel, and is used for pressurizing the reinforced glass fiber and the resin glue solution to make the reinforced glass fiber and the resin glue solution circularly flow and mix; the twisting mechanism is in transmission connection with the pressurizing circulation mechanism, and the pressurizing circulation mechanism drives the twisting mechanism to twist and mix the mixture in the cylinder barrel; the stirring shearing mechanism arranged on the twisting mechanism is positioned in the cylinder barrel, and the mixture in the cylinder barrel is stirred and sheared under the driving of the twisting mechanism. This kind of device is mediated to high efficiency of combined material for preparation of glass tempering manure pit for the mixture forms firm bonding effect under the combined action of extrusion force, torsional force, shearing force, thereby improves the mixed effect efficiency to the mixture greatly.

Description

Device is mediated with high efficiency to combined material for preparation of glass tempering manure pit

Technical Field

The invention relates to the field of glass fiber reinforced plastic septic tank preparation equipment, in particular to a composite material efficient kneading device for preparing a glass fiber reinforced plastic septic tank.

Background

The glass fiber reinforced plastic is glass fiber reinforced plastic, and the septic tank storage tank made of glass fiber reinforced plastic has the characteristics of extremely strong corrosion resistance, no leakage, easy construction, low aging speed and the like, and the service life can reach more than 50 years. In the process of carrying out mould pressing, curing and forming processing on the glass fiber reinforced plastic septic tank, resin glue solution needs to be prepared, a certain proportion of reinforced glass fibers are added into the resin glue solution and are uniformly mixed to form a composite structural material, then the composite structural material is poured into a mould, and then mould pressing, curing and forming and demoulding are carried out to obtain a finished product of the glass fiber reinforced plastic septic tank.

Because the surface of the glass fiber is smooth and the contact between the fibers is tight, the dispersibility of the glass fiber is poor, and when the glass fiber is directly mixed into resin glue, the wettability of the resin to the glass fiber is very poor, so that the glass fiber is difficult to form firm bonding with a resin matrix, the content of the glass fiber in a glass fiber reinforced plastic septic tank is limited, and the strength and the toughness performance are difficult to be improved.

Disclosure of Invention

The invention aims to provide a composite material efficient kneading device for preparing a glass fiber reinforced plastic septic tank, which solves the problems in the background technology. In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a device is mediated to combined material high efficiency for preparation of glass tempering manure pit, is including being used for mixing the cylinder of infiltrating to reinforcing glass fiber and resin glue solution, and is fixed with the relief valve on the lateral wall of cylinder, still includes:

the pressurizing circulation mechanism is arranged on the cylinder barrel and communicated with the cylinder barrel, and is used for pressurizing the reinforced glass fiber and the resin glue solution to enable the reinforced glass fiber and the resin glue solution to circularly flow and be mixed to form a mixture;

the twisting mechanism is in transmission connection with the pressurizing circulation mechanism, and the pressurizing circulation mechanism drives the twisting mechanism to twist and mix the mixture in the cylinder barrel;

the stirring shearing mechanism arranged on the twisting mechanism is positioned in the cylinder barrel and is driven by the twisting mechanism to stir and shear the mixture in the cylinder barrel.

Preferably, the screwing mechanism comprises flanges fixed at the ports of the two ends of the cylinder barrel, the center of the flange penetrates through the flange and is connected with the tubular shaft in a fixed-axis rotating mode, the tubular shaft and the cylinder barrel share the central axis, one end, located inside the cylinder barrel, of the tubular shaft is coaxially and fixedly connected with the rotating disc, a first annular groove matched with the rotating disc is formed in the side wall of the cylinder barrel, the rotating disc is embedded in the first annular groove and can be provided with a through hole in the center of the rotating disc, located inside the first annular groove, of the rotating shaft, the through hole is communicated with the tubular shaft, and one end, located outside the cylinder barrel, of the tubular shaft is communicated with the pressurizing circulation mechanism.

Preferably, the pressurizing circulation mechanism comprises a pressurizing cylinder, the pressurizing cylinder is perpendicular to and fixed in the middle of the outer side wall of the cylinder barrel, the upper end of the side wall of the pressurizing cylinder is fixed and communicated with the feeding pipe, the pressurizing cylinder is communicated with the cylinder barrel, a cross support is fixed to the upper end of the pressurizing cylinder, a spiral blade shaft is rotatably connected to the inner fixed shaft of the pressurizing cylinder, a second gear and a third gear are rotatably connected to the cross support through the fixed shaft, the upper end of the spiral blade shaft is connected to the cross support through the penetrating and rotating, the upper end of the spiral blade shaft is coaxially and fixedly connected with the center of the bottom surface of the second gear, the second gear is meshed with the third gear, a motor is fixed to the bottom surface of the cross support, and the motor is in transmission connection with the third gear.

Preferably, two ends of the cross-support frame are fixedly connected with the outer side wall of the cylinder barrel through supports respectively, two ends of the cross-support frame are fixed with a second shaft bracket, the second shaft bracket penetrates through the second shaft bracket and is connected with a second rotating shaft in a fixed-shaft rotating mode, and the lower end of the second rotating shaft is in transmission connection with a corresponding tubular shaft through a second bevel gear set.

Preferably, be fixed with two shaft brackets one on the cross-brace frame, and two shaft bracket one symmetry lies in the both sides of gear two, two shaft bracket common central axis runs through and the dead axle rotates on the shaft bracket one and is connected with pivot one, two the one end that the pivot is carried on the back mutually is connected through bevel gear group one and the upper end transmission of corresponding pivot two respectively, two the equal coaxial fixed connection gear one of one relative one end of pivot, the coaxial fixed connection ring gear two of upper surface of gear two, the both sides of ring gear two respectively with two the meshing of gear one is connected.

Preferably, the lower end of the support is fixed with a hanging bracket, the lower end of the hanging bracket is fixed with a sleeve, the sleeve is sleeved at the end part of the corresponding tubular shaft positioned outside the cylinder barrel, the tubular shaft can rotate in the sleeve in a fixed shaft mode, the sleeve is communicated with the bottom of the mixing barrel through a second guide pipe, the upper end of the mixing barrel is communicated with the inside of the pressurizing barrel through a first guide pipe, and the mixing barrel is fixed on the outer side wall of the pressurizing barrel.

Preferably, a plurality of clapboards are fixed in the mixing drum, the clapboards are arranged in three rows from top to bottom, the clapboards in each row are arranged at equal intervals, and the clapboard in the next row is positioned below the two adjacent clapboards in the previous row.

Preferably, the side wall of the second conduit is fixed and communicated with the pressure regulating barrel, the pressure regulating barrel is internally and slidably connected with a slide rod, one end, located in the second conduit, of the slide rod is in a wedge shape, the wedge surface faces to the corresponding sleeve, the end wall, far away from the second conduit, of the pressure regulating barrel is penetrated through and connected with a screw rod in a threaded manner, one end, located inside the second conduit, of the screw rod is fixed to a shaft and rotates to be connected with a pressing plate, the pressing plate is connected with the slide rod through a spring, and one end, located outside the pressure regulating barrel, of the screw rod is fixed with a handle.

Preferably, twist and change mechanism including setting up a plurality of axostylus axostyles on the carousel, and be fixed with a plurality of cutters along the axis trend equidistant on the axostylus axostyle, it is a plurality of the axostylus axostyle moves equidistant setting on the carousel along the circumference of carousel, and the one end of axostylus axostyle runs through and the dead axle rotates on the carousel that corresponds, and the axostylus axostyle sets up with the carousel is perpendicular, and the one end coaxial fixed with gear four that the axostylus axostyle is close to the hollow shaft, and is fixed with the ring gear one corresponding with the carousel on the inner wall of cylinder, and the ring gear one is located between carousel and the flange, and ring gear one is connected with each gear four meshing that correspond.

Preferably, the opposite surfaces of the two turntables are coaxially provided with a second annular groove, a matched annular frame is embedded in the second annular groove, the annular frame can be fixed in the second annular groove for rotating, the annular frame is provided with a plurality of insertion holes corresponding to the plurality of shaft levers on the object turntable, one ends of the shaft levers, far away from the corresponding turntables, are inserted in the insertion holes, and the shaft levers can be fixed in the insertion holes for rotating.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the reinforced glass fiber and the resin glue solution are pressurized by the pressurizing circulation mechanism to flow circularly and are mixed continuously in the circulating flow process, so that the mixing efficiency and effect of the mixture are improved, and the extrusion force between the reinforced glass fiber and the resin glue solution can be adjusted, so that the resin and the reinforced glass fiber can be better soaked and mixed, and the strength and the toughness of the glass fiber reinforced plastic septic tank are further improved.

According to the invention, the pressurizing and circulating mechanism pressurizes the mixture to enable the mixture to flow circularly and simultaneously drives the twisting mechanism to apply a torsional force to the mixture in the cylinder barrel, so that the mixture is subjected to the torsional force while flowing circularly, and the resin and the reinforced glass fiber can be further well infiltrated and mixed, thereby improving the strength and the toughness of the glass fiber reinforced plastic septic tank.

According to the invention, the stirring and shearing mechanism is driven to perform opposite and reverse mixing stirring and shearing on the mixture in the cylinder barrel while the twisting mechanism works, so that the mixture forms a firm bonding effect under the comprehensive action of extrusion force, torsional force and shearing force, and the mixing effect efficiency of the mixture is greatly improved.

Drawings

FIG. 1 is a schematic cross-sectional view of the final assembly of the present invention;

FIG. 2 is a schematic cross-sectional view of a pressure regulating cylinder according to the present invention;

FIG. 3 is a schematic cross-sectional view of a mixing drum according to the present invention;

FIG. 4 is a schematic view of the cross-sectional structure A-A of FIG. 1;

FIG. 5 is a schematic view of a cross-sectional structure B-B in FIG. 1;

fig. 6 is an enlarged schematic view of the structure at C in fig. 1.

In the figure: 1. a cylinder barrel; 2. a cutter; 3. a shaft lever; 4. a pressurizing cylinder; 5. a pressure regulating cylinder; 6. a mixing drum; 7. a first conduit; 8. a bevel gear set I; 9. a first shaft bracket; 10. a first rotating shaft; 11. a first gear; 12. a second gear; 13. a third gear; 14. a cross-brace; 15. a second shaft bracket; 16. a second rotating shaft; 17. a support; 18. a second conduit; 19. a bevel gear set II; 20. a sleeve; 21. a tubular shaft; 22. a flange; 23. a first gear ring; 24. a turntable; 25. a helical blade shaft; 26. a motor; 27. a gear ring II; 28. a feed pipe; 29. a screw; 30. a slide bar; 31. a spring; 32. pressing a plate; 33. a partition plate; 34. a hanger; 35. a first ring groove; 36. a fourth gear; 37. a handle; 38. a through hole; 39. a second ring groove; 40. a ring frame; 41. a jack; 42. a discharge valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1 to 6, the present invention provides a technical solution: the utility model provides a device is mediated to combined material high efficiency for preparation of glass tempering manure pit, is including being used for mixing the cylinder 1 of infiltrating to reinforcing glass fiber and resin glue solution, and is fixed with the relief valve 42 on the lateral wall of cylinder 1, still includes:

the pressurizing circulation mechanism is arranged on the cylinder barrel 1 and communicated with the cylinder barrel 1, and is used for pressurizing the reinforced glass fiber and the resin glue solution to enable the reinforced glass fiber and the resin glue solution to circularly flow and mix to form a mixture;

the twisting mechanism is in transmission connection with the pressurizing circulation mechanism, and the pressurizing circulation mechanism drives the twisting mechanism to twist and mix the mixture in the cylinder barrel 1;

the stirring that sets up on twisting the mechanism is sheared the mechanism, and the mechanism is sheared in the stirring is located cylinder 1 to twist the drive of mechanism down and stir and shear the mixture in the cylinder 1.

In this embodiment, the screwing mechanism includes flanges 22 fixed at two end ports of the cylinder barrel 1, the center of the flange 22 penetrates through and is fixedly connected with the pipe shaft 21 in a rotating manner, the pipe shaft 21 and the cylinder barrel 1 share a central axis, one end of the pipe shaft 21 located inside the cylinder barrel 1 is coaxially and fixedly connected with the rotary table 24, a first annular groove 35 matched with the rotary table 24 is formed in the side wall of the cylinder barrel 1, the rotary table 24 is embedded in the first annular groove 35 and is provided with a through hole 38 at the center of the rotary table 24 located inside the first annular groove 35 in a rotating manner, the through hole 38 is communicated with the pipe shaft 21, and one end of the pipe shaft 21 located outside the cylinder barrel 1 is communicated with the pressurization circulation mechanism.

In this embodiment, the pressurizing circulation mechanism includes a pressurizing cylinder 4, the pressurizing cylinder 4 is vertically fixed in the middle of the outer side wall of the cylinder barrel 1, the upper end of the side wall of the pressurizing cylinder 4 is fixed and communicated with the feeding pipe 28, the pressurizing cylinder 4 is communicated with the cylinder barrel 1, the upper end of the pressurizing cylinder 4 is fixed with a cross-frame 14, the inner fixed shaft of the pressurizing cylinder 4 is rotatably connected with a spiral blade shaft 25, the fixed shaft of the cross-frame 14 is rotatably connected with a second gear 12 and a third gear 13, the upper end of the spiral blade shaft 25 is rotatably connected with the cross-frame 14 in a penetrating and fixed shaft mode, the upper end of the spiral blade shaft 25 is coaxially and fixedly connected with the center of the bottom surface of the second gear 12, the second gear 12 is meshed with the third gear 13, the bottom surface of the cross-frame 14 is fixed with a motor 26, and the motor 26 is in transmission connection with the third gear 13.

In this embodiment, two ends of the cross-frame 14 are respectively fixedly connected with the outer side wall of the cylinder barrel 1 through the bracket 17, two shaft brackets 15 are fixed at two ends of the cross-frame 14, the shaft brackets 15 penetrate through and are connected with the rotating shafts 16 in a fixed-shaft rotating manner, and the lower ends of the rotating shafts 16 are in transmission connection with corresponding tubular shafts 21 through bevel gear sets 19.

In this embodiment, be fixed with two first pedestals 9 on cross-frame 14, and two first 9 symmetric forms of pedestals are located the both sides of two 12 gears, two the 9 sharing the central axis of pedestals, run through and the dead axle rotates on first 9 of pedestals and be connected with pivot one 10, two the one end that pivot one 10 was carried on the back mutually is connected with the upper end transmission of two 16 corresponding pivots through bevel gear group 8 respectively, two the equal coaxial fixed connection gear one 11 of the relative one end of pivot one 10, the coaxial fixed connection ring gear two 27 in upper surface of two 12 gears, the both sides of ring gear two 27 respectively with two first 11 meshing of gears is connected.

In this embodiment, a hanger 34 is fixed at the lower end of the bracket 17, a sleeve 20 is fixed at the lower end of the hanger 34, the sleeve 20 is sleeved on the end portion of the corresponding pipe shaft 21 located outside the cylinder barrel 1, the pipe shaft 21 can be fixed in the sleeve 20 to rotate, the sleeve 20 is communicated with the bottom of the mixing cylinder 6 through a second guide pipe 18, the upper end of the mixing cylinder 6 is communicated with the inside of the pressure cylinder 4 through a first guide pipe 7, and the mixing cylinder 6 is fixed on the outer side wall of the pressure cylinder 4.

In this embodiment, a plurality of partition plates 33 are fixed inside the mixing drum 6, the plurality of partition plates 33 are arranged in three rows from top to bottom, the partition plates 33 in each row are arranged at equal intervals, and the partition plate 33 in the next row is located below the two adjacent partition plates 33 in the previous row.

In this embodiment, the side wall of the second conduit 18 is fixed and communicated with the pressure regulating cylinder 5, the pressure regulating cylinder 5 is slidably connected with a slide rod 30, one end of the slide rod 30 located in the second conduit 18 is in a wedge shape, the wedge surface faces the corresponding sleeve 20, one end wall of the pressure regulating cylinder 5 far away from the second conduit 18 is penetrated and connected with a screw 29 in a threaded manner, one end of the screw 29 located in the second conduit 5 is fixed to a shaft and rotatably connected with a pressing plate 32, the pressing plate 32 is connected with the slide rod 30 through a spring 31, and one end of the screw 29 located outside the pressure regulating cylinder 5 is fixed with a handle 37.

In this embodiment, twist the mechanism including setting up a plurality of axostylus axostyles 3 on carousel 24, and be fixed with a plurality of cutters 2 along the equidistant interval of axis trend on the axostylus axostyle 3, it is a plurality of the axostylus axostyle 3 sets up on carousel 24 along the equidistant interval of the circumference trend of carousel 24, and the one end of axostylus axostyle 3 runs through and the dead axle rotates on corresponding carousel 24, axostylus axostyle 3 sets up with carousel 24 is perpendicular, the coaxial gear four 36 that is fixed with of one end that the axostylus axostyle 3 is close to hollow shaft 21, and be fixed with the ring gear one 23 corresponding with carousel 24 on the inner wall of cylinder 1, and ring gear 23 is located between carousel 24 and the flange 22, ring gear 23 is connected with the meshing of each gear four 36 that correspond.

In this embodiment, two ring grooves 39 are coaxially formed in the opposite surfaces of the two rotating discs 24, the ring frames 40 in the ring grooves 39 are embedded and connected in a matched manner, the ring frames 40 can rotate in the ring grooves 39 in a fixed axis manner, the ring frames 40 are provided with a plurality of insertion holes 41 corresponding to the plurality of shaft rods 3 on the object rotating disc 24, one ends of the shaft rods 3 far away from the corresponding rotating disc 24 are inserted into the insertion holes 41, and the shaft rods 3 can rotate in the insertion holes 41 in a fixed axis manner.

The invention has the advantages that: when the composite material high-efficiency kneading device for preparing the glass fiber reinforced plastic septic tank is used, the working process is as follows:

as shown in fig. 1 and fig. 3, the motor 26 is started to operate, so that the motor 26 drives the spiral blade shaft 25 to rotate through the third gear 13 and the second gear 12, then the mixture of the reinforcing fibers and the resin glue solution is conveyed into the pressurizing cylinder 4 through the feeding pipe 28, the spiral blade shaft 25 applies downward thrust to the mixture through the rotation of the spiral blade, so that the mixture is conveyed into the cylinder 1, and the mixture enters the pipe shaft 21 through the through hole on the rotating disc 24, enters the bottom of the mixing cylinder 6 through the sleeve 20 and the second conduit 18, and then enters the pressurizing cylinder 4 through the first conduit 7 to form a circulating flow, which helps to improve the mixing effect and efficiency of the mixture.

As shown in fig. 3, after the mixture enters the mixing cylinder 6, the mixture is divided by each partition plate 33 in the lowest row in the process of flowing from bottom to top, then the flowing mixture between the two adjacent partition plates 33 in the middle row is divided and mixed to the adjacent three partition plates 33 corresponding to the lower side, then the flowing mixture between the two adjacent partition plates 33 in the upper row is divided and mixed to the adjacent three partition plates 33 corresponding to the lower side, so that the mixture is continuously mixed in the process of circulating flow of the mixture, and the mixing efficiency and effect of the mixture are improved.

As shown in figure 2, the action of force applied to the wedge-shaped surface of the sliding rod 30 in the process that the mixture flows in the second guide pipe 18 enables the sliding rod 30 to overcome the pressure of the spring 31 and slide towards the pressure regulating cylinder 5, the screw 29 can be rotated through the handle 37, the pressure of the screw 29 on the spring 31 is adjusted through the pressing plate 32 under the action of thread transmission, the pressure of the spring 31 on the sliding rod 30 is adjusted, the pressure of the mixture in the cylinder 1 is adjusted, the extrusion force between the reinforced glass fibers and the resin glue solution is adjusted, the resin and the reinforced glass fibers can be well infiltrated and mixed, and the strength and the toughness of the glass fiber reinforced septic tank are improved.

As mentioned above, the gear wheel II 12 rotates and simultaneously drives the gear wheels I11 to rotate through the gear ring II 27, and the rotation directions of the gear wheels I11 are opposite, so that the first gear 11 drives the corresponding first rotating shaft 10 to rotate, and the first rotating shaft 10 drives the second rotating shaft 16 to rotate through the bevel gear set I8, so that the second rotating shaft 16 drives the corresponding second pipe shaft 21 to rotate through the second bevel gear set 19, and the rotating directions of the two second pipe shafts 21 are opposite, so that the two pipe shafts 21 drive the two corresponding rotary tables 24 to synchronously rotate in opposite directions, the torsional force is applied to the mixture in the cylinder barrel 1 in the process that the two rotary tables 24 rotate in opposite directions, therefore, the mixture is subjected to torsional action force while flowing circularly, so that the resin and the reinforced glass fiber can be better soaked and mixed, and the strength and the toughness of the glass fiber reinforced plastic septic tank are improved.

As shown in fig. 1, fig. 4 and fig. 5, carousel 24 rotates each axostylus axostyle 3 that drives it simultaneously and rotates, thereby mix the mixture in the cylinder 1 through axostylus axostyle 3, and the direction of rotation of axostylus axostyle 3 on two carousels 24 is opposite, and then make better mixture between reinforcing glass fiber and the resin, and in carousel 24 drive axostylus axostyle 3 pivoted, make axostylus axostyle 3 rotate around its self central axis under the effect of ring gear 23 and gear four 36 that correspond, and drive cutter 2 and cut the mixture, make the mixture form firm bonding effect under the combined action of extrusion force, torsional force, shearing force, thereby improve the mixed effect efficiency to the mixture greatly, and after mixing is accomplished, it can to open row valve 42 discharge mixture.

As shown in fig. 6, the diameters of the two ring frames 40 are different, and the central axis is shared, so that the shaft lever 3 on the two turntables 24 is prevented from generating interference in the rotating process, one end of the shaft lever 3 far away from the corresponding turntable 24 is inserted into the ring frame 40 on the other turntable 24, the shaft lever 3 is supported, the stability and the reliability of the shaft lever 3 in operation are improved, the effect of complex force in the cylinder barrel 1 can be responded, the bending interference of the shaft lever 3 caused by flexible deformation is avoided, and the normal operation of the whole equipment is ensured.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims (10)

1. The utility model provides a device is mediated to combined material high efficiency for preparation of glass tempering manure pit, is including being used for mixing cylinder (1) of infiltrating to reinforcing glass fiber and resin glue solution, and is fixed with blow-off valve (42), its characterized in that on the lateral wall of cylinder (1): further comprising:

the pressurizing circulation mechanism is arranged on the cylinder barrel (1) and communicated with the cylinder barrel (1), and is used for pressurizing the reinforced glass fibers and the resin glue solution to enable the reinforced glass fibers and the resin glue solution to circularly flow and be mixed to form a mixture;

the twisting mechanism is in transmission connection with the pressurization circulating mechanism, and the pressurization circulating mechanism drives the twisting mechanism to twist and mix the mixture in the cylinder barrel (1);

the stirring and shearing mechanism is arranged on the twisting mechanism, the stirring and shearing mechanism is positioned in the cylinder barrel (1), and the mixture in the cylinder barrel (1) is stirred and sheared under the driving of the twisting mechanism.

2. The high-efficiency composite material kneading device for preparing the glass fiber reinforced plastic septic tank, which is characterized in that: twist the mechanism including fixing flange (22) in cylinder (1) both ends port department, and the center department of flange (22) runs through and the dead axle rotates and connect hollow shaft (21), and hollow shaft (21) and cylinder (1) sharing central axis, hollow shaft (21) are located the coaxial fixed connection pivot (24) of the inside one end of cylinder (1), set up annular one (35) with carousel (24) looks adaptation on the lateral wall of cylinder (1), and carousel (24) scarf joint in annular one (35) and can rotate the center department of carousel (24) in annular one (35) and seted up through-hole (38), and through-hole (38) are linked together with hollow shaft (21), and hollow shaft (21) are located the outside one end of cylinder (1) and are linked together with pressure boost circulation mechanism.

3. The high-efficiency composite material kneading device for preparing the glass fiber reinforced plastic septic tank, which is characterized in that: the supercharging circulating mechanism comprises a supercharging cylinder (4), the supercharging cylinder (4) is vertically fixed in the middle of the outer side wall of the cylinder barrel (1), the upper end of the side wall of the supercharging cylinder (4) is fixed and communicated with a feeding pipe (28), the supercharging cylinder (4) is communicated with the cylinder barrel (1), a cross-frame (14) is fixed at the upper end of the supercharging cylinder (4), a fixed shaft in the supercharging cylinder (4) is rotatably connected with a spiral blade shaft (25), a fixed shaft on the cross-frame (14) is rotatably connected with a second gear (12) and a third gear (13), the upper end of the spiral blade shaft (25) penetrates through and is rotatably connected with the cross-frame (14), the upper end of the spiral blade shaft (25) is coaxially and fixedly connected with the center of the bottom surface of the second gear (12), the second gear (12) is meshed with the third gear (13), a motor (26) is fixed on the bottom surface of the cross-frame (14), and the motor (26) is in transmission connection with the gear III (13).

4. The high-efficiency composite material kneading device for preparing the glass fiber reinforced plastic septic tank, which is characterized in that: two ends of the cross support frame (14) are fixedly connected with the outer side wall of the cylinder barrel (1) through supports (17), two ends of the cross support frame (14) are fixed with a second shaft bracket (15), the second shaft bracket (15) penetrates through and is in fixed-axis rotation connection with a second rotating shaft (16), and the lower end of the second rotating shaft (16) is in transmission connection with a corresponding second tubular shaft (21) through a second bevel gear set (19).

5. The high-efficiency composite material kneading device for preparing the glass fiber reinforced plastic septic tank, which is characterized in that: be fixed with two shaft bracket one (9) on cross-brace frame (14), and two shaft bracket one (9) symmetry lies in the both sides of gear two (12), two shaft bracket one (9) the central axis that shares, run through and dead axle rotation is connected with pivot one (10) on shaft bracket one (9), two pivot one (10) one end that carries on the back mutually is connected through bevel gear group one (8) and the upper end transmission of corresponding pivot two (16) respectively, two the equal coaxial fixed connection gear one (11) of the relative one end of pivot one (10), the coaxial fixed connection in upper surface ring gear two (27) of gear two (12), the both sides of ring gear two (27) respectively with two gear one (11) meshing connection.

6. The high-efficiency composite material kneading device for preparing the glass fiber reinforced plastic septic tank, which is characterized in that: the lower extreme of support (17) is fixed with gallows (34), the lower extreme of gallows (34) is fixed with sleeve (20), sleeve (20) cover is established at the tip that corresponding hollow shaft (21) is located cylinder (1) outside, and hollow shaft (21) can be in sleeve (20) dead axle rotation, sleeve (20) are linked together through pipe two (18) and mixing drum (6) bottom, the upper end of mixing drum (6) is linked together through pipe one (7) and the inside of pressure boost section of thick bamboo (4), and mixing drum (6) are fixed on the lateral wall of pressure boost section of thick bamboo (4).

7. The high-efficiency composite material kneading device for preparing the glass fiber reinforced plastic septic tank, which is characterized in that: mixing cylinder (6) inside is fixed with a plurality of baffles (33), and a plurality of baffles (33) are arranged from last to arranging down and are three rows of settings, and equidistant setting between baffle (33) in every row, and baffle (33) in the next row are located the below between two adjacent baffles (33) of last row.

8. The high-efficiency composite material kneading device for preparing the glass fiber reinforced plastic septic tank, which is characterized in that: fix and communicate pressure regulating section of thick bamboo (5) on the lateral wall of two (18) pipes, and pressure regulating section of thick bamboo (5) sliding connection has slide bar (30), the one end that slide bar (30) are located two (18) pipes is the wedge form, and the wedge face orientation sleeve (20) that correspond, run through and threaded connection screw rod (29) on the one end wall of two (18) pipes are kept away from in pressure regulating section of thick bamboo (5), screw rod (29) are located the inside one end dead axle of merit pressure regulating section of thick bamboo (5) and rotate connection clamp plate (32), and clamp plate (32) are connected with slide bar (30) through spring (31), the one end that screw rod (29) are located the pressure regulating section of thick bamboo (5) outside is fixed with handle (37).

9. The high-efficiency composite material kneading device for preparing the glass fiber reinforced plastic septic tank, which is characterized in that: the twisting mechanism comprises a plurality of shaft rods (3) arranged on a turntable (24), a plurality of cutters (2) are fixed on the shaft rods (3) at equal intervals along the direction of an axis, the shaft rods (3) are arranged on the turntable (24) at equal intervals along the direction of the circumference of the turntable (24), one ends of the shaft rods (3) penetrate through the corresponding turntable (24) and rotate on the corresponding turntable in a fixed-axis mode, the shaft rods (3) are perpendicular to the turntable (24), gears four (36) are coaxially fixed at one ends, close to pipe shafts (21), of the shaft rods (3), gear rings I (23) corresponding to the turntable (24) are fixed on the inner wall of a cylinder barrel (1), the gear rings I (23) are located between the turntable (24) and a flange (22), and the gear rings I (23) are meshed with the corresponding gears four (36).

10. The high-efficiency composite material kneading device for preparing the glass fiber reinforced plastic septic tank, according to claim 9, is characterized in that: annular two (39) have all been seted up coaxially to the opposite face of two carousel (24), and have embedded ring frame (40) that has the looks adaptation in annular two (39), and ring frame (40) can be in annular two (39) dead axle rotate, set up a plurality of jacks (41) corresponding with a plurality of axostylus axostyles (3) on object carousel (24) on ring frame (40), just one end that corresponding carousel (24) were kept away from in axostylus axostyle (3) is pegged graft in jack (41) to axostylus axostyle (3) can be in jack (41) dead axle rotate.

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