CN213864248U - Material distributing device - Google Patents

Abstract

The utility model provides a material separating device, including the work or material rest that divides, press the material subassembly, propelling movement subassembly and unloading subassembly, press the material subassembly to set up on the work or material rest for push down and arrange the frame strip of dividing the work or material rest top surface in, and the frame strip can follow the translation of work or material rest that divides, the propelling movement subassembly sets up on the work or material rest, on supplying to press the material subassembly to press the frame strip of holding down the effect and divide the work or material rest top surface to be by intermittent type propelling movement one to the unloading subassembly of work or material rest one side, lift the frame strip off when the action of unloading subassembly on the transfer line of unloading subassembly below. The utility model discloses feed divider can realize carrying many frame strips root by root in an orderly manner high-efficiently, is favorable to realizing automated production, improves production efficiency by a wide margin.

Description

Material distributing device

Technical Field

The utility model relates to a production facility of putting the thing basket, in particular to distributing device.

Background

The utility model relates to a storage basket which is formed by bending a frame strip to form a square frame and welding a net sheet at the bottom of the square frame. The side frame strips are formed by rolling and rolling coiled metal strips after being unreeled, and a large number of the side frame strips need to be cut into side frame strips with equal length through a shearing machine, and then the side frame strips with equal length are bent to form a square frame. In order to facilitate conveying the sheared edge frame strips to the next processing device one by one, the material distributing device is specially designed.

SUMMERY OF THE UTILITY MODEL

In view of the above, the utility model discloses it is necessary to provide a material distribution device, can realize carrying many frame strips root by root in an orderly manner high-efficiently, is favorable to realizing automated production, improves production efficiency by a wide margin.

The utility model adopts the technical proposal that:

the utility model provides a material distributing device, includes the work or material rest that divides, presses the material subassembly, propelling movement subassembly and unloading subassembly, presses the material subassembly to set up on the work or material rest for push down the frame strip of dividing the work or material rest top surface in, and the frame strip can be followed the work or material rest translation, and the propelling movement subassembly sets up on the work or material rest, for on the unloading subassembly of one to work or material rest one side by intermittent type propelling movement, lift the frame strip off when the action of unloading subassembly on the transfer line of unloading subassembly below under pressing the material subassembly to hold the effect.

Furthermore, the material pressing component comprises a pressing rod and a material pressing driving part, one end of the pressing rod is rotatably connected to one side of the top surface of the material distributing frame, and the material pressing driving part is arranged on the material distributing frame and used for driving the pressing rod to rotate forwards and backwards so as to open the space between the pressing rod and the top surface of the material distributing frame and place the pressing rod into the side frame strip or press the side frame strip on the material distributing frame.

Further, the material pressing assembly further comprises a first hinged seat, a second hinged seat, a rotating seat, a swing arm and a connecting seat, the first hinged seat and the second hinged seat are fixed on the top surface of the material distributing frame, the material pressing driving piece is hinged to the first hinged seat, the bottom end of the rotating seat is hinged to one end of the outer side of the bottom of the second hinged seat, one end of the swing arm is hinged to the other end of the inner side of the top of the second hinged seat, the other end of the swing arm is fixedly connected with a pressing rod, one end of the connecting seat is hinged to the top end of the rotating seat, the other end of the connecting seat is hinged to the swing arm, and a telescopic rod of the material pressing driving piece is hinged to the hinged ends of the connecting seat and the second hinged seat.

Furthermore, the pushing assembly comprises a bottom plate, a sliding mechanism, a pushing frame and a pushing driving mechanism, the bottom plate is fixed on the material distributing frame and located below the top surface of the material distributing frame, the sliding mechanism is arranged on the bottom plate, the pushing frame is fixed on the sliding end of the sliding mechanism, the pushing end of the pushing frame upwards extends out of the top surface of the material distributing frame to be supported on the side edge of the side frame strip during pushing, and the pushing driving mechanism is arranged on the bottom plate to drive the sliding mechanism to slide in a reciprocating mode.

Furthermore, the sliding mechanism comprises a guide rail arranged on the bottom plate and a sliding part arranged on the guide rail in a sliding manner, and the pushing frame is fixed on the sliding part.

Furthermore, the pushing frame comprises a connecting rod fixed on the sliding piece and a plurality of push rods fixed on the connecting rod at intervals.

Further, the pushing driving mechanism comprises two belt wheels, two belt wheel seats and a pushing motor, the two belt wheels are rotatably installed on the bottom plate through the two belt wheel seats respectively, the two belt wheels are oppositely arranged at two ends of the guide rail in the extension direction, a synchronous belt is wound on the two belt wheels, an uplink section of the synchronous belt is connected with the connecting rod of the pushing frame, the pushing motor is fixed on the bottom plate, and an output shaft of the pushing motor is in transmission connection with a wheel shaft of one belt wheel.

Furthermore, a supporting piece is fixed on the bottom plate, and the top end of the supporting piece is fixed with the top of the material distributing frame.

Furthermore, the blanking assembly comprises a fixing part, at least two guide sleeves, guide shafts, a synchronizing rod and a blanking driving part, the fixing part is fixed on the top surface of one side of the first conveying line, the fixing part is provided with the at least two guide sleeves at intervals along the extension direction of the fixing part, each guide sleeve is internally provided with the guide shaft in a penetrating mode in a sliding mode, one end of each guide shaft can be in butt joint with the top surface of the material distribution frame to bear side frames pushed out from the top surface of the material distribution frame, the other end of each guide shaft is connected with the synchronizing rod, the blanking driving part is fixed on the fixing part, the telescopic end of the blanking driving part is connected with the synchronizing rod to drive the guide shafts to slide back and forth along the guide sleeves, when the guide shafts are in an extending state, the side frames on the top surface of the material distribution frame are pushed onto the guide shafts, and the blanking driving part drives the guide shafts to retract, so that the side frames fall onto the conveying line to be conveyed after being separated from the supports.

Furthermore, the material distributing frame comprises a support frame and a flat plate fixed at the top of the support frame, and the upper surface of the flat plate is smooth so that the frame strips can slide in a translation manner.

The utility model discloses feed divider cooperatees through setting up on the branch work or material rest and pressing material subassembly, propelling movement subassembly and unloading subassembly, presses the material subassembly to push down the frame strip that is located branch work or material rest top surface, avoids chaotic overlapping when the propelling movement subassembly is at the propelling movement frame strip, guarantees that the frame strip is smooth and easy, orderly along dividing the sliding of work or material rest top surface to the unloading subassembly on, through the propelling movement distance of control propelling movement subassembly for many frame strips of dividing the work or material rest top surface are carried to the unloading subassembly by root one by one. One side frame strip is dismounted by controlling the action of the blanking assembly. So, can realize carrying many frame strips root by root in an orderly manner high-efficiently, be favorable to realizing automated production, improve production efficiency by a wide margin.

The preferred embodiments of the present invention and their advantageous effects will be described in further detail with reference to specific embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings, there is shown in the drawings,

FIG. 1: the utility model discloses a three-dimensional structure diagram of a frame strip material distribution system;

FIG. 2: the utility model discloses the use state reference diagram of the frame strip material-distributing system;

FIG. 3: the structure diagram of the blanking device of the side frame strip material distributing system of the utility model is that;

FIG. 4: the structure chart of the material guiding and conveying component of the blanking device of the side frame strip material distributing system of the utility model is shown;

FIG. 5: the utility model discloses a partial side view of the blanking device of the side frame strip material-distributing system;

FIG. 6: the utility model discloses a top view of the blanking device of the side frame strip material-distributing system;

FIG. 7: FIG. 6 is a cross-sectional view taken along line A-A;

FIG. 8: FIG. 6 is a cross-sectional view taken along line B-B;

FIG. 9: the structure diagram of the intermittent conveying device of the frame strip material distributing system of the utility model is shown;

FIG. 10: the utility model discloses the partial structure chart of the first manipulator of the frame strip material-distributing system;

FIG. 11: the utility model discloses a pressing state diagram of the matching of the material distributing device of the frame strip material distributing system and the first conveying line;

FIG. 12: the utility model discloses a matched opening state diagram of a material distributing device of a frame strip material distributing system and a first conveying line;

FIG. 13: the utility model discloses an exploded view of the material pressing component of the material distributing device of the frame strip material distributing system;

FIG. 14: the utility model discloses an assembly drawing of a material pressing component of a material distributing device of a frame strip material distributing system;

FIG. 15: the utility model discloses an open state diagram of the material pressing component of the material distributing device of the frame strip material distributing system;

FIG. 16: the utility model discloses the partial structure picture of feed divider of frame strip branch material system.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

Referring to fig. 1 and 2, the present invention provides a frame strip separating system for separating the frame strips 10 cut by a cutting machine. The frame strip distribution system comprises a blanking device 1, an intermittent conveying device 2, a lifting device 3, a first manipulator 4, a distribution device 5 and a first conveying line 6. The blanking device 1 is disposed above the input end of the intermittent conveying device 2 for guiding the frame strip 10 to fall onto the intermittent conveying device 2. The intermittent conveyor 2 is used to temporarily store the frame strips 10 and drive the frame strips 10 to move by the width of one frame strip 10 every predetermined time. The lifting device 3 is arranged below the output end of the intermittent conveying device 2 and used for lifting the frame strip 10 on the intermittent conveying device 2 so that the first manipulator 4 can grab and place the frame strip on the material distributing device 5. The material distributing device 5 is used for feeding a side frame strip 10 to the first conveying line 6 at preset time intervals, so that the first conveying line 6 can convey the side frame strip 10 to the next processing equipment for processing.

The utility model provides a boundary frame strip divides material system cooperatees through setting up doffer 1, intermittent type conveyor 2, lifting device 3, first manipulator 4, feed divider 5 and first transfer chain 6. The frame strip 10 after shearing falls to intermittent type conveyor 2 through doffer 1 and deposits temporarily to remove to the position that is close to first manipulator 4 through intermittent type conveyor 2 intermittent type, through the lifting 10 lifting of the frame strip on lifting device 3 with intermittent type conveyor 2, snatch the frame strip 10 after the lifting and shift to feed divider 5 through first manipulator 4 on, send into a frame strip 10 on feed divider 5 every predetermined time to first transfer chain 6, make first transfer chain 6 can carry frame strip 10 to next processing equipment in an orderly manner. The side frame strips 10 after being sheared can be prevented from being stacked more, the disordered situation is placed, manual carrying is not needed, the labor intensity is reduced, and the production efficiency is improved.

In order to facilitate the separate transportation of the side frame strips 10 for the simultaneous processing of two processing devices, the overstocked side frame strips 10 are relieved. And a second conveying line 7 is arranged on one side opposite to the first conveying line 6, and a second manipulator 8 is arranged beside the intermittent conveying device 2 to grab a side frame strip 10 and place the side frame strip on the second conveying line 7 for conveying. The first transfer line 6 and the second transfer line 7 are preferably belt-type transfer devices.

Referring to fig. 3 to 8, the blanking device 1 includes a blanking frame 11, a material guiding and conveying assembly 12, a sliding support assembly 13, and a sliding blanking assembly 14. The blanking frame 11 is provided with a blanking port 110, an upper limiting plate 111 and a lower limiting plate 112 are respectively arranged above and below one side of the blanking port 110, the material guiding and conveying component 12 is arranged on the blanking frame 11 and located at one end of the blanking port 110, the sliding support component 13 is arranged on the top surface of the blanking frame 11 to support one end of the side frame strip 10 conveyed to the upper side of the blanking port 110 by the material guiding and conveying component 12, and the other end of the side frame strip 10 is supported on the material guiding and conveying component 12. When the frame strip 10 falls from the material guiding and conveying assembly 12, the sliding support assembly 13 is separated from the frame strip 10, so that the frame strip 10 falls from the blanking opening 110 to the sliding blanking assembly 14 fixed on the blanking frame 11 and located below the blanking opening 110, and the sliding blanking assembly 14 and the lower limiting plate 112 are disposed at two sides below the blanking opening 110, so as to form an opening between the sliding blanking assembly 14 and the lower limiting plate 112 for guiding the frame strip 10 to fall onto the intermittent conveying device 2.

The blanking device 1 is provided with a blanking frame 11, a material guiding and conveying component 12, a sliding support component 13 and a sliding blanking component 14 which are matched. The cut frame strips 10 can be gradually conveyed to the sliding support component 13 through the material guide conveying component 12, when the frame strips 10 fall from the material guide conveying component 12, the sliding support component 13 slides to separate from the frame strips 10, so that the frame strips 10 fall from the blanking opening 110 of the blanking frame 11 to the sliding blanking component 14, and the frame strips 10 fall onto the intermittent conveying device 2 through the sliding of the sliding blanking component 14. Can smoothly like this, guide the frame strip 10 to fall to intermittent type conveyor 2 on conveniently, can avoid frame strip 10 to warp at transportation process for the position of frame strip 10 whereabouts is accurate, puts neatly orderly, and intermittent type conveyor 2 of being convenient for carries frame strip 10 one by one.

The blanking frame 11 includes a frame 113 and a top plate 114 fixed to the frame 113, and the blanking port 110 is opened on the top plate 114. The frame 113 may be formed by a square tube and fixed to a square frame, and the top plate 114 is fixed to the top of the square frame by bolts.

The material guide conveying assembly 12 is fixed on the top plate 114. The material guiding and conveying assembly 12 includes a lower guide roller 121, an upper guide roller 122, a lower guide plate 123, an upper guide plate 124 and a lifting assembly 125. The two ends of the lower guide roller 121 are rotatably erected on the top plate 114 of the blanking frame 11, the lifting assembly 125 is fixed on the top plate 114 of the blanking frame 11 and located above the lower guide roller 121, and the two ends of the upper guide roller 122 are rotatably erected on the lifting end of the lifting assembly 125 and located above the lower guide roller 121, so as to adjust the pressure between the upper guide roller 122 and the lower guide roller 121. The upper guide plate 124 and the lower guide plate 123 are erected on the top plate 114 of the blanking frame 11 and located at the feeding ends of the upper guide roller 122 and the lower guide roller 121, a guide gap 120 is formed between the upper guide plate 124 and the lower guide plate 123, and the guide gap 210 is gradually contracted towards one end of the upper guide plate 124 and one end of the lower guide plate 123, so that the frame strip 10 sequentially passes through the guide gap 120 and the gap between the upper guide plate 124 and the lower guide plate 123.

An upper driven wheel 126 and a lower driven wheel 127 are respectively fixed at the same end of the central axis of the lower guide roller 121 and the upper guide roller 122, a driving wheel 128 is rotatably erected on the blanking frame 11, and the driving wheel 128, the upper driven wheel 126 and the lower driven wheel 127 are arranged in a triangular shape for winding a transmission belt. The driving wheel 128 is driven by the motor to rotate, so that the upper driven wheel 126 and the lower driven wheel 127 are driven to rotate.

The two sides of the lower guide plate 123 and the upper guide plate 124 are oppositely provided with side guide plates 129, and the side guide plates 129 are fixed on the blanking frame 11 through supporting seats 1291.

The lifting assembly 125 includes four guide rods 1251, a fixing seat 1252, a fixing plate 1253, a lifting plate 1254 and a lifting driving member 1255. The four guide rods are arranged in a square shape, the bottom end of each guide rod 1251 is fixed on the blanking frame 11 through a fixing seat 1252, and the fixing plate 1253 is fixed at the top ends of the four guide rods 1251. The lifting plate 1254 is slidably sleeved on the four guide rods through a linear bearing in a lifting manner, and is located between the fixing seat 1252 and the fixing plate 1253, and two ends of the upper guide roller 122 are rotatably erected on the lower surface of the lifting plate 1254. The lifting driving member 1255 is fixed on the top surface of the lifting plate 1254, and the lifting rod of the lifting driving member 1255 is connected to the lifting plate 1254 to drive the lifting plate 1254 to lift along the guide rod 1251. The lifting drive 1255 is preferably a pneumatic cylinder.

The sliding support assembly 13 includes a guide sliding mechanism 131, a support plate 132, and a sliding drive member 133. The two guiding sliding mechanisms 131 are arranged on the blanking frame 11 in parallel relatively and are close to two ends of the blanking opening 110, and the supporting plate 132 is fixed on the sliding ends of the two guiding sliding mechanisms 131 and is located above the blanking opening 110. One side of the supporting plate 132 has an upper guide sliding plate 134, and the upper limiting plate 111 blocks one side of the supporting plate 132. A guide space is formed between the upper guide slide plate 134 and the upper limiting plate 111. The sliding driving member 133 is fixed on the blanking frame 11 and located between the two guiding sliding mechanisms 131, and the telescopic end of the sliding driving member 133 is connected with the supporting plate 132 to drive the supporting plate 132 to slide back and forth along the guiding sliding mechanisms 131. The guiding and sliding mechanism 131 may be a slide rail or a slider connecting mechanism, or an optical axis or linear bearing connecting mechanism. The sliding actuator 133 is preferably a pneumatic cylinder.

The sliding blanking assembly 14 includes a guiding and sliding assembly 141, a blanking plate 142, a pushing plate 143, and a pushing driving element 144. The blanking plate 142 is slidably disposed on the blanking frame 11 and located below the blanking port 110 through the sliding guide assembly 141. The lower retainer plate 112 is used to block one side of the blanking plate 142. The material pushing plate 143 is fixed on the blanking frame 11 and located on one side of the blanking port 110 opposite to the lower limiting plate 112, and a lower guide sliding plate 145 matched with the lower limiting plate 112 is fixed on one side of the material pushing plate 143. The pushing driving member 144 is fixed on the blanking frame 11, and a telescopic end of the pushing driving member 144 is connected to the blanking plate 142, so as to push the blanking plate 142 to slide to a position below the blanking opening 110 to bear the falling frame strip 10, or slide towards one side of the pushing plate 143 to push the frame strip 10 to fall between the lower limiting plate 112 and the lower guide sliding plate 145. The slide guiding assembly 141 can be a slide rail and a slide block assembly.

Referring to fig. 9, the intermittent conveying device 2 includes a conveying frame 21, two belt-shaped conveying assemblies 22 oppositely installed at both sides of the conveying frame 21, and an intermittent driving member 23. The belt conveyor assembly 22 includes two driving wheels 221 rotatably mounted on both ends of the carriage 21, and a conveyor belt 222 wound around the two driving wheels 221. The conveying belt 222 has a plurality of stoppers 223 with equal intervals, and the distance between two adjacent stoppers 223 is adapted to the width of the side frame strip 10, so that the side frame strip 10 is accommodated between two adjacent stoppers 223. Two driving wheels 221 at the same end of the two belt-like conveying assemblies 22 are fixedly connected through a driving shaft 224, and two ends of the driving shaft 224 are rotatably mounted on the conveying frame 21. The intermittent driving member 23 is fixed on the conveying frame 21, and an output shaft of the intermittent driving member 23 is in transmission connection with one end of the transmission shaft 224 so as to drive the two transmission wheels 221 to synchronously and intermittently rotate, and further drive the two transmission wheels 221 at the other end of the conveying frame 21 to correspondingly rotate through the conveying belt 222. The distance of each movement of the conveyor belt 222 is equal to the distance between the two stoppers 223.

An alignment plate 24 is secured to the outside of each belt conveyor assembly 22 such that the ends of the frame strip 10 are received between the two alignment plates 24. An alignment plate 24 of the belt conveyor assembly 22 is secured to the outside of the belt conveyor assembly 22 by a plurality of brackets 25, the alignment plate 24 being spaced from the belt conveyor assembly 22. The conveying frame 21 is provided with a shaping device 26 at one side of the alignment plate 24 arranged at intervals, the conveying frame 21 is provided with an alignment device 27 at the opposite side of the shaping device 26, and the edge strip 10 is pushed by the alignment device 27 to move towards one side of the shaping device 26, so that the edge strip 10 is abutted against the alignment plate 24 to be aligned, and the shaping device 26 is pressed downwards for shaping. This allows the trimming of the deformed frame strip 10 after the trimming. The shaping device 26 includes a downward driving member erected on the conveying frame 21, an upper shaping mold fixed at the lifting end of the downward driving member, and a lower shaping mold fixed on the conveying frame 21 and located below the upper shaping mold. The frame strip 10 is pushed between the upper and lower reforming dies, and the upper reforming die is driven to be pressed down onto the lower reforming die by the pressing driving member, thereby correcting the frame strip 10. The alignment device 27 includes an alignment drive member fixed to the carriage 21 and a push plate mounted to the telescoping end of the alignment device 27.

For the convenience of subsequent processing, a turnover device 28 is arranged on the conveying frame 21 between the shaping device 26 and the blanking device 1. The turning device 28 includes a turning shaft 281 rotatably mounted on the carriage 21, two clamping members 282 fixed to the turning shaft 281 at intervals and located between the two belt-like conveying assemblies 22, and a turning driving member for driving the turning shaft 281 to intermittently rotate 180 degrees. The two ends of each clamping member 282 are each provided with a clamping opening for the bezel 10 to be inserted into the clamping opening for turning.

The lifting device 3 includes a plurality of lifting driving members 31 disposed on the conveying frame 21 at intervals and brackets 32 fixed to lifting ends of the lifting driving members 31, and each bracket 32 is located below the space between two strip-shaped conveying assemblies 22 for lifting the frame strips 10 on the two strip-shaped conveying assemblies 22.

Referring to fig. 10, the first robot 4 includes a movable robot 41 and an adsorption assembly 42 fixed to a free end of the robot 41, and the adsorption assembly 42 includes an adsorption frame 421, a plurality of electromagnets 422 elastically connected to the adsorption frame 421, and a discharging assembly 423 fixed to the adsorption frame 421. The electromagnet 422 is electrified to generate magnetic adsorption to the side frame strip 10, the electromagnet 422 is powered off and loses magnetism to be separated from the side frame strip 10, and the unloading assembly 423 is matched to press the side frame strip 10 downwards so as to unload the side frame strip 10. The discharging assembly 423 includes a discharging driving member fixed on the absorbing frame 421 and a discharging plate installed at the telescopic end of the discharging driving member. The frame strip 10 is removed by the stripper plate abutting against the frame strip 10.

Referring to fig. 11 to 16, the material distributing device 5 includes a material distributing frame 51, a material pressing assembly 52, a pushing assembly 53 and a material discharging assembly 54. The pressing assembly 52 is disposed on the material-dividing frame 51 and is used for slightly pressing the frame strip 10 disposed on the top surface of the material-dividing frame 51, so that the frame strip 10 can move horizontally along the material-dividing frame 51 without being overlapped and disordered due to extrusion. The pushing assembly 53 is disposed on the material distributing frame 51, so that the frame strip 10 on the top surface of the material distributing frame 51 is intermittently pushed one to the blanking assembly 54 on one side of the material distributing frame 51 under the pressing action of the material pressing assembly 52, and the first conveying line 6 is disposed under the blanking assembly 54, so that the frame strip 10 is dismounted on the first conveying line 6 when the blanking assembly 54 operates.

The material distributing frame 51 comprises a supporting frame 511 and a flat plate 512 fixed on the top of the supporting frame 511, wherein the upper surface of the flat plate 512 is smooth so as to facilitate the sliding of the frame strip 10.

The two pressing assemblies 52 are oppositely arranged. The pressing assembly 52 includes a pressing rod 521 and a pressing driving member 522, one end of the pressing rod 521 is rotatably connected to one side of the top surface of the material dividing frame 51, and the pressing driving member 522 is disposed on the material dividing frame 51 and is used for driving the pressing rod 521 to rotate forward and backward so as to open the space between the pressing rod 521 and the top surface of the material dividing frame 51 and place the frame strip 10 therein or press the frame strip 10 on the material dividing frame 51.

The pressing assembly 52 further includes a first hinge seat 526, a second hinge seat 527, a rotating seat 523, a swing arm 524, and a connecting seat 525. The first hinge seat 526 and the second hinge seat 527 are both fixed on the top surface of the material distributing frame 51, and the material pressing driving member 522 is hinged on the first hinge seat 526. The bottom end of the rotating seat 523 is hinged to one end of the outer side of the bottom of the second hinged seat 527, one end of the swing arm 524 is hinged to the other end of the inner side of the top of the second hinged seat 527, and the other end of the swing arm 524 is fixedly connected with the pressing rod 521. One end of the connecting seat 525 is hinged to the top end of the rotating seat 523, the other end of the connecting seat 525 is hinged to the swing arm 524, and the telescopic rod of the swaging driving piece 522 is hinged to the connecting seat 525 and the hinged end of the second hinged seat 527. When the telescopic rod of the pressing driving member 522 extends out, the rotating seat 523 and the connecting seat 525 are driven to rotate in the forward direction, and the connecting seat 525 drives the pressing rod 521 on the swinging arm 524 to press down on the material distributing frame 51. When the telescopic rod of the pressing driving member 522 retracts, the rotating seat 523 and the connecting seat 525 are driven to rotate reversely, and the connecting seat 525 drives the pressing rod 521 on the swinging arm 524 to rotate upwards to form an included angle with the top surface of the material distributing frame 51, so as to place the frame strip 10.

The pushing assembly 53 includes a bottom plate 531, a sliding mechanism 532, a pushing frame 533 and a pushing driving mechanism 534. The bottom plate 531 is fixed to the material separating frame 51 and located below the top surface of the material separating frame 51, i.e., arranged in parallel below the flat plate 512. The sliding mechanism 532 is disposed on the bottom plate 531, the pushing frame 533 is fixed to the sliding end of the sliding mechanism 532, and the pushing end of the pushing frame 533 extends upward above the top surface of the material distributing frame 51 to abut against the side edge of the frame strip 10 during pushing. The pushing driving mechanism 534 is disposed on the bottom plate 531 for driving the sliding mechanism 532 to slide back and forth.

The sliding mechanism 532 includes two guide rails 5321 arranged in parallel on the base plate 531 and a sliding member 5322 arranged slidably on each guide rail 5321. The pushing frame 533 is fixed to the sliding member 5322. The pushing frame 533 includes a connecting rod 5331 fixed to the sliding member 5322 and a plurality of pushing rods 5332 fixed to the connecting rod 5331 at intervals.

The pushing driving mechanism 534 includes two belt wheels 5341, two belt wheel bases 5342 and a pushing motor 5343, the two belt wheels 5341 are rotatably mounted on the bottom plate 531 through the two belt wheel bases 5342, the two belt wheels 5341 are oppositely disposed at two ends of the guide rail 5321 in the extending direction, and a synchronous belt 5344 is wound on the two belt wheels 5341. The up-link section of the timing belt 5344 is connected to the connecting rod 5331 of the pushing frame 533. The pushing motor 5343 is fixed on the bottom plate 531, and an output shaft of the pushing motor 5343 is in transmission connection with a wheel shaft of the belt wheel 5341. Preferably, the output shaft of the pushing motor 5343 is connected with the axle of the pulley 5341 through a coupling. One frame strip 10 is pushed out at preset intervals by a pushing motor 5343.

A support 535 is fixed on the bottom plate 531, and the top end of the support 535 is fixed with the top of the material distributing frame 51, i.e. fixed on the flat plate 512, so as to improve the structural strength.

The blanking assembly 54 includes a fixing member 541, a guiding sleeve 542, a guiding shaft 543, a synchronizing rod 544 and a blanking driving member 545. Mounting 541 is fixed in the top surface of first transfer chain 6 one side, and mounting 541 should adopt square dead lever, and square dead lever passes through the top surface of bolt fastening in first transfer chain 6 one side. At least two guide sleeves 542 are installed on the fixing member 541 at intervals along the extending direction thereof, a guide shaft 543 is slidably inserted in each guide sleeve 542, and one end of each guide shaft 543 can be butted with the top surface of the material distributing frame 51 so as to bear the frame strip 10 pushed out from the top surface of the material distributing frame 51. The other end of each guide shaft 543 is connected to a synchronization rod 544, the blanking driving member 545 is fixed to the fixing member 541, and the telescopic end of the blanking driving member 545 is connected to the synchronization rod 544, so as to drive the synchronization rod 544 to drive the guide shaft 543 to slide along the guide sleeve 542 in a reciprocating manner. When the guide shaft 543 is in the extended state, the frame strip 10 on the top surface of the material distributing frame 51 is pushed to the guide shaft 543, and the blanking driving member 545 drives the guide shaft 543 to retract, so that the frame strip 10 falls onto the first conveying line 6 for conveying while being separated from the support.

To sum up, the utility model provides a boundary strip divides material system cooperatees through setting up doffer 1, intermittent type conveyor 2, lifting device 3, first manipulator 4, feed divider 5 and first transfer chain 6. The frame strip 10 after shearing falls to intermittent type conveyor 2 through doffer 1 and deposits temporarily to remove to the position that is close to first manipulator 4 through intermittent type conveyor 2 intermittent type, through the lifting 10 lifting of the frame strip on lifting device 3 with intermittent type conveyor 2, snatch the frame strip 10 after the lifting and shift to feed divider 5 through first manipulator 4 on, send into a frame strip 10 on feed divider 5 every predetermined time to first transfer chain 6, make first transfer chain 6 can carry frame strip 10 to next processing equipment in an orderly manner. The side frame strips 10 after being sheared can be prevented from being stacked more, the disordered situation is placed, manual carrying is not needed, the labor intensity is reduced, and the production efficiency is improved.

As long as the idea created by the present invention is not violated, various different embodiments of the present invention can be arbitrarily combined, and all the embodiments should be regarded as the content disclosed by the present invention; the utility model discloses an in the technical conception scope, carry out multiple simple variant and different embodiments to technical scheme and go on not violating the utility model discloses the arbitrary combination of the thought of creation all should be within the protection scope.

Claims (10)

1. The utility model provides a distributing device which characterized in that: the automatic feeding device comprises a material distributing frame (51), a material pressing component (52), a pushing component (53) and a discharging component (54), wherein the material pressing component (52) is arranged on the material distributing frame (51) and used for pressing a side frame strip (10) arranged on the top surface of the material distributing frame (51), the side frame strip (10) can move horizontally along the material distributing frame (51), the pushing component (53) is arranged on the material distributing frame (51) and used for intermittently pushing the side frame strip (10) on the top surface of the material distributing frame (51) to the discharging component (54) on one side of the material distributing frame (51) under the pressing effect of the material pressing component (52), and the side frame strip (10) is detached from a conveying line below the discharging component (54) when the discharging component (54) acts.

2. The feed divider of claim 1, characterized in that: the material pressing assembly (52) comprises a pressing rod (521) and a material pressing driving part (522), one end of the pressing rod (521) is rotatably connected to one side of the top surface of the material distributing frame (51), and the material pressing driving part (522) is arranged on the material distributing frame (51) and is used for driving the pressing rod (521) to rotate forwards and backwards so as to open the space between the pressing rod (521) and the top surface of the material distributing frame (51) and place a frame strip (10) in the space or press the frame strip (10) on the material distributing frame (51).

3. The feed divider of claim 2, wherein: the material pressing assembly (52) further comprises a first hinged seat (526), a second hinged seat (527), a rotating seat (523), a swinging arm (524) and a connecting seat (525), the first hinged seat (526) and the second hinged seat (527) are both fixed on the top surface of the material distributing frame (51), the material pressing driving piece (522) is hinged to the first hinged seat (526), the bottom end of the rotating seat (523) is hinged to one end of the outer side of the bottom of the second hinged seat (527), one end of the swinging arm (524) is hinged to the other end of the inner side of the top of the second hinged seat (527), the other end of the swinging arm (524) is fixedly connected with a pressing rod (521), one end of the connecting seat (525) is hinged to the top end of the rotating seat (523), the other end of the connecting seat (525) is hinged to the swinging arm (524), and a telescopic rod of the material pressing driving piece (522) is hinged to the hinged ends of the connecting seat (525) and the second hinged seat (527).

4. The feed divider of claim 1, characterized in that: the pushing assembly (53) comprises a bottom plate (531), a sliding mechanism (532), a pushing frame (533) and a pushing driving mechanism (534), the bottom plate (531) is fixed on the material distributing frame (51) and located below the top surface of the material distributing frame (51), the sliding mechanism (532) is arranged on the bottom plate (531), the pushing frame (533) is fixed on a sliding end of the sliding mechanism (532), a pushing end of the pushing frame (533) upwards extends out of the top surface of the material distributing frame (51) to be abutted to the side edge of the side frame strip (10) during pushing, and the pushing driving mechanism (534) is arranged on the bottom plate (531) to drive the sliding mechanism (532) to slide in a reciprocating mode.

5. The feed divider of claim 4, wherein: the sliding mechanism (532) comprises a guide rail (5321) arranged on the bottom plate (531) and a sliding piece (5322) arranged on the guide rail (5321) in a sliding manner, and the pushing frame (533) is fixed on the sliding piece (5322).

6. The feed divider of claim 5, wherein: the pushing frame (533) comprises a connecting rod (5331) fixed on the sliding piece (5322) and a plurality of push rods (5332) fixed on the connecting rod (5331) at intervals.

7. The feed divider of claim 4, wherein: the pushing driving mechanism (534) comprises two belt wheels (5341), two belt wheel seats (5342) and a pushing motor (5343), the two belt wheels (5341) are rotatably mounted on the bottom plate (531) through the two belt wheel seats (5342), the two belt wheels (5341) are oppositely arranged at two ends of the guide rail (5321) in the extension direction, a synchronous belt (5344) is wound on the two belt wheels (5341), the ascending section of the synchronous belt (5344) is connected with a connecting rod (5331) of the pushing frame (533), the pushing motor (43) is fixed on the bottom plate (531), and an output shaft of the pushing motor (5343) is in transmission connection with a wheel shaft of one belt wheel (5341).

8. The feed divider of claim 4, wherein: a supporting piece (535) is fixed on the bottom plate (531), and the top end of the supporting piece (535) is fixed with the top of the material distributing frame (51).

9. The feed divider of claim 1, characterized in that: the blanking assembly (54) comprises a fixing piece (541), guide sleeves (542), guide shafts (543), a synchronizing rod (544) and a blanking driving piece (545), wherein the fixing piece (541) is fixed on the top surface of one side of the first conveying line (6), at least two guide sleeves (542) are arranged on the fixing piece (541) at intervals along the extending direction of the fixing piece, the guide shafts (543) are slidably arranged in each guide sleeve (542) in a penetrating manner, one end of each guide shaft (543) can be in butt joint with the top surface of the material distributing frame (51) to bear a frame strip (10) pushed out from the top surface of the material distributing frame (51), the other end of each guide shaft (543) is connected with the synchronizing rod (544), the blanking driving piece (545) is fixed on the fixing piece (541), the telescopic end of the blanking driving piece (545) is connected with the synchronizing rod (544) to drive the guide shafts (543) to slide along the guide sleeves (542) in a reciprocating manner, when the guide shaft (543) is in an extended state, the side frame strip (10) on the top surface of the material distributing frame (51) is pushed onto the guide shaft (543), and the blanking driving piece (545) drives the guide shaft (543) to retract, so that the side frame strip (10) is separated from the support and falls onto the conveying line for conveying.

10. The feed divider of claim 1, characterized in that: the material distributing frame (51) comprises a support frame (511) and a flat plate (512) fixed to the top of the support frame (511), and the upper surface of the flat plate (512) is smooth so that the frame strip (10) can slide in a translation manner.

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