CN216661436U - Side die sorting mechanism - Google Patents

Abstract

The utility model discloses a side die sorting mechanism which comprises a feeding roller way, wherein the feeding roller way is used for conveying side dies and comprises a roller frame and conveying rollers fixed on the roller frame, limiting rings are sleeved on the conveying rollers, the limiting rings on the conveying rollers are matched to form a groove-shaped linear channel for the side dies to pass through after being placed in, and a limiting plate for stopping the side dies is arranged at the tail end of the feeding roller way; a side die sensor for judging the type of the side die is also arranged on the feeding roller way; during the cloth mould, the side forms of specific size of centre gripping from buffer memory frame or storage rack are covered to the cloth mould manipulator to enclose and close and be specific shape, can pour the prefabricated component who forms required shape, and it is convenient that whole process gets and puts the side forms, and cloth mould is efficient.

Description

Side die sorting mechanism

Technical Field

The utility model relates to the field of building prefabricated parts, in particular to a side die sorting mechanism.

Background

In the production process of the prefabricated parts, the side forms are generally required to be assembled into a specific shape to form a prefabricated part mold so as to cast the prefabricated parts with the required shape. And after the poured concrete is subjected to the working procedures of vibrating, curing and the like, the side die is removed through a demoulding working procedure.

When the mold is distributed, the mold is often required to be manually judged to form a specific shape according to different types, and then the mold distribution process is started, so that time and labor are wasted, and the mold distribution efficiency is low, thus a solution is needed urgently.

Disclosure of Invention

In order to avoid and overcome the technical problems in the prior art, the utility model provides a side die sorting mechanism. The automatic die distributing method and the automatic die distributing device realize automatic die distribution after sorting of the side dies of different models.

In order to achieve the purpose, the utility model provides the following technical scheme:

a side die sorting mechanism comprises the following components:

the feeding roller way is used for conveying the side dies and comprises a roller frame and conveying rollers fixed on the roller frame, limiting rings are sleeved on the conveying rollers, the limiting rings on the conveying rollers are matched to form a groove-shaped linear channel for the side dies to pass through after being placed in, and a limiting plate for stopping the side dies is arranged at the tail end of the feeding roller way; a side die sensor for judging the type of the side die is also arranged on the feeding roller way;

the starting end of the feeding roller way is provided with air drying spray heads arranged in an array mode around the advancing track of the side die, and the spray ports of the air drying spray heads face the side die;

the lifting support is arranged below the feeding roller way along the length direction of the feeding roller way, a lifting part for lifting the side forms is arranged on the lifting support, a lifting part for lifting the lifting part upwards and a horizontal pushing part for horizontally translating the lifted lifting part to the cache frame are further arranged on the lifting support, and the movement track of the lifting part and the feeding roller way are avoided;

the buffer storage frame is arranged perpendicular to the lifting support, a first conveying part for positioning the side die and then conveying the side die forwards at equal intervals is arranged on the buffer storage frame along the length direction of the buffer storage frame, a second conveying part avoiding the conveying track position of the side die is further arranged on the buffer storage frame, and a power output end on the buffer storage frame drives the second conveying part and the first conveying part to generate synchronous conveying action; the second conveying part is provided with receiving modules which synchronously move along with the second conveying part and sensing modules which sense the receiving modules and send speed reduction stop signals to the power output end, and the distance between every two adjacent receiving modules is equal to the conveying distance of the upper side die of the first conveying part;

the storage rack comprises storage parts which are arranged in parallel, each storage part comprises a base and supporting parts which are fixed on the base along the length direction of the base, the tops of the supporting parts are locked and fixed by the locking parts which are arranged along the length direction of the base, a buffer channel which is arranged along the vertical direction is formed between two adjacent groups of supporting parts in a surrounding mode so that one end of each storage part can pass through the buffer channel, and the bases of the two groups of storage parts which are arranged in parallel form two-point support for the side molds to be sequentially stacked from bottom to top along the direction vertical to the base;

and the die distributing platform is used for providing a die distributing field of the side die, and the side die platform, the storage part and the cache frame are all positioned in the clamping range of the die distributing manipulator.

As a still further scheme of the utility model: the mounting platform is provided with mounting frames arranged along the length direction of the feeding roller way, the lifting parts are arranged on the mounting frames at intervals, and the distance between every two adjacent lifting parts is gradually increased along the arrangement direction of the lifting parts so as to adapt to lifting of side molds of different sizes; the lifting part is an L-shaped supporting plate which is vertically arranged, and a positioning bulge which is in clamping fit with the side die is arranged at the top of the lifting part; and the positioning bulge is provided with a V-shaped groove to be matched with the chamfered edge of the side die.

As a still further scheme of the utility model: the first conveying part and the second conveying part are of gear chain structures connected end to end, and the gear types and the chain pitches of the first conveying part and the second conveying part are the same; the power output end is a driving motor, and a motor shaft of the driving motor drives the driving gears of the first conveying part and the second conveying part to synchronously rotate.

As a still further scheme of the utility model: the first conveying part is provided with positioning blocks in clamping fit with the side dies, and the positioning blocks are arranged at equal intervals; and the positioning block is provided with a V-shaped notch to be matched with the chamfered edge of the side die.

As a further scheme of the utility model: the lifting part is a lifting cylinder, a mounting platform horizontally arranged is fixed on the output end of the lifting cylinder, a pushing guide rail vertically arranged with the feeding roller way is mounted on the mounting platform, the lifting part is mounted on the pushing guide rail, a pushing cylinder pushing the lifting part along the length direction of the pushing guide rail is further arranged on the mounting platform, and the pushing cylinder is matched with the pushing guide rail to form a horizontal pushing part.

As a still further scheme of the utility model: the second conveying part is provided with deceleration signal receiving sheets at equal intervals, the interval between every two adjacent deceleration signal receiving sheets is equal to the conveying interval of the side die on the first conveying part, and the deceleration signal receiving sheets are receiving modules; an adjusting rod for adjusting the tension degree of the first conveying part is arranged on the cache frame; the buffer storage frames are arranged in parallel at intervals, the distance between every two adjacent buffer storage frames is gradually increased along the arrangement direction of the buffer storage frames so as to adapt to the conveying of the side forms with different lengths, and the side form sensors correspond to the buffer storage frames in position.

As a still further scheme of the utility model: the supporting part top has seted up the ascending U type groove of opening along base length direction, arranges at U type inslot along base length direction with the anastomotic positioning screw in U type groove shape, and be provided with on the positioning screw with positioning screw thread fit's locking bolt, adjacent two sets of locking bolts will correspond the supporting part centre gripping locking fixed, positioning screw cooperatees with locking bolt in order to constitute locking portion.

As a still further scheme of the utility model: the supporting part is a rectangular pipe, a positioning plate is mounted on a pipe body of the supporting part, waist-shaped holes are formed in the plate body of the positioning plate along the length direction of the base, and fastening bolts penetrate through the waist-shaped holes to connect and fix the positioning plate and the rectangular pipe; and adjacent positioning plates are enclosed to form a cache channel matched with the width of the side die for the side die to pass through.

As a still further scheme of the utility model: the base is provided with a guide assembly along the length direction of the base, and each support part can move along the length direction of the guide assembly and then is fixed; the guide assembly is an adjusting guide rail, and the support part is fixed on the adjusting guide rail through a positioning bolt after moving to a designated position along the length direction of the adjusting guide rail; each positioning plate is symmetrically arranged at the front side and the rear side of the corresponding supporting part; cushion blocks positioned at the bottoms of the buffer channels are arranged on the base and used for stacking side molds, and the cushion blocks are perpendicular to the base.

As a still further scheme of the utility model: the rectangular pipe is a hot galvanizing square pipe, and a bayonet is arranged at the end part of the square pipe.

Compared with the prior art, the utility model has the beneficial effects that:

1. the cleaned side die is conveyed into a feeding roller way, the side die is conveyed forwards along a straight line after being limited, and the type of the side die is judged by stopping; when the side die is stopped and stays above the lifting support, the lifting part lifts the lifting part to enable the side die to move upwards and separate from the feeding roller way, the horizontal pushing part horizontally pushes the lifting part at the moment, the lifting part descends after reaching the upper part of the cache frame to ensure the positioning of the side die and the cache frame, and the horizontal pushing part and the lifting part reset to finish the conveying of the side die; when the side forms are conveyed and positioned on the cache frame, when the first conveying part conveys the side forms, the second conveying part and the first conveying part generate synchronous conveying action, when the sensing module on the second conveying part senses a signal of the receiving module, a deceleration stop signal is sent to the power output end, the first conveying part stops at the moment, the next side forms are conveyed again after being lifted and positioned, the process is repeated, the conveying distance of the first conveying part at each time is ensured to be a fixed distance, and the cache is conveyed in the positioning mode.

2. According to the side forms exceeding the buffer storage amount of the buffer storage frame, the side forms can be sequentially stacked from bottom to top along the vertical direction between the adjacent storage parts through the buffer storage of the storage frame according to different models, and the bottom and the top of the supporting part are locked and fixed, so that the supporting part cannot be extruded to generate deviation in the stacking process of the side forms, and the side forms can be stacked along the vertical direction; during the cloth mould, the side forms of specific size of centre gripping from buffer memory frame or storage rack are covered to the cloth mould manipulator to enclose and close and be specific shape, can pour the prefabricated component who forms required shape, and it is convenient that whole process gets and puts the side forms, and cloth mould is efficient.

3. According to the utility model, the vertical lifting of the side die is realized through the lifting cylinder, the horizontal pushing of the side die is realized through the matching of the pushing guide rail and the pushing cylinder, and the stable conveying of the side die is formed after the combination, so that the side die is stably separated from a feeding roller way and enters the next station; the interval arrangement of the lifting parts is just suitable for the side forms with different length sizes, so that the stable positioning of the side forms with all sizes is ensured;

the lifting part is designed into an L-shaped supporting plate arranged vertically, so that the lifting process is prevented from interfering with a feeding roller way, and the lifting part is provided with a positioning bulge at the top and matched with the chamfered edge of the side die in a clamping manner, so that the stability of the lifting conveying process is ensured.

4. According to the utility model, the first conveying part and the second conveying part are designed into gear chain mechanisms with the same gear type and chain pitch, and the power output end adopts the driving motor to drive the gears of the first conveying part and the second conveying part to synchronously run, so that the accuracy of each conveying distance of the first conveying part is ensured; the positioning blocks arranged at equal intervals are arranged on the first conveying part, so that the side die is stably conveyed; the arrangement of the adjusting rod ensures that the chains of the first conveying part and the second conveying part can keep the same tension degree.

5. The supporting part adopts the rectangular pipe, the position of the positioning plate on the rectangular pipe is adjusted through the waist-shaped hole, the width of the buffer channel can be accurately adjusted, the buffer channel can be ensured to be just matched with the size of the side die, the stacking process of the side die is positioned, and the positioning precision is further improved by the arrangement of the positioning plates on the two sides; the U-shaped groove is formed in the top end of each supporting part, and after the positioning screw is prevented from being positioned in the U-shaped groove, the corresponding supporting parts can be clamped, locked and fixed by screwing the locking bolt, the space between the top ends of the supporting parts is kept in a stable state in a pulling mode, the buffer memory channel between the supporting parts can be always kept in the vertical direction, the accuracy of the side die during stacking is improved, and the side die is prevented from inclining; before stacking, the supporting part can be fixed after adjusting the position along the length direction of the adjusting guide rail, and the width of the cache channel is pre-adjusted; the arrangement of the cushion blocks can facilitate the stacking of the side molds, and the cushion blocks can attract magnets in the side molds, so that the positioning accuracy is improved.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a top view of the cache shelf of the present invention.

Fig. 3 is a schematic structural view of the lifting bracket of the present invention.

Fig. 4 is a schematic structural view of the second conveying part of the present invention.

Fig. 5 is a schematic structural view of the storage rack of the present invention.

Fig. 6 is a schematic view of the structure of the storage part of the present invention.

Fig. 7 is a plan view of the storage part of the present invention.

In the figure:

1. a feeding roller bed; 11. a conveying roller; 12. a limiting ring; 13. a limiting plate; 14. air drying the spray head;

2. lifting the support; 21. a lifting part; 22. mounting a platform; 23. a horizontal pushing part;

24. a mounting frame; 25. a lifting part; 251. positioning the projection;

3. a cache shelf; 31. a second conveying section; 311. a sensing module; 312. a receiving module;

32. a power take-off; 33. a first conveying section; 331. positioning blocks; 34. adjusting a rod;

4. a storage section; 41. a base; 411. a guide assembly; 42. a support portion;

43. positioning a plate; 431. a kidney-shaped hole; 432. fastening a bolt;

44. positioning a screw rod; 441. locking the bolt; 45. cushion blocks;

5. and (7) a die distributing table.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 7, in an embodiment of the present invention, a side form sorting mechanism includes a feeding roller table 1, where the feeding roller table 1 includes a roller frame and a conveying roller 11 fixed on one side of the roller frame, and one side of the roller frame refers to one side of an adjacent buffer frame 3. Each of the conveyor rollers 11 is arranged at an equal interval.

At least two sets of limiting rings 12 are coaxially fixed on each conveying roller 11, and the distance between the two sets of limiting rings 12 is slightly larger than the width of the side die.

The stop rings 12 on the conveyor rollers 11 cooperate with each other to form a linear channel into which the edge molds are inserted, and the conveyor rollers 11 rotate to convey the edge molds forward along the channel. The outlet end of the feeding roller way 1 is provided with a limiting plate 13 for stopping the side forms, and the feeding roller way 1 is provided with side form sensors at intervals. The first side form sensor corresponds to the position of the limiting plate 13, is parallel to each other and serves as an induction zero induction side form, and the rest side form sensors are sequentially arranged along the length direction of the feeding roller way 1 to adapt to side forms with different types and lengths.

And judging the type of the side die reaching the limiting plate 13.

The initiating terminal of feed roll table 1 is provided with the air-dry shower nozzle 14 that the orbit array of marcing around the side forms was arranged, and each air-dries the spout of shower nozzle 14 and all faces the side forms to air-dry the side forms, thereby avoid the water stain on the side forms and 1 contact of feed roll table to arouse the corrosion.

The air speed of the air drying nozzle 14 is not lower than 10 meters per second.

And the lifting support 2 is integrally arranged below the feeding roller way 1. The lifting support 2 is provided with a lifting part 21 capable of generating a lifting action in the vertical direction, and the lifting part 21 is not limited in form and is preferably a lifting cylinder.

The output end of the lifting cylinder is fixed with a horizontally arranged mounting platform 22, and the mounting platform 22 is provided with a lifting part 25 for lifting the side forms and a horizontal pushing part 23 capable of pushing the lifting part 25 in the horizontal direction.

The horizontal pushing part 23 comprises a pushing cylinder and a pushing guide rail, wherein the pushing guide rail is perpendicular to the feeding roller way 1, an installation frame 24 arranged along the length direction of the feeding roller way 1 is arranged on the pushing guide rail, and the lifting part 25 is fixed on the installation frame 24. When the pushing cylinder is started, the mounting frame 24 is pushed to translate along the length direction of the pushing guide rail.

The lifting parts 25 are arranged on the mounting frame 24 at intervals so as to adapt to the length of the side forms, and the distance between every two adjacent lifting parts 25 is gradually increased so as to adapt to the side forms with different length sizes.

The lifting part 25 is preferably an L-shaped supporting plate arranged along the vertical direction, a positioning protrusion 251 matched with the side die in a clamping manner is arranged at the top of the L-shaped supporting plate, and a V-shaped groove is formed in the positioning protrusion 251 to match with the chamfering edge direction of the side die.

When the feeder rollerway 1 transports and finally stops the sideforms, the sideforms are just above the lifting support 2. At this time, the lifting cylinder drives the mounting platform and the L-shaped supporting plate on the mounting platform to ascend, the positioning protrusion 251 of the L-shaped supporting plate is positioned with the chamfered edge of the side die, and the side die is supported, so that the side die is separated from the feeding roller way 1.

After that, the pushing cylinder is started, the mounting frame 24 and the L-shaped supporting plate on the mounting frame 24 are horizontally pushed along the direction vertical to the feeding roller way 1, and the side die is conveyed to the next station; and then the lifting cylinder falls down to enable the side die to correspond to the next station in an adaptive manner, and finally the lifting cylinder and the pushing cylinder reset to finish the lifting work. In the whole process, the motion trail of the side forms and the feeding roller way 1 are staggered mutually.

The buffer storage frames 3 are provided with a plurality of groups, the number of the buffer storage frames is parallel to the size direction of the buffer storage frames 3, and each buffer storage frame 3 is perpendicular to the lifting support 2.

The buffer frame 3 is provided with a first conveying part 33 along the length direction thereof, the side wall of the buffer frame 3 is provided with a second conveying part 31, and the power output end 32 on the buffer frame 3 drives the first conveying part 33 and the second conveying part 31 to synchronously convey. The first conveying section 33 and the second conveying section 31 are both of an end-to-end conveying structure, and preferably are of a gear chain structure having the same gear type and chain pitch.

The power output end 32 is preferably a driving motor, a motor shaft of the driving motor penetrates through each buffer frame, and the driving gears of the first conveying part 33 and the second conveying part 31 are fixed on the motor shaft of the driving motor.

The chain of the first conveying part 33 is provided with positioning blocks 331 at equal intervals, the positioning blocks 331 are matched with the side forms, the shapes of the positioning blocks 331 are not limited, and the side forms can be positioned on the first conveying part 33, so that the side forms can be kept perpendicular to the buffer racks 3 in the conveying process. The top of the positioning block 331 is provided with a V-shaped notch so as to be matched with the chamfered edge of the side die.

The side wall of the buffer storage frame 3 is provided with an adjusting rod 34 matched with the chain of the first conveying part 33, the length of the adjusting rod 34 is adjustable, and the adjusting rod drives the chain of the first conveying part 33 to be tensioned or drives the chain of the first conveying part 33 to be loosened so as to adjust the tightness of the chain of the first conveying part 33.

The second conveying part 31 is preferably a double-row chain or a multi-row chain, the receiving modules 312 are arranged at equal intervals between the double-row chain, and the interval between the receiving modules 312 is equal to the interval between the positioning blocks 331. The second conveying part 31 is further provided with a sensing module 311 for sensing a signal of the receiving module 312, and the following details describe the cooperation process of the sensing module 311 and the receiving module 312.

The first conveying part 33 and the second conveying part 31 operate synchronously, and when the sensing module 311 senses a signal of the receiving module 312, a deceleration stop signal is sent to the driving motor, and at this time, the first conveying part 33 decelerates and stops to receive the side forms. After the side forms are placed on the positioning block 331, the driving motor is started to drive the first conveying part 33 and the second conveying part 31 to start conveying, when the sensing module 311 senses the signal of the receiving module 312, a deceleration stop signal is sent to the driving motor again, and the first conveying part 33 receives a new side form after deceleration stop. The above processes are performed repeatedly, so that the first conveying part 33 is ensured to advance for a fixed distance in a mode of first accelerating and then decelerating every time, and the accuracy of the side die conveying distance is ensured.

The receiving module 312 is configured as a deceleration signal receiving sheet, and the sensing module 311 is a sensor corresponding to the deceleration signal receiving sheet. The actual installation process may be replaced with a similar arrangement.

The first conveying part 33 and the second conveying part 31 may be conveyor belts.

Along the direction of arranging of buffer memory frame 3, the interval between each buffer memory frame 3 increases progressively to the transport of the side forms of adaptation different length. Each buffer shelf 3 corresponds to the position of the side form sensor.

The storage rack is composed of storage parts 4 arranged in parallel, the storage parts 4 comprise bases 41, guide assemblies 411 are arranged on the bases 41 along the length direction of the bases, and the supporting parts 42 can move along the length direction of the guide assemblies 411 and can be locked and fixed after moving.

The guide assembly 411 is provided as an adjusting guide rail matched with the supporting portion 42 in a sliding manner, the supporting portion 42 moves to a specified position along the length direction of the adjusting guide rail, and then the positioning bolt locks and fixes the bottom of the supporting portion 42 and the adjusting guide rail.

The support portions 42 are provided as rectangular tubes arranged in parallel spaced apart relation. The locating plates 43 are symmetrically arranged at the front end and the rear end of each rectangular pipe, waist-shaped holes 431 are formed in the front end and the rear end of the pipe body of each rectangular pipe, and the waist-shaped holes 431 are usually arranged in two groups and have at least brightness and are arranged on the upper side and the lower side of each rectangular pipe.

After the fastening bolt 432 penetrates through the waist-shaped hole 431, the positioning plates 43 are locked on the rectangular pipe, the positions of the positioning plates 43 are adjusted along the length direction of the waist-shaped hole 431, a buffer channel can be formed between adjacent positioning plates 43 in a surrounding mode and is used for allowing a side die to pass through, and the buffer channel is a channel arranged along the vertical direction.

The top of each rectangular tube is provided with a U-shaped groove with an upward opening along the length direction of the base 41, the U-shaped grooves at the top of each rectangular tube are matched to form a linear channel, and the positioning screw 44 is provided with a locking bolt 441 in threaded fit with the positioning screw 44.

The number of the locking bolts 441 is two times or four times of the number of the U-shaped grooves, each two or four groups of the locking bolts 441 correspond to one group of the U-shaped grooves, and the two adjacent groups of the locking bolts 441 are matched with the positioning screw 44 to form a U-shaped locking mechanism so as to clamp, lock and fix the corresponding rectangular pipes.

Be provided with the cushion 45 of arranging perpendicularly with base 41 on the base 41, during stacking, the cushion 45 of two sets of parallel arrangement's storage part 4 forms the pair vertical support to the side forms, and the both ends of side forms are through corresponding the buffer memory passageway respectively after, pile up between two sets of storage part 4 and deposit.

Along the direction that deposits 4 arrange, increase between each portion 4 that deposits to the adaptation is deposited not unidimensional side forms.

And the die distributing table 5 is used for providing a die distributing field of the side die, and the die distributing table 5, the storage part 4 and the cache frame 3 are all positioned in the clamping range of the die distributing manipulator.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a side forms sorting mechanism which characterized in that includes following component parts:

the feeding roller way (1) is used for conveying side dies, the feeding roller way (1) comprises a roller frame and conveying rollers (11) fixed on the roller frame, limiting rings (12) are sleeved on the conveying rollers (11), the limiting rings (12) on the conveying rollers (11) are matched to form a groove-shaped linear channel for the side dies to pass through after being placed in, and a limiting plate (13) used for stopping the side dies is arranged at the tail end of the feeding roller way (1); a side die sensor for judging the type of the side die is also arranged on the feeding roller way (1);

the starting end of the feeding roller way (1) is provided with air drying spray heads (14) which are arranged around the advancing track array of the side die, and the spray ports of the air drying spray heads (14) face the side die;

the lifting support (2) is arranged below the feeding roller way (1) along the length direction of the feeding roller way (1), a lifting part (25) used for lifting a side die is arranged on the lifting support (2), a lifting part (21) used for lifting the lifting part (25) upwards and a horizontal pushing part (23) used for horizontally translating the lifted lifting part (25) to the cache frame (3) are further arranged on the lifting support (2), and the movement track of the lifting part (25) and the feeding roller way are avoided;

the buffer storage frame (3) is perpendicular to the lifting support (2), a first conveying part (33) which is used for positioning the side die and then conveying the side die forwards at equal intervals is arranged on the buffer storage frame (3) along the length direction of the buffer storage frame, a second conveying part (31) which is avoided from the conveying track position of the side die is further arranged on the buffer storage frame (3), and a power output end (32) on the buffer storage frame (3) drives the second conveying part (31) and the first conveying part (33) to generate synchronous conveying action; the second conveying part (31) is provided with receiving modules (312) which synchronously move along with the second conveying part (31) and sensing modules (311) which sense the receiving modules (312) and send speed reduction stop signals to the power output end (32), and the distance between every two adjacent receiving modules (312) is equal to the conveying distance of the upper die of the first conveying part (33);

the storage rack comprises storage parts (4) which are arranged in parallel, each storage part (4) comprises a base (41) and supporting parts (42) which are fixed on the base (41) along the length direction of the base (41), the tops of the supporting parts (42) are locked and fixed by locking parts which are arranged along the length direction of the base (41), a buffer channel which is arranged along the vertical direction is enclosed between two adjacent groups of supporting parts (42) so that one end of each storage part (4) can pass through, and the bases (41) of the two groups of storage parts (4) which are arranged in parallel form two-point support for side molds to be sequentially stacked from bottom to top along the direction vertical to the base (41);

and the die distributing table (5) is used for providing a die distributing field of the side die, and the die distributing table (5), the storage part (4) and the cache frame (3) are all positioned in the clamping range of the die distributing manipulator.

2. The sideform sorting mechanism according to claim 1, wherein the lifting portion (21) is a lifting cylinder, a horizontally arranged mounting platform (22) is fixed on an output end of the lifting cylinder, a pushing guide rail arranged perpendicular to the feeding roller way is mounted on the mounting platform (22), the lifting portion (25) is mounted on the pushing guide rail, a pushing cylinder for pushing the lifting portion (25) along the length direction of the pushing guide rail is further arranged on the mounting platform (22), and the pushing cylinder and the pushing guide rail are matched to form a horizontal pushing portion (23).

3. The sideform sorting mechanism according to claim 2, characterized in that the mounting platform (22) is provided with mounting frames (24) arranged along the length direction of the feeding roller way, the lifting portions (25) are arranged on the mounting frames (24) at intervals, and along the arrangement direction of the lifting portions (25), the distance between every two adjacent lifting portions (25) is gradually increased so as to adapt to lifting sideforms with different sizes; the lifting part (25) is an L-shaped supporting plate which is vertically arranged, and a positioning protrusion (251) which is in clamping fit with the side die is arranged at the top of the lifting part (25); and a V-shaped groove is formed in the positioning protrusion (251) to be matched with the chamfered edge of the side die.

4. The sideform sorting mechanism according to claim 1, wherein the first conveying part (33) and the second conveying part (31) are both in an end-to-end gear chain structure, and the gear models and the chain pitches of the first conveying part (33) and the second conveying part (31) are the same; the power output end (32) is a driving motor, and a motor shaft of the driving motor drives the driving gears of the first conveying part (33) and the second conveying part (31) to synchronously rotate.

5. The sideform sorting mechanism according to claim 1, wherein the first conveying part (33) is provided with positioning blocks (331) matched with the sideforms in a clamping manner, and the positioning blocks (331) are arranged at equal intervals; the positioning block (331) is provided with a V-shaped notch to be matched with the chamfered edge of the side die.

6. The side form sorting mechanism according to claim 1, wherein deceleration signal receiving pieces are arranged on the second conveying part (31) at equal intervals, the interval between adjacent deceleration signal receiving pieces is equal to the side form conveying interval on the first conveying part (33), and the deceleration signal receiving pieces are receiving modules (312); an adjusting rod (34) for adjusting the tension degree of the first conveying part (33) is arranged on the buffer storage frame (3); each buffer storage frame (3) is arranged in parallel at intervals, the distance between every two adjacent buffer storage frames (3) is gradually increased along the arrangement direction of the buffer storage frames (3) so as to adapt to the conveying of the side forms with different lengths, and the side form sensors correspond to the buffer storage frames (3).

7. The sideform sorting mechanism according to claim 1, wherein the supporting portion (42) is a rectangular pipe, a positioning plate (43) is mounted on a pipe body of the supporting portion (42), a waist-shaped hole (431) is formed in the plate body of the positioning plate (43) along the length direction of the base (41), and a fastening bolt (432) penetrates through the waist-shaped hole (431) to connect and fix the positioning plate (43) and the rectangular pipe; and a buffer channel matched with the width of the side die is formed by enclosing between the adjacent positioning plates (43) and is used for the side die to pass through.

8. The side form sorting mechanism according to claim 7, wherein the top end of the supporting portion (42) is provided with a U-shaped groove with an upward opening along the length direction of the base (41), a positioning screw (44) matched with the U-shaped groove in shape is arranged in the U-shaped groove along the length direction of the base (41), the positioning screw (44) is provided with a locking bolt (441) in threaded fit with the positioning screw (44), two adjacent groups of locking bolts (441) clamp, lock and fix the corresponding supporting portion (42), and the positioning screw (44) is matched with the locking bolt (441) to form a locking portion.

9. The side form sorting mechanism according to claim 7, characterized in that the base (41) is provided with a guide assembly (411) along the length direction thereof, and each support part (42) can be fixed after moving along the length direction of the guide assembly (411); the guide assembly (411) is an adjusting guide rail, and the support part (42) is fixed on the adjusting guide rail through a positioning bolt after moving to a designated position along the length direction of the adjusting guide rail; the positioning plates (43) are symmetrically arranged at the front side and the rear side of the corresponding supporting part (42); cushion blocks (45) positioned at the bottoms of the buffer channels are arranged on the base (41) and used for stacking side molds, and the cushion blocks (45) are perpendicular to the base (41).

10. The side die sorting mechanism according to claim 7, wherein the rectangular tube is a hot-galvanized square tube, and a bayonet is arranged at the end of the square tube.

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