CN108705509B - Automatic zinc equipment of drawing of pottery stick - Google Patents

Abstract

The invention discloses automatic ceramic rod zinc scratching equipment which comprises a workbench, a human-computer interface, a discharging mechanism, a pushing mechanism, a zinc scratching driving mechanism and a storage box, wherein the human-computer interface is arranged on one side of the upper end of the workbench; move again through automatic unloading, impel behind the ejection of compact and draw zinc, receive the material, all process action sets and just need not manual operation on an equipment, and operating efficiency is high, and intensity of labour is little, and the cost of labor is low, draws zinc effectual uniformity high, need not reworking secondary operation, and the yields is high, does not influence product and use effect.

Description

Automatic zinc equipment of drawing of pottery stick

Technical Field

The invention belongs to the field of mechanical equipment, and particularly relates to automatic zinc scratching equipment for a ceramic rod.

Background

The ceramic rod needs to be scratched with zinc at one end in the production process, the ceramic rod after being scratched with zinc can be normally used, at present, the scratching of zinc is manually completed manually, the manual scratching of zinc can meet certain use requirements, but the ceramic rod has the defects of high labor cost, low manual operation efficiency, high labor intensity, uneven scratching effect, poor product consistency, need of reworking and secondary scratching of zinc, low yield and influence on the normal use and use effect of the product.

The invention aims to solve the technical problem of providing the automatic zinc scribing equipment for the ceramic rods, which does not need manual operation, has high operation efficiency, low labor intensity, low labor cost, good zinc scribing effect and consistency, does not need secondary operation of rework, has high yield and does not influence the normal use and use effect of products.

Disclosure of Invention

In order to solve the problems of low manual operation efficiency, high labor intensity, high labor cost, poor zinc scratching effect, poor product consistency, twice Australia reworking, low yield, influence on normal use and use effect of products and the like in the prior art, the invention adopts the following technical scheme:

the invention provides automatic ceramic rod zinc scratching equipment which comprises a workbench, a human-computer interface, a discharging mechanism, a propelling mechanism, a zinc scratching driving mechanism and a storage box, wherein the human-computer interface is arranged on one side of the upper end of the workbench, the discharging mechanism is arranged on the workbench, the discharging mechanism is positioned right below a discharging opening of the discharging mechanism, the propelling mechanism is arranged on one side of the discharging mechanism, the zinc scratching driving mechanism is arranged on the other side of the upper end of the workbench, the zinc scratching mechanism is movably arranged on the zinc scratching driving mechanism and is positioned right in front of the discharging mechanism, and the storage box is arranged on the workbench and is positioned right below the zinc scratching mechanism.

As an improvement of the invention, the blanking mechanism comprises a blanking box, a roller body assembly with a plurality of U-shaped grooves, a coupler and a speed reduction stepping motor, wherein the blanking box is arranged on the roller body assembly, and the speed reduction stepping motor drives the roller body assembly to rotate through the coupling connection.

As a further improvement of the invention, the bottom plates at two sides of the blanking box are inclined, the roller body assembly comprises a roller shaft, a roller body and a blanking groove, the roller body is movably sleeved on the roller shaft, and the roller body is arranged on the blanking groove.

As a further improvement of the invention, the discharging mechanism comprises a charging chute, a discharging port, a stop rod and a stop cylinder, the charging chute is arranged in the charging chute in a penetrating manner, the discharging port is positioned in front of the charging chute, the axes of the discharging port and the discharging port are positioned on the same horizontal line, the discharging port is provided with a stop hole, the stop rod is arranged right above the stop hole of the discharging port, and the stop cylinder drives the stop rod to move.

As a further improvement of the invention, the propelling mechanism comprises a propelling screw rod stepping motor, a push rod assembly and a transmission connecting rod, the push rod assembly is arranged right behind the charging chute, the axes of the push rod assembly and the charging chute are on the same horizontal line, and an output shaft screw rod of the propelling screw rod stepping motor drives the push rod assembly to move through the transmission connecting rod.

As a further improvement of the invention, the zinc scratching driving mechanism comprises a movable seat frame, a movable screw rod stepping motor, a movable connecting rod, a driving motor and a gear set, wherein the movable screw rod stepping motor is arranged on the movable seat frame, the driving motor is in transmission connection with an output shaft screw rod of the movable screw rod stepping motor through the movable connecting rod, and the driving motor drives the gear set to rotate.

As a further improvement of the invention, the zinc scratching mechanism comprises a zinc scratching mounting seat, an optical fiber color code sensor and two groups of zinc scratching components, the zinc scratching mounting seat is in transmission connection with a gear set, the optical fiber color code sensor is arranged at the top of the zinc scratching mounting seat and is in electrical signal communication with a driving motor, the two groups of zinc scratching components are oppositely arranged on the zinc scratching mounting seat in a staggered manner, the zinc scratching components comprise a pen-shaped air cylinder, a bending connecting rod and a zinc conveying sleeve, and the pen-shaped air cylinder drives the zinc conveying sleeve to move through the bending connecting rod.

The invention has the beneficial effects that: move again through automatic unloading, impel behind the ejection of compact and draw zinc, receive the material, all process action sets and just need not manual operation on an equipment, and operating efficiency is high, and intensity of labour is little, and the cost of labor is low, draws zinc effectual uniformity high, need not reworking secondary operation, and the yields is high, does not influence product and use effect.

Drawings

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

Fig. 2 is a schematic front view of the present invention.

Fig. 3 is a front view, cut away and enlarged schematic view of the present invention.

Fig. 4 is a partially enlarged schematic view of the blanking mechanism of the present invention.

FIG. 5 is a schematic view of a transmission connection structure of the zinc scratching driving mechanism and the zinc scratching mechanism in the invention.

Fig. 6 is a partially enlarged schematic view of the zinc scribing mechanism of the present invention.

Detailed Description

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 2, an automatic zinc scratching device for ceramic rods comprises a workbench 1, a human-computer interface 2, a blanking mechanism 3, a discharging mechanism 4, a propelling mechanism 5, a zinc scratching mechanism 6, a zinc scratching driving mechanism 7 and a storage box 8, wherein the human-computer interface 2 is arranged on one side of the upper end of the workbench 1, the blanking mechanism 3 is arranged on the workbench 1, the discharging mechanism 4 is positioned under a discharging opening of the blanking mechanism 3, the propelling mechanism 5 is arranged on one side of the discharging mechanism, the zinc scratching driving mechanism 7 is arranged on the other side of the upper end of the workbench 1, the zinc scratching mechanism 6 is movably arranged on the zinc scratching driving mechanism 7 and positioned right in front of the discharging mechanism 4, and the storage box 8 is arranged on the workbench 1 and positioned under the zinc scratching mechanism 6.

Referring to fig. 3, the discharging mechanism 3 (as shown in fig. 4) includes a discharging box 31, a roller assembly 32 with a plurality of U-shaped grooves, a coupler 33 and a decelerating stepping motor 34, the discharging box 31 is disposed on the roller assembly 32, the decelerating stepping motor 34 is connected to drive the roller assembly 32 to rotate through the coupler 33, bottom plates on two sides of the discharging box 31 are inclined, the roller assembly 32 includes a roller shaft 321, a roller body 322 and a discharging groove 323, the roller body 322 is movably sleeved on the roller shaft 321, the roller body 322 is disposed on the discharging groove 323, during operation, the discharging box is manually placed in advance, since the bottom plates on two sides of the discharging box are inclined, the product smoothly enters the U-shaped grooves under self weight, no collision, blocking and the like occur, thereby ensuring normal discharging, after the product enters the U-shaped grooves, the decelerating stepping motor drives the roller shaft and the roller body to rotate through the coupler, when the roller body rotates at the feed opening of the feed chute, the product enters the discharge mechanism from the feed opening.

In the invention, the discharging mechanism 4 comprises a charging chute 41, a discharging port 42, a stop rod 43 and a stop cylinder 44, the charging chute 41 is arranged in the discharging chute 323 in a penetrating manner, the discharging port 42 is positioned in front of the charging chute 41, the axis of the discharging port is on the same horizontal line, the discharging port 42 is provided with a stop hole 45, the stop rod 43 is arranged right above the stop hole 45 of the discharging port 42, the stop cylinder 44 drives the stop rod 43 to move, a product falls into the charging chute from the discharging port of the charging chute, and is pushed forward by the pushing mechanism to a preset position, the stop cylinder drives the stop rod to pass through the stop hole to press the product tightly, so that the product is kept still, the subsequent zinc marking operation is convenient, and the charging chute, the discharging port and a push rod of the pushing mechanism are all on the same horizontal line, so that the normal operation of discharging and pushing is ensured, and the.

In the invention, the propelling mechanism 5 comprises a propelling screw rod stepping motor 51, a push rod assembly 52 and a transmission connecting rod 53, the push rod assembly 52 is arranged right behind the charging chute 41, the axes of the push rod assembly 52 are on the same horizontal line, an output shaft screw rod of the propelling screw rod stepping motor 51 drives the push rod assembly 52 to move through the transmission connecting rod 53, the push rod assembly moves forwards and simultaneously pushes a product in the charging chute to move forwards to a preset position, and the pushing is completed.

In the invention, the zinc scribing driver 7 comprises a movable seat frame 71, a movable lead screw stepping motor 72, a movable connecting rod 73, a driving motor 74 and a gear set 75, the movable lead screw stepping motor 72 is arranged on the movable seat frame 71, the driving motor 74 is in transmission connection with an output shaft lead screw of the movable lead screw stepping motor 72 through the movable connecting rod 73, the driving motor 74 drives the gear set 75 to rotate, the zinc scribing mechanism 6 (shown in fig. 6) comprises a zinc scribing mounting seat 61, an optical fiber color code sensor 62 and two zinc scribing assemblies 63, the zinc scribing mounting seat 61 is in transmission connection with the gear set 75 (shown in fig. 5), the optical fiber color code sensor 62 is arranged at the top of the zinc scribing mounting seat 61 and is in electrical signal communication with the driving motor 74, the two zinc scribing assemblies 63 are oppositely and staggeredly arranged on the zinc scribing mounting seat 61, and the zinc scribing assembly 63 comprises a pen-shaped cylinder 631, The pen-shaped air cylinder 631 drives the zinc conveying sleeve 633 to move through the bending connecting rod 632, a product is pushed to the right position through the pushing mechanism and is kept still after being stopped by the stopper rod, zinc is pre-loaded into the zinc conveying sleeve, the driving motor, the gear set and the zinc marking mechanism are driven to a position close to the product by moving the lead screw stepping motor, the lead screw stepping motor is moved to stop, the driving motor is started and drives the zinc marking mechanism to rotate through the gear set, the optical fiber color code sensor aligns the product when the zinc marking mechanism rotates and sends an instruction to the driving motor after the product is aligned, the driving motor stops after receiving the instruction, the pen-shaped air cylinder is started and drives the zinc conveying sleeve to move forwards through the bending connecting rod, zinc inside the zinc can be automatically marked and marked when the zinc conveying sleeve moves forwards, the two groups of zinc marking assemblies simultaneously move to symmetrically and synchronously mark zinc, and the operation efficiency is high, after the zinc scratching operation is finished, the pen-shaped air cylinder returns to the initial position, the lead screw stepping motor is moved to drive the zinc scratching mechanism and the like to return to the initial position, the stopping air cylinder drives the stopping rod to return to the initial position, the pushing mechanism pushes the product forward for a certain distance to enable the product to fall into the storage box, the whole zinc scratching operation is finished, and the follow-up operation is completed by repeating the actions.

The automatic zinc scraping machine has the advantages that all the working procedures are integrated on one device without manual operation through automatic blanking, propelling discharging and then moving zinc scraping and material receiving, the operation efficiency is high, the labor intensity is low, the labor cost is low, the zinc scraping effect is good, the consistency is high, the reworking secondary operation is not needed, the yield is high, and the use effect of products are not influenced.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims (3)

1. The utility model provides an automatic zinc equipment of drawing of ceramic rod which characterized in that: including workstation (1), human-computer interface (2), unloading mechanism (3), discharge mechanism (4), advancing mechanism (5), draw zinc mechanism (6), draw zinc actuating mechanism (7) and storage box (8), workstation (1) upper end one side is located in human-computer interface (2), unloading mechanism (3) set up on workstation (1), discharge mechanism (4) are located under the feed opening of unloading mechanism (3), discharging mechanism (4) one side is located in advancing mechanism (5), draw zinc actuating mechanism (7) and locate workstation (1) upper end opposite side, draw zinc mechanism (6) activity to set up and draw actuating mechanism (7) and be located discharge mechanism (4) dead ahead at zinc, set up on workstation (1) and be located under drawing zinc mechanism (6) in storage box (8), unloading mechanism (3) are including lower magazine (31), Roll body subassembly (32), shaft coupling (33) and speed reduction step motor (34) with a plurality of U type groove, feed box (31) sets up on roll body subassembly (32) down, speed reduction step motor (34) are connected through shaft coupling (33) and are driven roll body subassembly (32) and rotate, feed box (31) both sides bottom plate is the slope form down, roll body subassembly (32) include roller (321), roll body (322) and feed chute (323), roll body (322) activity cover is established on roller (321), feed chute (323) sets up on roll body (322) down, discharge mechanism (4) include feed chute (41), discharge gate (42), stop stick (43) and locking cylinder (44), feed chute (41) wear to establish in feed chute (323 down, discharge gate (42) are located feed chute (41) dead ahead and the axle center is on same water flat line, a stop hole (45) is arranged on the discharge hole (42), the stop rod (43) is arranged right above the stop hole (45) of the discharge hole (42), the stop cylinder (44) drives the stop rod (43) to move, the zinc scribing mechanism (6) comprises a zinc scribing mounting seat (61), an optical fiber color scale sensor (62) and two groups of zinc scribing components (63), the zinc scribing mounting seat (61) is connected to the gear set (75) in a transmission way, the optical fiber color code sensor (62) is arranged at the top of the zinc scribing mounting seat (61) and is electrically communicated with the driving motor (74) through signals, the two groups of zinc scribing components (63) are oppositely and staggeredly arranged on the zinc scribing mounting seat (61), the zinc scratching component (63) comprises a pen-shaped cylinder (631), a bending connecting rod (632) and a zinc feeding sleeve (633), the pen-shaped air cylinder (631) drives the zinc feeding sleeve (633) to move through the bending connecting rod (632).

2. The automatic ceramic rod zinc scribing equipment as claimed in claim 1, wherein: advancing mechanism (5) are including propelling screw rod step motor (51), push rod subassembly (52) and transmission connecting rod (53), directly back and axle center are located charging chute (41) on same water flat line in push rod subassembly (52), the output shaft lead screw that advances screw rod step motor (51) passes through transmission connecting rod (53) and drives push rod subassembly (52) motion.

3. The automatic ceramic rod zinc scribing equipment as claimed in claim 1, wherein: the zinc scratching driving mechanism (7) comprises a movable seat frame (71), a movable screw rod stepping motor (72), a movable connecting rod (73), a driving motor (74) and a gear set (75), wherein the movable screw rod stepping motor (72) is arranged on the movable seat frame (71), the driving motor (74) is in transmission connection with an output shaft screw rod of the movable screw rod stepping motor (72) through the movable connecting rod (73), and the driving gear set (75) is driven by the driving motor (74) to rotate.

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