CN114849974B

CN114849974B - Vacuum dispensing machine for electronic equipment processing

Info

Publication number: CN114849974B
Application number: CN202210486218.7A
Authority: CN
Inventors: 陈晓峰; 杨春雨
Original assignee: Suzhou Zhuozhao Dispensing Co Ltd
Current assignee: Suzhou Zhuozhao Dispensing Co Ltd
Priority date: 2020-12-28
Filing date: 2020-12-28
Publication date: 2023-06-16
Anticipated expiration: 2040-12-28
Also published as: CN114849974A; CN113042325A; CN113042325B; CN115025930A; CN115025930B

Abstract

The invention discloses a vacuum dispensing machine for electronic equipment processing, which comprises a vacuum bin body, a frame, a dispensing valve and a workbench, wherein an air extraction opening and an air inlet are formed in the outer surface of one side of the vacuum bin body; when the air pressure of the vacuum bin body is larger than the preset value of the air pressure sensor arranged on the vacuum bin body, the first cylinder pushes the first flange plate into the air extraction opening; pulling the second flange plate away from the air inlet, and adjusting the air pressure in the vacuum bin body until the air pressure reaches a preset value; and after the operation of the vacuum bin body is completed, the second flange plate is pulled away from the air inlet to release pressure. The invention can not only improve the sealing performance of the first flange plate to the air extraction opening in the long-term use process, but also prevent the impact caused by too fast shrinkage in the opening process of the first flange plate, and prolong the service life of the mechanism.

Description

Vacuum dispensing machine for electronic equipment processing

Technical Field

The invention relates to the technical field of vacuum cavity sealing, in particular to a vacuum dispensing machine for electronic equipment processing.

Background

At present, intelligent electronic devices, such as smart phones and tablet computers, are rapidly developed, and with the progress of technology, functions of various intelligent electronic devices are more and more, so that integration of functions of the intelligent electronic devices promotes the gradual increase of various parts, and a connection mode between parts is changed from a previous screw locking connection to a dispensing connection. The glue dispenser has the opportunity to enter glue before and after glue drips to the product under the non-vacuum working environment, and the quality of the product is directly affected.

The vacuum cavity is mainly applied to the field of product dispensing and packaging, and utilizes the acting force of negative pressure to firstly pump away the air in the vacuum box in the pouring process, then the product is poured, glue can be quickly infiltrated into the product, and the pouring impact and the bubbles generated by the contact of the glue and the product can be quickly pumped away under the action of the negative pressure, so that the high performance of the product is ensured.

In the prior art, when the cavity is vacuumized, the vacuum value in the cavity is unstable due to the fact that the pressure in the cavity is greatly different from the external pressure and the time delay property is provided when the valve is closed. And the adsorption force generated by the larger internal and external pressure difference has higher output power requirement on the closing mechanism of the valve, and the valve opening and closing mechanism with larger kinetic energy can impact the cavity, so that the service life of the valve is reduced.

Disclosure of Invention

The invention aims to provide a vacuum dispensing machine for electronic equipment machining, which can improve the sealing performance of a first flange plate on an extraction opening in the long-term use process, prevent collision caused by too fast shrinkage in the opening process of the first flange plate and prolong the service life of a mechanism.

In order to achieve the above purpose, the invention adopts the following technical scheme: the vacuum dispensing machine for processing the electronic equipment comprises a vacuum bin body, a frame, a dispensing valve and a workbench, wherein the vacuum bin body is arranged on the frame, the dispensing valve and the workbench are both positioned in the vacuum bin body, and the dispensing valve is positioned right above the workbench;

an air extraction opening and an air inlet are formed in the outer surface of one side of the vacuum bin body, a flange part extending inwards in the radial direction is arranged on the inner wall of one end, close to the inside of the vacuum bin body, of each of the air extraction opening and the air inlet, a first flange plate is embedded into the air extraction opening, a second flange plate is embedded into the air inlet, the end faces of one end of each of the first flange plate and the second flange plate are in surface contact with the end faces of the corresponding flange part, and the other end of each of the first flange plate and the second flange plate is connected with piston rods of a first cylinder and a second cylinder which are correspondingly arranged;

a connecting seat is arranged on the air extraction opening, one end face of the connecting seat is connected with the vacuum bin body, the first air cylinder is arranged on the other end face of the connecting seat, a piston rod of the first air cylinder is connected with the first flange plate through a first mandrel, a first through hole communicated with the air extraction opening is formed in the connecting seat along the direction of the first mandrel, the first mandrel is arranged in the first through hole in a telescopic manner, an air extraction hole communicated with the first through hole is further formed in the connecting seat, the air extraction hole is used for being connected with a vacuum pump, and at least one vacuum pressure sensor is arranged on the vacuum bin body;

the elastic piece is sleeved on the first mandrel, one end, close to the first flange, of the elastic piece is contacted with an outer flange part positioned at the tail end of the first mandrel, and the other end of the elastic piece is connected with the shell of the first cylinder in an extrusion mode;

a cushion block is arranged between the first cylinder and the connecting seat, the other end of the elastic piece is connected with the cushion block in an extrusion mode, a second through hole for a piston rod of the first cylinder and a first mandrel to penetrate is formed in the center of the cushion block, an air outlet hole communicated with the second through hole is formed in the outer end face of the cushion block, and the inner diameter of the second through hole, which is close to one end of the elastic piece, is smaller than that of the second through hole, which is close to one end of the first cylinder;

when the first cylinder pulls the first flange plate away from the air extraction opening, the external connection air pump starts to work to extract air from the vacuum bin body;

when the air pressure of the vacuum bin body is larger than the preset value of the air pressure sensor arranged on the vacuum bin body, the first cylinder pushes the first flange plate into the air extraction opening;

pulling the second flange plate away from the air inlet, and adjusting the air pressure in the vacuum bin body until the air pressure reaches a preset value;

when the operation of the vacuum bin body is completed, the second flange plate is pulled away from the air inlet to release pressure;

the vacuum bin body is provided with a door opening, a sealing ring is arranged at the peripheral edge of the door opening, the front side of the door opening is provided with a movable door body, the left side and the right side of the door body are respectively provided with a door frame, the vacuum bin body positioned at the left side and the right side of the door opening is respectively provided with a linear guide rail, and the two door frames are respectively connected with the corresponding linear guide rails through a sliding block, so that the door body can move up and down along the vertical direction;

a guide strip is arranged between the linear guide rail and the door frame, at least one rotatable guide bearing is arranged on the side end surface of the door frame, and when the door body moves up and down along the vertical direction, the guide bearing which moves up and down along with the door frame rolls on the front surface of the guide strip;

the front surface of the guide bar is provided with a groove corresponding to the guide bearing, the sliding block is connected with the door frame through a connecting block and a pin shaft, one end of the connecting block is connected with the sliding block, the side end surface of the other end of the connecting block is provided with a bar-shaped groove which is obliquely arranged, one end of the pin shaft is fixedly connected with the door frame, and the other end of the pin shaft is movably embedded into the bar-shaped groove;

when the door body is in a closed state, the guide bearing is embedded into the corresponding groove and forms a gap with the bottom surface of the groove, a gap is formed between the pin shaft positioned in the strip-shaped groove and one end of the strip-shaped groove, which is close to the sealing ring, and the door body is in extrusion contact with the sealing ring;

when the door body is in an open state, the guide bearing rolls out of the corresponding groove, the pin shaft positioned in the strip-shaped groove moves towards one end of the strip-shaped groove away from the sealing ring, and the door body and the sealing ring are arranged at intervals.

The further improved scheme in the technical scheme is as follows:

1. in the above scheme, the elastic piece is a bellows-shaped elastic piece.

2. In the above scheme, a supporting washer is arranged between the shell of the first cylinder and the elastic piece.

3. In the scheme, the support gasket is sleeved on the first mandrel and is in extrusion contact with the end face of the elastic piece.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

1. according to the vacuum dispensing machine for processing the electronic equipment, the piston rod of the air cylinder is connected with the first flange plate through the mandrel, the through hole communicated with the air extraction opening is formed in the connecting seat along the mandrel, the mandrel is arranged in the through hole in a telescopic mode, the mandrel is sleeved with the elastic piece, one end, close to the first flange plate, of the elastic piece is in contact with the outer flange part positioned at the tail end of the mandrel, the other end of the elastic piece is in extrusion connection with the shell of the air cylinder, the first flange plate can be subjected to superposition force application when the first flange plate is closed through the arrangement of the elastic piece, the sealing performance of the first flange plate to the air extraction opening in the long-term use process is improved, impact caused by too fast shrinkage in the opening process of the first flange plate can be prevented, and the service life of the mechanism is prolonged.

2. The vacuum dispensing machine for processing the electronic equipment is characterized in that a cushion block is arranged between a first cylinder and a connecting seat, the other end of the elastic piece is connected with the cushion block in an extrusion mode, a piston rod of the first cylinder and a second through hole for a first mandrel to penetrate are formed in the center of the cushion block, an air outlet hole communicated with the second through hole is formed in the outer end face of the cushion block, the piston rod of the cylinder can always keep constant driving force in the long-term reciprocating motion process, and the situation that a flange plate cannot be driven to seal an extraction opening due to air holding is avoided; further, the inner diameter of the second through hole close to one end of the elastic piece is smaller than the inner diameter of the second through hole close to one end of the first air cylinder, so that the assembly between the air cylinder and the cushion block is tighter, smooth exhaust of the air outlet can be maintained, unsmooth movement of the air cylinder piston rod caused by suffocating is further prevented, and smooth and stable operation of the vacuumizing process in the long-term use process is ensured.

3. According to the vacuum dispensing machine for processing the electronic equipment, the guide bearing is matched with the groove, the pin shaft and the strip-shaped groove, and the pin shaft provides a tangential force in the closing process of the door body, so that the guide bearing is embedded into the groove, and meanwhile, the door body extrudes the sealing ring, on the basis of saving space and being convenient to open and close, the tightness in the vacuum bin body is ensured when the door body is in a closed state, the abrasion to the sealing ring in the opening and closing process of the door body can be avoided, and the damage to the sealing ring caused by instant pressure relief when the door body is opened can be avoided, so that the stability of the sealing performance of the vacuum bin body in the long-term use process is ensured; further, the clearance between the guide bearing and the groove and between the pin shaft and the strip-shaped groove is provided with a telescopic space, when the vacuum bin body is vacuumized, the pin shaft is prevented from being damaged due to the fact that negative pressure is transferred to the pin shaft, the sealing ring can be pressed by the door body under the action of negative pressure, and sealing performance is improved.

Drawings

FIG. 1 is a schematic structural view of a vacuum dispensing machine for processing electronic equipment;

FIG. 2 is a schematic diagram of a partial structure of a vacuum chamber of the vacuum dispensing machine for processing electronic equipment;

FIG. 3 is a schematic view of a partial cross-sectional structure of a vacuum dispensing machine for processing electronic equipment according to the present invention;

FIG. 4 is a schematic diagram of the internal structure of a vacuum bin of the vacuum dispensing machine for processing electronic equipment;

FIG. 5 is a schematic diagram of a block diagram of a vacuum dispenser for electronic equipment processing according to the present invention;

FIG. 6 is a schematic diagram II of a cushion block in the vacuum dispensing machine for processing electronic equipment;

FIG. 7 is a schematic diagram of a door opening and a sealing ring of the vacuum dispensing machine for processing electronic equipment;

FIG. 8 is a schematic diagram of a door module of the vacuum dispensing machine for processing electronic equipment according to the present invention;

fig. 9 is a schematic diagram of a partial structure of a door module of the vacuum dispensing machine for processing electronic equipment.

In the above figures: 1. a vacuum bin body; 2. an extraction opening; 3. an air inlet; 4. a flange portion; 5. a first flange; 6. a second flange; 7. a first cylinder; 8. a second cylinder; 9. a connecting seat; 10. a first mandrel; 101. an outer flange portion; 11. a first through hole; 12. an air suction hole; 13. an air extraction seat; 14. an elastic member; 15. a support washer; 16. a frame; 17. dispensing valve; 18. a work table; 31. a cushion block; 311. a main body portion; 312. a boss; 32. a second through hole; 33. an air outlet hole; 34. a vacuum pressure sensor; 35. a door opening; 36. a seal ring; 37. a door body; 38. a door frame; 39. a linear guide rail; 40. a sliding block; 41. a cylinder; 42. a guide bar; 43. a guide bearing; 44. a groove; 45. a connecting block; 46. a pin shaft; 47. a bar-shaped groove.

Detailed Description

In the description of this patent, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are based on directions or positional relationships shown in the drawings, are merely for convenience of description and simplification of description, and do not indicate or imply that the apparatus or element in question must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in this patent will be understood by those of ordinary skill in the art in a specific context.

Example 1: the vacuum dispensing machine for processing the electronic equipment comprises a vacuum bin body 1, a frame 16, a dispensing valve 17 and a workbench 18, wherein the vacuum bin body 1 is arranged on the frame 16, the dispensing valve 17 and the workbench 18 are both positioned in the vacuum bin body 1, and the dispensing valve 17 is positioned right above the workbench 18;

an air extraction opening 2 and an air inlet 3 are formed in the outer surface of one side of the vacuum bin body 1, a flange part 4 extending inwards in the radial direction is formed in the inner wall, close to one end inside the vacuum bin body 1, of each of the air extraction opening 2 and the air inlet 3, a first flange plate 5 is embedded into the air extraction opening 2, a second flange plate 6 is embedded into the air inlet 3, the end faces of one end of each of the first flange plate 5 and the second flange plate 6 are in surface contact with the end faces of the corresponding flange part 4, and the other end of each of the first flange plate 5 and the second flange plate 6 is connected with piston rods of a first cylinder 7 and a second cylinder 8 which are correspondingly arranged;

a connecting seat 9 is arranged on the air extraction opening 2, one end surface of the connecting seat 9 is connected with the vacuum bin body 1, the first air cylinder 7 is arranged on the other end surface of the connecting seat 9, a piston rod of the first air cylinder 7 is connected with the first flange plate 5 through a first mandrel 10, a first through hole 11 communicated with the air extraction opening 2 is formed in the connecting seat 9 along the direction of the first mandrel 10, the first mandrel 10 is telescopically arranged in the first through hole 11, an air extraction hole 12 communicated with the first through hole 11 is formed in the connecting seat 9, and the air extraction hole 12 is used for being connected with a vacuum pump;

an elastic piece 14 is sleeved on the first mandrel 10, one end, close to the first flange 5, of the elastic piece 14 is in contact with an outer flange part 101 positioned at the tail end of the first mandrel 10, and the other end of the elastic piece 14 is connected with a shell of the first cylinder 7 in an extrusion mode;

a cushion block 31 is arranged between the first air cylinder 7 and the connecting seat 9, the other end of the elastic piece 14 is connected with the cushion block 31 in an extrusion mode, a second through hole 32 for a piston rod of the first air cylinder 7 and the first mandrel 10 to penetrate is formed in the center of the cushion block 31, and an air outlet hole 33 communicated with the second through hole 32 is formed in the outer end face of the cushion block 31;

the inner diameter of the second through hole 32 near one end of the elastic piece 14 is smaller than the inner diameter of the second through hole near one end of the first cylinder 7;

the vacuum bin body 1 is provided with a door opening 35, a sealing ring 36 is arranged at the peripheral edge of the door opening 35, a movable door body 37 is arranged at the front side of the door opening 35, a door frame 38 is respectively arranged at the left side and the right side of the door body 37, a linear guide rail 39 is respectively arranged on the vacuum bin body 1 at the left side and the right side of the door opening 35, and the two door frames 38 are respectively connected with the corresponding linear guide rail 39 through a sliding block 40, so that the door body 37 can move up and down along the vertical direction;

a guide bar 42 is installed between the linear guide rail 39 and the door frame 38, at least one rotatable guide bearing 43 is installed on a side end surface of the door frame 38, and when the door body 37 moves up and down along with the vertical direction, the guide bearing 43 which moves up and down along with the door frame 38 rolls on the front surface of the guide bar 42;

the front surface of the guide bar 42 is provided with a groove 44 corresponding to the guide bearing 43, the sliding block 40 is connected with the door frame 38 through a connecting block 45 and a pin shaft 46, one end of the connecting block 45 is connected with the sliding block 40, the side end surface of the other end of the connecting block 45 is provided with a bar groove 47 which is obliquely arranged, one end of the pin shaft 46 is fixedly connected with the door frame 38, and the other end of the pin shaft 46 is movably embedded into the bar groove 47;

when the door body 37 is in a closed state, the guide bearing 43 is embedded into the corresponding groove 44 and forms a gap with the bottom surface of the groove 44, a gap is formed between the pin shaft 46 positioned in the strip-shaped groove 47 and one end of the strip-shaped groove 47 close to the sealing ring 36, and the door body 37 is in extrusion contact with the sealing ring 36;

when the door 37 is in an open state, the guide bearing 43 rolls out of the corresponding groove 44, the pin 46 located in the bar-shaped groove 47 moves toward one end of the bar-shaped groove 47 away from the sealing ring 36, and the door 37 and the sealing ring 36 are arranged at intervals.

The elastic member 14 is a bellows-like elastic member.

A supporting washer 15 is arranged between the shell of the first cylinder 7 and the elastic piece 14, and the supporting washer 15 is sleeved on the first mandrel 10 and is in extrusion contact with the end surface of the elastic piece 14.

The pad 31 includes a main body portion 311 adjacent to the first cylinder 7 and a boss portion 312 fitted into the first through hole 11.

At least one vacuum pressure sensor 34 is mounted on the vacuum chamber 1.

The inclination direction of the strip-shaped groove 47 forms an angle of 40 ° with the moving direction of the door body 37.

Example 2: the vacuum dispensing machine for processing the electronic equipment comprises a vacuum bin body 1, a frame 16, a dispensing valve 17 and a workbench 18, wherein the vacuum bin body 1 is arranged on the frame 16, the dispensing valve 17 and the workbench 18 are both positioned in the vacuum bin body 1, and the dispensing valve 17 is positioned right above the workbench 18;

The elastic member 14 is a bellows-like elastic member.

A screw sequentially passes through the first cylinder 7 and the cushion block 31 to be connected with the connecting seat 9, and the first cylinder 7 and the cushion block 31 are arranged on the connecting seat 9.

A cylinder 41 is mounted on the vacuum chamber 1 below the sliding block 40.

The inclination direction of the strip-shaped groove 47 forms an angle of 50 ° with the moving direction of the door body 37.

Working principle:

the first cylinder drives the first flange plate to stretch to control the opening and closing of the air suction flow passage, so that the operation of vacuumizing the vacuum cabin body is controlled;

the second cylinder drives the second flange plate to stretch to control the opening and closing of the air inlet flow passage and the air pressure change in the vacuum bin body;

when the air pressure in the vacuum bin body is larger than the preset value of the air pressure sensor arranged on the vacuum bin body, the first cylinder pushes the first flange plate into the air extraction opening;

when the operation in the vacuum bin body is completed, the second flange plate is pulled away from the air inlet to release pressure.

When the device is adopted, the elastic piece is arranged, so that the first flange can be subjected to superposition force application when the first flange is closed, the sealing performance of the first flange to the extraction opening in the long-term use process is improved, the impact caused by too fast shrinkage in the first flange opening process can be prevented, and the service life of the mechanism is prolonged;

in addition, the piston rod of the air cylinder can always keep constant driving force in the long-term reciprocating motion process, and the situation that the flange plate cannot be driven to seal the extraction opening due to air holding is avoided;

furthermore, the assembly between the air cylinder and the cushion block can be more compact, the smooth exhaust of the air outlet can be maintained, the unsmooth movement of the piston rod of the air cylinder caused by the suffocation of air is further prevented, and the smooth and stable operation of the vacuumizing process in the long-term use process is ensured;

in addition, the guide bearing is matched with the groove and the pin shaft and the strip-shaped groove, and in the closing process of the door body, the pin shaft provides a tangential force, so that the guide bearing is embedded into the groove, and meanwhile, the door body extrudes the sealing ring, on the basis of saving space and being convenient to open and close, the tightness in the vacuum bin body is ensured when the door body is in a closed state, the abrasion to the sealing ring in the opening and closing process of the door body can be avoided, and in addition, when the door body is opened, the damage to the sealing ring caused by instant pressure relief is avoided, so that the stability of the sealing performance of the vacuum bin body in the long-term use process is ensured;

further, the clearance between the guide bearing and the groove and between the pin shaft and the strip-shaped groove is provided with a telescopic space, when the vacuum bin body is vacuumized, the pin shaft is prevented from being damaged due to the fact that negative pressure is transferred to the pin shaft, the sealing ring can be pressed by the door body under the action of negative pressure, and sealing performance is improved.

The above embodiments are provided to illustrate the technical concept and features of the present invention and are intended to enable those skilled in the art to understand the content of the present invention and implement the same, and are not intended to limit the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims

1. The utility model provides a vacuum point gum machine is used in electronic equipment processing which characterized in that: the automatic glue dispensing device comprises a vacuum bin body (1), a frame (16), a glue dispensing valve (17) and a workbench (18), wherein the vacuum bin body (1) is arranged on the frame (16), the glue dispensing valve (17) and the workbench (18) are both positioned in the vacuum bin body (1), and the glue dispensing valve (17) is positioned right above the workbench (18);

an extraction opening (2) and an air inlet (3) are formed in the outer surface of one side of the vacuum bin body (1), a flange part (4) extending inwards in the radial direction is arranged on the inner wall of one end, close to the inside of the vacuum bin body (1), of each of the extraction opening (2) and the air inlet (3), a first flange plate (5) is embedded into the extraction opening (2), a second flange plate (6) is embedded into the air inlet (3), the end surfaces of one end of each of the first flange plate (5) and the second flange plate (6) are in surface contact with the end surfaces of the corresponding flange part (4), and the other ends of the first flange plate (5) and the second flange plate (6) are connected with piston rods of a first cylinder (7) and a second cylinder (8) which are correspondingly arranged;

a connecting seat (9) is arranged on the air extraction opening (2), one end face of the connecting seat (9) is connected with the vacuum bin body (1), a first air cylinder (7) is arranged on the other end face of the connecting seat (9), a piston rod of the first air cylinder (7) is connected with the first flange plate (5) through a first mandrel (10), a first through hole (11) communicated with the air extraction opening (2) is formed in the connecting seat (9) along the direction of the first mandrel (10), the first mandrel (10) is telescopically arranged in the first through hole (11), an air extraction hole (12) communicated with the first through hole (11) is formed in the connecting seat (9), the air extraction hole (12) is used for being connected with a vacuum pump, and at least one vacuum pressure sensor (34) is arranged on the vacuum bin body (1).

An elastic piece (14) is sleeved on the first mandrel (10), one end, close to the first flange plate (5), of the elastic piece (14) is in contact with an outer flange part (101) positioned at the tail end of the first mandrel (10), and the other end of the elastic piece (14) is connected with a shell of the first cylinder (7) in an extrusion mode;

a cushion block (31) is arranged between the first air cylinder (7) and the connecting seat (9), the other end of the elastic piece (14) is connected with the cushion block (31) in an extrusion mode, a piston rod of the first air cylinder (7) and a second through hole (32) for the first mandrel (10) to penetrate through are formed in the center of the cushion block (31), an air outlet hole (33) communicated with the second through hole (32) is formed in the outer end face of the cushion block (31), and the inner diameter of the second through hole (32) close to one end of the elastic piece (14) is smaller than the inner diameter of the second through hole close to one end of the first air cylinder (7);

when the first air cylinder (7) pulls the first flange plate (5) away from the air extraction opening (2), the air pump is connected to the outside to start working, and air is extracted from the vacuum bin body (1);

when the air pressure of the vacuum bin body (1) is larger than the preset value of the air pressure sensor arranged on the vacuum bin body, the first cylinder (7) pushes the first flange plate (5) into the extraction opening (2);

pulling the second flange plate (6) away from the air inlet (3), and adjusting the air pressure in the vacuum bin body (1) until the air pressure reaches a preset value;

when the operation of the vacuum bin body (1) is completed, the second flange plate (6) is pulled away from the air inlet (3) to release pressure;

a door opening (35) is formed in the vacuum bin body (1), a sealing ring (36) is arranged at the peripheral edge of the door opening (35), a movable door body (37) is arranged at the front side of the door opening (35), a door frame (38) is respectively arranged at the left side and the right side of the door body (37), a linear guide rail (39) is respectively arranged on the vacuum bin body (1) at the left side and the right side of the door opening (35), and the two door frames (38) are respectively connected with the corresponding linear guide rail (39) through a sliding block (40) so that the door body (37) can move up and down along the vertical direction;

a guide bar (42) is arranged between the linear guide rail (39) and the door frame (38), at least one rotatable guide bearing (43) is arranged on the side end surface of the door frame (38), and when the door body (37) moves up and down along the vertical direction, the guide bearing (43) which moves up and down along with the door frame (38) rolls on the front surface of the guide bar (42);

the front surface of the guide strip (42) is provided with a groove (44) corresponding to the guide bearing (43), the sliding block (40) is connected with the door frame (38) through a connecting block (45) and a pin shaft (46), one end of the connecting block (45) is connected with the sliding block (40), the side end surface of the other end of the connecting block (45) is provided with a strip-shaped groove (47) which is obliquely arranged, one end of the pin shaft (46) is fixedly connected with the door frame (38), and the other end of the pin shaft (46) is movably embedded into the strip-shaped groove (47);

when the door body (37) is in a closed state, the guide bearing (43) is embedded into the corresponding groove (44) and forms a gap with the bottom surface of the groove (44), a gap is formed between the pin shaft (46) positioned in the strip-shaped groove (47) and one end, close to the sealing ring (36), of the strip-shaped groove (47), and the door body (37) is in extrusion contact with the sealing ring (36);

when the door body (37) is in an open state, the guide bearing (43) rolls out of the corresponding groove (44), the pin shaft (46) positioned in the strip-shaped groove (47) moves towards one end of the strip-shaped groove (47) far away from the sealing ring (36), and the door body (37) and the sealing ring (36) are arranged at intervals.

2. The vacuum dispensing machine for electronic equipment machining according to claim 1, wherein: the elastic member (14) is a bellows-like elastic member.

3. The vacuum dispensing machine for electronic equipment machining according to claim 1, wherein: a supporting washer (15) is arranged between the shell of the first cylinder (7) and the elastic piece (14).

4. The vacuum dispensing machine for electronic device processing of claim 3, wherein: the support gasket (15) is sleeved on the first mandrel (10) and is in extrusion contact with the end face of the elastic piece (14).