CN218111713U - Carbon fiber part processing and forming equipment - Google Patents

Abstract

The utility model relates to a zero former technical field just discloses a carbon fiber spare part machine-shaping equipment, including the hot pressing equipment main part, hot pressing mould, support frame are installed with end respectively at the top of hot pressing equipment main part, and the top of support frame is connected with elevating system. The utility model discloses the power component, first travel mechanism, activity type support, second hydraulic stem, transition connecting plate cooperation that set up are constituteed the back, form and get material advancing mechanism, the transition delivery part, compound atmospheric pressure power part, the negative sucker cooperation that set up are assembled the back, form positive negative pressure type and adsorb feeding mechanism, get material advancing mechanism and the transmission equipment of positive negative pressure type adsorption feeding mechanism, negative sucker is laminating under the transmission in proper order of first travel mechanism and second hydraulic stem and the small-size wind-powered electricity generation blade of carbon fiber after the hot pressing, negative sucker's bottom negative pressure adsorbs at the small-size wind-powered electricity generation blade of carbon fiber, then the second hydraulic stem, first travel mechanism resets in proper order and removes, realizes automatic quick the material of getting.

Description

Carbon fiber part processing and forming equipment

Technical Field

The utility model relates to a zero former technical field specifically is a carbon fiber spare part machine-shaping equipment.

Background

Wind power as a clean and pollution-free renewable energy source is more and more emphasized by people in the environment that the traditional energy source is gradually reduced, besides large-scale wind power generation equipment, some small-scale power generation equipment also enter the daily life of people, the wind power blade is a core component for converting natural wind energy into electric energy of a wind generating set in wind power generation equipment, is also a main basis for measuring the design and technical level of the wind generating set, and the manufacturing materials of the wind power blade are continuously updated along with the continuous development of related technologies, for example, the existing wind power blade made of carbon fiber material has the advantages of light weight, high tensile strength and the like, when the carbon fiber small-sized wind power blade is manufactured, hot pressing equipment is usually adopted for production in consideration of the multi-curved surface structural characteristics, small size and other factors, the prior art also discloses the content of hot pressing carbon fiber parts by the hot pressing equipment, for example, in the granted patent, CN202011171383.0 carbon fiber blade processing method, blade and fan, the specification discloses that the relevant content "put the prepared preform into the hot-press molding device, for example, put the preform into the mold of the hot-press molding device, heating and pressurizing by hot-press molding equipment at 140-160 deg.C under 80-120 kg, thus, the prepressing part in the mould can be melted and then filled in the mould cavity, when the mould is cooled to 50 to 80 ℃, the blade can be formed by curing, however, the surface of the carbon fiber small-sized wind power blade formed by hot pressing is smooth and not easy to grab, in the initial stage of mold splitting, the temperature of the carbon fiber small-sized wind power blade formed by hot pressing is higher, the potential safety hazard of scalding is caused by manual material receiving, the comfort is poor, therefore to the problem that prior art did not solve, this application will provide a carbon fiber spare part machine-shaping equipment and solve.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a carbon fiber spare part machine-shaping equipment has solved the problem that above-mentioned background art provided.

The utility model provides a following technical scheme: the utility model provides a carbon fiber spare part machine-shaping equipment, includes hot pressing equipment main part, hot pressing equipment main part's top is installed end hot pressing mould, support frame respectively, and the top of support frame is connected with elevating system, the output of elevating system bottom runs through the support frame top and extends to the inboard at support frame top, and the inboard cover at support frame top is equipped with top hot pressing mould, the top surface at top hot pressing mould middle part links together with the output of elevating system bottom, and top hot pressing mould aligns with end hot pressing mould, one side of hot pressing equipment main part is connected with the auxiliary stand, and the inboard cover at auxiliary stand top is equipped with conveying part, the top surface fixedly connected with mount at auxiliary stand middle part, and the inboard cover at mount top is equipped with first travel mechanism, one side at first travel mechanism top is provided with transition conveying part and fixed mounting has the second hydraulic stem, and one side of transition conveying part is connected with compound atmospheric pressure power part, the output end of transition conveying part opposite side is connected with the negative pressure sucking disc, and the outside fixed connection board at negative pressure sucking disc top has cup jointed, the middle part of transition is connected with movable support type support, and the movable structure at movable type support top is connected with the output fixed connection board of second hydraulic stem.

And the conveying part consists of a conveying belt and conveying rollers movably sleeved in the two sides of the conveying belt, the two conveying rollers are movably sleeved in the two sides of the top of the auxiliary support respectively, the end heads of the two conveying rollers protrude, and one end of one conveying roller is provided with a power assembly.

The power assembly is composed of a bevel gear box and a servo motor connected with the input end of the bottom of the bevel gear box, a support is connected between the surface of a shell of the servo motor and the surface of the top of the auxiliary support, and the output end of the bevel gear box is fixedly connected with one end of a conveying roller corresponding to the inside of the conveying component.

Carefully, the first traveling mechanism is composed of a first hydraulic rod and a mobile platform fixedly connected with the output end of the first hydraulic rod, and a sleeving plate is fixedly connected between the surface of the shell of the first hydraulic rod and the inner wall of the top of the power assembly.

Carefully, the side fixedly connected with guide arm of moving platform one side, and the guide arm joint is in the inboard at power component top, supports moving platform's removal.

The transition conveying part is carefully selected, and the transition conveying part comprises a hollow plate and two Y-shaped pipes which are communicated with one side of the hollow plate in a sleeved mode, and the ends of the Y-shaped pipes are connected with negative pressure suction cups.

The composite pneumatic power component is composed of a negative pressure pump and an air blowing pump, the bottom of the negative pressure pump and the bottom of the air blowing pump are both connected to one side of the top of the mobile platform, and the air suction end of the negative pressure pump and the air delivery end of the air blowing pump both extend to the inside of the other side of the hollow plate and are fixedly sleeved with the hollow plate.

Carefully, the movable type support comprises the support lagging that the one end activity of swing joint board and swing joint board cup jointed, and supports the bottom fixed connection of lagging on the top surface at transition connecting plate middle part, the inboard of swing joint board bottom is fixed to be cup jointed the rotation axis, and the inboard of rotation axis joint in support lagging bottom, swing joint board's top and the output fixed connection of second hydraulic stem, the inboard fixed cover at support lagging top has cup jointed small-size electromagnet, and the surface laminating at small-size electromagnet's one end and swing joint board top.

Compared with the prior art, the utility model discloses possess following beneficial effect:

1. the utility model discloses the power component, first advancing mechanism, activity type support, second hydraulic stem, transition connecting plate cooperation that set up are constituteed the back, form and get material advancing mechanism, the transition delivery unit who sets up, compound atmospheric pressure power unit, the negative sucker cooperation equipment back, form positive negative pressure type and adsorb the feeding mechanism, in the follow-up use, get material advancing mechanism and the transmission of positive negative pressure type adsorption feeding mechanism and assemble, the negative sucker is laminating under the transmission in proper order of first advancing mechanism and second hydraulic stem and the small-size wind-powered electricity generation blade of carbon fiber after the hot pressing, then under the negative pressure pump passes through the inspiratory operation of transition delivery unit, the bottom negative pressure adsorption of negative sucker is at the small-size wind-powered electricity generation blade of carbon fiber, then the second hydraulic stem, first advancing mechanism resets in proper order and removes, realize automatic quick the material of getting, and do not have the temperature problem of the small-size wind-powered electricity generation blade of carbon fiber.

2. The utility model discloses a material advancing mechanism is got that power component, first advancing mechanism, activity type support, second hydraulic stem, transition connecting plate cooperation are constituteed and are formed, and its inside activity type support possesses reciprocal activity and fixed service condition, and then in follow-up use, makes the negative pressure sucking disc possess the service condition that the slope was laminated in the small-size wind-powered electricity generation blade of carbon fiber.

Drawings

FIG. 1 is a schematic front view of the structure of the present invention;

FIG. 2 is a rear view of the structure of the present invention;

FIG. 3 is an enlarged schematic view of the point A in FIG. 1;

fig. 4 is an enlarged schematic view of the point B in the structure diagram 1 of the present invention.

In the figure: 1. a hot pressing apparatus main body; 2. a support frame; 3. a lifting mechanism; 4. carrying out top heating and pressing; 5. bottom hot pressing; 6. an auxiliary support; 7. a conveying member; 8. a power assembly; 9. a first travel mechanism; 91. a first hydraulic lever; 92. a mobile platform; 10. a transition conveying component; 101. a hollow plate; 102. a Y-shaped pipe; 11. a composite pneumatic power component; 111. a negative pressure pump; 112. an air blowing pump; 12. a negative pressure sucker; 13. a transition connecting plate; 14. a movable support; 141. a movable connecting plate; 142. a support sleeve plate; 143. a rotating shaft; 144. a small electromagnetic chuck; 15. a second hydraulic rod; 16. a fixing frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1 and 2, a carbon fiber part processing and forming apparatus, including a hot pressing apparatus main body 1, a bottom hot pressing mold 5 is installed at the top of the hot pressing apparatus main body 1, a supporting frame 2, and a lifting mechanism 3 is connected to the top of the supporting frame 2, an output end at the bottom of the lifting mechanism 3 penetrates the top of the supporting frame 2 and extends to the inner side of the top of the supporting frame 2, and a top hot pressing mold 4 is sleeved on the inner side of the top of the supporting frame 2, a top surface at the middle of the top hot pressing mold 4 is connected to an output end at the bottom of the lifting mechanism 3, and the top hot pressing mold 4 is aligned to the bottom hot pressing mold 5, an auxiliary support 6 is connected to one side of the hot pressing apparatus main body 1, and a conveying component 7 is sleeved on the inner side of the top of the auxiliary support 6, the conveying component 7 is composed of a conveying belt and conveying rollers movably sleeved inside two sides of the auxiliary support 6, and protrudes, and a power component 8 is installed at one end of one of the conveying roller, the power component 8 is composed of an umbrella gear box and a power component 8 is connected to an output end of the conveying mechanism which is fixed, and a power component is connected to the conveying mechanism, and a power component which is used for reducing the power component.

Referring to fig. 1 and 2, a fixing frame 16 is fixedly connected to the top surface of the middle portion of the auxiliary support 6, a first traveling mechanism 9 is sleeved on the inner side of the top of the fixing frame 16, the first traveling mechanism 9 is composed of a first hydraulic rod 91 and a moving platform 92 fixedly connected to the output end of the first hydraulic rod 91, a sleeving plate is fixedly connected between the shell surface of the first hydraulic rod 91 and the inner wall of the top of the power assembly 8, the first traveling mechanism 9 provides mounting support and moving adjustment operation conditions for subsequently arranged components, the automation operation performance of the device is primarily improved, a guide rod is fixedly connected to the side surface of one side of the moving platform 92 and is clamped to the inner side of the top of the power assembly 8, the moving platform 92 is supported, and the guide rod guides and restrains the reciprocating moving platform 92.

Referring to fig. 1, 2, and 3, a transition conveying component 10 and a second hydraulic rod 15 are fixedly installed on one side of the top of the first traveling mechanism 9, a composite pneumatic component 11 is connected to one side of the transition conveying component 10, the composite pneumatic component 11 is composed of a negative pressure pump 111 and an air blowing pump 112, the bottom of the negative pressure pump 111 and the bottom of the air blowing pump 112 are both connected to one side of the top of the moving platform 92, both the air suction end of the negative pressure pump 111 and the air delivery end of the air blowing pump 112 extend into the inside of the other side of the hollow plate 101 and are fixedly sleeved with the hollow plate 101, and the composite pneumatic component 11 can achieve two use effects of positive pressure air blowing and negative pressure air blowing.

Referring to fig. 1, 2 and 4, an output end of the other side of the transition conveying component 10 is connected with a negative pressure suction cup 12, the transition conveying component 10 is composed of a hollow plate 101 and two Y-shaped pipes 102 sleeved on one side of the hollow plate 101 in a penetrating manner, ends of the Y-shaped pipes 102 are connected with the negative pressure suction cup 12, the transition conveying component 10 provides a transition flow channel for subsequently flowing air, a transition connecting plate 13 is fixedly sleeved on the outer side of the top of the negative pressure suction cup 12, a movable support 14 is connected to the middle of the transition connecting plate 13, a movable structure on the top of the movable support 14 is fixedly connected to an output end of a second hydraulic rod 15, the movable support 14 is composed of a movable connecting plate 141 and a support sleeve plate 142 movably sleeved on one end of the movable connecting plate 141, and the bottom of the support sleeve plate 142 is fixedly connected to the top surface of the middle of the transition connecting plate 13, the fixed rotation axis 143 that has cup jointed in the inboard of swing joint board 141 bottom, and the inboard of rotation axis 143 joint in support lagging 142 bottom, swing joint board 141's top and the output fixed connection of second hydraulic stem 15, the inboard fixed cover at support lagging 142 top has connect small-size electromagnetic chuck 144, and the surface laminating at swing joint board 141 top of one end of small-size electromagnetic chuck 144, power component 8, first advancing mechanism 9, movable support 14, second hydraulic stem 15, the material advancing mechanism that gets that the cooperation of transition connecting plate 13 is constituteed is formed, its inside movable support 14 possesses reciprocating motion and fixed service condition, and then in follow-up use, make negative pressure chuck 12 possess the service condition of slope laminating in the small-size wind-powered electricity generation blade of carbon fiber.

The working principle is as follows: in the using process, after the hot pressing is finished, after the top hot pressing die 4 is separated from the bottom hot pressing die 5, the first hydraulic rod 91 in the first traveling mechanism 9 is started, then the telescopic rod in the first hydraulic rod 91 drives the moving platform 92 and the parts connected with the moving platform 92 to synchronously move until the negative sucker 12 connected with the transition connecting plate 13 and the transition connecting plate 13 moves between the top hot pressing die 4 and the bottom hot pressing die 5, then the second hydraulic rod 15 is started, then the telescopic rod in the second hydraulic rod 15 drives the transition connecting plate 13 and the negative sucker 12 connected with the transition connecting plate 13 to move towards the carbon fiber small-sized wind power blade in the bottom hot pressing die 5 through the movable support 14 until the bottom of the negative sucker 12 is attached to the surface of the carbon fiber small-sized wind power blade, in the process, the movable connecting plate 141 and the support sleeve plate 142 in the movable support 14 are in a movable state, the negative pressure sucker 12 can be adaptively attached according to the arc structure of the surface of the carbon fiber small-sized wind power blade, after the negative pressure sucker 12 is attached, the small-sized electromagnetic sucker 144 in the movable support 14 is started, the movable support 14 is integrally fixed through the magnetic adsorption movable connecting plate 141, the negative pressure pump 111 in the composite air pressure power part 11 is started, air between the negative pressure sucker 12 and the surface of the carbon fiber small-sized wind power blade is adsorbed by the negative pressure pump 111 through the transition conveying part 10, the negative pressure of the negative pressure sucker 12 is adsorbed on the surface of the carbon fiber small-sized wind power blade, then the second hydraulic rod 15 and the first hydraulic rod 91 in the first travelling mechanism 9 are sequentially closed, the carbon fiber lifts the small-sized wind power blade and horizontally moves, and the carbon fiber small-sized wind power blade is positioned at the top of one side of the conveying part 7, the air blowing pump 112 is started, then the air blowing pump 112 blows air towards the inside of the negative pressure sucker 12 through the transition conveying component 10, the negative pressure state is relieved, the carbon fiber small-sized wind power blade drops to the top of the conveying component 7, the servo motor in the power assembly 8 is started, and the transmission conveying component 7 automatically conveys the carbon fiber small-sized wind power blade.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Simultaneously in the utility model discloses an in the drawing, fill the pattern and just do not do any other injecions for distinguishing the picture layer.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a carbon fiber spare part machine-shaping equipment, includes hot pressing equipment main part (1), hot pressing equipment main part (1)'s top is installed end hot pressing mould (5), support frame (2) respectively, and the top of support frame (2) is connected with elevating system (3), the output of elevating system (3) bottom runs through support frame (2) top and extends to the inboard at support frame (2) top, and the inboard cover at support frame (2) top is equipped with top hot pressing mould (4), the top surface at top hot pressing mould (4) middle part links together with the output of elevating system (3) bottom, and top hot pressing mould (4) align with end hot pressing mould (5), its characterized in that: one side of hot pressing equipment main part (1) is connected with auxiliary stand (6), and the inboard cover at auxiliary stand (6) top is equipped with conveying part (7), the top surface fixedly connected with mount (16) at auxiliary stand (6) middle part, and the inboard cover at mount (16) top is equipped with first advancing mechanism (9), one side at first advancing mechanism (9) top is provided with transition conveying part (10) and fixed mounting has second hydraulic stem (15), and one side of transition conveying part (10) is connected with compound atmospheric pressure power part (11), the output end of transition conveying part (10) opposite side is connected with negative sucker (12), and the outside at negative sucker (12) top is fixed to have cup jointed transition connecting plate (13), the middle part of transition connecting plate (13) is connected with movable support (14), and the active structure at movable support (14) top and the output fixed connection of second hydraulic stem (15).

2. The carbon fiber part processing and forming device as claimed in claim 1, wherein: conveying part (7) comprise conveyer belt and the inside movably sleeve dress's of conveyer belt both sides conveying roller, and two conveying rollers activity respectively cup joint in the inside of auxiliary stand (6) top both sides to make the end protrusion, and power component (8) are installed to the one end of one of them conveying roller.

3. The carbon fiber part processing and forming device as claimed in claim 2, wherein: the power assembly (8) is composed of a bevel gear box and a servo motor connected with the input end of the bottom of the bevel gear box, a support is connected between the surface of a shell of the servo motor and the surface of the top of the auxiliary support (6), and the output end of the bevel gear box is fixedly connected with one end of a conveying roller corresponding to the inside of the conveying component (7).

4. The carbon fiber part processing and forming device as claimed in claim 1, wherein: the first traveling mechanism (9) is composed of a first hydraulic rod (91) and a mobile platform (92) fixedly connected with the output end of the first hydraulic rod (91), and a sleeving plate is fixedly connected between the surface of the shell of the first hydraulic rod (91) and the inner wall of the top of the power assembly (8).

5. The carbon fiber part processing and forming device as claimed in claim 4, wherein: the side face of one side of the mobile platform (92) is fixedly connected with a guide rod, and the guide rod is clamped on the inner side of the top of the power assembly (8) to support the movement of the mobile platform (92).

6. The carbon fiber part processing and forming device as claimed in claim 1, wherein: the transition conveying part (10) is composed of a hollow plate (101) and two Y-shaped pipes (102) which are sleeved on one side of the hollow plate (101) in a penetrating mode, and the ends of the Y-shaped pipes (102) are connected with negative-pressure suction cups (12).

7. The carbon fiber part processing and forming device as claimed in claim 4, wherein: compound atmospheric pressure power part (11) comprises negative pressure pump (111) and air-blowing pump (112), and the bottom of negative pressure pump (111) and air-blowing pump (112) all connect in one side at moving platform (92) top, the end of breathing in of negative pressure pump (111) and the gas transmission end of air-blowing pump (112) all extend to the inside of well hollow plate (101) opposite side and fixedly cup joint with well hollow plate (101).

8. The carbon fiber part processing and forming device as claimed in claim 1, wherein: activity type support (14) comprise supporting sleeve board (142) that the one end activity of swing joint board (141) and swing joint board (141) cup jointed, and the bottom fixed connection of supporting sleeve board (142) is on the top surface at transition connecting plate (13) middle part, the inboard of swing joint board (141) bottom is fixed to have cup jointed rotation axis (143), and rotation axis (143) joint is in the inboard of supporting sleeve board (142) bottom, the top of swing joint board (141) and the output fixed connection of second hydraulic stem (15), the inboard at supporting sleeve board (142) top is fixed to have cup jointed small-size electromagnet (144), and the surface laminating at the one end and the swing joint board (141) top of small-size electromagnet (144).

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