CN214441243U - Semiconductor wafer cleaning equipment - Google Patents

Abstract

The utility model discloses a semiconductor wafer cleaning device, which comprises a frame, wherein the frame is divided into a wet cleaning area and a dry cleaning area by a dry-wet partition door; the wet type cleaning area comprises a chemical reagent cleaning chamber, a pure water cleaning chamber, a wet type manipulator for transporting the flower basket and a manipulator cleaning chamber for cleaning the wet type manipulator; the dry type cleaning area comprises a round crystal throwing and drying chamber, a round crystal storage chamber and a dry type mechanical arm for transporting the flower basket; and the rack is provided with a driving module for driving the wet manipulator/the dry manipulator to move up and down and/or left and right. The utility model realizes three processes of chemical reagent cleaning, pure water cleaning and spin-drying by using the manipulator, and improves the automation degree of semiconductor cleaning; and the structural design of each cleaning chamber is beneficial to improving the cleaning effect of semiconductor cleaning, and is beneficial to improving the yield of products.

Description

Semiconductor wafer cleaning equipment

Technical Field

The utility model belongs to the technical field of the semiconductor washs, especially, relate to a semiconductor wafer cleaning equipment.

Background

In the existing cleaning process, a wafer is usually soaked or washed by using liquid chemicals such as acid-base organic matters and the like to achieve the purposes of cleaning surface particles, removing reaction polymers, etching surface film layers and the like, and after the chemical liquid is used for cleaning the surface particles of the wafer, the chemical liquid is usually washed and removed by using deionized water.

However, the existing cleaning container is relatively simple in structure, when the container is soaked, the round crystal body is generally in a static state, so that the contact part of the inner wall of the container and the round crystal body is easily caused, the incomplete soaking condition occurs, meanwhile, the existing container is single in function, only has a soaking effect or a washing effect in the middle of a cleaning link, and the practicability is poor.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the technical problem of providing a semiconductor wafer cleaning device, which utilizes a mechanical arm to realize three procedures of chemical reagent cleaning, pure water cleaning and spin-drying, and improves the automation degree of semiconductor cleaning; and the structural design of each cleaning chamber is beneficial to improving the cleaning effect of semiconductor cleaning, and is beneficial to improving the yield of products.

In order to solve the technical problem, the utility model discloses a technical scheme be: a semiconductor wafer cleaning device comprises a rack, wherein the rack is divided into a wet cleaning area and a dry cleaning area by a dry-wet partition door;

the wet type cleaning area comprises a chemical reagent cleaning chamber, a pure water cleaning chamber, a wet type manipulator for transporting the flower basket and a manipulator cleaning chamber for cleaning the wet type manipulator;

the dry type cleaning area comprises a round crystal throwing and drying chamber, a round crystal storage chamber and a dry type mechanical arm for transporting the flower basket;

the rack is provided with a driving module for driving the wet manipulator/the dry manipulator to move up and down and/or left and right;

the chemical reagent cleaning chamber comprises a first cleaning tank for injecting a chemical reagent, an oscillator fixing frame for fixing the oscillator, a megasonic device fixing frame for fixing the megasonic device and a flip structure, wherein the oscillator fixing frame is positioned in the first cleaning tank, a flower basket is placed on the oscillator fixing frame, the megasonic device fixing frame is positioned below the first cleaning tank and is in sealed connection with the first cleaning tank, and a sound wave transmission medium is injected between the megasonic device fixing frame and the first cleaning tank;

the pure water cleaning chamber comprises a second cleaning tank for injecting pure water and a high-low concentration waste liquid discharging structure, the second cleaning tank comprises a second cleaning tank body, the interior of the second cleaning tank body is divided into a second inner cleaning tank and a second outer cleaning tank by a rectangular overflow plate, a flower basket is placed in the second inner cleaning tank, a pure water inlet pipe is arranged above the second outer cleaning tank, the second inner cleaning tank is communicated with the second outer cleaning tank, and the second outer cleaning tank is communicated with the high-low concentration waste liquid discharging structure;

the manipulator cleaning chamber comprises a cleaning box capable of accommodating a manipulator, a pure water spray pipe and a nitrogen spray pipe, wherein the pure water spray pipe and the nitrogen spray pipe are arranged above the cleaning box;

the wet manipulator/the dry manipulator comprises a first material taking rod, a second material taking rod and a rotating structure for driving the first material taking rod and the second material taking rod to rotate in opposite directions, wherein at least one first material taking arm is arranged on the first material taking rod, and at least one second material taking arm is arranged on the second material taking rod;

the rotating structure comprises a second motor, a first rotating block, a second rotating block and a first connecting rod, the first rotating block is connected with the first material taking rod, the second rotating block is connected with the second material taking rod, one end of the first connecting rod is connected with the first rotating block, and the other end of the first connecting rod is connected with the second rotating block;

a first gear is mounted on an output shaft of the second motor, a second gear is mounted on the first material taking rod, and a synchronous gear belt is sleeved on the first gear and the second gear;

the flip structure comprises a cover plate positioned above the first cleaning tank and a driving structure for driving the cover plate to open and close;

the driving structure comprises a water injection shell, a piston rod, a transmission shaft and a second connecting rod, one end of the water injection shell is fixedly connected with the first cleaning tank, one end of the piston rod penetrates through the water injection shell from the other end of the water injection shell, the other end of the piston rod is rotatably connected with one end of the transmission shaft, the other end of the transmission shaft is fixedly connected with the second connecting rod, and the second connecting rod is fixedly connected with the cover plate;

the water injection shell is provided with a first water injection port and a second water injection port;

the lower end of the piston rod is connected with a mounting seat, and the periphery of the mounting seat is provided with a mounting groove for mounting a strong magnetic sheet;

the first cleaning tank comprises a first cleaning tank body, and the inside of the first cleaning tank body is divided into a first inner cleaning tank and a first outer cleaning tank by a rectangular overflow plate;

the first external cleaning tank is provided with a circulating water outlet which is communicated with the circulating pipe;

the first inner cleaning tank is provided with a circulating water inlet, a waste liquid outlet and a chemical reagent spraying pipe, one end of the chemical reagent spraying pipe is closed, the other end of the chemical reagent spraying pipe penetrates through the circulating water inlet and then is communicated with the circulating pipe, the circulating pipe is provided with a circulating pump, and the waste liquid outlet is communicated with the waste liquid pipe;

a plurality of chemical reagent spraying ports are distributed along the axial direction of the chemical reagent spraying pipe, and the spraying direction of the chemical reagent spraying ports and the longitudinal direction of the chemical reagent spraying pipe form an included angle of 120 degrees;

the upper end of the overflow plate is provided with a plurality of V-shaped overflow ports;

the high-low concentration waste liquid discharge structure comprises a first side shell, a second side shell and a central shell, wherein the first side shell is connected with the central shell, and the second side shell is connected with the central shell;

the central shell is provided with a liquid inlet, a first liquid outlet and a second liquid outlet, a three-way switching structure is arranged in the central shell, the liquid inlet is communicated with the first liquid outlet through the three-way switching structure to form a low-concentration waste liquid discharge channel, and the liquid inlet is communicated with the second liquid outlet through the three-way switching structure to form a high-concentration waste liquid discharge channel;

the first side shell is provided with a first air inlet, the second side shell is provided with a second air inlet, and the first air inlet and the second air inlet are respectively connected with an air inlet pipeline;

and a water resistance value meter is installed on the liquid inlet.

The utility model discloses a solve the further technical scheme that its technical problem adopted and be:

further, the dry-wet partition door can move up and down under the driving of the air cylinder.

Furthermore, the upper part of the wet-type cleaning area and the upper part of the dry-type cleaning area are respectively provided with an air purifying system, the air purifying system comprises an air inlet fan and a filter, the top of the rack is provided with at least one air suction opening, and the air suction opening is communicated with an exhaust fan.

Furthermore, the driving module comprises a first motor, a gear connected with an output shaft of the first motor, a rack meshed with the gear, a sliding table cylinder, a first sliding block connected with the sliding table cylinder, a connecting rod connected with the first sliding block, a sliding strip and a second sliding block matched with the sliding strip;

the rack with the draw runner all through first connecting plate with frame fixed connection, first motor pass through the fender bracket with the slip table cylinder is connected, the fender bracket with the second slider is connected, the one end and the manipulator of connecting rod are connected.

The wet manipulator/dry manipulator further comprises a material taking sensing structure, the material taking sensing structure comprises a contact arm, an elastic connecting piece, a contact seat and a sensor, one end of the elastic connecting piece is connected with the contact arm, the other end of the elastic connecting piece is connected with the contact seat, the sensor is located above the contact seat, the contact seat and the sensor are fixedly connected with a protective shell, and the protective shell is connected with the first material taking arm/the second material taking arm.

Furthermore, the lower part of the periphery of the sensor is sleeved with an elastic part.

Further, a sealing cover is mounted at the upper end of the water injection shell, and the sealing cover is provided with a through hole for the piston rod to pass through.

Further, the bottom wall of the first external cleaning tank comprises a first horizontal section, a middle inclined section and a second horizontal section, wherein the inclined direction of the middle inclined section is inclined from the first horizontal section to the second horizontal section, and the circulating water outlet is positioned in the second horizontal section.

Further, the tee bend switching structure includes first push rod, first connection pad, third connecting rod, second connection pad and second push rod, first connection pad with the second connection pad respectively with the both ends of third connecting rod are connected, the one end of first push rod with first connection pad is connected, the one end of second push rod with the second connection pad is connected, the other end of first push rod with first side casing cup joints, the other end of second push rod with second side casing cup joints.

Furthermore, a first retaining ring for limiting the first connecting disc to move towards the second liquid outlet and a second retaining ring for limiting the second connecting disc to move towards the first liquid outlet are formed in the center shell.

A third retaining ring for limiting the first connecting disc to move towards the first side shell is formed at one end, close to the central shell, of the first side shell; and a fourth retaining ring for limiting the second connecting disc to move towards the second side shell is formed at one end of the second side shell, which is close to the central shell.

The beneficial effects of the utility model are that following several points have at least:

1. the utility model discloses a chemical reagent purge chamber, at first arrange chemical reagent from the feed liquor pipe to the first inner cleaning tank in, start the circulating pump, chemical reagent sprays from chemical reagent spraying mouth and washs the round crystal surface, and then overflows to the first outer cleaning tank from the overflow plate, with this circulation, after the cleaning work is accomplished, discharge the waste liquid from the waste liquid pipe; during cleaning, the oscillator is started to promote the flower basket on the oscillator fixing frame to vibrate, and the megasonic device is started to promote the chemical reagent to vibrate through the sound wave transmission medium, so that the cleanliness of the surface of the cleaned round crystal is further improved;

2. in the pure water cleaning chamber, pure water enters the second inner cleaning tank from the pure water inlet pipe firstly, overflows to the second outer cleaning tank after the second inner cleaning tank is filled, ensures that the pure water in the second inner cleaning tank is running water, and is favorable for improving the cleanliness of the surface of the cleaning wafer;

3. the manipulator cleaning chamber of the utility model is firstly filled with pure water to clean the material taking arm with the surface containing chemical reagent, and then filled with nitrogen to dry the surface of the material taking arm;

4. the utility model discloses drive the module, first motor drive gear rotates, and then drives the manipulator that is connected with the fender bracket and removes about; the sliding table cylinder drives the connecting rod to move up and down so as to drive the manipulator to move up and down;

5. the included angle formed by the chemical reagent spraying port on the chemical reagent spraying pipe and the longitudinal direction of the chemical reagent spraying pipe is 120 degrees, cleaning water firstly collides with the bottom wall of the inner groove after being sprayed out from the chemical reagent spraying port and then flows upwards so as to wash the surface of the round crystal from bottom to top, and the cleaning cleanliness of the surface of the round crystal is improved;

6. the utility model discloses the upper end of overflow plate is equipped with V type overflow mouth, and the surface tension of waste liquid can be destroyed to V type overflow mouth, does benefit to the waste residue row to first external cleaning tank on waste liquid surface.

Drawings

FIG. 1 is a schematic view of the structure of the process equipment of the present invention;

FIG. 2 is an enlarged view of part A of FIG. 1;

FIG. 3 is an enlarged view of the portion B of FIG. 1;

FIG. 4 is a schematic view of the chemical cleaning chamber of the present invention;

FIG. 5 is a second schematic view of the chemical cleaning chamber of the present invention;

fig. 6 is one of the schematic structural diagrams of the flip structure of the present invention;

fig. 7 is a second schematic structural diagram of the flip structure of the present invention;

fig. 8 is a third schematic structural diagram of the flip structure of the present invention;

FIG. 9 is an enlarged view of the portion C of FIG. 8;

FIG. 10 is a schematic structural view of the water injection casing of the present invention;

fig. 11 is a schematic structural view of the robot of the present invention;

FIG. 12 is an enlarged view of section D of FIG. 11;

fig. 13 is a schematic structural view of the material-taking sensing structure of the present invention;

FIG. 14 is a schematic view of a second cleaning tank according to the present invention;

FIG. 15 is a second schematic structural view of the second cleaning tank of the present invention;

FIG. 16 is a schematic cross-sectional view of a second cleaning tank according to the present invention;

FIG. 17 is a second schematic sectional view of the second cleaning tank of the present invention;

FIG. 18 is an enlarged view of section E of FIG. 17;

FIG. 19 is a third schematic sectional view of the second cleaning tank of the present invention;

FIG. 20 is an enlarged view of section F of FIG. 19;

FIG. 21 is a schematic structural view of the high-low concentration waste liquid discharge structure of the present invention;

FIG. 22 is a schematic cross-sectional view of the high/low concentration waste liquid discharge structure according to the present invention;

fig. 23 is a second schematic sectional view (without a three-way switching structure) of the high-low concentration waste liquid discharge structure of the present invention;

fig. 24 is a schematic structural diagram of the three-way switching structure of the present invention;

FIG. 25 is a schematic sectional view of the pure water cleaning chamber according to the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Example (b): a semiconductor wafer cleaning apparatus, as shown in fig. 1-25, comprising a frame divided into a wet cleaning zone and a dry cleaning zone by a dry-wet partition door 900;

the wet type cleaning area comprises a chemical reagent cleaning chamber 100, a pure water cleaning chamber 200, a wet type manipulator 300 for transporting the flower basket and a manipulator cleaning chamber 400 for cleaning the wet type manipulator;

the dry cleaning area comprises a round crystal throwing and drying chamber 500, a round crystal storage chamber 600 and a dry mechanical arm 700 for transporting the flower basket;

a driving module 800 for driving the wet manipulator/the dry manipulator to move up and down and/or left and right is installed on the rack;

the chemical reagent cleaning chamber comprises a first cleaning tank 101 for injecting chemical reagent, an oscillator fixing frame 102 for fixing the oscillator, a megasonic device 103, a megasonic device fixing frame 104 for fixing the megasonic device and a flip structure 105, wherein the oscillator fixing frame is positioned in the first cleaning tank, a flower basket is placed on the oscillator fixing frame, the megasonic device fixing frame is positioned below the first cleaning tank and is in sealed connection with the first cleaning tank, and a sound wave transmission medium (such as water) is injected between the megasonic device fixing frame and the first cleaning tank;

the pure water cleaning chamber comprises a second cleaning tank 201 filled with pure water and a high-low concentration waste liquid discharge structure, the second cleaning tank comprises a second cleaning tank body, the interior of the second cleaning tank body is divided into a second inner cleaning tank 2011 and a second outer cleaning tank 2012 by a rectangular overflow plate, a flower basket is placed in the second inner cleaning tank, a pure water inlet pipe 203 is arranged above the second outer cleaning tank, the second inner cleaning tank is communicated with the second outer cleaning tank, and the second outer cleaning tank is communicated with the high-low concentration waste liquid discharge structure;

the manipulator cleaning chamber comprises a cleaning box 401 capable of accommodating a manipulator, a pure water spray pipe 402 and a nitrogen spray pipe 403, wherein the pure water spray pipe and the nitrogen spray pipe are arranged above the cleaning box; a plurality of pure water spray ports are distributed along the axial direction of the pure water spray pipe, and the spray direction of the pure water spray ports and the longitudinal direction of the pure water spray pipe form an included angle of 120 degrees; a plurality of nitrogen spraying ports are distributed along the axial direction of the nitrogen spraying pipe, and the spraying direction of the nitrogen spraying ports forms an included angle of 120 degrees with the longitudinal direction of the nitrogen spraying pipe; the pure water spray pipe is positioned below the nitrogen spray pipe.

The wet manipulator/the dry manipulator comprises a first material taking rod 301, a second material taking rod 302 and a rotating structure 303 for driving the first material taking rod and the second material taking rod to rotate in opposite/opposite directions simultaneously, wherein at least one first material taking arm 3011 is installed on the first material taking rod, and at least one second material taking arm 3021 is installed on the second material taking rod;

the rotating structure comprises a second motor 3031, a first rotating block 3032, a second rotating block 3033 and a first connecting rod 3034, the first rotating block is connected with the first material taking rod, the second rotating block is connected with the second material taking rod, one end of the first connecting rod is connected with the first rotating block, and the other end of the first connecting rod is connected with the second rotating block;

a first gear 3035 is mounted on an output shaft of the second motor, a second gear 3036 is mounted on the first material taking rod, and a synchronous gear belt is sleeved on the first gear and the second gear;

the flip structure comprises a cover plate 1051 positioned above the first cleaning tank and a driving structure for driving the cover plate to open and close;

the driving structure comprises a water injection shell 1052, a piston rod 1053, a transmission shaft 1054 and a second connecting rod 1055, wherein one end of the water injection shell is fixedly connected with the first cleaning tank, one end of the piston rod penetrates through the other end of the water injection shell to be arranged in the water injection shell, the other end of the piston rod is rotatably connected with one end of the transmission shaft, the other end of the transmission shaft is fixedly connected with the second connecting rod, and the second connecting rod is fixedly connected with the cover plate;

the water injection shell is provided with a first water injection port 10521 and a second water injection port 10522;

the lower end of the piston rod is connected with a mounting seat 1056, and the periphery of the mounting seat is provided with a mounting groove 10561 for mounting a strong magnetic sheet;

the first cleaning tank comprises a first cleaning tank body, the interior of the first cleaning tank body is divided into a first inner cleaning tank 1011 and a first outer cleaning tank 1012 by a rectangular overflow plate 1013;

the first external cleaning tank is provided with a circulating water outlet which is communicated with the circulating pipe 1014;

the first inner cleaning tank is provided with a circulating water inlet, a waste liquid outlet and a chemical reagent spray pipe 1015, one end of the chemical reagent spray pipe is closed, the other end of the chemical reagent spray pipe penetrates through the circulating water inlet and then is communicated with the circulating pipe, the circulating pipe is provided with a circulating pump, and the waste liquid outlet is communicated with the waste liquid pipe 1016;

a plurality of chemical reagent spraying ports 10151 are axially distributed along the chemical reagent spraying pipe, and the spraying direction of the chemical reagent spraying ports and the longitudinal direction of the chemical reagent spraying pipe form an included angle of 120 degrees;

the upper end of the overflow plate is provided with a plurality of V-shaped overflow ports 10131;

the high-low concentration waste liquid discharge structure comprises a first side case 2021, a second side case 2022 and a central case 2023, wherein the first side case is connected with the central case, and the second side case is connected with the central case;

the central shell is provided with a liquid inlet 20231, a first liquid outlet 20232 and a second liquid outlet 20233, the inside of the central shell is provided with a three-way switching structure 2024, the liquid inlet is communicated with the first liquid outlet through the three-way switching structure to form a low-concentration waste liquid discharge channel, and the liquid inlet is communicated with the second liquid outlet through the three-way switching structure to form a high-concentration waste liquid discharge channel;

the first side shell is provided with a first air inlet 20211, the second side shell is provided with a second air inlet 20221, and the first air inlet and the second air inlet are respectively connected with an air inlet pipeline;

and a water resistance value meter is installed on the liquid inlet.

The dry-wet partition door can move up and down under the driving of the cylinder.

The top in wet-type washing district with the top in dry-type washing district is equipped with clean wind system respectively, clean wind system includes air inlet machine a and filter b, the top of frame is equipped with at least one suction opening c, the suction opening communicates with the air exhauster. Air inlet machine and filter for each control chamber of flowing through downwards behind the external air purification, discharge through the air exhauster at last, the lower pressure air current that forms does benefit to the impurity whereabouts in each control chamber to the lower floor of equipment and discharges through the air exhauster, guarantees the inside holistic cleanliness factor of equipment. In this embodiment, air inlet machine and filter are all installed to the top of chemical reagent purge chamber, pure water purge chamber, manipulator purge chamber, round crystal drying chamber and round crystal storage chamber.

The driving module comprises a first motor 801, a gear 802 connected with an output shaft of the first motor, a rack 803 meshed with the gear, a sliding table air cylinder 804, a first sliding block 805 connected with the sliding table air cylinder, a connecting rod 806 connected with the first sliding block, a sliding strip 807 and a second sliding block matched with the sliding strip;

the rack with the draw runner all through first connecting plate 808 with frame fixed connection, first motor pass through fender bracket 809 with the slip table cylinder is connected, the fender bracket with the second slider is connected, the one end and the manipulator of connecting rod are connected.

The wet manipulator/dry manipulator further comprises a material taking sensing structure 304, the material taking sensing structure comprises a contact arm 3041, an elastic connecting piece 3042, a contact base 3043 and a sensor 3044, one end of the elastic connecting piece is connected with the contact arm, the other end of the elastic connecting piece is connected with the contact base, the sensor is located above the contact base, the contact base and the sensor are both fixedly connected with a protective shell, and the protective shell is connected with the first material taking arm/the second material taking arm.

The outer periphery of the sensor is sleeved with an elastic member 3045. The free end of the sensor is an arc end, and the end face of the contact seat, which is in contact with the sensor, is an arc end.

The first material taking rod is provided with two first material taking arms which are distributed along the axial direction of the first material taking rod; the second material taking rod is provided with two second material taking arms, and the two second material taking arms are distributed along the axial direction of the second material taking rod.

One end of the connecting rod is connected with the upper part of the first rotating block, and the other end of the connecting rod is connected with the lower part of the second rotating block.

The contact arm is vertically positioned above the first/second take-off arm.

The first material taking arm and the second material taking arm are both made of corrosion-resistant materials.

A sealing cover 1057 is installed at the upper end of the water injection housing, and the sealing cover has a through hole for the piston rod to pass through.

The first water filling port and the second water filling port are located on the same side of the water filling shell.

The mounting groove is equipped with two, two the mounting groove is followed the axial distribution of mount pad.

The first water filling port is located at the lower end of the mounting seat.

The second water filling port is positioned at the lower end of the sealing cover.

The diapire of first external cleaning tank includes first horizontal segment 10121, middle slope section 10122 and second horizontal segment 10123, the incline direction of middle slope section is for inclining to the second horizontal segment direction by first horizontal segment, the circulating water delivery port is located the second horizontal segment.

The first inner cleaning tank is provided with two circulating water inlets and two chemical reagent spraying pipes, one end of each chemical reagent spraying pipe is closed, and the other end of each chemical reagent spraying pipe penetrates through the circulating water inlets and then is communicated with the circulating pipe through a tee joint.

And a filter screen plate 1017 is arranged at the waste liquid discharge port.

The opening of the overflow port is 70-85 degrees.

The side wall of the first inner cleaning tank is provided with a fixed plate 1018, and the fixed plate is provided with a mounting hole 10181 for mounting a liquid inlet pipe.

The three-way switching structure comprises a first push rod 20241, a first connecting disc 20242, a third connecting rod 20243, a second connecting disc 20244 and a second push rod 20245, wherein the first connecting disc and the second connecting disc are respectively connected with two ends of the third connecting rod, one end of the first push rod is connected with the first connecting disc, one end of the second push rod is connected with the second connecting disc, the other end of the first push rod is sleeved with the first side shell, and the other end of the second push rod is sleeved with the second side shell.

A first retainer ring 20234 for limiting the first connecting disc to move towards the second liquid outlet and a second retainer ring 20235 for limiting the second connecting disc to move towards the first liquid outlet are formed in the center shell.

A third retainer 20212 for limiting the first connection disc to move towards the first side shell is formed at one end of the first side shell close to the central shell; and a fourth retainer ring 20222 for limiting the movement of the second connecting disc towards the second side shell is formed at one end of the second side shell close to the central shell. A first stop block 2025 is arranged at one end of the first side shell far away from the central shell; and a second stop 2026 is installed at one end of the second side shell, which is far away from the central shell.

A first sealing ring 2027 is sleeved at one end of the first push rod, which is close to the first air inlet, and the first air inlet is positioned between the first sealing ring and the first stop block; a second sealing ring 2028 is sleeved at one end of the second push rod, which is close to the second air inlet, and the second air inlet is located between the second sealing ring and the second stopper.

First connection pad with first retaining ring relative lateral wall has seted up first seal groove 202421, second connection pad with second retaining ring relative lateral wall has seted up second seal groove 202441, first seal groove with all install the sealing washer in the second seal groove.

The wafer drying chamber comprises a drying machine.

The bottom of the second inner cleaning groove is provided with a waste liquid outlet which is communicated with the second outer cleaning groove through a quick discharge valve.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the same principle as the present invention.

Claims (10)

1. A semiconductor wafer cleaning equipment is characterized in that: the device comprises a rack, wherein the rack is divided into a wet cleaning area and a dry cleaning area by a dry-wet partition door (900);

the wet type cleaning area comprises a chemical reagent cleaning chamber (100), a pure water cleaning chamber (200), a wet type manipulator (300) for transporting the flower basket and a manipulator cleaning chamber (400) for cleaning the wet type manipulator;

the dry type cleaning area comprises a round crystal throwing and drying chamber (500), a round crystal storage chamber (600) and a dry type mechanical arm (700) for transporting the flower basket;

a driving module (800) for driving the wet manipulator/the dry manipulator to move up and down and/or left and right is arranged on the rack;

the chemical reagent cleaning chamber comprises a first cleaning tank (101) for injecting a chemical reagent, an oscillator fixing frame (102) for fixing the oscillator, a megasonic device (103), a megasonic device fixing frame (104) for fixing the megasonic device and a flip structure (105), wherein the oscillator fixing frame is positioned in the first cleaning tank, a flower basket is placed on the oscillator fixing frame, the megasonic device fixing frame is positioned below the first cleaning tank and is in sealed connection with the first cleaning tank, and a sound wave transmission medium is injected between the megasonic device fixing frame and the first cleaning tank;

the pure water cleaning chamber comprises a second cleaning tank (201) filled with pure water and a high-low concentration waste liquid discharge structure, the second cleaning tank comprises a second cleaning tank body, the interior of the second cleaning tank body is divided into a second inner cleaning tank (2011) and a second outer cleaning tank (2012) by a rectangular overflow plate, a flower basket is placed in the second inner cleaning tank, a pure water inlet pipe (203) is arranged above the second outer cleaning tank, the second inner cleaning tank is communicated with the second outer cleaning tank, and the second outer cleaning tank is communicated with the high-low concentration waste liquid discharge structure;

the manipulator cleaning chamber comprises a cleaning box (401) capable of accommodating a manipulator, a pure water spray pipe (402) and a nitrogen spray pipe (403), wherein the pure water spray pipe and the nitrogen spray pipe are arranged above the cleaning box;

the wet manipulator/the dry manipulator comprises a first material taking rod (301), a second material taking rod (302) and a rotating structure (303) for driving the first material taking rod and the second material taking rod to rotate in opposite directions, wherein at least one first material taking arm (3011) is installed on the first material taking rod, and at least one second material taking arm (3021) is installed on the second material taking rod;

the rotating structure comprises a second motor (3031), a first rotating block (3032), a second rotating block (3033) and a first connecting rod (3034), the first rotating block is connected with the first material taking rod, the second rotating block is connected with the second material taking rod, one end of the first connecting rod is connected with the first rotating block, and the other end of the first connecting rod is connected with the second rotating block;

a first gear (3035) is mounted on an output shaft of the second motor, a second gear (3036) is mounted on the first material taking rod, and a synchronous gear belt is sleeved on the first gear and the second gear;

the flip structure comprises a cover plate (1051) positioned above the first cleaning tank and a driving structure for driving the cover plate to open and close;

the driving structure comprises a water injection shell (1052), a piston rod (1053), a transmission shaft (1054) and a second connecting rod (1055), one end of the water injection shell is fixedly connected with the first cleaning tank, one end of the piston rod penetrates through the water injection shell from the other end of the water injection shell, the other end of the piston rod is rotatably connected with one end of the transmission shaft, the other end of the transmission shaft is fixedly connected with the second connecting rod, and the second connecting rod is fixedly connected with the cover plate;

the water injection shell is provided with a first water injection port (10521) and a second water injection port (10522);

the lower end of the piston rod is connected with a mounting seat (1056), and the periphery of the mounting seat is provided with a mounting groove (10561) for mounting a strong magnetic sheet;

the first cleaning tank comprises a first cleaning tank body, the interior of the first cleaning tank body is divided into a first inner cleaning tank (1011) and a first outer cleaning tank (1012) by a rectangular overflow plate (1013);

the first external cleaning tank is provided with a circulating water outlet which is communicated with a circulating pipe (1014);

the first inner cleaning tank is provided with a circulating water inlet, a waste liquid outlet and a chemical reagent spraying pipe (1015), one end of the chemical reagent spraying pipe is closed, the other end of the chemical reagent spraying pipe penetrates through the circulating water inlet and then is communicated with the circulating pipe, the circulating pipe is provided with a circulating pump, and the waste liquid outlet is communicated with a waste liquid pipe (1016);

a plurality of chemical reagent spraying ports (10151) are distributed along the axial direction of the chemical reagent spraying pipe, and the spraying direction of the chemical reagent spraying ports and the longitudinal direction of the chemical reagent spraying pipe form an included angle of 120 degrees;

the upper end of the overflow plate is provided with a plurality of V-shaped overflow ports (10131);

the high-low concentration waste liquid discharge structure comprises a first side shell (2021), a second side shell (2022) and a central shell (2023), wherein the first side shell is connected with the central shell, and the second side shell is connected with the central shell;

the central shell is provided with a liquid inlet (20231), a first liquid outlet (20232) and a second liquid outlet (20233), a three-way switching structure (2024) is arranged inside the central shell, the liquid inlet is communicated with the first liquid outlet through the three-way switching structure to form a low-concentration waste liquid discharge channel, and the liquid inlet is communicated with the second liquid outlet through the three-way switching structure to form a high-concentration waste liquid discharge channel;

the first side shell is provided with a first air inlet hole (20211), the second side shell is provided with a second air inlet hole (20221), and the first air inlet hole and the second air inlet hole are respectively connected with an air inlet pipeline;

and a water resistance value meter is installed on the liquid inlet.

2. The semiconductor wafer cleaning apparatus of claim 1, wherein: the dry-wet partition door can move up and down under the driving of the cylinder.

3. The semiconductor wafer cleaning apparatus of claim 1, wherein: the top in wet-type washing district with the top in dry-type washing district is equipped with clean wind system respectively, clean wind system includes air inlet machine (a) and filter (b), the top of frame is equipped with at least one suction opening (c), suction opening and air exhauster intercommunication.

4. The semiconductor wafer cleaning apparatus of claim 1, wherein: the driving module comprises a first motor (801), a gear (802) connected with an output shaft of the first motor, a rack (803) meshed with the gear, a sliding table cylinder (804), a first sliding block (805) connected with the sliding table cylinder, a connecting rod (806) connected with the first sliding block, a sliding strip (807) and a second sliding block matched with the sliding strip;

the rack with the draw runner all through first connecting plate (808) with frame fixed connection, first motor pass through fender bracket (809) with the slip table cylinder is connected, the fender bracket with the second slider is connected, the one end and the manipulator of connecting rod are connected.

5. The semiconductor wafer cleaning apparatus of claim 1, wherein: the wet type manipulator/dry type manipulator further comprises a material taking sensing structure (304), the material taking sensing structure comprises a contact arm (3041), an elastic connecting piece (3042), a contact base (3043) and a sensor (3044), one end of the elastic connecting piece is connected with the contact arm, the other end of the elastic connecting piece is connected with the contact base, the sensor is located above the contact base, the contact base and the sensor are both fixedly connected with a protective shell, and the protective shell is connected with the first material taking arm/the second material taking arm.

6. The semiconductor wafer cleaning apparatus of claim 5, wherein: an elastic part (3045) is sleeved at the lower part of the periphery of the sensor.

7. The semiconductor wafer cleaning apparatus of claim 1, wherein: and a sealing cover (1057) is arranged at the upper end of the water injection shell and is provided with a through hole for the piston rod to pass through.

8. The semiconductor wafer cleaning apparatus of claim 1, wherein: the diapire of first external cleaning tank includes first horizontal segment (10121), middle slope section (10122) and second horizontal segment (10123), the incline direction of middle slope section is for inclining to the second horizontal segment direction by first horizontal segment, the circulating water delivery port is located the second horizontal segment.

9. The semiconductor wafer cleaning apparatus of claim 1, wherein: the three-way switching structure comprises a first push rod (20241), a first connecting disc (20242), a third connecting rod (20243), a second connecting disc (20244) and a second push rod (20245), wherein the first connecting disc and the second connecting disc are respectively connected with two ends of the third connecting rod, one end of the first push rod is connected with the first connecting disc, one end of the second push rod is connected with the second connecting disc, the other end of the first push rod is sleeved with the first side shell, and the other end of the second push rod is sleeved with the second side shell.

10. The semiconductor wafer cleaning apparatus of claim 1, wherein: a first retainer ring (20234) for limiting the first connecting disc to move towards the second liquid outlet and a second retainer ring (20235) for limiting the second connecting disc to move towards the first liquid outlet are formed in the center shell;

a third retainer ring (20212) for limiting the first connecting disc to move towards the first side shell is formed at one end of the first side shell close to the central shell; and a fourth retainer ring (20222) for limiting the movement of the second connecting disc towards the second side shell is formed at one end of the second side shell close to the central shell.

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