CN212634666U - Multilayer station lifting and transmission equipment - Google Patents

Abstract

The multilayer station lifting and transmission equipment comprises a rack body, a horizontal transmission mechanism and a vertical transmission mechanism, wherein the horizontal transmission mechanism and the vertical transmission mechanism are both installed in the rack body, and the rack body is provided with a picking and placing part operating position and a die changing position. The horizontal transmission mechanism is provided with a speed multiplying chain for transmitting a tire membrane, the tire membrane is provided with automobile parts to be welded, a first motor is arranged to drive the speed multiplying chain through a shaft rod, and sensors for detecting the position of the tire membrane in the transmission process are arranged on two sides of the speed multiplying chain. Perpendicular drive mechanism includes fetal membrane bottom plate support frame, lift mounting panel and second motor, be equipped with the guided way and the rack of perpendicular to fetal membrane bottom plate support frame on the lift mounting panel, fetal membrane bottom plate support frame both sides limit is equipped with the direction slider that matches the gomphosis with the guided way. The shaft rod connected with the second motor is provided with a gear meshed with the rack for transmission, and the second motor drives the vertical lifting of the fetal membrane bottom plate support frame.

Description

Multilayer station lifting and transmission equipment

Technical Field

The embodiment relates to the technical field of automobile spare and accessory part processing equipment, in particular to multilayer station lifting and transmission equipment.

Background

Most of existing automobile parts are processed manually, all production work efficiency is low, and sometimes basic processing auxiliary equipment is used, but the degree of automation is relatively low, but the basic auxiliary equipment cannot adjust the position of the automobile parts to be processed in the horizontal or vertical direction, so that the automobile parts are inconvenient to process, and the tire membranes cannot be automatically replaced. The multilayer station lift and transmission equipment that this technical scheme provided is equipped with horizontal drive mechanism and vertical drive mechanism, can realize the horizontal direction transmission to the fetal membrane, and the transmission of vertical direction, and can also place double-deck fetal membrane, upper fetal membrane is in welding process, and lower floor's fetal membrane is waiting for the driven order that makes progress at any time, has improved traditional automobile spare and accessory part processing auxiliary assembly at very big degree, effectively improves machining efficiency and avoids manual operation's error problem.

SUMMERY OF THE UTILITY MODEL

The multilayer station lifting and transmission equipment is used for vertical lifting and horizontal transmission of the positions of the automobile parts in the automobile part machining process, and can move in a full-automatic position to facilitate the machining operation of the automobile parts.

This technical scheme multilayer station goes up and down and transmission equipment includes frame body, horizontal drive mechanism and perpendicular drive mechanism, frame body side is equipped with gets a operation position and retooling position of putting, retooling position includes that two heights carry out the upper die change position and the lower floor retooling position of retooling operation. Horizontal drive mechanism installs in this internally in the frame, and horizontal drive mechanism includes the doubly fast chain of both sides parallel mount and locates the first motor between the doubly fast chain of both sides, horizontal drive gear sprocket is connected to first motor, and horizontal drive gear sprocket is connected with the horizontal drive axostylus axostyle through the chain, horizontal drive axostylus axostyle both ends are connected respectively in the both ends side of the doubly fast chain on both sides limit, install the fetal membrane on the doubly fast chain, the work piece in the fetal membrane is compressed tightly fixedly by the tamp that can overturn, and the fetal membrane bottom plate of two-layer installation fetal membrane can be placed at least to the frame body, and the directional outside of doubly fast chain is equipped with the guide block of installing on the frame body, set up the sensor that detects fetal membrane transmission in-.

The vertical transmission mechanism is arranged in the frame body and comprises a fetal membrane bottom plate supporting frame, a lifting mounting plate and a second motor, the bottom plate supporting frame of the fetal membrane is arranged above the second motor, the lifting mounting plate is fixed at the inner sides of four feet of the frame body, and corresponds to the foot positions of the supporting frame of the bottom plate of the fetal membrane, the lifting mounting plate is provided with a guide rail and a rack which are vertical to the supporting frame of the bottom plate of the fetal membrane, two side edges of the bottom plate supporting frame of the tire membrane are provided with guide sliding blocks which are matched and embedded with the guide rails, the second motor is connected with a first chain wheel of a first shaft lever in a penetrating way, two ends of the first shaft lever are respectively connected with a second chain wheel and a third chain wheel, the second chain wheel is connected with a second shaft rod in a penetrating mode, the third chain wheel is connected with a third shaft rod in a penetrating mode, gears are arranged at two ends of the second shaft rod and the third shaft rod, and the second shaft rod and the third shaft rod are connected with racks in an engaged mode through the gears respectively. The speed chain is arranged on the fetal membrane bottom plate support frame, the speed chain and the fetal membrane are driven by a first motor, the fetal membrane bottom plate support frame, the speed chain and the fetal membrane are driven by a second motor, the top side of the fetal membrane bottom plate support frame, the speed chain and the fetal membrane are arranged on the lifting mounting plate, the limiting parts comprise limiting air cylinders and push rod positioning seats, and limiting hole penetrating blocks which are locked by push rod matching jacks of the limiting air cylinders are arranged at symmetrical angle positions of the fetal membrane bottom plate support frame.

Furthermore, the membrane bottom plate support frame is provided with a lifting support platform connected with the bottom of the membrane bottom plate through a plug, and the lifting action of the lifting support platform in the vertical direction is driven by a support platform driving cylinder.

Furthermore, the fetal membrane bottom plate support frame is located the mold changing position opposite side one end, is equipped with sensor and the block switch that detects respectively and injects the fetal membrane position.

Furthermore, protection plates are arranged on the top surface and the rear side surface of the rack body, and protection plates are arranged on two side surfaces of the lower-layer die change position; the upper layer retooling position and lower floor retooling position are equipped with and adopt high strength ya keli guard plate.

Furthermore, the speed-multiplying chain is provided with a speed-multiplying chain embedded groove, and the speed-multiplying chain embedded groove is matched and embedded with the horizontal sliding rail on the inner side of the frame of the rack body.

Furthermore, get and put a operation position and be equipped with two at least, get and put an operation position and set up for the opposite face to install and detect whether there is the inside grating of object entering equipment, be located and get and put an operation position both sides and all be equipped with emergency button and automatic operation switch.

The technical effects of the disclosure are: the frame body of multilayer station lift and transmission equipment is equipped with double-deck retooling position, can place double-deck fetal membrane, still is equipped with horizontal drive mechanism and vertical drive mechanism, and drive mechanism is connected including corresponding driving motor and axostylus axostyle, can realize the transmission to the horizontal direction and the vertical direction of fetal membrane, and can also place double-deck fetal membrane at least, and the work piece of upper fetal membrane is in ultrasonic welding processing, and the lower floor fetal membrane is waiting for the driven order that makes progress at any time. The horizontal transmission mechanism is provided with a first motor, a shaft rod driven by the first motor and connected with and drives a speed doubling chain, the speed doubling chain is used for driving a tire membrane to move and adjust the position along the horizontal direction, the vertical transmission mechanism is provided with a second motor, a second shaft rod and a third shaft rod, the second motor is connected with the second motor, the third shaft rod is connected with the second motor, a tire membrane bottom plate supporting frame is arranged above the second motor, the second motor drives the second shaft rod and the third shaft rod to move along a guide rail on a lifting mounting plate, and then the tire membrane bottom plate supporting frame, the speed doubling chain are driven and the tire membrane is mounted on the speed doubling.

The horizontal and vertical position adjustment of the tire membranes can be realized through the horizontal transmission mechanism and the vertical transmission mechanism, the frame body is provided with the double-layer tire membranes to place the station, the processing effect which is more automatic and more labor-saving is realized, the efficiency of welding and processing of automobile parts is improved, and the error problem of manual operation is avoided.

Various embodiments of the present disclosure may include one or more of these and other features described herein. The nature and advantages of the disclosure may be better understood by reference to the following detailed description and accompanying drawings.

Drawings

FIG. 1 shows a perspective view of a multi-level station lift and drive apparatus;

FIG. 2 shows a perspective view of the bottom direction of the multi-level station hoist and drive apparatus;

FIG. 3 shows a top view of the multi-level station lift and drive apparatus;

FIG. 4 shows a bottom view of the multi-level station lift and drive apparatus;

FIG. 5 shows an exploded view of the horizontal and vertical drives of the multi-level station lift and drive apparatus;

fig. 6 shows a view of the stop feature of the multi-level station lift and drive apparatus.

In the figure: 1 machine frame body, 11 picking and placing part operation positions, 12 mould changing positions, 13 upper layer mould changing positions, 14 lower layer mould changing positions, 15 sensors, 16 blocking switches, 17 protection plates, 18 gratings, 19 emergency buttons, 110 automatic operation switches, 2 horizontal transmission mechanisms, 21 speed chains, 22 speed chain embedded grooves, 23 first motors, 24 horizontal transmission gear sprockets, 25 horizontal transmission shaft rods, 26 tyre membranes, 3 vertical transmission mechanisms, 31 tyre membrane bottom plate supporting frames, 32 lifting supporting tables, 33 supporting table driving cylinders, 34 lifting mounting plates, 35 second motors, 36 guide rails, 37 racks, 38 guide sliders, 39 first shaft rods, 310 first gear converters, 311 second shaft rods, 312 second gear converters, 313 third gear converters, 314 third gear converters, 4 limiting parts, 41 limiting cylinders, 42 push rod positioning seats and 43 limiting through hole blocks.

Detailed Description

In the following description of the embodiments, reference is made to the accompanying drawings which form a part hereof, and in which is shown by way of illustration specific embodiments which may be practiced. It is to be understood that other embodiments may be utilized and structural changes may be made without departing from the scope of the various embodiments.

Reference will now be made in detail to the exemplary embodiments illustrated in the accompanying drawings.

Embodiment 1, referring to fig. 1 to 6, is a structural drawing of a multi-layer station lifting and transmission device, and includes a frame body 1 provided with a double-layer mold changing station 12, which can at least place a double-layer tire mold 26, wherein a workpiece in the tire mold 26 is pressed and fixed by a reversible pressing tool, and transmission in the horizontal direction and the vertical direction is realized through a horizontal transmission mechanism 2 and a vertical transmission mechanism 3. Horizontal drive mechanism 2 installs inside frame body 1, is equipped with doubly fast chain 21 and first motor 23, and first motor 23 is connected with horizontal transmission axostylus axostyle 25 through horizontal transmission gear sprocket 24, and the gear through horizontal transmission axostylus axostyle 25 both ends is connected with doubly fast chain 21 interlock, and horizontal transmission axostylus axostyle 25 is all connected at doubly fast chain 21's both ends, and then realizes the drive effect to doubly fast chain 21, because the tamp of installation child membrane 26 is placed on doubly fast chain 21, so the position of transmission child membrane 26's horizontal direction. Vertical drive mechanism 3 installs inside frame body 1 equally, is equipped with fetal membrane bottom plate support frame 31, lift mounting panel 34 and second motor 35, fetal membrane bottom plate support frame 31 is located between the doubly fast chain 21 of frame body 1 both sides, and fetal membrane bottom plate support frame 31 is equipped with the lift brace table 32 that is used for supporting the tamp simultaneously, and drives under the effect of actuating cylinder 33 at the brace table lift brace table 32 and can rise the tamp, makes it no longer extrude doubly fast chain 21, avoids causing bad influence to doubly fast chain 21 when welding automobile spare and accessory simultaneously.

The lifting mounting plate 34 is arranged at four angular positions of the frame body 1, the second motor 35 is arranged below the fetal membrane bottom plate support frame 31, the second motor 35 is connected with a second shaft lever 311 and a third shaft lever 313 through a first shaft lever 39, and a corresponding gear sprocket is arranged between the shaft levers. Install guided way 36 and rack 37 on the lift mounting panel 34, guided way 36 with install in the direction slider 38 looks accordant connection of fetal membrane bottom plate support frame 31 both sides, rack 37 on the lift mounting panel 34 is connected with the gear interlock at second shaft pole 311 and third shaft pole 313 both ends mutually, drives the axostylus axostyle and does the lift action of vertical direction along rack 37 direction under the effect of second motor 35, consequently, fetal membrane bottom plate support frame 31 can the lift action simultaneously under the auxiliary action of guided way 36, and then makes fetal membrane 26 and tamp also can the lift action.

In summary, the fetal membrane 26 and the pressing tool can realize actions in the horizontal direction and the vertical direction under the action of the horizontal transmission mechanism 2 and the vertical transmission mechanism 3, so that the welding processing effect of automobile parts can be optimized, and meanwhile, the blocking switch 16 and the sensor 15 are respectively arranged at the two end sides of the fetal membrane bottom plate support frame 31, so that the offside problem and the position determination of the fetal membrane 26 and the pressing tool in the transmission process can be prevented. The automatic processing machine comprises a rack body 1, a pick-and-place part operating position 11 for putting in a processed workpiece, a die changing position 12 for changing a tire mold 26 and a pressing tool, a protection plate 17 for protecting human body safety, a grating 18, an emergency stop button 19 and an automatic operation switch 110.

The working principle of the technical scheme is that as shown in the attached drawing 1, the multilayer station lifting and transmission equipment comprises a rack body 1, a horizontal transmission mechanism 2 and a vertical transmission mechanism 3, a taking and placing part operation position 11 and a die change position 12 are arranged on the side surface of the rack body 1, the die change position 12 comprises an upper die change position 13 and a lower die change position 14 which are high in height and used for die change operation, a protection plate 17 is arranged on the top surface and the rear side surface of the rack body 1, the protection plates 17 are arranged on two side surfaces of the lower die change position 14, and the high-strength acrylic protection plate is arranged on the upper die change position 13 and the lower die change position 14. The two picking and placing operation positions 11 are at least arranged, the picking and placing operation positions 11 are opposite faces, a grating 18 for detecting whether an object enters the equipment or not is arranged on the grating, and an emergency button 19 and an automatic operation switch 110 are arranged on two sides of the picking and placing operation positions 11. Referring to fig. 5, the horizontal transmission mechanism 2 is installed in the rack body 1, the horizontal transmission mechanism 2 includes speed-multiplying chains 21 installed in parallel on two sides, and a first motor 23 disposed between the speed-multiplying chains 21 on the two sides, the speed-multiplying chains 21 are provided with speed-multiplying chain embedded grooves 22, and the speed-multiplying chain embedded grooves 22 are matched and embedded with horizontal sliding rails on the inner side of the frame of the rack body 1. The first motor 23 is connected with a horizontal transmission gear chain wheel 24, the horizontal transmission gear chain wheel 24 is connected with a horizontal transmission shaft rod 25 through a chain, two ends of the horizontal transmission shaft rod 25 are respectively connected to two end sides of the speed doubling chains 21 on two side edges, the speed doubling chains 21 are provided with the tire membranes 26, workpieces in the tire membranes 26 are pressed and fixed by a turnable pressing tool, the rack body 1 can be at least used for placing two layers of turnable pressing tools for installing the tire membranes 26, the directional outer sides of the speed doubling chains 21 are provided with guide blocks installed on the rack body 1, and sensors for detecting the positions of the tire membranes in the transmission process are arranged on the guide blocks.

Referring to fig. 1 to 6, the vertical transmission mechanism 3 is installed in the rack body 1, the vertical transmission mechanism 3 includes a tire membrane bottom plate support frame 31, a lifting mounting plate 34 and a second motor 35, the tire membrane bottom plate support frame 31 is installed above the second motor 35, the lifting mounting plate 34 is fixed on the inner side of four feet of the rack body 1 and corresponds to the feet of the tire membrane bottom plate support frame 31, the lifting mounting plate 34 is provided with a guide rail 36 and a rack 37 perpendicular to the tire membrane bottom plate support frame 31, two sides of the tire membrane bottom plate support frame 31 are provided with guide sliders 38 matching and embedding with the guide rail 36, the second motor 35 is provided with a first sprocket 310 passing through a first shaft rod 39, two ends of the first shaft rod 39 are respectively connected with a second sprocket 312 and a third sprocket 314, the second sprocket 312 is connected with a second shaft rod 311, the third sprocket 314 is connected with a third shaft rod 313, the two ends of the second shaft 311 and the third shaft 313 are both provided with gears, and are respectively connected with the rack 37 through gear engagement. Speed chain 21 is located above fetal membrane bottom plate support frame 31, speed chain 21 and fetal membrane 26 are driven by first motor 23 for doubly, fetal membrane bottom plate support frame 31, speed chain 21 and fetal membrane 26 are driven by second motor 35 for doubly, and the top side is equipped with stop part 4 on being located lift mounting panel 34, stop part 4 includes spacing cylinder 41 and push rod positioning seat 42, and the symmetry angle position that is located fetal membrane bottom plate support frame 31 is equipped with the spacing perforation piece 43 with the locking of the push rod phase-match jack of spacing cylinder 41. The bottom plate support 31 of the tire membrane is provided with a lifting support platform 32 which is connected with the bottom of the reversible pressing tool through a plug, and the vertical lifting action of the lifting support platform 32 is driven by a support platform driving air cylinder 33. The membrane mat support 31 is located at one end of the mould changing position 12 on the opposite side, and is provided with a sensor 15 and a blocking switch 16 for respectively detecting and limiting the position of the membrane 26, so that the positions of the membrane 26 and the pressing tool can be limited and detected.

Although examples of the present disclosure have been fully described with reference to the accompanying drawings, it is to be noted that various changes and modifications will become apparent to those skilled in the art. It is to be understood that such changes and modifications are to be considered as included within the scope of the examples of the present disclosure as defined by the appended claims.

Claims (6)

1. Multilayer station goes up and down and transmission equipment, its characterized in that includes:

the mould changing device comprises a rack body, wherein a taking and placing part operating position and a mould changing position are arranged on the side surface of the rack body, and the mould changing position comprises an upper mould changing position and a lower mould changing position which are used for carrying out mould changing operation at two heights;

the horizontal transmission mechanism is arranged in the frame body and comprises speed doubling chains arranged on two sides in parallel and a first motor arranged between the speed doubling chains on the two sides, the first motor is connected with a horizontal transmission gear chain wheel, the horizontal transmission gear chain wheel is connected with a horizontal transmission shaft rod through a chain, two ends of the horizontal transmission shaft rod are respectively connected to two end sides of the speed doubling chains on the two sides, a tire membrane is arranged on the speed doubling chains, a workpiece in the tire membrane is pressed and fixed by a reversible pressing tool, at least two layers of tire membrane bottom plates for mounting the tire membranes can be placed on the frame body, a guide block arranged on the frame body is arranged on the outer side of the speed doubling chains in a pointing direction, and a sensor for detecting the position of the tire membranes in the transmission process is arranged on the guide block;

the vertical transmission mechanism is arranged in the frame body and comprises a bottom plate supporting frame of the tyre film, a lifting mounting plate and a second motor, the bottom plate supporting frame of the fetal membrane is arranged above the second motor, the lifting mounting plate is fixed at the inner sides of four feet of the frame body, and corresponds to the foot positions of the supporting frame of the bottom plate of the fetal membrane, the lifting mounting plate is provided with a guide rail and a rack which are vertical to the supporting frame of the bottom plate of the fetal membrane, two side edges of the bottom plate supporting frame of the tire membrane are provided with guide sliding blocks which are matched and embedded with the guide rails, the second motor is connected with a first chain wheel of a first shaft lever in a penetrating way, two ends of the first shaft lever are respectively connected with a second chain wheel and a third chain wheel, a second shaft lever penetrates through the second chain wheel, a third shaft lever penetrates through the third chain wheel, and gears are arranged at two ends of the second shaft lever and the third shaft lever and are respectively connected with the racks in an engaged manner through the gears;

the speed chain is arranged on the fetal membrane bottom plate support frame, the speed chain and the fetal membrane are driven by a first motor, the fetal membrane bottom plate support frame, the speed chain and the fetal membrane are driven by a second motor, the top side of the fetal membrane bottom plate support frame, the speed chain and the fetal membrane are arranged on the lifting mounting plate, the limiting parts comprise limiting air cylinders and push rod positioning seats, and limiting hole penetrating blocks which are locked by push rod matching jacks of the limiting air cylinders are arranged at symmetrical angle positions of the fetal membrane bottom plate support frame.

2. The multi-layer station lifting and driving device as claimed in claim 1, wherein the membrane bottom plate supporting frame is provided with a lifting support platform connected with the bottom of the membrane bottom plate through a plug, and the vertical lifting action of the lifting support platform is driven by a support platform driving air cylinder.

3. The multi-layer station lifting and driving device as claimed in claim 2, wherein the end of the fetal membrane bed plate support frame opposite to the die change station is provided with a sensor and a blocking switch for respectively detecting and limiting the fetal membrane position.

4. The multi-layer station lifting and transmission equipment as claimed in claim 1, wherein protection plates are arranged on the top surface and the rear side surface of the rack body, and protection plates are arranged on the two side surfaces of the lower-layer die change position;

the upper layer retooling position and lower floor retooling position are equipped with and adopt high strength ya keli guard plate.

5. The multi-layer station lifting and driving device as claimed in claim 1, wherein the speed-doubling chain is provided with a speed-doubling chain embedded groove, and the speed-doubling chain embedded groove is matched and embedded with a horizontal sliding rail on the inner side of the frame of the rack body.

6. The multi-layer station lifting and transmission device as claimed in claim 1, wherein the number of the picking and placing member operation positions is at least two, the picking and placing member operation positions are arranged in opposite directions and are provided with gratings for detecting whether an object enters the device, and emergency buttons and automatic operation switches are arranged on two sides of the picking and placing member operation positions.

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