CN114162572A - Material transferring device for transferring materials of green bodies - Google Patents

Abstract

The invention relates to a material transferring device for transferring green bodies, which comprises a discharging unit for discharging and conveying the green bodies, a distributing unit for distributing and arranging the green bodies output by the discharging unit into a row, and a material transferring unit for transferring the green bodies of each row to be subsequently processed. The material dividing unit is used for dividing the blanks discharged by the material discharging unit into n first groups of first material dividing parts and continuously dividing the n first groups of blanks divided by the first material dividing parts into 2n second groups of second material dividing parts. According to the scheme provided by the invention, the blanks which are sequentially abutted one by one can be effectively converted into a row of blanks which are arranged at intervals, so that the feeding requirement of subsequent processing is met, and the reliability of automatic production is ensured.

Description

Material transferring device for transferring materials of green bodies

Technical Field

The invention relates to the field of automatic production equipment, in particular to a material transferring device for transferring a blank body.

Background

In the automatic production equipment, the blanks need to be arranged in a corresponding state and conveyed to each procedure for corresponding processing, so that reliable transfer of the blanks is the basis for ensuring automatic and continuous production. If the feeding requirement of the columnar blanks with the upper outer diameter larger than the lower outer diameter is needed, the blanks are arranged in a row for taking and using for the next process. The current scheme for realizing the requirements also has the defects of operational reliability, complex operation and the like, so that the problem needs to be solved.

Disclosure of Invention

In order to solve the problems, the invention provides a material transferring device for transferring a blank body.

The technical scheme adopted by the invention is as follows.

The utility model provides a be used for body to change material with changeing material device which characterized in that: the blank discharging and sorting device comprises a discharging unit for discharging and conveying blanks, a distributing unit for distributing and sorting the blanks output by the discharging unit into a row, and a material transferring unit for transferring the blanks in each row to be subsequently processed.

The specific scheme is as follows: the material distributing unit is used for dividing the blanks discharged by the material discharging unit into n first groups of first material distributing parts and continuously dividing the n first groups of blanks divided by the first material distributing parts into 2n second groups of second material distributing parts, wherein n is more than or equal to 2.

n =2, each first group comprising 2 biscuits, each second group comprising 1 biscuit.

The blank comprises an upper part with a large diameter and a lower part with a small diameter, a table top structure is formed at the joint between the upper part and the lower part, the discharging unit comprises a discharging channel which is obliquely arranged, the discharging channel consists of two rows of oppositely arranged material supporting pieces, and the discharging supporting pieces support the table top structure to realize the row-shaped sequencing and conveying of the blank one by one.

The first material distribution part comprises two first material distribution channels which are arranged in an inclined mode and arranged in a splayed mode, and the first material distribution part further comprises an adjusting mechanism which adjusts the two first material distribution channels to be arranged in a sequential extending mode with the material discharge channels respectively so as to carry and divide the blanks sliding down the material discharge channels.

The second material distributing part comprises four second material distributing channels, the four second material distributing channels are arranged in parallel, and the adjusting mechanism is further used for adjusting the two second material distributing channels and the two first material distributing channels in a staggered mode to be arranged in a forward extending mode so as to carry and divide the green bodies sliding down from the first material distributing channels.

The first material receiving adjusting portion regulates and controls the number of the green bodies accepted by the first material distributing channel at each time, and the second material receiving adjusting portion regulates and controls the number of the green bodies accepted by the second material distributing channel at each time.

The second material distributing channel comprises an inclined end and a horizontal section, the upper end of the inclined section is used for being arranged along the lower end of the corresponding first material distributing channel to carry and divide the blank, the front end of the horizontal section is fixedly connected with the lower end of the inclined section, and the tail end of the horizontal section is provided with a material blocking part for preventing the blank from moving out along the length direction of the horizontal section.

The material transferring unit comprises a material transferring shaft which is horizontally arranged, the material transferring shaft is rotatably installed on a lifting seat, the lifting seat is installed on a rack in a lifting mode, the lifting seat is connected with a lifting adjusting piece which is used for adjusting the lifting seat to lift, the material transferring shaft is connected with a rotating adjusting piece, a mounting support is arranged on the material transferring shaft, clamping pieces are arranged on the mounting support at intervals along the length direction of the material transferring shaft, each clamping piece clamps the upper portion of a blank on each horizontal section, so that the blank is taken down from the horizontal section and overturned to a circulating conveying line for subsequent treatment, assembling plugs are arranged on the circulating conveying line at intervals, the upper portion is of a tubular structure, the assembling plugs are in plug-in assembling fit with the upper portion, a material pressing mechanism is further arranged on the upper side of the circulating conveying line, the material pressing mechanism is used for lifting assembling the blank and the assembling plugs in a reliable plug-in assembling mode.

The material discharging support is installed on the material discharging support, the material discharging support is fixedly installed on a rack, the first material distributing part comprises first material distributing plate pieces which are obliquely arranged, the first material distributing plate pieces are fixedly installed on the first material distributing support, the first material distributing channel is formed by first strip-shaped first vacant parts formed in the first material distributing plate pieces, the first material distributing support is installed on the rack in a sliding mode along the direction a, the direction a is the horizontal direction and is consistent with the direction of the distance between the first material distributing channels, the second material distributing part comprises second material distributing plate pieces which are obliquely arranged, the second material distributing plate pieces are formed by folded plate pieces, the second material distributing plate pieces are fixedly installed on the second material distributing support, the second material distributing channel is formed by second strip-shaped second vacant parts formed in the second material distributing plate pieces, the second material distributing support is fixedly installed on the rack, and four second material distributing channels which are sequentially arranged along the direction a are respectively marked as A, B. C, D material distributing channel, the distance between the feeding ends of the two first material distributing channels is d1, the distance between the discharging ends of the two first material distributing channels is d2, the distance between the feeding ends of the A, C material distributing channel and the distance between the feeding ends of the B, D material distributing channel are matched with d2, and the distance between the feeding ends of the A, B material distributing channel and the distance between the feeding ends of the C, D material distributing channel are matched with d 1;

the first material receiving adjusting part comprises a first material blocking part, the first material blocking part is positioned on the upper side of the first material distributing plate and is arranged perpendicular to the first material distributing plate, the first material blocking part is installed at one end of a first installing part, the first material blocking part and the first installing part are arranged in an L shape, the other end of the first installing part is rotatably installed on the material distributing support through a shaft body, the shaft body is arranged perpendicular to the first material distributing plate, an adjusting gear is fixedly installed on the shaft body, an adjusting rack is assembled on the first material distributing support, the adjusting rack and the adjusting gear are assembled in a transmission mode, the length direction of the adjusting rack is consistent with the direction a, the first installing part and a correspondingly arranged first material distributing channel are arranged in parallel when the material distributing channel and one of the first material distributing channels are correspondingly arranged, the first installing part is adjusted to rotate when the first material distributing support moves horizontally, and the shaft body is correspondingly arranged corresponding to the outlet end of the material distributing channel, the distance between the first material blocking part and the inlet end of the first material distributing channel is matched with the space size required by the arrangement of the two blanks;

the second meets material adjustment portion includes two second fender material spares, the face that the second fender material spare is located the upside of slope section and perpendicular to slope section is arranged, the one end at the second installed part is installed to the second fender material spare, interval and d2 phase-match between two second fender material spares, second fender material spare and second installed part are the L type and arrange, the other end fixed mounting of second installed part is on first branch material support, interval and the required space size phase-match of a body of arranging between second fender material spare and the second branch material passageway entrance point.

According to the scheme provided by the invention, the blanks which are sequentially abutted one by one can be effectively converted into a row of blanks which are arranged at intervals, so that the feeding requirement of subsequent processing is met, and the reliability of automatic production is ensured.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 in another state;

FIG. 3 is a front view of FIG. 2;

FIG. 4 is a top view of FIG. 3;

the correspondence between reference numerals and components is as follows:

10-blank, 20-discharge unit, 21-discharge support, 22-discharge bracket, 30-material distribution unit, 31-first material distribution plate, 32-second material distribution plate, 33-first material distribution bracket, 331-second material distribution bracket, 34-first material blocking piece, 341-first mounting piece, 35-adjusting gear, 36-adjusting rack, 37-rack mounting piece, 38-second material blocking piece, 39-second mounting piece, 40-material transferring unit, 41-material transferring shaft, 42-lifting seat, 43-clamping piece, 44-mounting bracket, 50-circulating conveying line, 51-assembly plug and 60-material pressing mechanism.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed. The prior art structures not described in detail in this invention are implemented according to prior art schemes.

As shown in fig. 1 to 4, a material transferring device for transferring a blank 10 includes a material discharging unit 20 for discharging and conveying the blank 10, a material distributing unit 30 for distributing and arranging the blanks 10 output by the material discharging unit 20 into a row, and a material transferring unit 40 for transferring the blanks 10 in each row to a subsequent processing. The further scheme is as follows: the material dividing unit 30 is used for dividing the blanks 10 discharged by the discharging unit 20 into n first groups of first material dividing parts, and continuously dividing the n first groups of blanks 10 divided by the first material dividing parts into 2n second groups of second material dividing parts, wherein n is greater than or equal to 2. In particular, n =2, each first group comprising 2 blanks 10 and each second group comprising 1 blank 10.

Above-mentioned technical scheme, it can be effectual will lean on each body 10 that arranges one by one in proper order to be transformed into a list of 4 interval arrangement forms and arranges for realize the material loading demand of follow-up processing, guarantee automated production's reliability. Of course, the array can be arranged in other even number of columns according to specific use requirements.

The blank 10 comprises an upper part with a larger diameter and a lower part with a smaller diameter, a table-board structure is formed at the joint between the upper part and the lower part, the discharge unit 20 comprises a discharge channel which is obliquely arranged, the discharge channel is composed of two rows of oppositely arranged material supporting members 21, and the discharge supporting members 21 support the table-board structure to realize the row-shaped sequencing conveying of the blanks 10 one by one. During specific operation, the upper end of the discharge channel can be connected with an outlet of the automatic feeding machine, and the automatic feeding machine can be used for a disc vibration feeding sieve and other feeding devices capable of realizing posture screening and feeding.

The detailed operation is that the first material distribution part comprises two first material distribution channels which are arranged in an inclined manner and arranged in a splayed manner, and the first material distribution part further comprises an adjusting mechanism which adjusts the two first material distribution channels to be respectively arranged along with the material discharge channel so as to carry and divide the blank 10 sliding down from the material discharge channel. The second material distributing part comprises four second material distributing channels which are arranged in parallel, and the adjusting mechanism is used for adjusting two second material distributing channels and two first material distributing channels in a staggered mode to be arranged along the same direction so as to carry and divide the green bodies 10 sliding down from the first material distributing channels. The blank forming machine is further provided with a first material receiving adjusting portion and a second material receiving adjusting portion, the first material receiving adjusting portion regulates and controls the number of blanks 10 accepted by the first material distributing channel at each time, and the second material receiving adjusting portion regulates and controls the number of blanks 10 accepted by the second material distributing channel at each time. The second divides the material passageway to include tip and horizontal segment, thereby the upper end of tip is used for following the lower extreme that corresponds first branch material passageway and arranges and accept the division to body 10, and the front end of horizontal segment is mutually the rigid coupling with the lower extreme of tip, and the end of horizontal segment is provided with the material blocking portion that prevents body 10 and follow the length direction of horizontal segment and shift out. The arrangement of the structure can effectively ensure that the blank body 10 is reliably and quickly divided and arranged.

The detailed scheme is that as shown in fig. 2 and 4, the transferring unit 40 includes a horizontally arranged transferring shaft 41, the transferring shaft 41 is rotatably mounted on a lifting seat 42, the lifting seat 42 is mounted on a rack in a lifting manner, the lifting seat 42 is connected with a lifting adjusting member for adjusting the lifting seat to lift, the transferring shaft 41 is connected with the rotating adjusting member, a mounting bracket 44 is arranged on the transferring shaft 41, clamping members 43 are arranged on the mounting bracket 44 at intervals along the length direction of the transferring shaft 41, each clamping member 43 clamps the upper part of the blank 10 on each horizontal section so as to take down the blank 10 from the horizontal section and turn over and transfer the blank to the circulating conveying line 50 for subsequent treatment, an assembling plug 51 is arranged on the circulating conveying line 50 at intervals, the upper part is of a tubular structure, the assembling plug 51 is in inserting assembling cooperation with the upper part, a pressing mechanism 60 is further arranged on the upper side of the circulating conveying line 50, and a lifting assembly mechanism 60 is arranged on the upper side of the circulating conveying line 50, the pressing mechanism 60 is used for pressing the blank 10 down to perform reliable plug-in assembly with the assembly plug 51. The rotation regulating part can be formed by a rotation regulating motor, and the lifting regulating part can be formed by a regulating cylinder or a regulating electric cylinder. The clamping member 43 may be formed by a clamping cylinder and a clamping assembly mounted on the piston rod of the clamping cylinder, and the clamping assembly may be formed by two clamping arms/clamps/clamping plates which can be opened and closed. The pressing mechanism 60 may be specifically formed by arranging pressing heads corresponding to the green bodies 10 at intervals, the pressing heads are mounted on a pressing support through buffer springs, the pressing support is slidably mounted on a rack in the vertical direction, and a lifting adjusting cylinder or an electric cylinder for adjusting the pressing support to lift is arranged on the rack.

The material discharging support 21 is installed on the material discharging support 22, the material discharging support 22 is fixedly installed on a rack, the first material distributing part comprises first material distributing plate pieces 31 which are obliquely arranged, the first material distributing plate pieces 31 are fixedly installed on a first material distributing support 33, the first material distributing channels are formed by first strip-shaped vacant parts formed in the first material distributing plate pieces 31, the first material distributing support 33 is installed on the rack in a sliding mode along the direction a, the direction a is the horizontal direction and is consistent with the distance direction between the first material distributing channels, the second material distributing part comprises second material distributing plate pieces 32 which are obliquely arranged, the second material distributing plate pieces 32 are formed by folded plate pieces, the second material distributing plate pieces 32 are fixedly installed on a second material distributing support 331, the second material distributing channels are formed by second strip-shaped vacant parts formed in the second material distributing plate pieces 32, the second material distributing support 331 is fixedly installed on the rack, and four second material distributing channels which are sequentially arranged along the direction a are respectively marked as A, B, B. C, D material distributing channel, the distance between the feeding ends of the two first material distributing channels is d1, the distance between the discharging ends of the two first material distributing channels is d2, the distance between the feeding ends of the A, C material distributing channel and the distance between the feeding ends of the B, D material distributing channel are matched with d2, and the distance between the feeding ends of the A, B material distributing channel and the distance between the feeding ends of the C, D material distributing channel are matched with d 1; the first material receiving adjusting portion comprises a first material blocking piece 34, the first material blocking piece 34 is located on the upper side of the first material distributing plate 31, the first material blocking piece 34 is arranged perpendicular to the first material distributing plate 31, the first material blocking piece 34 is installed at one end of a first installing piece 341, the first material blocking piece 34 and the first installing piece 341 are arranged in an L shape, the other end of the first installing piece 341 is rotatably installed on the material distributing bracket 22 through a shaft body, the shaft body is arranged perpendicular to the first material distributing plate 31, an adjusting gear 35 is fixedly installed on the shaft body, an adjusting rack 36 is installed on the first material distributing bracket 33, the adjusting rack 36 and the adjusting gear 35 are assembled in a transmission manner, the length direction of the adjusting rack 36 is consistent with the direction a, when the material distributing channel and one of the first material distributing channels are correspondingly arranged, the first installing piece 341 is arranged in parallel to the correspondingly arranged first material distributing channel, when the first material distributing bracket 33 moves horizontally, the first installing piece 341 is adjusted to rotate, the shaft bodies are correspondingly arranged corresponding to the outlet ends of the discharge channels, and the distance between the first material blocking part 34 and the inlet end of the first material distribution channel is matched with the space size required by the arrangement of the two blanks 10; the second meets material adjustment portion includes two second fender material pieces 38, second fender material piece 38 is located the upside of slope section and is arranged perpendicular to the face of slope section, second fender material piece 38 is installed in the one end of second installed part 39, interval and d2 phase-match between two second fender material pieces 38, second fender material piece 38 and second installed part 39 are the L type and arrange, the other end fixed mounting of second installed part 39 is on first branch material support 33, the interval between second fender material piece 38 and the second branch material passageway entrance point and the required space dimension phase-match of a body 10 of arranging. The rack can be provided with a slide rail arranged along the direction a, the first material distribution support 33 is provided with a slide block, the slide block is in sliding fit with the slide rail, and the first material distribution support 33 is adjusted by an adjusting electric cylinder or an adjusting air cylinder to be connected. The adjusting rack 36 is located on the upper side portion of the adjusting gear 35, and the adjusting rack 36 is mounted on a rack mounting piece 37 fixedly arranged on the first material distributing bracket 33. The rack mount 37 is specifically formed by an L-shaped mounting plate. Thereby adjusting the first mounting member 341 to rotate when the first material dividing bracket 33 moves along the direction a, so that when which first material dividing channel and the tail end of the material discharging channel are adopted for material receiving, the first mounting member 341 is positioned at the upper side of the first material dividing channel and the length directions of the first material dividing channel and the first material dividing channel are arranged in parallel. Thereby realizing the function of reliably determining the number of materials to be taken. The first mounting member 341 and/or the second mounting member 39 are/is provided in a length-adjustable structure, and the first and second mounting members are adjusted to extend and contract according to the size of the blank 10, so as to adapt to different material distribution requirements. The upper plate surfaces of the first and second distributing plate members lift the table-board structure.

As shown in fig. 1 to 4, the above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims (10)

1. The utility model provides a be used for body to change material with changeing material device which characterized in that: the blank discharging and sorting device comprises a discharging unit for discharging and conveying blanks, a distributing unit for distributing and sorting the blanks output by the discharging unit into a row, and a material transferring unit for transferring the blanks in each row to be subsequently processed.

2. The material transferring device for transferring the green bodies according to claim 1, wherein: the material distributing unit is used for dividing the blanks discharged by the material discharging unit into n first groups of first material distributing parts and continuously dividing the n first groups of blanks divided by the first material distributing parts into 2n second groups of second material distributing parts, wherein n is more than or equal to 2.

3. The material transferring device for transferring the green bodies according to claim 2, wherein: n =2, each first group comprising 2 biscuits, each second group comprising 1 biscuit.

4. The transfer device for transferring the green bodies according to claim 3, wherein: the blank comprises an upper part with a large diameter and a lower part with a small diameter, a table top structure is formed at the joint between the upper part and the lower part, the discharging unit comprises a discharging channel which is obliquely arranged, the discharging channel consists of two rows of oppositely arranged material supporting pieces, and the discharging supporting pieces support the table top structure to realize the row-shaped sequencing and conveying of the blank one by one.

5. The transfer device for transferring the green bodies according to claim 3, wherein: the first material distribution part comprises two first material distribution channels which are arranged in an inclined mode and arranged in a splayed mode, and the first material distribution part further comprises an adjusting mechanism which adjusts the two first material distribution channels to be arranged in a sequential extending mode with the material discharge channels respectively so as to carry and divide the blanks sliding down the material discharge channels.

6. The transfer device for transferring the green bodies according to claim 3, wherein: the second material distributing part comprises four second material distributing channels, the four second material distributing channels are arranged in parallel, and the adjusting mechanism is further used for adjusting the two second material distributing channels and the two first material distributing channels in a staggered mode to be arranged in a forward extending mode so as to carry and divide the green bodies sliding down from the first material distributing channels.

7. The transfer device for transferring the green bodies according to claim 6, wherein: the first material receiving adjusting portion regulates and controls the number of the green bodies accepted by the first material distributing channel at each time, and the second material receiving adjusting portion regulates and controls the number of the green bodies accepted by the second material distributing channel at each time.

8. The transfer device for transferring the green bodies according to claim 6, wherein: the second material distributing channel comprises an inclined end and a horizontal section, the upper end of the inclined section is used for being arranged along the lower end of the corresponding first material distributing channel to carry and divide the blank, the front end of the horizontal section is fixedly connected with the lower end of the inclined section, and the tail end of the horizontal section is provided with a material blocking part for preventing the blank from moving out along the length direction of the horizontal section.

9. The transfer device for transferring the green bodies according to claim 6, wherein: the material transferring unit comprises a material transferring shaft which is horizontally arranged, the material transferring shaft is rotatably installed on a lifting seat, the lifting seat is installed on a rack in a lifting mode, the lifting seat is connected with a lifting adjusting piece which is used for adjusting the lifting seat to lift, the material transferring shaft is connected with a rotating adjusting piece, a mounting support is arranged on the material transferring shaft, clamping pieces are arranged on the mounting support at intervals along the length direction of the material transferring shaft, each clamping piece clamps the upper portion of a blank on each horizontal section, so that the blank is taken down from the horizontal section and overturned to a circulating conveying line for subsequent treatment, assembling plugs are arranged on the circulating conveying line at intervals, the upper portion is of a tubular structure, the assembling plugs are in plug-in assembling fit with the upper portion, a material pressing mechanism is further arranged on the upper side of the circulating conveying line, the material pressing mechanism is used for lifting assembling the blank and the assembling plugs in a reliable plug-in assembling mode.

10. The material transferring device for transferring the green bodies according to claim 6, wherein the material transferring support is mounted on a material transferring support, the material transferring support is fixedly mounted on a frame, the first material distributing portion comprises first material distributing plate members arranged obliquely, the first material distributing plate members are fixedly mounted on the first material distributing support, the first material distributing channel is formed by first strip-shaped vacant portions formed on the first material distributing plate members, the first material distributing support is slidably mounted on the frame along a direction a, the direction a is a horizontal direction and is consistent with a spacing direction between the first material distributing channels, the second material distributing portion comprises second material distributing plate members arranged obliquely, the second material distributing plate members are formed by folding plate members, the second material distributing plate members are fixedly mounted on the second material distributing support, the second material distributing channel is formed by second strip-shaped vacant portions formed on the second material distributing plate members, and the second material distributing support is fixedly mounted on the frame, recording four second material distribution channels which are sequentially arranged along the direction a as A, B, C, D material distribution channels respectively, recording the distance between the feeding ends of the two first material distribution channels as d1, recording the distance between the discharging ends of the two first material distribution channels as d2, recording the distance between the feeding ends of the A, C material distribution channels and the distance between the feeding ends of the B, D material distribution channels as d2, and recording the distance between the feeding ends of the A, B material distribution channels and the distance between the feeding ends of the C, D material distribution channels as d 1;

the first material receiving adjusting part comprises a first material blocking part, the first material blocking part is positioned on the upper side of the first material distributing plate and is arranged perpendicular to the first material distributing plate, the first material blocking part is installed at one end of a first installing part, the first material blocking part and the first installing part are arranged in an L shape, the other end of the first installing part is rotatably installed on the material distributing support through a shaft body, the shaft body is arranged perpendicular to the first material distributing plate, an adjusting gear is fixedly installed on the shaft body, an adjusting rack is assembled on the first material distributing support, the adjusting rack and the adjusting gear are assembled in a transmission mode, the length direction of the adjusting rack is consistent with the direction a, the first installing part and a correspondingly arranged first material distributing channel are arranged in parallel when the material distributing channel and one of the first material distributing channels are correspondingly arranged, the first installing part is adjusted to rotate when the first material distributing support moves horizontally, and the shaft body is correspondingly arranged corresponding to the outlet end of the material distributing channel, the distance between the first material blocking part and the inlet end of the first material distributing channel is matched with the space size required by the arrangement of the two blanks;

the second meets material adjustment portion includes two second fender material spares, the face that the second fender material spare is located the upside of slope section and perpendicular to slope section is arranged, the one end at the second installed part is installed to the second fender material spare, interval and d2 phase-match between two second fender material spares, second fender material spare and second installed part are the L type and arrange, the other end fixed mounting of second installed part is on first branch material support, interval and the required space size phase-match of a body of arranging between second fender material spare and the second branch material passageway entrance point.

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