CN217700420U - Ceramic dielectric sheet cleaning machine - Google Patents

Abstract

The utility model discloses a ceramic dielectric piece cleaning machine, its characterized in that: the tray transferring device is installed on the rack, and the tray seat, the cleaning device, the air drying device and the drying device are sequentially installed on the rack along the conveying direction of the tray transferring device. The ceramic dielectric sheet cleaning machine can continuously and automatically clean and dry ceramic dielectric sheets, effectively improves the production efficiency and reduces the production cost.

Description

Ceramic dielectric sheet cleaning machine

Technical Field

The utility model relates to a ceramic dielectric piece production facility, in particular to ceramic dielectric piece cleaning machine.

Background

After the ceramic dielectric sheets (such as ceramic capacitor dielectric sheets and piezoresistor dielectric sheets) are sintered, surface cleaning is required before electrode coating treatment can be performed. At present, the ceramic dielectric sheets are generally cleaned in a manner that after the ceramic dielectric sheets are stacked in a tray for containing, workers hold the tray to shake in a water tank continuously, so that water in the water tank impacts and cleans the ceramic dielectric sheets, and complete cleaning can be ensured by repeated cleaning in a plurality of water tanks; after the cleaning is finished, the tray is also required to be transferred to a drying device by a worker to dry the ceramic dielectric sheet, the cleaning mode is inconvenient to operate and labor-consuming, more manpower is required to be invested, and the working efficiency is low.

Disclosure of Invention

The utility model aims to solve the technical problem that a ceramic dielectric piece cleaning machine is provided, this kind of ceramic dielectric piece cleaning machine can wash and dry the ceramic dielectric piece continuously and automatically, effectively improves production efficiency, reduction in production cost.

In order to solve the technical problems, the technical scheme is as follows:

a ceramic dielectric sheet cleaning machine is characterized in that: the tray transferring device is installed on the rack, and the tray seat, the cleaning device, the air drying device and the drying device are sequentially installed on the rack along the conveying direction of the tray transferring device.

The tray transfer device can sequentially convey the tray which is placed on the tray seat and is provided with the ceramic dielectric sheets to the cleaning device, the air drying device and the drying device.

In the ceramic dielectric sheet cleaning machine, the ceramic dielectric sheet is firstly arranged in the tray, and then the tray is placed on the tray seat; then starting the cleaning machine, transferring the tray from the tray seat to the cleaning device by the tray transferring device, and cleaning the ceramic dielectric sheets in the tray by the cleaning device; after the cleaning is finished, the tray transfer device transfers the tray into the air drying device, and the air drying device carries out air drying on the ceramic dielectric sheets in the tray; after the air drying is completed, the tray transfer device transfers the tray to the drying device, the drying device dries the ceramic dielectric sheets in the tray, the tray transfer device shifts the tray filled with the ceramic dielectric sheets out of the drying device after the drying is completed, the ceramic dielectric sheets complete the whole cleaning, air drying and drying processes, meanwhile, after the ceramic dielectric sheets are cleaned, air drying is firstly carried out to remove most water drops, and the phenomenon that the adjacent ceramic dielectric sheets are adhered together to form waste materials during the subsequent drying is avoided.

In a preferred scheme, the air drying device comprises an air drying groove and an air blowing mechanism, the air drying groove is installed on the rack, the opening of the air drying groove faces upwards, the air blowing mechanism comprises an air blowing frame, a fan and an air blowing frame driving device capable of driving the air blowing frame to move transversely, and the fan and the air blowing frame driving device are respectively installed on the rack; the frame of blowing sets up at the opening part of air-drying the groove, and the air outlet of fan is linked together with the air intake of frame of blowing, and the air outlet of frame of blowing is towards the below. When the ceramic dielectric sheet is cleaned and needs to be air-dried, the air blowing frame driving device firstly drives the air blowing frame to move away from the opening of the air drying groove (to one side of the air drying groove), and then the tray transferring device transfers the tray into the air drying groove; then the blowing frame driving device drives the blowing frame to move right above the air drying groove, and air blown out by the fan blows the ceramic dielectric sheets in the tray through an air outlet of the blowing frame. Generally, during the air drying process, the air blowing frame driving device can drive the air blowing frame to perform a plurality of reciprocating movements, so as to uniformly air-dry the ceramic dielectric sheet.

In a further preferred scheme, the blowing frame comprises a frame and at least one blowing pipeline, the frame is installed at the power output end of the blowing frame driving device, the blowing pipelines are installed on the frame, and air outlets of the blowing frame are all arranged on the blowing pipelines.

In a further preferred scheme, the blowing frame driving device adopts an air cylinder, and a piston rod of the air cylinder is connected with the blowing frame; the lateral wall of the air drying groove is provided with a transverse opening for the air drying frame to pass through, the upper end of the lateral wall of the air drying groove is provided with two transverse guide rails, the two transverse guide rails are respectively arranged on two sides of the transverse opening, the extending direction of the transverse guide rails is the same as the extending direction of a piston rod of the air cylinder, and the air drying frame is provided with a guide wheel matched with the transverse guide rails. The transverse guide rails can be arranged on the front side and the rear side of the air drying groove (the transverse opening is arranged on the left side wall or the right side wall of the air drying groove at the moment), and can also be arranged on the left side and the right side of the air drying groove (the transverse opening is arranged on the front side wall or the rear side wall of the air drying groove at the moment), the air cylinder pushes the air blowing frame, the guide wheel on the air blowing frame moves along the transverse guide rails, and therefore the air blowing frame moves along the transverse guide rails. Typically, the blow rack is also optionally positioned for lateral movement above the air drying slot (i.e., the blow rack is generally above the air drying slot).

In a preferred scheme, the cleaning device comprises at least one ultrasonic cleaning device, the ultrasonic cleaning device comprises an ultrasonic generator, an ultrasonic transducer and a cleaning pool, the ultrasonic generator and the cleaning pool are respectively arranged on the rack, and the ultrasonic transducer is arranged right below the cleaning pool. Generally, the ultrasonic cleaning device further comprises a water supply pump and a water suction pump, wherein a water outlet of the water supply pump is communicated with a water inlet of the cleaning pool through a water pipe, and a water inlet of the water suction pump is communicated with a water outlet of the cleaning pool through a water pipe; the water inlet of feed water pump, the delivery port of suction pump all communicate with a water supply installation, realize the cyclic utilization of water (can be equipped with filter equipment between the delivery port of suction pump and the water supply installation for the granule of filtering aquatic). When the ceramic dielectric sheet is cleaned, a high-frequency oscillation signal sent by the ultrasonic generator is converted into high-frequency mechanical oscillation through the ultrasonic transducer and is transmitted into water, and the ceramic dielectric sheet in the tray is cleaned.

In a further preferred scheme, the number of the ultrasonic cleaning devices is three, and the three cleaning tanks are sequentially arranged along the conveying direction of the tray transfer device. The ceramic dielectric sheet is cleaned for many times, so that the cleaning is more sufficient and uniform.

In a preferred scheme, the drying device comprises a drying box body and a hot air conveying mechanism, the drying box body is installed on the rack, the part, corresponding to the drying device, of the tray transfer device penetrates through the drying box body from front to back, the hot air conveying mechanism is arranged on the drying box body, and an air outlet of the hot air conveying mechanism is communicated with the inside of the drying box body. Generally, the hot air conveying mechanism comprises an air exhauster, a hot air conveying pipe and an air heating device, the air heating device comprises a shell and an electric heater arranged in the shell, an air inlet of the air exhauster is communicated with the inside of the drying box from the top of the drying box, an air outlet of the air exhauster and an air inlet of the hot air conveying pipe are communicated with the shell of the air heating device, and an air outlet of the hot air conveying pipe is communicated with the inside of the drying box from the bottom of the drying box. The exhaust fan extracts the gas in the drying box body, and the gas is heated by the gas heating device and then is sent into the drying box body again through the hot air conveying pipe after being heated, so that the ceramic dielectric sheets in the tray are dried.

In a preferred scheme, the tray transfer device comprises a tray carrying mechanism and a tray conveying mechanism, the tray carrying mechanism is arranged in front of the tray conveying mechanism along the conveying direction of the tray transfer device, the tray seat, the cleaning device and the air drying device correspond to the tray carrying mechanism, and the drying device corresponds to the tray conveying mechanism. The tray carrying mechanism can carry the tray from the tray seat to the cleaning device according to the flow of cleaning, air-drying and drying, carry the tray from the cleaning device to the air-drying device after cleaning, carry the tray from the air-drying device to the front end of the tray conveying mechanism after air-drying, and finally convey the tray to the drying device through the tray conveying mechanism.

In a further preferred scheme, the tray carrying mechanism comprises a translation frame, a front and back translation driving device capable of driving the translation frame to translate front and back relative to the rack, a lifting frame, a lifting driving device capable of driving the lifting frame to lift and a hanging device, wherein the lifting frame is connected with the translation frame through the lifting driving device, the hanging device is installed on the lifting frame, and the hanging device is located above the tray seat, the cleaning device and the air drying device. The tray carrying mechanism adopts the structure, and the hanging device can move to a required position under the driving of the front and back translation driving device and the lifting driving device, and can hang or loosen the tray and transfer the tray to a corresponding station.

In one specific scheme, two rails moving forwards and backwards are arranged on a rack, and wheels matched with the two rails are arranged on a translation frame; the front and back translation driving device is arranged on the translation frame, and a power output shaft of the front and back translation driving device (which can adopt a motor) is in transmission connection with at least one wheel.

In one specific scheme, the lifting driving device is installed on the translation frame, the lifting frame is connected with the power output end of the lifting driving device, and the lifting driving device can be a rodless cylinder, a transmission belt, a transmission chain or a screw/nut structure and the like.

In a further preferred scheme, the hanging device comprises two rotating shafts, two swinging pieces, two push rods and a push rod driving device capable of driving the push rods to move inside and outside, the push rod driving device is installed on the lifting frame, the two rotating shafts are arranged along the horizontal direction and are respectively rotatably arranged on two sides (the two rotating shafts can be arranged on the front side and the rear side of the lifting frame and can also be arranged on the left side and the right side) of the lifting frame, the rotating shafts, the swinging pieces and the push rods are same in number and correspond to each other one by one, the upper ends or the lower ends of the swinging pieces are fixedly connected with the rotating shafts, the lower ends or the upper ends of the swinging pieces are hinged with the outer ends of the push rods, and the inner ends of the push rods are in transmission connection with the power output ends of the push rod driving device; each rotating shaft is provided with at least one lifting hook.

Typically, the tray has a handle that mates with the hook. When the lower end of the swinging piece is connected with the rotating shaft, and the lower end of the swinging piece is connected with the push rod, the push rod driving device drives the push rod to move inwards, so that the two rotating shafts rotate and the lower ends of the corresponding lifting hooks swing outwards simultaneously, therefore, the lifting hooks correspond to the lifting handle positions of the tray, and at the moment, the lifting frame can be contacted with the lifting hooks and lift the tray through the lifting handles only by driving the lifting driving device to lift; when the tray needs to be loosened, the push rod driving device drives the two push rods to move inwards/outwards simultaneously, so that the two rotating shafts rotate and the lower ends of the corresponding lifting hooks swing inwards simultaneously, the lifting hooks are enabled to avoid the lifting handles of the tray, and when the lifting driving device drives the lifting frame to ascend, the lifting hooks can avoid the lifting handles to directly ascend.

In a concrete scheme, push rod drive arrangement includes revolving cylinder and rotation piece, and revolving cylinder's output shaft is connected with the middle part that rotates the piece, and two push rods are articulated with the both ends that rotate the piece respectively. The rotating cylinder is used for driving the rotating piece to rotate, so that the two push rods jointly extend outwards or retract inwards; when the two push rods extend outwards, the rotating part and the two push rods form a straight line; when the two push rods retract inwards, the rotating piece is approximately perpendicular to the two push rods. In another specific scheme, the push rod driving device can adopt two cylinders, the two cylinders correspond to the two push rods respectively, piston rods of the cylinders move towards the inside and the outside, cylinder bodies of the cylinders are hinged to the lifting frame, and piston rods of the cylinders are hinged to the inner ends of the corresponding push rods. The inner and outer directions are determined according to the position of the lifting frame, the inner direction is close to the central position of the lifting frame, and the outer direction is far away from the central position of the lifting frame.

In a further preferred scheme, the tray conveying mechanism comprises a plurality of conveying rollers and a conveying roller driving device capable of driving each conveying roller to rotate, the conveying roller driving device is installed on the rack, and each conveying roller is in transmission connection with a power output end of the conveying roller driving device. In the concrete scheme, conveying roller drive arrangement includes the motor, the transmission shaft, a plurality of first conical gear and a plurality of second conical gear, the motor is installed in the frame, the transmission shaft is connected with the power take off end transmission of motor, the transmission shaft is rotatable to be installed in the frame and to set up along the fore-and-aft direction, each conveying roller is rotatable to be installed in the frame and to set up along the left and right sides direction, first conical gear, second conical gear is the same and the one-to-one with the quantity of conveying roller, the equal fixed mounting of first conical gear is on the transmission shaft, each second conical gear respectively fixed mounting on the conveying roller that corresponds and respectively with the first conical gear meshing that corresponds.

In a further preferred scheme, the tray transfer device further comprises a turning conveying mechanism, the turning conveying mechanism is installed on the rack, and the turning conveying mechanism is located between the tray carrying mechanism and the tray conveying mechanism along the conveying direction of the tray transfer device. Through setting up and turning to conveying mechanism, can make tray transport mechanism and tray transport mechanism parallel arrangement, tray transport mechanism, turn to conveying mechanism and tray transport mechanism and constitute the tray transfer device of door style of calligraphy jointly promptly (the direction of delivery of tray transport mechanism and tray transport mechanism is opposite this moment), tray transport mechanism and tray transport mechanism need not to follow the linear arrangement, can reduce tray transfer device along length direction's area. In general, the steering conveyance mechanism may be configured as the tray conveyance mechanism, and may include a plurality of conveyance rollers and a conveyance roller driving device capable of driving the respective conveyance rollers to rotate.

The beneficial effects of the utility model reside in that: the ceramic dielectric sheet cleaning machine can continuously and automatically clean, air-dry and dry ceramic dielectric sheets, effectively improves the production efficiency and reduces the production cost.

Drawings

FIG. 1 is a top view of a ceramic media sheet cleaning machine in an embodiment of the present invention;

FIG. 2 is a side view of a ceramic media sheet cleaning machine in an embodiment of the present invention;

fig. 3 is a schematic structural view of an air drying device in an embodiment of the present invention;

fig. 4 is a schematic structural view of a tray handling mechanism according to an embodiment of the present invention;

fig. 5 is an enlarged view of the position a in fig. 4.

Detailed Description

The invention will be further described with reference to the following drawings and specific embodiments:

as shown in fig. 1-5, the ceramic dielectric sheet cleaning machine comprises a frame 1, a tray transfer device 2, a tray seat 3, a cleaning device 4, an air drying device 5 and a drying device 6, wherein the tray transfer device 2 is installed on the frame 1, and the tray seat 3, the cleaning device 4, the air drying device 5 and the drying device 6 are sequentially installed on the frame 1 along the conveying direction of the tray transfer device 2.

The tray transfer device 2 can sequentially transfer the tray loaded with the ceramic dielectric sheets placed on the tray seat 3 to the cleaning device 4, the air drying device 5 and the drying device 6.

In the ceramic dielectric sheet cleaning machine, the ceramic dielectric sheet is firstly arranged in the tray, and then the tray is placed on the tray seat 3; then starting the cleaning machine, transferring the tray from the tray seat 3 to the cleaning device 4 by the tray transferring device 2, and cleaning the ceramic dielectric sheets in the tray by the cleaning device 4; after the cleaning is finished, the tray transfer device 2 transfers the tray to the air drying device 5, and the air drying device 5 carries out air drying on the ceramic dielectric sheets in the tray; after the air drying is completed, the tray transfer device 2 transfers the tray to the drying device 6, the drying device 6 dries the ceramic dielectric sheets in the tray, after the drying is completed, the tray transfer device 2 moves the tray with the ceramic dielectric sheets out of the drying device 6, the ceramic dielectric sheets complete the whole cleaning, air drying and drying processes, meanwhile, after the ceramic dielectric sheets are cleaned, most water drops can be removed by air drying, and the phenomenon that the adjacent ceramic dielectric sheets are adhered together to cause waste materials during subsequent drying is avoided.

The air drying device 5 comprises an air drying groove 501 and a blowing mechanism 502, the air drying groove 501 is installed on the rack 1, an opening of the air drying groove 501 faces upwards, the blowing mechanism 502 comprises a blowing frame 5021, a fan (not visible in the figure) and a blowing frame driving device 5022 capable of driving the blowing frame 5021 to move transversely, and the fan and the blowing frame driving device 5022 are respectively installed on the rack 1; the blowing frame 5021 is arranged at the opening of the air drying groove 501, the air outlet of the fan is communicated with the air inlet of the blowing frame 5021, and the air outlet of the blowing frame 5021 faces downwards. When the ceramic dielectric sheet is cleaned and needs to be air-dried, the blowing rack driving device 5022 firstly drives the blowing rack 5021 to move away from the opening of the air-drying groove 501 (to one side of the air-drying groove 501), and then the tray transferring device 2 transfers the tray into the air-drying groove 501; then, the blowing rack driving device 5022 drives the blowing rack 5021 to move to the right above the air drying tank 501, and air blown by the fan is blown to the ceramic dielectric sheets in the tray through the air outlet of the blowing rack 5021. In the air drying process, the blowing frame driving device 5022 can drive the blowing frame 5021 to move back and forth for multiple times, so that the ceramic dielectric sheet is uniformly dried.

The blowing rack 5021 comprises a frame 50211 and two blowing pipes 50212, the frame 50211 is installed at the power output end of the blowing rack driving device 5022, the blowing pipes 50212 are installed on the frame 50211, and the air outlets of the blowing rack 5021 are all arranged on the blowing pipes 50212.

The blowing frame driving device 5022 adopts an air cylinder, and a piston rod of the air cylinder is connected with the blowing frame 5021; a transverse opening (not visible in the figure) for a blowing frame 5021 to pass through is formed in the side wall of the air drying groove 501, two transverse guide rails 5011 are arranged at the upper end of the side wall of the air drying groove 501, the two transverse guide rails 5011 are respectively located on two sides of the transverse opening, the extending direction of the transverse guide rails 5011 is the same as the extending direction of a piston rod of an air cylinder, and a guide wheel 50213 matched with the transverse guide rails 5011 is arranged on the blowing frame 5021. The transverse guide rails 5011 are arranged on the front side and the rear side of the air drying groove 501, transverse openings are arranged on the right side wall of the air drying groove 501, and the air cylinder pushes the air blowing frame 5021 to enable the guide wheels 50213 on the air blowing frame 5021 to move along the transverse guide rails 5011, so that the air blowing frame 5021 moves along the transverse guide rails 5011.

Cleaning device 4 includes three ultrasonic cleaning device 4, and ultrasonic cleaning device 4 includes supersonic generator, ultrasonic transducer and washs the pond, and supersonic generator installs respectively on frame 1 with wasing the pond, and ultrasonic transducer locates under wasing the pond, and three washing pond sets gradually along tray transfer device 2's direction of delivery. The ultrasonic cleaning device 4 further comprises a water supply pump and a water suction pump, wherein a water outlet of the water supply pump is communicated with a water inlet of the cleaning pool through a water pipe, and a water inlet of the water suction pump is communicated with a water outlet of the cleaning pool through a water pipe; the water inlet of the water supply pump and the water outlet of the water suction pump are both communicated with a water supply device, so that water recycling is realized (a filtering device can be arranged between the water outlet of the water suction pump and the water supply device and is used for filtering particles in water). When the ceramic dielectric sheet is cleaned, a high-frequency oscillation signal sent by the ultrasonic generator is converted into high-frequency mechanical oscillation through the ultrasonic transducer and is transmitted into water, and the ceramic dielectric sheet in the tray is cleaned. The three ultrasonic cleaning devices can clean the ceramic dielectric sheet for multiple times, and can ensure that the cleaning is more sufficient and uniform.

Drying device 6 includes drying box 601 and hot air conveying mechanism 602, and drying box 601 installs in frame 1, and the position that tray transfer device 2 and drying device 6 correspond runs through drying box 601 from front to back, and hot air conveying mechanism 602 sets up on drying box 601 to the air outlet of hot air conveying mechanism 602 communicates with the inside of drying box 601. The hot air delivery mechanism 602 comprises an exhaust fan 6021, a hot air delivery pipe 6022 and an air heating device 6023, wherein the air heating device 6023 comprises a shell and an electric heater arranged in the shell, an air inlet of the exhaust fan 6021 is communicated with the inside of the drying box 601 from the top of the drying box 601, an air outlet of the exhaust fan 6021 and an air inlet of the hot air delivery pipe 6022 are both communicated with the shell of the air heating device 6023, and an air outlet of the hot air delivery pipe 6022 is communicated with the inside of the drying box 601 from the bottom of the drying box 601. The exhaust fan 6021 extracts the gas in the drying box 601, heats the gas by the gas heating device 6023, and then feeds the heated gas into the drying box 601 through the hot air delivery pipe 6022 to dry the ceramic dielectric sheet in the tray.

The tray transfer device 2 includes a tray carrying mechanism 201, a turn conveying mechanism 202 and a tray conveying mechanism 203, the turn conveying mechanism 202 is located between the tray carrying mechanism 201 and the tray conveying mechanism 203 along the conveying direction of the tray transfer device 2, the tray seat 3, the cleaning device 4 and the air drying device 5 correspond to the position of the tray carrying mechanism 201, and the drying device 6 corresponds to the position of the tray conveying mechanism 203. The tray conveying mechanism 201 can convey the tray from the tray seat 3 to the cleaning device 4 according to the flow of cleaning, air-drying and drying, convey the tray from the cleaning device 4 to the air-drying device 5 after cleaning, convey the tray from the air-drying device 5 to the steering conveying mechanism 202 after air-drying, convey the tray to the front end of the tray conveying mechanism 203 by the steering conveying mechanism 202, and finally convey the tray to the drying device 6 by the tray conveying mechanism 203. With this arrangement, the tray conveying mechanism 201 and the tray transfer mechanism 203 can be arranged in parallel, that is, the tray conveying mechanism 201, the steering conveying mechanism 202 and the tray transfer mechanism 203 together form the portal tray transfer device 2 (in this case, the conveying directions of the tray conveying mechanism 201 and the tray transfer mechanism 203 are opposite), and the tray conveying mechanism 201 and the tray transfer mechanism 203 do not need to be arranged in a straight line, so that the floor area of the tray transfer device 2 in the length direction can be reduced.

The tray carrying mechanism 201 comprises a translation frame 2011, a front and back translation driving device 2012 capable of driving the translation frame 2011 to translate front and back relative to the rack 1, a lifting frame 2013, a lifting driving device 2014 capable of driving the lifting frame 2013 to lift and a hanging device 2015, wherein the lifting frame 2013 is connected with the translation frame 2011 through the lifting driving device 2014, the hanging device 2015 is installed on the lifting frame 2013, and the hanging device 2015 is located above the tray seat 3, the cleaning device 4 and the air drying device 5. The tray carrying mechanism 201 adopts the structure, and the hanging device 2015 can be driven by the front and back translation driving device 2012 and the lifting driving device 2014 to move to a required position, hang or loosen the tray, and then transfer the tray to a corresponding station.

The frame 1 is provided with two rails moving forward and backward, and the translation frame 2011 is provided with wheels matched with the two rails; the front-back translation driving device 2012 is mounted on the translation rack 2011, and a power output shaft of the front-back translation driving device 2012 (adopting a motor) is in transmission connection with the wheels. The lifting driving device 2014 is installed on the translation frame 2011, the lifting frame 2013 is connected with the power output end of the lifting driving device 2014, and the lifting driving device 2014 is a rodless cylinder.

The hanging device 2015 comprises two rotating shafts 20151, two swinging pieces 20152, two push rods 20153 and a push rod driving device 20154 capable of driving the push rods 20153 to move inwards and outwards, the push rod driving device 20154 is installed on the lifting frame 2013, the two rotating shafts 20151 are arranged in the horizontal direction and are respectively and rotatably arranged on the front side and the rear side of the lifting frame 2013, the rotating shafts 20151, the swinging pieces 20152 and the push rods 20153 are equal in number and correspond to each other one by one, the lower end of the swinging piece 20152 is fixedly connected with the rotating shafts 20151, the upper end of the swinging piece 20152 is hinged to the outer end of the push rods 20153, and the inner end of the push rod 20153 is in transmission connection with the power output end of the push rod driving device 20154; two hooks 201511 are respectively arranged on each rotating shaft 20151.

The tray has handles that mate with hooks 201511. When the tray needs to be lifted, the push rod driving device 20154 drives the two push rods 20153 to move outwards at the same time, so that the two rotating shafts 20151 rotate and the lower ends of the corresponding lifting hooks 201511 swing outwards at the same time, the lifting hooks 201511 correspond to the lifting handles of the tray, and at the moment, the lifting hooks 201511 can be in contact with the lifting handles and the tray can be lifted through the lifting handles only by driving the lifting driving device 2014 to drive the lifting frames 2013 to ascend; when needs loosen the tray, two push rods 20153 of push rod drive 20154 drive inwards move simultaneously, make two pivots 20151 rotate and make the lower extreme that corresponds lifting hook 201511 inwards swing simultaneously to make lifting hook 201511 avoid the handle of tray, when lift drive 2014 drive crane 2013 rose, lifting hook 201511 can avoid the handle to directly rise.

The push rod drive 20154 includes a rotary cylinder 201541 and a rotary part 201542, an output shaft of the rotary cylinder 201541 is connected with the middle part of the rotary part 201542, and two push rods 20153 are respectively hinged with two ends of the rotary part 201542. A rotating cylinder 201541 is used for driving a rotating piece 201542 to rotate, so that the two push rods 20153 extend outwards or retract inwards together; when the two push rods 20153 extend outwards, the rotating member 201542 and the two push rods 20153 form a straight line; when the two push rods 20153 are retracted inward, the rotating member 201542 is substantially perpendicular to the two push rods 20153. The inside and outside directions are determined according to the position of the lifting frame 2013, the position close to the center of the lifting frame 2013 is inside, and the position far away from the center of the lifting frame 2013 is outside.

The tray transfer mechanism 203 includes a plurality of conveying rollers and a conveying roller driving device capable of driving each conveying roller to rotate, the conveying roller driving device is installed on the frame 1, and each conveying roller is in transmission connection with a power output end of the conveying roller driving device. Conveying roller drive arrangement includes the motor, the transmission shaft, a plurality of first conical gear and a plurality of second conical gear, the motor is installed in frame 1, the transmission shaft is connected with the power take off end transmission of motor, the transmission shaft is rotatable to be installed in frame 1 and set up along the fore-and-aft direction, each conveying roller is rotatable to be installed in frame 1 and set up along the left and right sides direction, first conical gear, second conical gear is the same with the quantity of conveying roller and the one-to-one, the equal fixed mounting of first conical gear is on the transmission shaft, each second conical gear respectively fixed mounting on the conveying roller that corresponds and respectively with the first conical gear meshing that corresponds. The steering conveyance mechanism 202 may be configured as the tray conveyance mechanism 203, and may include a plurality of conveyance rollers and a conveyance roller driving device capable of driving the respective conveyance rollers to rotate.

Claims (9)

1. A ceramic dielectric sheet cleaning machine is characterized in that: the tray transfer device is arranged on the rack, and the tray seat, the cleaning device, the air drying device and the drying device are sequentially arranged on the rack along the conveying direction of the tray transfer device; the tray transfer device comprises a tray carrying mechanism, a tray conveying mechanism and a steering conveying mechanism, wherein the tray carrying mechanism is arranged in front of the tray conveying mechanism along the conveying direction of the tray transfer device, and the steering conveying mechanism is arranged between the tray carrying mechanism and the tray conveying mechanism along the conveying direction of the tray transfer device; the tray seat, the cleaning device and the air drying device correspond to the position of the tray carrying mechanism, and the drying device corresponds to the position of the tray conveying mechanism.

2. The ceramic media sheet cleaning machine of claim 1, wherein: the air drying device comprises an air drying groove and an air blowing mechanism, the air drying groove is mounted on the rack, the opening of the air drying groove faces upwards, the air blowing mechanism comprises an air blowing frame, a fan and an air blowing frame driving device capable of driving the air blowing frame to move transversely, and the fan and the air blowing frame driving device are respectively mounted on the rack; the frame of blowing sets up at the opening part of air-drying the groove, and the air outlet of fan is linked together with the air intake of frame of blowing, and the air outlet of frame of blowing is towards the below.

3. A ceramic media sheet cleaning machine as claimed in claim 2 wherein: the blowing frame comprises a frame and at least one blowing pipeline, the frame is installed at the power output end of the blowing frame driving device, the blowing pipelines are installed on the frame, and air outlets of the blowing frame are all arranged on the blowing pipelines.

4. A ceramic media sheet cleaning machine as claimed in claim 2 wherein: the blowing frame driving device adopts an air cylinder, and a piston rod of the air cylinder is connected with the blowing frame; the lateral wall of the air drying groove is provided with a transverse opening for the air drying frame to pass through, the upper end of the lateral wall of the air drying groove is provided with two transverse guide rails, the two transverse guide rails are respectively arranged on two sides of the transverse opening, the extending direction of the transverse guide rails is the same as the extending direction of a piston rod of the air cylinder, and the air drying frame is provided with a guide wheel matched with the transverse guide rails.

5. The ceramic media sheet cleaning machine of claim 1, wherein: the cleaning device comprises at least one ultrasonic cleaning device, the ultrasonic cleaning device comprises an ultrasonic generator, an ultrasonic transducer and a cleaning pool, the ultrasonic generator and the cleaning pool are respectively arranged on the rack, and the ultrasonic transducer is arranged under the cleaning pool.

6. The ceramic media sheet cleaning machine of claim 5, wherein: the number of the ultrasonic cleaning devices is three, and the three cleaning tanks are sequentially arranged along the conveying direction of the tray transfer device.

7. The ceramic media sheet cleaning machine of claim 1, wherein: the drying device comprises a drying box body and a hot air conveying mechanism, the drying box body is installed on the rack, the position, corresponding to the drying device, of the tray transfer device penetrates through the drying box body from front to back, the hot air conveying mechanism is arranged on the drying box body, and an air outlet of the hot air conveying mechanism is communicated with the inside of the drying box body.

8. The ceramic media sheet cleaning machine of claim 1, wherein: the tray carrying mechanism comprises a translation frame, a front and back translation driving device capable of driving the translation frame to translate front and back relative to the rack, a lifting frame, a lifting driving device capable of driving the lifting frame to lift and a hanging device, wherein the lifting frame is connected with the translation frame through the lifting driving device, the hanging device is installed on the lifting frame, and the hanging device is located above the tray seat, the cleaning device and the air drying device.

9. The ceramic media sheet cleaning machine of claim 8, wherein: the hanging device comprises two rotating shafts, two swinging pieces, two push rods and a push rod driving device capable of driving the push rods to move inside and outside, the push rod driving device is installed on the lifting frame, the two rotating shafts are arranged along the horizontal direction and are respectively and rotatably arranged on two sides of the lifting frame, the rotating shafts, the swinging pieces and the push rods are identical in number and correspond to one another, the upper ends or the lower ends of the swinging pieces are fixedly connected with the rotating shafts, the lower ends or the upper ends of the swinging pieces are hinged with the outer ends of the push rods, and the inner ends of the push rods are in transmission connection with the power output ends of the push rod driving device; at least one lifting hook is arranged on each rotating shaft.

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