CN209814984U - Non-intermittent longitudinal conveying transverse reciprocating operation mechanism - Google Patents

Abstract

The utility model relates to a horizontal reciprocating operation mechanism of non-intermittent type longitudinal transport, be equipped with the frame, the upper portion left and right sides of frame all is equipped with vertical reciprocating motion guide rail, the outside of vertical reciprocating motion guide rail is equipped with vertical reciprocating motion assembly, be equipped with the leading wheel on the vertical reciprocating motion assembly, the leading wheel forms the roll cooperation with vertical reciprocating motion guide rail, the upper portion fixed mounting of controlling two vertical reciprocating motion assemblies has horizontal support, the upper portion of horizontal support is equipped with horizontal reciprocating motion guide rail, be equipped with horizontal reciprocating operation assembly on the horizontal reciprocating motion guide rail, be equipped with clamping mechanism in the below of horizontal reciprocating operation assembly on the horizontal support. Owing to be equipped with clamping mechanism and vertical quick mechanism that rolls back, make the utility model discloses can accomplish the horizontal reciprocating operation to being carried the object under the condition that vertical transport is not intermittent type, save time improves the work efficiency, and especially the effect of horizontal operation is more showing on extra-wide object.

Description

Non-intermittent longitudinal conveying transverse reciprocating operation mechanism

Technical Field

The utility model relates to a mechanism for carrying out transverse reciprocating operation on cloth-shaped objects or other plate-shaped objects in the longitudinal conveying process, in particular to a non-intermittent longitudinal conveying transverse reciprocating operation mechanism.

Background

In production and life, when a conveyor conveys cloth-shaped objects, plate-shaped objects or extra-wide plate-shaped objects, the conveyed objects need to be subjected to operations such as transverse painting, spraying, sticking, picking or cutting and the like synchronously with a conveying track, particularly the extra-wide plate-shaped objects need to be conveyed intermittently in a longitudinal direction, so that the operation tasks can be completed within a specific time. The utility model discloses when vertically carrying cloth form object, plate-like object, can accomplish by carrying operations such as horizontal air brushing, spraying of object, pasting, picking up, cutting under the synchronous condition of conveying speed even at vertical transport non-intermittence, horizontal operation practical effect is more showing on the extra-wide object, saves time, improves the work efficiency.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a horizontal reciprocating operation mechanism of non-intermittent type longitudinal transport can be under the non-intermittent type condition of longitudinal transport, accomplishes the horizontal reciprocating operation to being carried the object, saves time, improves the work efficiency.

The technical scheme of the utility model is that: a non-intermittent longitudinal conveying transverse reciprocating operation mechanism is provided with a rack, longitudinal reciprocating operation guide rails are arranged on the left side and the right side of the upper portion of the rack, longitudinal reciprocating operation assemblies are arranged on the outer sides of the longitudinal reciprocating operation guide rails, guide wheels are arranged on the longitudinal reciprocating operation assemblies and are arranged above and below the longitudinal reciprocating operation guide rails and are in rolling fit with the longitudinal reciprocating operation guide rails, transverse supports are fixedly arranged on the upper portions of the left longitudinal reciprocating operation assembly and the right longitudinal reciprocating operation assembly to form lifting of the two longitudinal reciprocating operation assemblies to one transverse support, transverse reciprocating operation guide rails are arranged on the upper portions of the transverse supports, transverse reciprocating operation assemblies are arranged on the transverse reciprocating operation guide rails, guide wheels are arranged on the transverse reciprocating operation assemblies and are in rolling fit with the transverse reciprocating operation guide rails, and a clamping mechanism is arranged below the transverse reciprocating operation assemblies on the transverse supports, the clamping device is used for forming a clamping state between the transverse bracket and the conveyed object, so that synchronous movement can be formed between the transverse bracket and the conveyed object.

The transmission mechanism comprises a rack, and is characterized in that a driving shaft, a driven shaft and a power shaft are further arranged on the rack, the driving shaft is in transmission connection with the driven shaft through an inter-shaft transmission mechanism, the inter-shaft transmission mechanism comprises two sets, driving wheels (driving wheels for short) of the corresponding inter-shaft transmission mechanism are respectively arranged at two ends of the driving shaft, driven wheels (driven wheels for short) of the corresponding inter-shaft transmission mechanism are respectively arranged at two ends of the driven shaft, the inter-shaft transmission mechanism can be a chain transmission mechanism or a belt transmission mechanism, the inter-shaft driving wheels are in transmission connection with the corresponding inter-shaft driven wheels through chains or transmission belts, the power shaft is in transmission connection with a power source, two sets of transmission mechanisms are arranged between the power shaft and the driving shaft and are respectively a forward constant-speed transmission mechanism and a reverse quick-return transmission mechanism, and driving wheels of the forward constant-speed transmission mechanism and the reverse quick-return The forward constant-speed electromagnetic clutch and the quick-return electromagnetic clutch are in driving connection with the power shaft, driven wheels of the forward constant-speed transmission mechanism and the reverse quick-return transmission mechanism are fixedly mounted on the driving shaft, the forward constant-speed transmission mechanism and the reverse quick-return transmission mechanism can adopt chain transmission mechanisms or belt transmission mechanisms, for example, the chain transmission mechanisms, and the forward constant-speed transmission mechanism and the reverse quick-return transmission mechanism are respectively driven by two transmission chains to drive the driving shaft. When the electromagnetic clutches are attracted with the driving wheels of the corresponding transmission mechanisms, the power shafts can drive the corresponding driving wheels to rotate through the clutches, so that the corresponding transmission mechanisms drive the driving shafts to rotate, and the power wheels which are not attracted by the corresponding electromagnetic clutches are not driven by the power shafts, so that the transmission mechanisms can be selected through the states of the two electromagnetic clutches.

The above-mentionedReverse directionThe bottom plate of the quick retraction transmission mechanism assembly is fixed on a frame beam, and the frame beam is fixed on the bottom plateReverse directionThe main chain wheel of the quick-return transmission mechanism assembly is a big chain wheelReverse directionThe quick retraction transmission mechanism assembly is also provided with two chain wheels which are used for guiding and can adjust the tightness of the transmission chain, and the large chain wheel is provided with two chain wheels in the axial and radial directionsIn the middle of the horizontal plane, the three sprockets are centered on the drive shaft, theReverse directionThe driving chain of the quick retraction driving mechanism is wound by external teeth which are respectively larger than the center distances of the power shaft and the two guide wheelsReverse directionThe drive chain of the fast reverse drive mechanism is wound through internal teeth at a smaller center distance than the drive shaft and the large sprocket wheel, so that the power output changes both the rotation direction and the reverse speed.

The reverse sprocket tooth count (gear ratio or drive ratio) can typically be greater than the forward sprocket tooth count to increase the speed of reverse retraction.

The driving chain wheel of the forward constant-speed transmission mechanism and the driving chain wheel of the reverse quick-retraction transmission mechanism can be fixed with the separating pressure plate of each electromagnetic clutch and sleeved on the power shaft, so that the corresponding transmission mechanism is separated from or connected with the power shaft through the state switching of the corresponding electromagnetic clutch, and when one transmission mechanism is connected with the power shaft, the other transmission mechanism is separated from the power shaft.

The reverse quick-retraction transmission mechanism can be driven by the same drive as the forward constant-speed transmission mechanism, for example, the driving wheels of the mechanisms are respectively connected with the same power shaft through respective clutches, or a drive device independent of the forward constant-speed transmission mechanism can be adopted to realize independent control. For example, the driving wheels of the reverse quick-return transmission mechanism and the forward constant-speed transmission mechanism are respectively connected with respective power shafts through respective clutches, and the respective power shafts are respectively provided with respective driving devices.

Alternatively, the power device of the driving shaft is replaced by a bidirectional rotating variable-speed motor or a hydraulic motor.

The longitudinal reciprocating motion assembly also comprises a longitudinal wall plate, the guide wheel is arranged on the longitudinal wall plate, at least two guide wheels are arranged on the longitudinal wall plate at one side above the longitudinal reciprocating guide rail and are distributed at the front end and the rear end of the upper part of the longitudinal wall plate, a guide wheel is arranged at the middle part of the longitudinal wall plate below the longitudinal reciprocating guide rail or two guide wheels are arranged at the front end and the rear end of the lower part of the longitudinal wall plate, the guide wheels distributed above and below the longitudinal reciprocating guide rail clamp the longitudinal reciprocating guide rail up and down, and forms rolling fit with the longitudinal reciprocating guide rail, a driving pin is also fixedly arranged on the longitudinal wall plate, the transmission pin is fixedly connected to a chain or a transmission belt between the driving wheel and the driven wheel and is in transmission connection with the driving wheel through the chain or the transmission belt.

The upper portion of frame still is equipped with the material bracket, the left and right sides of material bracket is for fixing the vertical frame in locating the frame, the upper surface of material bracket is longitudinal sliding's dull and stereotyped track, the gyro wheel of horizontal setting is held in the palm to the below of dull and stereotyped track, install at the both ends of the roller bearing of gyro wheel on the frame, the gyro wheel is a plurality of.

The transverse reciprocating operation assembly comprises two transverse wallboards arranged at the front and the back of the transverse reciprocating operation guide rail and guide wheels arranged in the middle of the two transverse wallboards and rolling along the transverse reciprocating operation guide rail, wherein the two guide wheels are at least arranged above the transverse reciprocating operation guide rail and distributed at the front end and the back end of the upper part of the transverse wallboards, the guide wheels are arranged at the middle position of the transverse wallboards or at the front end and the back end of the lower part of the transverse wallboards, and the guide wheels distributed above the transverse reciprocating operation guide rail and below are used for clamping the transverse reciprocating operation guide rail up and down and forming rolling fit with the transverse reciprocating operation guide rail.

The upper portion of horizontal reciprocal operation assembly still fixedly is equipped with hydraulic motor or gear motor, be connected with the sprocket through gear drive on hydraulic motor or gear motor's the output shaft, still be equipped with the chain on the horizontal reciprocal operation assembly, the chain passes through the adjusting screw to be fixed the both ends of horizontal support, still be equipped with two sprockets on the horizontal wallboard, the radial central plane of three sprocket is located a vertical plane, the chain passes the below of two sprockets on the horizontal wallboard with the top of the last sprocket of hydraulic motor or gear motor, and with three sprocket forms the roll meshing and connects. The chain wheel on the hydraulic motor or the speed reducing motor rotates forward and backward to roll the chain with two ends fixed on the transverse support, and the reaction force applied by the chain to the hydraulic motor or the speed reducing motor drives the hydraulic motor or the speed reducing motor to move so as to drive the transverse reciprocating operation assembly to move left and right along the transverse reciprocating operation guide rail.

Alternatively, the chain is replaced by a drive belt with teeth on both the top and bottom or any other suitable prior art.

And the transverse reciprocating operation assembly is also provided with supporting facilities corresponding to the completion of set tasks, and the supporting facilities comprise spraying, pasting, picking up or rolling and cutting circular knives.

The clamping mechanism comprises a clamping beam which is arranged below the transverse reciprocating operation guide rail, is parallel to the transverse reciprocating operation guide rail and is provided with an upper flange, and a pressing wheel which is arranged at the lower part of the transverse reciprocating operation assembly, wherein vertical sliding grooves and hoisting springs are arranged at two ends of the transverse support, two ends of the clamping beam are arranged in the vertical sliding grooves, the clamping beam is hoisted above the vertical sliding grooves by the hoisting springs at an initial position, and the pressing wheel is positioned above the clamping beam.

The non-intermittent longitudinal conveying transverse reciprocating operation mechanism is also provided with a PLC automatic control system.

The utility model has the advantages that: owing to be equipped with clamping mechanism and vertical quick mechanism that rolls back, make the utility model discloses can accomplish the horizontal reciprocating operation to being carried the object under the condition that vertical transport is not intermittent type, save time improves the work efficiency, and especially the effect of horizontal operation is more showing on extra-wide object.

Drawings

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

fig. 2 is a left side view of the structure diagram of the present invention.

In the figure: 1. a frame; 2. longitudinally reciprocating the guide rail; 3. a longitudinal reciprocating motion assembly; 4. a drive shaft; 5. a driven shaft; 6. a power shaft; 7. a forward constant velocity electromagnetic clutch; 8. rapidly retracting the electromagnetic clutch; 9. a transverse support; 10. a transverse reciprocating motion guide rail; 11 a transverse reciprocating operation assembly; 12. clamping the beam; 13. a pinch roller; 14. a material bracket; 3-1, longitudinal wall plates; 3-2, a guide wheel; 3-3 driving pins; 11-1, transverse wall plates; 11-2, (transverse) guide wheels; 11-3, a hydraulic motor or a reduction motor; 11-4, a chain wheel; 11-5, a chain; 11-6 rolling and cutting circular knife.

Detailed Description

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

As shown in the figures 1-2, the utility model provides a non-intermittent longitudinal conveying transverse reciprocating operation mechanism, which is provided with a frame 1, the left side and the right side of the upper part of the frame are both provided with a longitudinal reciprocating operation guide rail 2, the outer side of the longitudinal reciprocating operation guide rail is provided with a longitudinal reciprocating operation assembly 3, the longitudinal reciprocating operation assembly is provided with guide wheels 3-2, the guide wheels are arranged above and below the longitudinal reciprocating operation guide rail and form rolling fit with the longitudinal reciprocating operation guide rail, the upper parts of the left longitudinal reciprocating operation assembly and the right longitudinal reciprocating operation assembly are fixedly provided with transverse brackets 9 to form the supporting and lifting of the two longitudinal reciprocating operation assemblies to one transverse bracket, the upper part of the transverse bracket is provided with a transverse reciprocating operation guide rail 10, the transverse reciprocating operation guide rail is provided with a transverse reciprocating operation assembly 11, the transverse reciprocating operation assembly is provided with guide wheels 11-2, the guide wheels form rolling fit with the, and a clamping mechanism is arranged below the transverse reciprocating operation assembly on the transverse support and is used for enabling the transverse support and the conveyed object to form a clamping state and enabling the transverse support and the conveyed object to form synchronous motion.

The rack is also provided with a driving shaft 4, a driven shaft 5 and a power shaft 6, both ends of the driving shaft are provided with driving wheels, both ends of the driven shaft are provided with driven wheels, the driving wheels are in transmission connection with the driven wheels through chains or transmission belts, the driving shaft is also provided with driven wheels of a forward constant speed transmission mechanism and driven wheels of a reverse quick retraction transmission mechanism, the power shaft is in transmission connection with a power source, the power shaft is provided with a forward constant speed electromagnetic clutch 7, a driving wheel of the forward constant speed transmission mechanism, a reverse quick retraction electromagnetic clutch 8 and a driving wheel of the reverse quick retraction rotation mechanism, the driving wheel of the forward constant speed transmission mechanism and the driving wheel of the quick retraction rotation mechanism are respectively in transmission connection with the driven wheels of the forward constant speed transmission mechanism and the driven wheels of the reverse quick retraction transmission mechanism through chains or transmission belts, and, the two power wheels are connected with the power shaft in a sliding and rotating mode, when the electromagnetic clutch is attracted to the power wheels, the electromagnetic clutch and the power wheels rotate together, and when the electromagnetic clutch is separated from the power wheels, the electromagnetic clutch and the power wheels rotate freely.

The longitudinal reciprocating motion assembly also comprises a longitudinal wall plate 3-1, guide wheels are arranged on the longitudinal wall plate, at least two guide wheels are arranged above the longitudinal reciprocating motion guide rail on one side of the longitudinal wall plate and are distributed at the front end and the rear end of the upper part of the longitudinal wall plate, one guide wheel is arranged at the middle part of the longitudinal wall plate below the longitudinal reciprocating motion guide rail or two guide wheels are arranged at the front end and the rear end of the lower part of the longitudinal wall plate, the guide wheels distributed above and below the longitudinal reciprocating motion guide rail vertically clamp the longitudinal reciprocating motion guide rail and form rolling fit with the longitudinal reciprocating motion guide rail, so that the longitudinal reciprocating motion assembly can keep the flexibility of motion and ensure the accuracy of the motion, a transmission pin 3-3 is also fixedly arranged on the longitudinal wall plate and is fixedly connected on a chain or a transmission belt between a driving wheel and a driven wheel, and is in transmission connection with the driving wheel through a chain or a transmission belt.

Therefore, the transverse support can move at the same speed as the material which moves longitudinally in the positive direction and can also retract quickly, and the transverse reciprocating operation assembly can complete the transverse reciprocating operation on the conveyed object under the condition that the longitudinal conveying is not intermittent.

The upper portion of frame still is equipped with material bracket 14, and the left and right sides of material bracket is for fixing the vertical frame of locating in the frame, and the upper surface of material bracket is longitudinal sliding's dull and stereotyped track, and the below of dull and stereotyped track holds in the palm the gyro wheel of horizontal setting, and the roller bearing's of gyro wheel both ends are installed on the frame, and the gyro wheel is a plurality of.

The transverse reciprocating operation assembly comprises two transverse wallboards 11-1 arranged in front of and behind the transverse reciprocating operation guide rail and guide wheels arranged in the middle of the two transverse wallboards and rolling along the transverse reciprocating operation guide rail, at least two guide wheels are arranged above the transverse reciprocating operation guide rail and distributed at the front end and the rear end of the upper part of the transverse wallboards, one guide wheel is arranged at the middle position of the transverse wallboards below the transverse reciprocating operation guide rail or two guide wheels are arranged at the front end and the rear end of the lower part of the transverse wallboards, the guide wheels distributed above and below the transverse reciprocating operation guide rail clamp the transverse reciprocating operation guide rail up and down and form rolling fit with the transverse reciprocating operation guide rail, so that the transverse reciprocating operation assembly can keep the flexibility of actions and can ensure the accuracy of the actions.

The upper part of the transverse reciprocating operation assembly is also fixedly provided with a hydraulic motor or a speed reducing motor 11-3, the output shaft of the hydraulic motor or the speed reducing motor is connected with a chain wheel 11-4 through gear transmission, the transverse reciprocating operation assembly is also provided with a chain 11-5, the chain is fixed at two ends of a transverse bracket through an adjusting screw, the front end and the rear end of the upper part of the transverse wall plate are also provided with two chain wheels, the radial central planes of the three chain wheels are positioned in a vertical plane, the chain passes through the lower part of the two chain wheels on the transverse wall plate and the upper part of the chain wheel on the hydraulic motor or the speed reducing motor and forms rolling meshing connection with the three chain wheels, the chain wheels on the hydraulic motor or the speed reducing motor rotate forward and backward to roll the chain with two ends fixed on the transverse bracket, and the reaction force applied by the chain to, and then the transverse reciprocating operation assembly is driven to move left and right along the transverse reciprocating operation guide rail.

The transverse reciprocating operation assembly is also provided with supporting facilities corresponding to the completion of set tasks, and the supporting facilities comprise spraying, pasting, picking devices or round rolling cutters 11-6.

The clamping mechanism comprises a clamping beam 12 which is arranged below the transverse reciprocating operation guide rail and is parallel to the transverse reciprocating operation guide rail and provided with an upper flange, and a pressing wheel 13 arranged at the lower part of the transverse reciprocating operation assembly, wherein the two ends of the transverse support are provided with a vertical sliding groove and a hoisting spring, the two ends of the clamping beam are arranged in the vertical sliding groove, the clamping beam is hoisted above the vertical sliding groove by the hoisting spring at an initial position, and the pressing wheel is positioned above the clamping beam.

A starting point is arranged on a longitudinal reciprocating guide rail at one longitudinal side of the rack, and an in-place detection switch with adjustable length is arranged on the material bracket; the left end and the right end of the transverse reciprocating operation guide rail are respectively provided with a transverse reciprocating operation assembly in-place detection switch.

When setting operation is carried out, when cloth-shaped objects or other plate-shaped objects pass through the clamping beam and the material bracket below the transverse reciprocating guide rail along a longitudinal output track to reach a set length, the in-place detection switch on the material bracket is triggered, the forward constant-speed electromagnetic clutch is actuated, the longitudinal reciprocating operation assembly operates at a constant speed along the longitudinal reciprocating guide rail in a forward direction, and meanwhile, the transverse reciprocating operation assembly operates and starts to operate from left to right along the transverse reciprocating guide rail.

The pinch roller below the transverse wallboard rolls along the clamping beam flange, so that the clamping beam moves downwards to clamp materials below the clamping beam, and the round knife is rolled and cut, the coating is sprayed, the adhering is carried out, the picking device is used for carrying out set operation procedures, and the like. The transverse reciprocating operation assembly operates from left to right along the transverse reciprocating operation guide rail to complete an operation task, a pressing wheel below the transverse wall plate is separated from a flange of a clamping beam, the clamping beam is released from clamping, the transverse reciprocating operation assembly stops at the right end of the transverse reciprocating operation guide rail, the forward constant-speed electromagnetic clutch is separated, the longitudinal reciprocating operation assembly stops operating, meanwhile, the electromagnetic clutch is quickly retreated to be attracted, the longitudinal reciprocating operation assembly quickly retreats to a starting point along the longitudinal reciprocating operation guide rail, the longitudinal reciprocating operation assembly stops, and the electromagnetic clutch is quickly retreated to be separated.

When the cloth-shaped object or other plate-shaped objects pass through the clamping beam and the material bracket below the transverse reciprocating guide rail along the longitudinal output track again to a set length, the in-place detection switch on the material bracket is triggered, the forward constant-speed electromagnetic clutch is actuated, the longitudinal reciprocating operation assembly moves forward at a constant speed along the longitudinal reciprocating guide rail, and meanwhile, the transverse reciprocating operation assembly starts to operate and moves from right to left along the transverse reciprocating guide rail.

And the pinch roller below the transverse wallboard rolls along the flange of the clamping beam, so that the clamping beam moves downwards to clamp the materials below the clamping beam, and the round knife is rolled and cut, the coating is sprayed, the adhering and the picking device are used for carrying out set operation procedures. The transverse reciprocating operation assembly operates from right to left along the transverse reciprocating operation guide rail to complete an operation task in place, a pressing wheel below the transverse wall plate is separated from a flange of a clamping beam, the clamping beam is released from clamping, the transverse reciprocating operation assembly stops at the left end of the transverse reciprocating operation guide rail, the forward constant-speed electromagnetic clutch is separated, the longitudinal reciprocating operation assembly stops operating and is quickly retreated to be attracted by the electromagnetic clutch, the longitudinal reciprocating operation assembly quickly retreats to a starting point along the longitudinal reciprocating operation guide rail, the longitudinal reciprocating operation assembly stops, and the quick retreating electromagnetic clutch is separated.

The above is that the utility model discloses accomplish the process of a horizontal reciprocating operation, this process also can be accomplished through PLC automatic control system control.

The preferred and optional technical means disclosed in the present invention can be combined arbitrarily to form a plurality of different technical solutions, except for the specific description and the further limitation that one preferred or optional technical means is another technical means.

Claims (10)

1. A non-intermittent longitudinal conveying transverse reciprocating operation mechanism is characterized by being provided with a rack, longitudinal reciprocating operation guide rails are arranged on the left side and the right side of the upper portion of the rack, longitudinal reciprocating operation assemblies are arranged on the outer sides of the longitudinal reciprocating operation guide rails, a plurality of guide wheels are arranged on the longitudinal reciprocating operation assemblies and are respectively positioned above and below the longitudinal reciprocating operation guide rails and are in rolling fit with the longitudinal reciprocating operation guide rails, two ends of a transverse support are respectively and fixedly arranged on the upper portions of the left longitudinal reciprocating operation assembly and the right longitudinal reciprocating operation assembly to form the lifting of the two longitudinal reciprocating operation assemblies to one transverse support, the transverse reciprocating operation guide rails are arranged on the upper portion of the transverse support, transverse reciprocating operation assemblies are arranged on the transverse reciprocating operation guide rails, guide wheels are arranged on the transverse reciprocating operation assemblies and are in rolling fit with the transverse reciprocating operation guide rails, and the transverse support is provided with a clamping mechanism which is positioned below the transverse reciprocating operation assembly.

2. The non-intermittent longitudinal-conveying transverse reciprocating operation mechanism according to claim 1, wherein the frame is further provided with a driving shaft, a driven shaft and a power shaft, the driving shaft is in transmission connection with the driven shaft through an inter-shaft transmission mechanism, the number of the inter-shaft transmission mechanisms is two, two ends of the driving shaft are respectively provided with driving wheels of the corresponding inter-shaft transmission mechanism, two ends of the driven shaft are respectively provided with driven wheels of the corresponding inter-shaft transmission mechanism, the power shaft is in transmission connection with a power source, two sets of transmission mechanisms, namely a forward constant-speed transmission mechanism and a reverse quick-return transmission mechanism, are arranged between the power shaft and the driving shaft, driving wheels of the forward constant-speed transmission mechanism and the reverse quick-return transmission mechanism are respectively sleeved on the power shaft in a sliding manner and are respectively in driving connection with the power shaft through a forward constant-speed electromagnetic clutch and a quick-return electromagnetic clutch, and the driven wheels of the forward constant-speed transmission mechanism and the reverse quick retraction transmission mechanism are fixedly arranged on the driving shaft.

3. The non-intermittent longitudinal conveying transverse reciprocating operation mechanism according to claim 2, wherein the longitudinal reciprocating operation assembly further comprises a longitudinal wall plate, the guide wheels are mounted on the longitudinal wall plate, at least two guide wheels are arranged on the longitudinal wall plate on one side above the longitudinal reciprocating operation guide rail and distributed at the front end and the rear end of the upper part of the longitudinal wall plate, one guide wheel is arranged at the middle position of the longitudinal wall plate below the longitudinal reciprocating operation guide rail or two guide wheels are arranged at the front end and the rear end of the lower part of the longitudinal wall plate, the guide wheels distributed above and below the longitudinal reciprocating operation guide rail clamp the longitudinal reciprocating operation guide rail up and down and form rolling fit with the longitudinal reciprocating operation guide rail, a transmission pin is further fixedly arranged on the longitudinal wall plate and fixedly connected to a chain or a transmission belt between the driving wheel and the driven wheel, and is in transmission connection with the driving wheel through the chain or the transmission belt.

4. The non-intermittent longitudinal conveying transverse reciprocating mechanism according to claim 1, wherein a material bracket is further arranged on the upper portion of the frame, the left and right sides of the front end of the material bracket are fixedly arranged on a transverse support which is longitudinally reciprocated in the frame, a plurality of transverse rollers are mounted on a longitudinal frame of the material bracket, two ends of each transverse roller are mounted on the longitudinal frame of the material bracket through bearings, two rollers or a roller between the left and right bearings are arranged below two sides of the rear end of the frame of the material bracket, a flat crawler belt which can longitudinally slide is also arranged on the upper surface of the material bracket, a transversely arranged roller is supported below the flat crawler belt, two ends of the roller of each roller are mounted on the frame, and a plurality of rollers are arranged.

5. The non-intermittent longitudinal transfer transverse reciprocating operation mechanism according to claim 1, wherein the transverse reciprocating operation assembly comprises two transverse wall plates arranged in front of and behind the transverse reciprocating operation guide rail and guide wheels arranged in the middle of the two transverse wall plates and rolling along the transverse reciprocating operation guide rail, at least two guide wheels are arranged above the transverse reciprocating operation guide rail and distributed at the front end and the rear end of the upper part of the transverse wall plate, one guide wheel is arranged at the middle part of the transverse wall plate below the transverse reciprocating operation guide rail or two guide wheels are arranged at the front end and the rear end of the lower part of the transverse wall plate, and the guide wheels distributed above and below the transverse reciprocating operation guide rail clamp the transverse reciprocating operation guide rail up and down and form rolling fit with the transverse reciprocating operation guide rail.

6. The non-intermittent longitudinal conveying transverse reciprocating operation mechanism according to claim 5, wherein a hydraulic motor or a speed reducing motor is further fixedly arranged at the upper part of the transverse reciprocating operation assembly, a chain wheel is connected onto an output shaft of the hydraulic motor or the speed reducing motor through gear transmission, a chain is further arranged on the transverse reciprocating operation assembly, the chain is fixed at two ends of the transverse support through adjusting screws, two chain wheels are further arranged on the transverse wall plate, the radial central planes of the three chain wheels are located in a vertical plane, and the chain passes below the two chain wheels on the transverse wall plate and above the chain wheel on the hydraulic motor or the speed reducing motor and is in rolling engagement connection with the three chain wheels.

7. A non-intermittent longitudinal feed transversely reciprocating working mechanism according to claim 6, wherein the chain is replaced by a belt with teeth on both the top and bottom or by any other suitable prior art technique.

8. The non-intermittent longitudinal conveying transverse reciprocating operation mechanism as claimed in claim 5, wherein the transverse reciprocating operation assembly is further provided with a supporting facility corresponding to the completion of a set task, and the supporting facility comprises a spray, a paste, a pickup device or a round rolling cutter.

9. The non-intermittent longitudinal transfer transverse reciprocating operation mechanism according to claim 1, wherein the clamping mechanism comprises a clamping beam provided with an upper flange and arranged below the transverse reciprocating operation guide rail in parallel with the transverse reciprocating operation guide rail, and a pressing wheel arranged at the lower part of the transverse reciprocating operation assembly, wherein the two ends of the transverse support are provided with a vertical sliding chute and a hoisting spring, the two ends of the clamping beam are arranged in the vertical sliding chute, the initial position is that the clamping beam is hoisted by the hoisting spring to be above the vertical sliding chute, and the pressing wheel is arranged above the clamping beam.

10. The non-intermittent longitudinal-conveying transverse reciprocating working mechanism according to any one of claims 1 to 9, characterized in that a PLC automatic control system is further provided.