CN210418040U

CN210418040U - Multipurpose plate returning machine

Info

Publication number: CN210418040U
Application number: CN201921298178.3U
Authority: CN
Inventors: 郑齐武; 邢明海; 金俊杰; 刘丰洋; 宋欢; 尤小龙
Original assignee: Cec Jiutian Intelligent Technology Co ltd
Current assignee: Cec Jiutian Intelligent Technology Co ltd
Priority date: 2019-08-12
Filing date: 2019-08-12
Publication date: 2020-04-28
Anticipated expiration: 2029-08-12

Abstract

The utility model discloses a multi-purpose plate return machine, which can synchronously complete the power output of a first small lifting chain component, a first large lifting chain component, a second small lifting chain component and a second large lifting chain component through a chain power motor, and the combined action of the first small lifting chain component, the first large lifting chain component, the second small lifting chain component and the second large lifting chain component can realize the lifting or the putting down of a rolling trolley, and has reasonable structure and simple transmission; through the cooperation of the plurality of lifting rails and the rollers, the lifting or descending posture of the movable frame is stabilized; through the combined action of the first synchronous belt assembly, the guardrail moving motor, the second synchronous belt assembly, the second transmission shaft and the third synchronous belt assembly, the width between the first guardrail assembly and the second guardrail assembly can be adjusted so as to adapt to the tooling plates for transmitting different widths, and the adjustment is convenient.

Description

Multipurpose plate returning machine

Technical Field

The utility model relates to a technical field is carried in the product processing, specifically is a trigger is returned to multi-purpose type.

Background

In industrial production, a company often produces multiple products, rather than a single product. And the product difference is large, and the same-shape tooling plate can not meet the general requirement. In the traditional industry, one product corresponds to one production line, and the multi-purpose plate returning machine can meet the use requirements of various products.

The defects of the traditional technology are as follows:

the single product has the following disadvantages when corresponding to the single line body:

1. the product diversification requires a large number of line bodies, and the hardware cost and the maintenance are high;

2. the requirement of the plurality of wire bodies on the occupied space of a factory is high;

3. each line body requires high labor cost.

In order to solve the problems, a multipurpose plate returning machine is developed by the inventor.

Disclosure of Invention

The utility model aims at providing a multi-purpose board return machine for solving above-mentioned problem.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the utility model provides a trigger is returned to multi-purpose type, includes:

the rolling trolley is used for conveying the tooling plate in the horizontal direction;

and the moving assembly is used for moving the rolling trolley in the vertical direction.

Preferably, the moving assembly is a hydraulic cylinder system, a plurality of hydraulic cylinders of the hydraulic cylinder system are arranged at the bottom of the rolling trolley, and piston rods of the plurality of hydraulic cylinders are connected with the rolling trolley and used for moving the rolling trolley up and down in the vertical direction.

Preferably, the moving assembly comprises a plurality of groups of chain assemblies, the rolling trolley is respectively connected with the moving parts of the plurality of groups of chain assemblies, and the chain power motor is in transmission connection with the plurality of groups of chain assemblies.

The chain assembly comprises a first small lifting chain assembly, a first large lifting chain assembly, a second small lifting chain assembly, a second large lifting chain assembly and a first transmission assembly, wherein the first transmission assembly comprises a first transmission shaft and a plurality of chain wheels arranged on the first transmission shaft, the first transmission shaft is rotatably arranged on the outer framework, and a chain power motor is used for driving the first transmission shaft to rotate; the first small lifting chain assembly and the second small lifting chain assembly respectively comprise another chain wheel which is rotatably arranged on the outer framework, and the chains of the first small lifting chain assembly and the second small lifting chain assembly are vertically arranged; the first lifting large chain assembly and the second lifting large chain assembly respectively comprise another two chain wheels which are rotatably arranged on the outer framework, and the chains of the first lifting large chain assembly and the second lifting large chain assembly are arranged in a right triangle shape; four corners of the rolling trolley are respectively and fixedly connected to the chain of the first small lifting chain assembly, the chain of the second small lifting chain assembly, the vertical section chain of the first large lifting chain assembly and the vertical section chain of the second large lifting chain assembly; when the first transmission shaft rotates towards one direction, the rolling trolley descends, and when the first transmission shaft rotates towards the other direction, the rolling trolley ascends.

Preferably, the rolling trolley is arranged on the moving frame, and the rolling trolley is respectively and fixedly connected to the chain of the first small lifting chain assembly, the chain of the second small lifting chain assembly, the vertical section chain of the first large lifting chain assembly and the vertical section chain of the second large lifting chain assembly through the moving frame; a plurality of lifting rails are vertically arranged on the outer framework, a corresponding number of rollers are arranged on the movable frame, and when the rolling trolley ascends and descends, the rollers roll in the lifting rails.

Specifically, the dolly horizontal installation that rolls is on removing the frame, and the dolly that rolls includes that fourth synchronous band of assemblage, a plurality of mutual levels set up the cylinder, and the fourth synchronous band of assemblage includes that the dolly rotates motor and many dolly chains, all installs the sprocket in the same one side pivot of all cylinders, also installs the sprocket in the pivot that the dolly rotated the motor, and the sprocket that the dolly rotated the motor is connected through sprocket drive on a dolly chain and the cylinder, through dolly chain drive between the sprocket of two adjacent cylinders.

Specifically, a first blocking cylinder and a second blocking cylinder for blocking the forward movement of the tooling plate are arranged at the transmission terminal of the rolling trolley.

The multifunctional plate returning machine further comprises a first synchronous belt assembly, a guardrail moving motor, a third synchronous belt assembly, a second transmission shaft and a second synchronous belt assembly, wherein the guardrail moving motor transmits power to the second transmission shaft through the third synchronous belt assembly, and the second transmission shaft transmits power to the first synchronous belt assembly and the second synchronous belt assembly; a first guardrail component and a second guardrail component for leading in different sizes of tooling plates are respectively arranged on two sides of the direction of conveying the tooling plates by the rolling trolley, two ends of the first guardrail component and the second guardrail component are slidably arranged on the movable frame through a slide block, and a plurality of guide wheels for guiding the tooling plates are respectively arranged on the first guardrail component and the second guardrail component; two positions of the first guardrail component are fixed on the upper parts of the chains of the first synchronous belt component and the second synchronous belt component, two positions of the second guardrail component are fixed on the lower parts of the chains of the first synchronous belt component and the second synchronous belt component, and the transmission directions of the first synchronous belt component and the second synchronous belt component are perpendicular to the transmission direction of the rolling trolley.

Specifically, all be provided with first screw on first guardrail subassembly, the second guardrail subassembly, set up the through-hole on the slider, on removing the frame with even laying a plurality of second screws on two support bodies of slider contact, at first guardrail subassembly, when second guardrail subassembly needs the position to fix, the screw is in first screw on first guardrail subassembly and the second guardrail subassembly in proper order, the through-hole on the slider, the second screw on the support body for first guardrail subassembly and the position locking of second guardrail subassembly on removing the frame.

The beneficial effects of the utility model reside in that:

1. in the application, the power output of the first small lifting chain assembly, the first large lifting chain assembly, the second small lifting chain assembly and the second large lifting chain assembly can be synchronously completed through a chain power motor, and the lifting or the lowering of the rolling trolley can be realized under the combined action of the first small lifting chain assembly, the first large lifting chain assembly, the second small lifting chain assembly and the second large lifting chain assembly, so that the structure is reasonable, and the transmission is simple;

2. the forward blocking of the tooling plate can be effectively finished through the arrangement of the first blocking cylinder and the second blocking cylinder, and the transmission and positioning of the tooling plate are finished;

3. through the cooperation of the plurality of lifting rails and the rollers, the lifting or descending posture of the movable frame is stabilized;

4. through the combined action of the first synchronous belt assembly, the guardrail moving motor, the second synchronous belt assembly, the second transmission shaft and the third synchronous belt assembly, the width between the first guardrail assembly and the second guardrail assembly can be adjusted so as to adapt to the tooling plates for transmitting different widths, and the adjustment is convenient.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the three-dimensional structure of the present invention with the outer frame removed;

FIG. 3 is a schematic view of the installation structure of the chain power motor of the present invention;

fig. 4 is a schematic view of the mounting structure of the third connecting member of the present invention;

FIG. 5 is a schematic view of the mounting structure of the rotating motor of the middle cart according to the present invention;

fig. 6 is a schematic structural view of a first barrier cylinder in the present invention;

fig. 7 is a schematic view of an installation structure of the first synchronous belt assembly, the guardrail moving motor and the second synchronous belt assembly of the present invention;

fig. 8 is a schematic view of the three-dimensional structure of the first synchronous belt assembly, the guardrail moving motor and the second synchronous belt assembly;

fig. 9 is a schematic view of the mounting structure of the middle slider according to the present invention.

In the figure: 1-lifting rail, 2-roller, 3-first synchronous belt component, 31-third belt component, 32-fourth belt component, 4-guardrail moving motor, 41-third synchronous belt component, 42-second transmission shaft, 5-second synchronous belt component, 51-fifth belt component, 52-sixth belt component, 6-fourth synchronous belt component, 61-trolley rotating motor, 62-trolley chain, 7-first guardrail component, 8-rolling trolley, 81-roller, 9-first blocking cylinder, 10-second blocking cylinder, 11-second guardrail component, 111-first screw hole, 112-guide wheel, 113-screw, 114-sliding block, 12-first lifting small chain component, 13-first lifting large chain component, 14-a second small lifting chain component, 15-a second large lifting chain component, 16-a chain, 17-a chain power motor, 18-a moving frame, 181-a second screw hole, 19-a first connecting piece, 20-a first transmission shaft, 21-a second connecting piece and 22-an outer framework.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

example 1, as shown in fig. 1, 2;

the utility model provides a trigger is returned to multi-purpose type, its characterized in that includes:

a rolling trolley 8 for conveying the tooling plate in the horizontal direction;

and the moving component is used for moving the rolling trolley 8 in the vertical direction.

Example 2;

this example differs from example 1 in that:

the moving component is a hydraulic cylinder system, a plurality of hydraulic cylinders of the hydraulic cylinder system are arranged at the bottom of the rolling trolley 8, and piston rods of the plurality of hydraulic cylinders are connected with the rolling trolley 8 and used for moving up and down in the vertical direction of the rolling trolley 8. The hydraulic cylinders are vertically arranged, and the plurality of hydraulic cylinders work together to jack up or put down the rolling trolley 8.

The board feeding process and the theory of operation of this embodiment: the hydraulic cylinders are in a non-jacking state, the no-load tooling plate enters from the first end of the rolling trolley 8 and is then transmitted to the second end of the rolling trolley 8, then the hydraulic cylinders work together to jack the rolling trolley 8, the automatic feeding machine feeds the product to the tooling plate, and the rolling trolley 8 works reversely to transport the tooling plate out from the first end of the rolling trolley 8.

The plate discharging and blanking process and the working principle of the embodiment are as follows:

the frock board is carrying the product and is getting into from the first end (upper strata) of rolling

dolly

8, 8 work of rolling dolly are with the frock board transmission of carrying the product to the second end (upper strata) of rolling dolly 8, automatic blanking machine is with the product unloading in the frock board, later a plurality of pneumatic cylinders work jointly and put down rolling dolly 8, rolling dolly 8 descends to the lower floor perpendicularly, 8 work of rolling dolly will be carrying the frock board transmission of product to the first end (lower floor) of rolling dolly 8, from the shipment of frock board.

Example 3, as shown in fig. 1 and 2;

this example differs from example 1 in that:

the moving assembly comprises a plurality of groups of chain assemblies, the rolling trolley 8 is respectively connected with the moving parts of the plurality of groups of chain assemblies, and the chain power motor 17 is in transmission connection with the plurality of groups of chain assemblies. The moving part in this embodiment is a chain,

example 4, as shown in FIGS. 1-4;

this example differs from example 3 in that:

the chain components comprise a first small lifting chain component 12, a first large lifting chain component 13, a second small lifting chain component 14, a second large lifting chain component 15 and a first transmission component, wherein the first transmission component comprises a first transmission shaft 20 and a plurality of chain wheels arranged on the first transmission shaft 20, the first transmission shaft 20 is rotatably arranged on an outer framework 22, and a chain power motor 17 is used for driving the first transmission shaft 20 to rotate; the first small lifting chain assembly 12 and the second small lifting chain assembly 14 respectively comprise another chain wheel which is rotatably arranged on the outer framework 22, and the chains 16 of the first small lifting chain assembly 12 and the second small lifting chain assembly 14 are vertically arranged; the first lifting large chain assembly 13 and the second lifting large chain assembly 15 respectively comprise another two chain wheels which are rotatably arranged on the outer framework 22, and the chains 16 of the first lifting large chain assembly 13 and the second lifting large chain assembly 15 are arranged in a right triangle; four corners of the rolling trolley 8 are respectively and fixedly connected to a chain 16 of the first small lifting chain assembly 12, a chain 16 of the second small lifting chain assembly 14, a vertical section chain 16 of the first large lifting chain assembly 13 and a vertical section chain 16 of the second large lifting chain assembly 15; when the first transmission shaft 20 rotates in one direction, the rolling cart 8 descends, and when the first transmission shaft 20 rotates in the other direction, the rolling cart 8 ascends.

In this embodiment, all the sprockets are mounted on a rotating shaft, and two ends of the rotating shaft are respectively connected with a bearing, and the bearings are fixedly mounted on the outer frame 22 through bearing supports. (excluding the sprocket connected to the first transmission shaft 20)

In this embodiment, a chain wheel is fixed on the rotating shaft of the chain power motor 17, and the chain wheel is in transmission connection with a chain wheel mounted on the first transmission shaft 20 through the chain 16, so as to drive the first transmission shaft 20 to rotate.

In order to rotatably mount the first transmission shaft 20 in this embodiment, a plurality of bearings are sleeved on the first transmission shaft 20, and the bearings are fixedly mounted on the outer frame 22 through bearing supports.

Example 5, as shown in FIGS. 1-4;

this example differs from example 4 in that:

the rolling trolley 8 is arranged on the moving frame 18, and the rolling trolley 8 is respectively and fixedly connected to the chain of the first small lifting chain component 12, the chain of the second small lifting chain component 14, the vertical section chain of the first large lifting chain component 13 and the vertical section chain of the second large lifting chain component 15 through the moving frame 18; a plurality of lifting tracks 1 are vertically arranged on an outer framework 22, a corresponding number of rollers 2 are arranged on a moving frame 18, and when the rolling trolley 8 ascends and descends, the rollers 2 roll in the lifting tracks 1.

The present embodiment and the preferred moving frame 18 are formed into a rectangle, and the moving trolley is installed along the length direction of the moving frame 18;

example 6, as shown in figures 1, 2, 5;

this example differs from example 1 in that:

the horizontal installation of the rolling trolley 8 is on moving the shelf 18, the rolling trolley 8 includes the fourth synchronous belt assembly 6, a plurality of mutual horizontally arranged cylinders 81, the fourth synchronous belt assembly 6 includes trolley rotation motor 61 and many trolley chains 62, all install the sprocket in the same side pivot of all cylinders 81, also install the sprocket in the pivot of trolley rotation motor 61, the sprocket of trolley rotation motor 61 is connected through the sprocket transmission on a trolley chain 62 and a cylinder 81, through the transmission of trolley chain 62 between the sprocket of two adjacent cylinders 81.

In this embodiment, only one implementation is selected, and for convenience of use, only one chain may be provided to rotatably connect the chain wheels of all the rollers 81 and the chain wheel of the cart rotating motor 61.

According to fig. 5, the trolley rotation motor 61 is installed at the center of the rolling trolley 8, two chain wheels are arranged on the rotating shaft of the trolley rotation motor 61, one chain wheel is connected with the chain wheel of the roller 81 at one side of the trolley rotation motor 61 through a chain, and the other chain wheel is connected with the chain wheel of the roller 81 at the other side of the trolley rotation motor 61 through a chain; then, in the rollers 81 on one side of the trolley rotating motor 61, the chain wheels of two adjacent rollers 81 are in transmission connection through a chain.

Example 7, as shown in figures 1, 2, 6;

this example differs from example 1 in that:

a first blocking cylinder 9 and a second blocking cylinder 10 for blocking the advance of the tooling plate are arranged at the transmission terminal of the rolling trolley 8.

Example 8, as shown in fig. 7, 8, 9;

this example differs from example 5 in that:

the multipurpose plate returning machine further comprises a first synchronous belt assembly 3, a guardrail moving motor 4, a third synchronous belt assembly 41, a second transmission shaft 42 and a second synchronous belt assembly 5, wherein the guardrail moving motor 4 transmits power to the second transmission shaft 42 through the third synchronous belt assembly 41, and the second transmission shaft 42 transmits power to the first synchronous belt assembly 3 and the second synchronous belt assembly 5; a first guardrail component 7 and a second guardrail component 11 for guiding in the tooling plates with different sizes are respectively arranged at two sides of the direction of conveying the tooling plates by the rolling trolley 8, two ends of the first guardrail component 7 and the second guardrail component 11 are slidably arranged on the movable frame 18 through a sliding block 114, and a plurality of guide wheels 112 for guiding the tooling plates are respectively arranged on the first guardrail component 7 and the second guardrail component 11; two positions of the first guardrail assembly 7 are fixed on the upper parts of the chains of the first synchronous belt assembly 3 and the second synchronous belt assembly 5, two positions of the second guardrail assembly 11 are fixed on the lower parts of the chains of the first synchronous belt assembly 3 and the second synchronous belt assembly 5, and the transmission directions of the first synchronous belt assembly 3 and the second synchronous belt assembly 5 are perpendicular to the transmission direction of the rolling trolley 8.

In this embodiment, a chain wheel is fixed on the rotating shaft of the guardrail moving motor 4, and the chain wheel is in transmission connection with the chain wheel installed on the second transmission shaft 42 through a chain, so as to drive the second transmission shaft 42 to rotate; first synchronous belt subassembly 3 and second synchronous belt subassembly 5 constitute by two sprockets and chain, same sprocket is all installed in a pivot, a bearing is connected respectively at the both ends of pivot, the bearing passes through bearing support fixed mounting on exoskeleton 22 (except for the sprocket on second transmission shaft 42), second transmission shaft 42 rotates, then drive first synchronous belt subassembly 3, the transmission takes place for the chain of second synchronous belt subassembly 5, then first guardrail subassembly 7 and second guardrail subassembly 11 all are close to roll dolly 8 or all keep away from roll dolly 8, adapt to the frock board of different width with this change.

Example 9, as shown in fig. 9;

this example differs from example 8 in that:

at first guardrail subassembly 7, all be provided with first screw 111 on the second guardrail subassembly 11, set up the through-hole on the slider 114, evenly lay a plurality of second screw 181 on two support bodies that contact with slider 114 on removing frame 18, at first guardrail subassembly 7, when second guardrail subassembly 11 needs the position to be fixed, screw 113 is in proper order screwed in first screw 111 on first guardrail subassembly 7 and the second guardrail subassembly 11, the through-hole on the slider 114, second screw 181 on the support body, be used for the position locking of first guardrail subassembly 7 and second guardrail subassembly 11 on removing frame 18.

In this embodiment, after the distance between the first guardrail assembly 7 and the second guardrail assembly 11 is determined, the positions of the first guardrail assembly 7 and the second guardrail assembly 11 on the movable frame 18 are fixed by the screws 113.

Example 10, as shown in figures 2, 3, 4;

two corners of the moving frame 18 are fixedly connected with the chain of the first small lifting chain assembly 12 and the chain of the second small lifting chain assembly 14 through two first connecting pieces 19; the other two corners of the movable frame 18 are fixedly connected with the chain of the first large lifting chain assembly 13 and the chain of the second large lifting chain assembly 15 (vertical part chains) through two second connecting pieces 21;

two places of the first guardrail assembly 7 are respectively fixed on the upper part of the chain of the first synchronous belt assembly 3 through a fifth connecting piece 51, the third connecting piece 31 is fixed on the upper part of the chain of the second synchronous belt assembly 5, two places of the second guardrail assembly 11 are respectively fixed on the lower part of the chain of the first synchronous belt assembly 3 through a fourth connecting piece 32, and the sixth connecting piece 52 is fixed on the lower part of the chain of the second synchronous belt assembly 5.

The application relates to a feeding plate feeding process and a working principle: the rolling trolley 8 is positioned at the lower layer of the outer framework 22, the chain power motor 17 is in a non-working state, the no-load tooling plate enters from the first end of the rolling trolley 8, the trolley rotating motor 61 works to drive the plurality of rollers 81 to roll, the no-load tooling plate is transmitted to the second end of the rolling trolley 8 by the plurality of rollers 81 in a rolling way, then the chain power motor 17 works, the chain power motor 17 drives the first transmission shaft to rotate, the first transmission shaft rotates to drive the first small lifting chain component 12, the first large lifting chain component 13, the second small lifting chain component 14 and the second large lifting chain component 15 to rotate, so that the movable frame 18 is lifted by the chains of all the components, namely, the rolling trolley 8 is lifted to the upper layer of the outer framework 22, the automatic feeding machine loads a product on a tooling plate, the trolley rotating motor 61 rotates reversely, and the rolling trolley 8 works reversely to transport the tooling plate out from the first end of the rolling trolley 8.

The application relates to a plate discharging process and a working principle:

the tooling plate carries products and enters from the first end (upper layer) of the rolling trolley 8, the rolling trolley 8 works to transmit the tooling plate carrying the products to the second end (upper layer) of the rolling trolley 8, the automatic blanking machine discharges the products in the tooling plate, then the chain power motor 17 works, the chain power motor 17 drives the first transmission shaft to rotate, the first transmission shaft rotates to drive the first small lifting chain component 12, the first large lifting chain component 13, the second small lifting chain component 14 and the second large lifting chain component 15 to rotate, so that the movable frame 18 is moved by chains of the components, the rolling trolley 8 is lowered to the lower layer of the outer framework 22, the rolling trolley 8 vertically descends to the lower layer, the tooling plate carrying the products is transmitted to the first end (lower layer) of the rolling trolley 8 by the rolling trolley 8, and the tooling plate is transported out.

The utility model provides a polytype process and theory of operation:

when the tooling plates cannot be unified due to large product difference, the tooling plates with different sizes need different flow channel widths. The guardrail moving motor 4 rotates in one direction, the guardrail moving motor 4 drives the second transmission shaft 42 to rotate, and the second transmission shaft 42 drives the first synchronous belt component 3 and the second synchronous belt component 5 to rotate; the chains on the first and second

timing belt assemblies

3 and 5 allow the first and second barrier assemblies 7 and 11 to be either close to the rolling carriage 8 or far from the rolling carriage 8, thereby varying to accommodate tooling plates of different widths.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a trigger is returned to multi-purpose type, its characterized in that includes:

the moving assembly is used for moving the rolling trolley in the vertical direction;

the moving assembly is a hydraulic cylinder system, a plurality of hydraulic cylinders of the hydraulic cylinder system are arranged at the bottom of the rolling trolley, and piston rods of the plurality of hydraulic cylinders are connected with the rolling trolley and are used for moving up and down in the vertical direction of the rolling trolley;

the moving assembly comprises a plurality of groups of chain assemblies, the rolling trolley is respectively connected with the moving parts of the plurality of groups of chain assemblies, and the chain power motor is in transmission connection with the plurality of groups of chain assemblies;

the chain assembly comprises a first small lifting chain assembly, a first large lifting chain assembly, a second small lifting chain assembly, a second large lifting chain assembly and a first transmission assembly, the first transmission assembly comprises a first transmission shaft and a plurality of chain wheels arranged on the first transmission shaft, the first transmission shaft is rotatably arranged on the outer framework, and a chain power motor is used for driving the first transmission shaft to rotate; the first small lifting chain assembly and the second small lifting chain assembly respectively comprise another chain wheel which is rotatably arranged on the outer framework, and the chains of the first small lifting chain assembly and the second small lifting chain assembly are vertically arranged; the first lifting large chain assembly and the second lifting large chain assembly respectively comprise another two chain wheels which are rotatably arranged on the outer framework, and the chains of the first lifting large chain assembly and the second lifting large chain assembly are arranged in a right triangle shape; four corners of the rolling trolley are respectively and fixedly connected to the chain of the first small lifting chain assembly, the chain of the second small lifting chain assembly, the vertical section chain of the first large lifting chain assembly and the vertical section chain of the second large lifting chain assembly; when the first transmission shaft rotates towards one direction, the rolling trolley descends, and when the first transmission shaft rotates towards the other direction, the rolling trolley ascends.

2. The multipurpose plate return machine according to claim 1, wherein the rolling trolley is mounted on a moving frame, and the rolling trolley is fixedly connected to the chain of the first small lifting chain assembly, the chain of the second small lifting chain assembly, the vertical section chain of the first large lifting chain assembly and the vertical section chain of the second large lifting chain assembly through the moving frame; a plurality of lifting rails are vertically arranged on the outer framework, a corresponding number of rollers are arranged on the movable frame, and when the rolling trolley ascends and descends, the rollers roll in the lifting rails.

3. The multi-purpose plate returning machine according to claim 1, wherein the rolling trolley is horizontally mounted on the moving frame, the rolling trolley comprises a fourth synchronous belt assembly and a plurality of rollers horizontally arranged with each other, the fourth synchronous belt assembly comprises a trolley rotating motor and a plurality of trolley chains, chain wheels are mounted on the same side rotating shafts of all the rollers, chain wheels are also mounted on the rotating shafts of the trolley rotating motor, the chain wheels of the trolley rotating motor are in transmission connection with the chain wheels of one roller through one trolley chain, and the chain wheels of two adjacent rollers are in transmission through the trolley chains.

4. The multipurpose plate returning machine according to claim 1, wherein a first blocking cylinder and a second blocking cylinder for blocking the advance of the tooling plate are arranged at the transmission terminal of the rolling trolley.

5. The multipurpose board returning machine according to claim 2, further comprising a first synchronous belt assembly, a guardrail moving motor, a third synchronous belt assembly, a second transmission shaft and a second synchronous belt assembly, wherein the guardrail moving motor drives the second transmission shaft through the third synchronous belt assembly, and the second transmission shaft drives the first synchronous belt assembly and the second synchronous belt assembly; a first guardrail component and a second guardrail component for leading in different sizes of tooling plates are respectively arranged on two sides of the direction of conveying the tooling plates by the rolling trolley, two ends of the first guardrail component and the second guardrail component are slidably arranged on the movable frame through a slide block, and a plurality of guide wheels for guiding the tooling plates are respectively arranged on the first guardrail component and the second guardrail component; two positions of the first guardrail component are fixed on the upper parts of the chains of the first synchronous belt component and the second synchronous belt component, two positions of the second guardrail component are fixed on the lower parts of the chains of the first synchronous belt component and the second synchronous belt component, and the transmission directions of the first synchronous belt component and the second synchronous belt component are perpendicular to the transmission direction of the rolling trolley.

6. The multipurpose plate return machine according to claim 5, wherein first screw holes are formed in the first guardrail component and the second guardrail component, through holes are formed in the sliding block, a plurality of second screw holes are uniformly distributed in two frame bodies, which are in contact with the sliding block, on the movable frame, and when the first guardrail component and the second guardrail component need to be fixed in position, the screws are sequentially screwed into the first screw holes in the first guardrail component and the second guardrail component, the through holes in the sliding block and the second screw holes in the frame bodies, so that the first guardrail component and the second guardrail component are locked in position on the movable frame.