阅读说明：本技术 一种飞轮外壳生产车间用转运堆叠装置 (Flywheel shell workshop is with transporting and piling up device ) 是由 周平 于东生 黄健 马金柱 于 2021-09-17 设计创作，主要内容包括：本发明涉及飞轮壳加工生产技术领域,尤其是一种飞轮外壳生产车间用转运堆叠装置,包括内置电动平移输送机构的主机架、电动液压撑杆、调节电机、电动液压升降机和红外传感控制开关。本发明的一种飞轮外壳生产车间用转运堆叠装置通过直接设置在电动平移输送机构外侧出料端,可以自动对出料端的飞轮外壳进行摆放,夹紧、升降、旋转和堆叠摆放操作,无需人工操作,省时省力,大大方便飞轮外壳的加工生产；利用电动液压撑杆可以控制飞轮外壳固定在升降夹紧框上,同时还可以配合金属弯折弹片将飞轮外壳推离摆放,方便分离堆叠,分离效率提升。(The invention relates to the technical field of flywheel shell processing and production, in particular to a transfer stacking device for a flywheel shell production workshop. According to the transfer stacking device for the flywheel shell production workshop, the flywheel shells at the discharge ends can be automatically placed, clamped, lifted, rotated, stacked and placed through the discharge ends directly arranged at the discharge ends of the electric translation conveying mechanisms, manual operation is not needed, time and labor are saved, and the flywheel shells can be greatly conveniently processed and produced; utilize electronic hydraulic pressure vaulting pole can control the flywheel shell and fix on the tight frame of lift clamp, can also cooperate the metal shell fragment of buckling simultaneously to push away the flywheel shell from putting, the convenient separation piles up, and separation efficiency promotes.)

1. The utility model provides a flywheel shell workshop is with transporting stacking device, includes main frame (2), electronic hydraulic pressure vaulting pole (3), accommodate motor (4), electronic hydraulic lift (5) and infrared sensing control switch (6) of built-in electronic translation conveying mechanism (1), characterized by: main frame (2) right side discharge end bolt fixedly connected with be used for fixing bottom fixed frame (6) of electronic hydraulic lift (5), the lifter top activity of electronic hydraulic lift (5) is equipped with the tight frame of lift clamp (7), the tight frame of lift clamp (7) interior top surface be equipped with upset clamp plate (8) and elastic extrusion board (9) by electronic hydraulic pressure vaulting pole (3) control through the pivot activity, elastic extrusion board (9) inside is seted up the outside and is installed bottom limiting plate (11) of side press switch (10).

2. The transfer and stacking device for the flywheel housing production workshop as claimed in claim 1, wherein: the lifting clamping frame is fixed with a bottom movable assembling seat (12) movably connected with an electric hydraulic lifter (5) through bolts, the lifting rod of the electric hydraulic lifter (5) is fixedly connected with a lateral fixing support (13) used for installing an adjusting motor (4), and the outer side of the bottom movable assembling seat (12) is in gear transmission with the adjusting motor (4).

3. The transfer and stacking device for the flywheel housing production workshop as claimed in claim 2, wherein: an annular adjusting tooth groove (14) is formed in the outer side face of the bottom movable assembling seat (12), and an adjusting gear (15) which is in meshing transmission with the annular adjusting tooth groove (14) is coaxially fixed on a rotating shaft at the top of the adjusting motor (4).

4. The transfer and stacking device for the flywheel housing production workshop as claimed in claim 2, wherein: the lifting clamping frame comprises a bottom supporting plate (16) of a bottom bolt fixing base movable assembling seat (12) and an inverted L-shaped structure bottom assembling frame (17) fixed on one side of the bottom supporting plate (16).

5. The transfer and stacking device for the flywheel housing production workshop as claimed in claim 4, wherein: the upper surface of bottom assembly frame (17) sets up top assembly groove (18) that a plurality of symmetries set up, upset clamp plate (8) insert in top assembly groove (18) and bottom assembly frame (17) movable assembly through the first swing joint frame of a body structure (19) on both sides top, elasticity stripper plate (9) insert in top assembly groove (18) and bottom assembly frame (17) movable assembly through a body structure second swing joint frame (20) on both sides top.

6. The transfer and stacking device for the flywheel housing production workshop as claimed in claim 5, wherein: the bottom assembly frame (17) on the medial surface on fixedly connected with horizontal limiting plate (21), elasticity stripper plate (9) and horizontal limiting plate (21) between through metal shell fragment (22) elastic connection of buckling.

7. The transfer and stacking device for the flywheel housing production workshop as claimed in claim 5, wherein: an inner transition opening (23) matched with the electro-hydraulic support rod (3) is formed in the elastic extrusion plate (9), and the overturning clamping plate (8) is connected with the electro-hydraulic support rod (3) through a movable connecting rod (24).

8. The transfer and stacking device for the flywheel housing production workshop as claimed in claim 7, wherein: the utility model discloses a hydraulic pressure support rod assembly, including upset clamp plate (8), movable connecting rod (24) and electronic hydraulic pressure vaulting pole (3), upset clamp plate (8) lateral wall on with the equal fixedly connected with in electronic hydraulic pressure vaulting pole (3) top an organic whole structure assembly ring that is used for connecting movable connecting rod (24), movable connecting rod (24) insert the assembly ring through the horizontal assembly axle of a body structure on both sides top inside respectively with upset clamp plate (8) and electronic hydraulic pressure vaulting pole (3) swing joint.

9. The transfer and stacking device for the flywheel housing production workshop as claimed in claim 4, wherein: the lower surface of the bottom supporting plate (16) is fixedly connected with a bottom detection seat (25) used for installing an infrared sensing control switch (6).

Technical Field

The invention relates to the technical field of flywheel shell processing and production, in particular to a transferring and stacking device for a flywheel shell production workshop.

Background

The flywheel shell is a container for mounting a gearbox and a clutch, the clutch assembly is fixed on the rear plane of the flywheel through screws, and an output shaft of the clutch is an input shaft of the gearbox. Clutches are common components in mechanical transmissions, and allow the transmission to be disengaged or engaged at any time.

The flywheel housing is generally made of iron casting and is not easy to deform. It bears the mass of the variator and acts as a fulcrum for power transmission.

Traditional bell housing simple structure when workshop processing production, needs the manual work to transport and pile up the bell housing that processing was accomplished, leads to wasting time and energy, and production efficiency is not high.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to solve the problem that exists among the above-mentioned background art, provide a modified flywheel shell workshop with transporting and piling up device, solve traditional flywheel shell simple structure, when workshop processing production, need the manual work to transport and pile up the flywheel shell that the processing was accomplished, lead to wasting time and energy, problem that production efficiency is not high.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a flywheel shell workshop is with transporting and stacking device, includes main frame, electronic hydraulic pressure vaulting pole, accommodate motor, electronic hydraulic lift and the infrared sensing control switch of built-in electronic translation conveying mechanism, main frame right side discharge end bolt fixedly connected with be used for the bottom fixed frame of fixed electronic hydraulic lift, the activity of lifter top of electronic hydraulic lift is equipped with the tight frame of lift clamp, the tight frame of lift clamp in top surface be equipped with upset clamp plate and the elastic extrusion board by electronic hydraulic pressure vaulting pole control through the pivot activity, the inside bottom limiting plate of side press switch is installed in the outside of seting up of elastic extrusion board.

The lifting clamping frame is characterized in that a bottom movable assembly seat which is movably connected with an electric hydraulic lifter is fixed on the lower surface of the lifting clamping frame through bolts, a lateral fixed support which is used for installing an adjusting motor is fixedly connected to the outer side of a lifting rod of the electric hydraulic lifter, and the outer side surface of the bottom movable assembly seat is in gear transmission with the adjusting motor.

An annular adjusting tooth groove is formed in the outer side face of the bottom movable assembling seat, and an adjusting gear in meshing transmission with the annular adjusting tooth groove is coaxially fixed on a rotating shaft at the top of the adjusting motor.

The lifting clamping frame comprises a bottom supporting plate of a bottom bolt fixing base movable assembling seat and an inverted L-shaped structure bottom assembling frame fixed on one side of the bottom supporting plate.

The upper surface of bottom assembly frame sets up the top assembly groove that a plurality of symmetries set up, the upset clamp plate insert top assembly inslot and bottom assembly frame activity assembly through the first swing joint frame of a body structure on both sides top, the elastic extrusion board insert top assembly inslot and bottom assembly frame activity assembly through the second swing joint frame of a body structure on both sides top.

The inner side surface of the bottom assembly frame is fixedly connected with a transverse limiting plate, and the elastic extrusion plate is elastically connected with the transverse limiting plate through a metal bending elastic sheet.

The elastic extrusion plate is internally provided with an internal transition port matched with the electro-hydraulic support rod, and the overturning clamping plate is connected with the electro-hydraulic support rod through a movable connecting rod.

The turnover clamping plate is characterized in that an integrated structure assembling ring used for being connected with a movable connecting rod is fixedly connected to the side wall of the turnover clamping plate and the top end of the electric hydraulic support rod, and the movable connecting rod is inserted into the assembling ring through integrated structure transverse assembling shafts through the top ends of the two sides and is movably connected with the turnover clamping plate and the electric hydraulic support rod respectively.

The lower surface of the bottom supporting plate is fixedly connected with a bottom detection seat used for installing an infrared sensing control switch.

The invention has the beneficial effects that:

(1) according to the transfer stacking device for the flywheel shell production workshop, the flywheel shells at the discharge ends can be automatically placed, clamped, lifted, rotated, stacked and placed through the discharge ends directly arranged at the discharge ends of the electric translation conveying mechanisms, manual operation is not needed, time and labor are saved, and the flywheel shells can be greatly conveniently processed and produced;

(2) the flywheel shell can be controlled to be fixed on the lifting clamping frame by the aid of the electric hydraulic support rods, and can be pushed away and placed by the aid of metal bending elastic pieces, so that separation and stacking are facilitated, and separation efficiency is improved;

(3) the whole equipment is fixedly arranged on one side of the main rack through the bottom fixing frame, the installation is simple and convenient, the equipment can be suitable for different equipment through lifting and rotating adjustment, the height can be automatically adjusted to separate through matching with the infrared sensing control switch, and the application range is wider;

(4) the electric hydraulic stay bar, the adjusting motor, the electric hydraulic lifter and the infrared sensing control switch are integrally installed on the lifting clamping frame, so that the whole equipment is compact in structure, reasonable in layout and improved in space utilization rate;

(5) set up the top assembly groove at the upper surface of bottom assembly frame, come to load and unload upset clamp plate and elastic extrusion board through the top assembly groove, the later stage of being convenient for loads and unloads and maintains.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the lifting clamping frame of the present invention.

Fig. 3 is a schematic view of the structure in the transition state of the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Fig. 1, the flywheel shell workshop that fig. 2 and fig. 3 show is with transporting and stacking device, main frame 2 including built-in electronic translation conveying mechanism 1, electronic hydraulic pressure vaulting pole 3, adjusting motor 4, electronic hydraulic lift 5 and infrared sensing control switch 6, 2 right sides of main frame discharge end bolt fixedly connected with are used for the bottom fixed frame 7 of fixed electronic hydraulic lift 5, the lifter top activity of electronic hydraulic lift 5 is equipped with the tight frame of lift clamp, the tight frame of lift clamp interior top surface of top surface is equipped with upset clamp plate 8 and the elastic extrusion board 9 by electronic hydraulic pressure vaulting pole 3 control through the pivot activity, the inside bottom limiting plate 11 that installs side press switch 10 in the outside of seting up of elastic extrusion board 9.

The electric hydraulic support rod 3, the adjusting motor 4, the electric hydraulic lifter 5 and the infrared sensing control switch 6 are powered by an external power supply and are controlled to be opened and closed by a main control switch. The side push switch 10 is put in flywheel shell extrusion, control electronic hydraulic pressure vaulting pole 3 starts, shrink backward, utilize upset clamp plate 8 and elasticity stripper plate 9 to step up the flywheel shell, thereby control infrared sensing control switch 6 and start, control electronic hydraulic lift 5 according to monitoring information and go up and down, then start by infrared sensing control switch 6 control adjustment motor 4 again, rotate 180, then control electronic hydraulic pressure vaulting pole 3 starts, extend forward, elasticity stripper plate 9 extrudees outwards this time, control flywheel shell separates appointed position.

Further, in order to match movable assembly and transmission adjustment, a bottom movable assembly seat 12 which is movably connected with the electric hydraulic lifter 5 is fixed on the lower surface of the lifting clamping frame through bolts, a lateral fixed support 13 which is used for installing the adjusting motor 4 is fixedly connected to the outer side of a lifting rod of the electric hydraulic lifter 5, and the outer side surface of the bottom movable assembly seat 12 is in gear transmission with the adjusting motor 4.

Furthermore, in order to match with rotation adjustment, an annular adjusting tooth groove 14 is formed in the outer side face of the bottom movable assembling seat 12, and an adjusting gear 15 which is in meshing transmission with the annular adjusting tooth groove 14 is coaxially fixed on a rotating shaft at the top of the adjusting motor 4.

The adjusting motor 4 is started to drive the whole lifting clamping frame to rotate.

Further, in order to match with the bottom support and lateral limit, the lifting clamping frame comprises a bottom support plate 16 of the bottom bolt fixing base movable assembling seat 12 and an inverted L-shaped structure bottom assembling frame 17 fixed on one side of the bottom support plate 16.

Further, for convenient assembly, top assembly grooves 18 that 8 symmetries set up are seted up to the upper surface of bottom assembly frame 17, top assembly grooves 18 upper end is equipped with the locking mouth for promote the anti-loosening nature of assembly, upset clamp plate 8 inserts in top assembly grooves 18 and bottom assembly frame 17 movable assembly through the first swing joint frame 19 of the body structure on both sides top, elastic extrusion board 9 inserts in top assembly grooves 18 and bottom assembly frame 17 movable assembly through the body structure second swing joint frame 20 on both sides top.

Further, in order to match with elastic assembly, a transverse limiting plate 21 is fixedly connected to the inner side surface of the bottom assembly frame 17, and the elastic extrusion plate 9 is elastically connected with the transverse limiting plate 21 through a metal bending elastic sheet 22.

Furthermore, in order to cooperate with the expansion and the overturn control, an inner transition port 23 matched with the electro-hydraulic support rod 3 is formed in the elastic extrusion plate 9, and the overturn clamping plate 8 is connected with the electro-hydraulic support rod 3 through a movable connecting rod 24.

Further, in order to cooperate the movable assembly and the telescopic clamping, an integral structure assembly ring for connecting the movable connecting rod 24 is fixedly connected to the side wall of the turnover clamping plate 8 and the top end of the electric hydraulic support rod 3, and the movable connecting rod 24 is inserted into the assembly ring through integral structure transverse assembly shafts at the top ends of the two sides and is respectively movably connected with the turnover clamping plate 8 and the electric hydraulic support rod 3.

The working principle is as follows: the electric hydraulic support rod 3 contracts to control the movable connecting rod 24 to pull the turnover clamping plate 8, so that the turnover clamping plate 8 and the elastic extrusion plate 9 are clamped on two sides of the outer wall of the flywheel shell.

Further, in order to cooperate with the installation of the infrared sensing control switch 6, the firmness and the safety of the infrared sensing control switch are improved, and the bottom detection seat 25 for installing the infrared sensing control switch 6 is fixedly connected to the lower surface of the bottom supporting plate 16.

The working principle is as follows: when the infrared sensing control switch 6 detects that an object exists on the outer side, the electric hydraulic lifter 5 is controlled to ascend; when the infrared sensing control switch 6 cannot monitor that an object exists outside, the electric hydraulic lifter 5 is controlled to descend firstly.

According to the transfer stacking device for the flywheel shell production workshop, the flywheel shells at the discharge ends can be automatically placed, clamped, lifted, rotated, stacked and placed through the discharge ends directly arranged at the outer sides of the electric translation conveying mechanisms 1, manual operation is not needed, time and labor are saved, and the flywheel shells can be processed and produced conveniently; the flywheel shell can be controlled to be fixed on the lifting clamping frame by the electric hydraulic support rod 3, and meanwhile, the flywheel shell can be pushed away and placed by matching with the metal bending elastic sheet 22, so that the separation and stacking are facilitated, and the separation efficiency is improved; the whole equipment is fixedly arranged on one side of the main rack 2 through the bottom fixing frame 7, the installation is simple and convenient, the equipment can be suitable for different equipment through lifting and rotating adjustment, the height can be automatically adjusted to separate through matching with the infrared sensing control switch 6, and the application range is wider; the electric hydraulic support rod 3, the adjusting motor 4, the electric hydraulic lifter 5 and the infrared sensing control switch 6 are integrally installed on the lifting clamping frame, so that the whole equipment is compact in structure, reasonable in layout and improved in space utilization rate; a top assembling groove 18 is formed in the upper surface of the bottom assembling frame 17, and the overturning clamping plate 8 and the elastic extrusion plate 9 are assembled and disassembled through the top assembling groove 18, so that later-stage assembling and disassembling maintenance is facilitated.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.