CN217376257U - Wet blank conveying device of honeycomb ceramic wet blank and foam tool overturning separator - Google Patents

Abstract

The utility model relates to a wet base conveyer of wet base of honeycomb pottery and foam frock upset separating centrifuge uses with the wet base of honeycomb pottery foam frock upset separating centrifuge is supporting, is applicable to the foam frock and the wet base of honeycomb pottery quick upset autosegregation that the horizontal high-speed automatic cutting machine of wet base of honeycomb pottery passed through the wet base of honeycomb pottery conveying and born. Comprises a machine base and a honeycomb ceramic wet blank conveying device; the honeycomb ceramic wet blank conveying device is arranged on a base at one side of the honeycomb ceramic wet blank and foam tool separation device, and the honeycomb ceramic wet blank is conveyed to the next drying process through the conveying belt; the wet blank conveyer of honeycomb pottery include elevating platform, lift guiding axle, elevating platform drive motor, lifting drive rack, lifting gear, a plurality of conveyer belt mounting bracket, many conveyer belts, conveyer belt drive motor, drive motor synchronizing wheel, drive hold-in range, main drive roller synchronizing wheel, many initiative driving rollers, many driven driving rollers and shaft coupling.

Description

Wet blank conveying device of honeycomb ceramic wet blank and foam tool overturning separator

Technical Field

The utility model relates to a wet base conveyer of wet base of honeycomb pottery and foam frock upset separating centrifuge uses with the wet base of honeycomb pottery foam frock upset separating centrifuge is supporting, is applicable to the foam frock and the wet base of honeycomb pottery quick upset autosegregation that the horizontal high-speed automatic cutting machine of wet base of honeycomb pottery passed through the wet base of honeycomb pottery conveying and born.

Background

The honeycomb ceramic is porous industrial ceramic, the interior of the honeycomb ceramic is divided into triangular, square or hexagonal parallel channels by thin walls, the specific surface area is large, the exhaust resistance is small, the honeycomb ceramic is an ideal carrier and a mainstream product of the current three-way catalyst for purifying the automobile exhaust, and the cross section of the honeycomb ceramic is mostly circular, oval, rectangular or racetrack-shaped and the like.

The honeycomb ceramic blank is produced by extrusion molding with a honeycomb ceramic molding machine, and the honeycomb ceramic material after extrusion molding is a honeycomb ceramic wet blank material. Before drying and shaping, the honeycomb ceramic wet blank material needs to be cut into multiple sections to form the required length, and the honeycomb ceramic wet blank material is easy to deform and damage in the processes of transmission, cutting and conveying and influences the product quality. In addition, the prior honeycomb ceramic cutting machine has lower production efficiency and can not meet the requirement of industrial automatic production.

The existing honeycomb ceramic wet blank automatic cutting machine takes a honeycomb ceramic wet blank off from a foam tool after cutting the wet blank, and the honeycomb ceramic wet blank is arranged on a support plate, and is manually carried out, so that the workload is large, the labor is wasted, the work efficiency is low, particularly, each large-size honeycomb ceramic wet blank has the weight of several kilograms, after the honeycomb ceramic wet blank is separated from the foam tool, the honeycomb ceramic wet blank needs to be manually carried and placed on an extruding support plate of an extruder, a large amount of labor and time are also consumed, and the honeycomb ceramic wet blank is easily damaged, so that the honeycomb ceramic wet blank is not suitable for large-scale industrial automatic production.

Therefore, a device for overturning and separating the honeycomb ceramic wet blank from the foam tool needs to be designed.

Disclosure of Invention

The utility model aims at the above-mentioned weak point provide a wet base conveyer of wet base of honeycomb pottery and foam frock upset separating centrifuge, with the supporting use of wet base foam frock upset separating centrifuge of honeycomb pottery, be equipped with frame, the wet base conveyer of honeycomb pottery, be applicable to the horizontal high-speed automatic cutting machine of the wet base of honeycomb pottery and pass through the foam frock and the wet base quick upset autosegregation of honeycomb pottery that bear of the weight of wet base conveying of honeycomb pottery comes, quick conveying.

The wet blank conveying device of the honeycomb ceramic wet blank and foam tool overturning separator is realized by adopting the following technical scheme:

the wet blank conveying device of the honeycomb ceramic wet blank and foam tool overturning separator comprises a machine base and a honeycomb ceramic wet blank conveying device.

The honeycomb ceramic wet blank conveying device is arranged on a machine base on one side of the honeycomb ceramic wet blank and the foam tool separating device, and the honeycomb ceramic wet blank is conveyed to the next drying process through the conveying belt.

The base is provided with two photoelectric sensor mounting rods, and the photoelectric sensors are mounted on the upper portions of the photoelectric sensor mounting rods and connected with the PLC for detecting the overturning separation condition of the honeycomb ceramic wet blank and the foam tool on the material supporting clamping plate.

The machine base is provided with a limiting sensor mounting rod, the upper part of the limiting sensor mounting rod is provided with an upper limiting sensor, the lower part of the limiting sensor mounting rod is provided with a lower limiting sensor, and the upper limiting sensor and the lower limiting sensor are connected with a PLC (programmable logic controller) and used for controlling the lifting position of a lifting workbench of the honeycomb ceramic wet blank conveying device.

The wet blank conveyer of honeycomb pottery include elevating platform, lift guiding axle, elevating platform drive motor, lifting drive rack, lifting gear, a plurality of conveyer belt mounting bracket, many conveyer belts, conveyer belt drive motor, drive motor synchronizing wheel, drive hold-in range, main drive roller synchronizing wheel, many initiative driving rollers, many driven driving rollers and shaft coupling.

The lifting workbench is arranged on the front base of the honeycomb ceramic wet blank and the tool separation device through a lifting guide shaft and a lifting rack. After the honeycomb ceramic wet blank is separated from the tool separating device, the supporting plates on the plurality of material supporting clamping plates and the honeycomb ceramic wet blank are respectively output to the plurality of conveying belts.

A plurality of conveyor belt mounting frames correspond to the material supporting clamping plates mounted on the outer shafts and are respectively mounted on a lifting workbench, a driving transmission roller and a driven transmission roller are respectively mounted at two ends of the conveyor belt mounting frames, the conveyor belts are sleeved on the driving transmission roller and the driven transmission roller, a conveyor belt transmission motor is mounted at one side of the lifting workbench, a transmission motor synchronizing wheel is mounted on an output shaft of the conveyor belt transmission motor, a main transmission roller synchronizing wheel is mounted at the end part of the driving transmission roller close to one side of the conveyor belt transmission motor, a transmission synchronous belt is sleeved on the transmission motor synchronizing wheel and the main transmission roller synchronizing wheel, two adjacent driving transmission rollers are connected through a coupler, the conveyor belt transmission motor transmits a plurality of main transmission rollers through the transmission motor synchronizing wheel, the transmission synchronous belt, the main transmission roller synchronizing wheel transmits a plurality of conveyor belts, a plurality of driven transmission rollers and a plurality of conveyor belts, and the plurality of conveyor belts convey the supporting plates, accept the honeycomb ceramic wet blank, separate the honeycomb ceramic wet blank from the material supporting clamping plate of the tool separation device, and convey the supporting plates and the borne honeycomb ceramic wet blank to the next drying process.

The lifting workbench transmission motor is arranged at the lower part of the lifting workbench, a lifting gear is arranged on an output shaft of the lifting workbench transmission motor, and the lifting gear is meshed with the lifting transmission rack.

Under the control of a PLC (programmable logic controller), a lifting workbench transmission motor is started to pass through a lifting gear, when a lifting transmission rack drives a lifting workbench to rise to the position of an upper limiting sensor, a conveyor belt upper supporting plate is transferred to a material supporting clamping plate arranged on an outer shaft to receive separated honeycomb ceramic wet blanks, and then a conveyor belt transmission motor is started to drive a plurality of conveyor belts to convey the honeycomb ceramic wet blanks to a next drying process.

The transmission motor of the lifting working table is started to rotate reversely, when the lifting working table is driven to descend to the position of the lower limit sensor through the lifting gear and the lifting transmission rack, the conveyor belt receives the supporting plate, the transmission motor of the lifting working table is started to drive the lifting working table to ascend to the position of the upper limit sensor through the lifting gear and the lifting transmission rack, and the supporting plate is conveyed to the material supporting clamping plate to receive and separate the honeycomb ceramic wet blank so as to repeatedly and circularly work.

The honeycomb ceramic wet blank and foam tool overturning separator is matched with an electrical control cabinet, and the electrical control cabinet is provided with electrical control devices such as an electrical control switch, a display screen, an alternating current contactor, a relay, a PLC (programmable logic controller), a motor controller and the like and is used for automatically controlling the honeycomb ceramic wet blank and foam tool overturning separator.

The wet blank conveying device of the honeycomb ceramic wet blank and foam tool overturning separator is matched with the honeycomb ceramic wet blank foam tool overturning separator for use, is reasonable in design and compact in structure, is provided with the base and the honeycomb ceramic wet blank conveying device, and is suitable for a honeycomb ceramic wet blank horizontal high-speed automatic cutting machine to realize quick overturning and automatic separation and quick conveying of a foam tool and a honeycomb ceramic wet blank piece which are borne by the honeycomb ceramic wet blank.

Because the device for separating the honeycomb ceramic wet blank from the foam tool of the honeycomb ceramic wet blank and foam tool overturning separator is provided with a motor mounting bracket, an inner shaft overturning transmission motor, an inner shaft connecting piece, a bearing mounting seat, an inner shaft overturning worktable, a plurality of tool clampers, an outer shaft, a plurality of material supporting clamping plates, an outer shaft overturning transmission motor, a motor synchronizing wheel, an outer shaft synchronizing belt, an outer shaft synchronizing wheel and an inner shaft connecting bearing, the inner shaft overturning worktable can bear a plurality of honeycomb ceramic wet blanks at a time, the foam tools and the honeycomb ceramic wet blanks borne by the honeycomb ceramic wet blank horizontal high-speed automatic cutting machine are clamped and fixed on the inner shaft overturning worktable in the overturning separation process, and the honeycomb ceramic wet blanks borne by the foam tools are separated onto a supporting plate on the material supporting clamping plates and transferred onto the honeycomb ceramic wet blank conveying device, realize quick upset autosegregation.

Because the wet blank conveyer of honeycomb pottery is provided with elevating platform, the lift guiding axle, elevating platform driving motor, the lifting gear rack, the lifting gear, a plurality of conveyer belt mounting brackets, many conveyer belts, conveyer belt driving motor, the driving motor synchronizing wheel, the drive hold-in range, the main drive roller synchronizing wheel, many initiative driving rollers, many driven driving rollers and shaft coupling, can convey the tray fast through many conveyer belts on the material cardboard that holds in the palm, accept the wet blank of honeycomb pottery and separate the wet blank of honeycomb pottery with the separation of foam frock separation device, after the wet blank of honeycomb pottery on the material cardboard that holds in the palm, convey the next stoving process through the wet blank conveyer of honeycomb pottery fast.

The turnover separator for the honeycomb ceramic wet blank and the foam tool has high working efficiency and can ensure that a honeycomb ceramic wet blank piece cannot be damaged.

The honeycomb ceramic wet blank and foam tool overturning separator realizes automatic operation according to an industrial automatic control program under the control of a PLC (programmable logic controller), does not need to consume manpower, and is suitable for the requirement of large-scale industrial automatic production.

Drawings

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

FIG. 1 is a schematic diagram of a turning separator of a honeycomb ceramic wet blank and foam tool.

Fig. 2 is a schematic structural diagram of a separating device of a honeycomb ceramic wet blank and a foam tool of a honeycomb ceramic wet blank and foam tool overturning separator.

FIG. 3 is a bottom view of a device for separating a wet honeycomb ceramic blank from a foam tool of a honeycomb ceramic wet blank and foam tool turnover separator.

FIG. 4 is a schematic structural diagram of a honeycomb ceramic wet blank conveying device of a honeycomb ceramic wet blank and foam tool overturning separator.

FIG. 5 is a bottom view of the honeycomb ceramic wet blank conveyor of the honeycomb ceramic wet blank and foam tooling inversion separator.

In the figure: 1. the device comprises a base, 2, a honeycomb ceramic wet blank and foam tool separation device, 3, a honeycomb ceramic wet blank conveying device, 4, a limiting sensing installation rod, 5, a photoelectric sensor installation rod, 6, a foam tool, 7, a honeycomb ceramic wet blank, 8 and a supporting plate;

2-1, a motor mounting bracket, 2-2, an inner shaft, 2-3, an inner shaft overturning transmission motor, 2-4, an inner shaft connecting piece, 2-5, a bearing mounting seat, 2-6, an inner shaft overturning workbench, 2-7, a plurality of tool clamping devices, 2-8, an outer shaft, 2-9, a plurality of material supporting clamping plates, 2-10, an outer shaft overturning transmission motor, 2-11, a motor synchronous wheel, 2-12, an outer shaft synchronous belt, 2-13, an outer shaft synchronous wheel, 2-14 and an inner shaft connecting bearing;

2-7-1 parts of clamping clips, 2-7-2 parts of reset springs, 2-7-3 parts of tool clamping transmission motors, 2-7-4 parts of tool clamping transmission shafts, 2-7-5 parts of speed reducers, 2-7-6 parts of tool clamping transmission screw rods, 2-7-7 parts of transmission nuts, 2-7-8 parts of sliding plates, 2-7-9 parts of sliding guide rails;

3-1 parts of a lifting workbench, 3-2 parts of a lifting guide shaft, 3-3 parts of a lifting workbench transmission motor, 3-4 parts of a lifting transmission rack, 3-5 parts of a lifting gear, 3-6 parts of a conveyor belt mounting frame, 3-7 parts of a conveyor belt, 3-8 parts of a conveyor belt transmission motor, 3-9 parts of a transmission motor synchronous wheel, 3-10 parts of a transmission synchronous belt, 3-11 parts of a main transmission roller synchronous wheel, 3-12 parts of a plurality of driving transmission rollers, 3-13 parts of a plurality of driven transmission rollers, 3-14 parts of a coupler;

4-1, an upper limit sensor, 4-2 and a lower limit sensor; 5-1 and a photoelectric sensor.

Detailed Description

Referring to the attached drawings 1-5, the turnover separator for the honeycomb ceramic wet blank and the foam tool comprises a machine base 1, a honeycomb ceramic wet blank and foam tool separating device 2 and a honeycomb ceramic wet blank conveying device 3.

The device for separating the honeycomb ceramic wet blank from the foam tool is arranged on the base 1 and used for automatically separating the honeycomb ceramic wet blank 7 from the foam tool 6.

The honeycomb ceramic wet blank conveying device 3 is installed on the machine base 1 on one side of the honeycomb ceramic wet blank and the foam tool separating device 2, and the honeycomb ceramic wet blank is conveyed to the next drying process through the conveying belt.

The base 1 is provided with two photoelectric sensor mounting rods 5, and the photoelectric sensors 5-1 are mounted on the upper parts of the photoelectric sensor mounting rods 5 and connected with a PLC (programmable logic controller) and used for detecting the overturning separation condition of the honeycomb ceramic wet blank and the foam tool on the material supporting clamping plate.

The machine base 1 is provided with a limiting sensor mounting rod 4, the upper part of the limiting sensor mounting rod 4 is provided with an upper limiting sensor 4-1, the lower part of the limiting sensor mounting rod 4 is provided with a lower limiting sensor 4-2, and the upper limiting sensor 4-1 and the lower limiting sensor 4-2 are connected with a PLC (programmable logic controller) and used for controlling the lifting position of a lifting workbench of the honeycomb ceramic wet blank conveying device 3.

The device 2 for separating the honeycomb ceramic wet blank from the foam tool comprises a motor mounting bracket 2-1, an inner shaft 2-2, an inner shaft overturning transmission motor 2-3, an inner shaft connecting piece 2-4, a bearing mounting seat 2-5, an inner shaft overturning workbench 2-6, a plurality of tool clamping devices 2-7, an outer shaft 2-8, a plurality of material supporting clamping plates 2-9, an outer shaft overturning transmission motor 2-10, a motor synchronous wheel 2-11, an outer shaft synchronous belt 2-12, an outer shaft synchronous wheel 2-13 and an inner shaft connecting bearing 2-14.

The inner shaft overturning transmission motor 2-3 and the outer shaft overturning transmission motor 2-10 both adopt servo motors.

Two ends of the inner shaft 2-2 are mounted on the upper portion of the machine base 1 through bearing mounting seats 2-5, an inner shaft overturning transmission motor 2-3 is mounted at one end of the machine base 1 through a motor mounting support 2-1, an output shaft of the inner shaft overturning transmission motor is connected with the inner shaft 2-2, an inner shaft overturning worktable 2-6 is fixed on the upper portion of the inner shaft 2-2, and a plurality of tool clamping devices 2-7 are arranged on the inner shaft overturning worktable 2-6 and used for clamping a foam tool 6 to facilitate separation of a honeycomb ceramic wet blank 7 and the foam tool 6.

The tool clamping device 2-7 comprises a clamping clamp 2-7-1, a return spring 2-7-2, a tool clamping transmission motor 2-7-3, a tool clamping transmission shaft 2-7-4, a speed reducer 2-7-5, a tool clamping transmission screw rod 2-7-6, a transmission nut 2-7-7, a sliding plate 2-7-8 and a sliding guide rail 2-7-9.

A tool clamping transmission shaft 2-7-4 is arranged at the lower part of an inner shaft overturning worktable 2-6, a tool clamping transmission motor 2-7-3 is arranged at one side of the inner shaft overturning worktable 2-6, a work clamping transmission motor 2-7-3 rotating-out shaft is connected with the tool clamping transmission shaft 2-7-4, a tool clamping transmission screw 2-7-6 is arranged at the lower part of the inner shaft overturning worktable 2-6, a sliding guide rail 2-7-9 is arranged on the inner shaft overturning worktable 2-6, a transmission nut 2-7-7 is arranged at the lower part of a sliding plate 2-7-8 and is matched and connected with the tool clamping transmission screw 2-7-6, a clamping clamp 2-7-1 and a reset spring 2-7-2 are arranged at the front end of the sliding plate 2-7-8, a sliding plate 2-7-8 can slide along a sliding guide rail 2-7-9 under the drive of a tool clamping drive screw rod 2-7-6, a clamping clamp 2-7-1 is clamped at the upper part of the sliding plate 2-7-8 to clamp a foam tool 6, the foam tool is clamped and fixed on an inner shaft overturning worktable 2-6 in the overturning and separating process, and a honeycomb ceramic wet blank 7 borne by the foam tool 6 is separated onto a supporting plate 8 on a material supporting clamping plate 2-9 and transferred onto a honeycomb ceramic wet blank conveying device 3.

The tool clamping transmission shafts 2-7-4 are respectively connected with tool clamping transmission screw rods 2-7-6 through a plurality of speed reducers 2-7-5 in a synchronous transmission manner, the tool clamping transmission shafts 2-7-4 are respectively connected with the tool clamping transmission screw rods 2-7-6 through transmission nuts 2-7-7 and sliding plates 2-7-8 to clamp the foam tool 6 which is conveyed by the honeycomb ceramic wet blank conveying and transferring machine and bears the ceramic wet blank 7, after the honeycomb ceramic wet blank 7 and the foam tool 6 are overturned and separated, the inner shaft overturning worktable 2-6 rotates to a horizontal state under the transmission of the inner shaft overturning transmission motor 2-3, the tool clamping transmission shafts 2-7-4 are reversely transmitted by the tool clamping transmission motor 2-7-3 under a PLC programmable controller, and the tool clamping transmission screw rods 2-7-6 are reversely rotated, the tool clamping clips 2-7-1 are reset under the action of the reset springs 2-7-2, the tool clamping clips 2-7-1 are loosened, and the matched manipulator shifting device of the honeycomb ceramic wet blank conveying shifting machine shifts the foam tool 6 to the foam tool return belt for the honeycomb ceramic extruder to use.

The outer shafts 2-8 are outer shaft sleeves, two ends of the outer shafts 2-8 are movably connected to two ends of the inner shafts 2-2 through inner shaft connecting bearings 2-14, semicircular notches are formed in the parts, corresponding to the inner shaft overturning workbenches 2-6, of the outer shafts 2-8, a plurality of material supporting clamping plates 2-9 are respectively fixed on the outer shaft sleeves with the semicircular notches, and the mounting positions and the number of the supporting plate clamping plates 2-9 correspond to those of the tool clamping devices 2-7 mounted on the inner shaft overturning workbenches 2-6. An outer shaft overturning transmission motor 2-10 is arranged on a machine base 1 on one side of an inner shaft overturning transmission motor 2-3 through a motor mounting rack, a motor synchronous wheel 2-11 is arranged on an output shaft of the outer shaft overturning transmission motor 2-10, an outer shaft synchronous wheel 2-12 is arranged at the end part, close to one end of the inner shaft overturning transmission motor 2-3, of an outer shaft, an outer shaft synchronous belt 2-13 is sleeved on the motor synchronous wheel 2-11 and the outer shaft synchronous wheel 2-12, an outer shaft 2-8 is driven through the outer shaft overturning transmission motor 2-10 to drive a material supporting clamping plate 2-9 on the outer shaft and a supporting plate 8 arranged on the material supporting clamping plate 2-9, and a honeycomb ceramic wet blank 7 separated by overturning an inner shaft overturning workbench is received by rotating for 90 degrees.

The wet blank conveying device of the honeycomb ceramic wet blank and foam tool overturning separator comprises a machine base 1 and a honeycomb ceramic wet blank conveying device 3.

The honeycomb ceramic wet blank conveying device 3 comprises a lifting workbench 3-1, a lifting guide shaft 3-2, a lifting workbench transmission motor 3-3, a lifting transmission rack 3-4, a lifting gear 3-5, a plurality of conveyor belt mounting frames 3-6, a plurality of conveyor belts 3-7, a conveyor belt transmission motor 3-8, a transmission motor synchronizing wheel 3-9, a transmission synchronous belt 3-10, a main transmission roller synchronizing wheel 3-11, a plurality of driving transmission rollers 3-12, a plurality of driven transmission rollers 3-13 and a coupler 3-14.

The lifting workbench 3-1 is arranged on the base 1 at the front part of the honeycomb ceramic wet blank and tool separation device 2 through a lifting guide shaft 3-2 and a lifting rack 3-4. After the honeycomb ceramic wet blank is separated from the tool separation device 2, the supporting plates 8 on the plurality of material supporting clamping plates 2-9 and the honeycomb ceramic wet blank 7 are respectively output to the plurality of conveyor belts 3-7.

A plurality of conveyor belt mounting frames 3-6 correspond to the material supporting clamping plates 2-9 mounted on the outer shafts 2-8 and are respectively mounted on a lifting workbench 3-1, driving transmission rollers 3-12 and driven transmission rollers 3-13 are respectively mounted at two ends of the conveyor belt mounting frames 3-6, conveyor belts 3-7 are sleeved on the driving transmission rollers 3-12 and the driven transmission rollers 3-13, a conveyor belt transmission motor 3-8 is mounted at one side of the lifting workbench 3-1, a transmission motor synchronizing wheel 3-9 is mounted on an output shaft of the conveyor belt transmission motor 3-8, a main transmission roller synchronizing wheel 3-11 is mounted at the end part of the driving transmission roller 3-12 close to one side of the conveyor belt transmission motor 3-9, a transmission synchronous belt 3-10 is sleeved on the transmission motor synchronizing wheel 3-9 and the main transmission roller synchronizing wheel 3-11, two adjacent driving rollers 3-12 are connected through a coupler 3-14, a conveyor belt driving motor 3-8 drives a plurality of driving rollers 3-12 through a driving motor synchronizing wheel 3-9, a driving synchronous belt 3-10 and a driving roller synchronizing wheel 3-11, the plurality of driving rollers 3-12 respectively drive a plurality of conveyor belts 3-7, a plurality of driven driving rollers 3-13 and a plurality of conveyor belts 3-7, the plurality of conveyor belts 3-7 convey a supporting plate 8, the honeycomb ceramic wet blank 7 is separated from a material supporting clamping plate of a tool separating device, and then the supporting plate 8 and the borne honeycomb ceramic wet blank 7 are conveyed to a next drying process.

The lifting workbench transmission motor 3-3 is arranged at the lower part of the lifting workbench 3-1, a lifting gear 3-5 is arranged on an output shaft of the lifting workbench transmission motor, and the lifting gear 3-5 is meshed with the lifting transmission rack 3-4.

Under the control of a PLC (programmable logic controller), a lifting workbench transmission motor 3-3 is started, a lifting transmission rack 3-4 drives a lifting workbench 3-1 to ascend to the position of an upper limit sensor 4-1 through a lifting gear 3-5, an upper supporting plate 8 of a conveyor belt 3-7 is transferred to a material supporting clamping plate 2-9 arranged on an outer shaft 2-8, the separated honeycomb ceramic wet blank 7 is received, and then the conveyor belt transmission motor 3-8 is started to drive a plurality of conveyor belts 3-7 to convey the honeycomb ceramic wet blank 7 to the next drying procedure.

And starting a lifting workbench transmission motor 3-3 to reversely rotate, driving the lifting workbench 3-1 to descend to the position of a lower limit sensor 4-2 through a lifting gear 3-5 and a lifting transmission rack 3-4, enabling a conveyor belt 3-7 to carry a supporting plate 8, driving the lifting workbench transmission motor 3-3 to ascend to the position of an upper limit sensor 4-1 through the lifting gear 3-5 and the lifting transmission rack 3-4, and conveying the supporting plate 8 onto a material supporting clamping plate 2-9 to carry and separate a honeycomb ceramic wet blank 7, and repeatedly and circularly working.

The honeycomb ceramic wet blank and foam tool overturning separator is matched with an electrical control cabinet, and the electrical control cabinet is provided with electrical control devices such as an electrical control switch, a display screen, an alternating current contactor, a relay, a PLC (programmable logic controller), a motor controller and the like and is used for automatically controlling the honeycomb ceramic wet blank and foam tool overturning separator.

Claims (4)

1. A wet blank conveying device of a honeycomb ceramic wet blank and foam tool overturning separator is characterized by comprising a machine base and a honeycomb ceramic wet blank conveying device;

the honeycomb ceramic wet blank conveying device is arranged on a machine base on one side of the honeycomb ceramic wet blank and the foam tool separating device, and the honeycomb ceramic wet blank is conveyed to the next drying process through the conveying belt;

the honeycomb ceramic wet blank conveying device comprises a lifting workbench, a lifting guide shaft, a lifting workbench transmission motor, a lifting transmission rack, a lifting gear, a plurality of conveyor belt mounting frames, a plurality of conveyor belts, a conveyor belt transmission motor, a transmission motor synchronous wheel, a transmission synchronous belt, a main transmission roller synchronous wheel, a plurality of driving transmission rollers, a plurality of driven transmission rollers and a coupler;

the lifting workbench is arranged on a base in the front of the honeycomb ceramic wet blank and tool separation device through a lifting guide shaft and a lifting rack, and after the honeycomb ceramic wet blank is separated from the tool separation device, the support plates on the plurality of material supporting clamp plates and the honeycomb ceramic wet blank are respectively output to a plurality of conveyor belts;

a plurality of conveyor belt mounting frames correspond to the material supporting clamping plates mounted on the outer shafts and are respectively mounted on a lifting workbench, a driving transmission roller and a driven transmission roller are respectively mounted at two ends of the conveyor belt mounting frames, the conveyor belts are sleeved on the driving transmission roller and the driven transmission roller, a conveyor belt transmission motor is mounted at one side of the lifting workbench, a transmission motor synchronizing wheel is mounted on an output shaft of the conveyor belt transmission motor, a main transmission roller synchronizing wheel is mounted at the end part of the driving transmission roller close to one side of the conveyor belt transmission motor, a transmission synchronous belt is sleeved on the transmission motor synchronizing wheel and the main transmission roller synchronizing wheel, two adjacent driving transmission rollers are connected through a coupler, the conveyor belt transmission motor transmits a plurality of main transmission rollers through the transmission motor synchronizing wheel, the transmission synchronous belt, the main transmission roller synchronizing wheel transmits a plurality of conveyor belts, a plurality of driven transmission rollers and a plurality of conveyor belts, and the plurality of conveyor belts convey the supporting plates, accept the honeycomb ceramic wet blank, separate the honeycomb ceramic wet blank from the material supporting clamping plate of the tool separation device, and convey the supporting plates and the borne honeycomb ceramic wet blank to the next drying process.

2. The wet blank conveying device of the honeycomb ceramic wet blank and foam tool overturning separator according to claim 1, wherein the lifting workbench transmission motor is installed at the lower part of the lifting workbench, a lifting gear is installed on an output shaft of the lifting workbench transmission motor, and the lifting gear is meshed with the lifting transmission rack.

3. The wet blank conveying device of the honeycomb ceramic wet blank and foam tool overturning separator according to claim 1, wherein two photoelectric sensor mounting rods are mounted on the machine base, and the photoelectric sensors are mounted on the upper portions of the photoelectric sensor mounting rods and connected with a PLC (programmable logic controller) and used for detecting the overturning separation condition of the honeycomb ceramic wet blank and the foam tool on the material supporting clamping plate.

4. The wet blank conveying device of the honeycomb ceramic wet blank and foam tool overturning separator according to claim 1, wherein a limit sensor mounting rod is mounted on the machine base, an upper limit sensor is mounted on the upper portion of the limit sensor mounting rod, a lower limit sensor is mounted on the lower portion of the limit sensor mounting rod, and the upper limit sensor and the lower limit sensor are connected with a PLC (programmable logic controller) and used for controlling the lifting position of a lifting workbench of the honeycomb ceramic wet blank conveying device.

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