CN113086359A - Solder paste storage management mechanism and working method thereof - Google Patents

Abstract

The invention discloses a solder paste storage management mechanism, which comprises a refrigerating chamber, a refrigerating storage track tempering chamber and a box body, wherein a transparent toughened glass door is rotatably arranged on the refrigerating chamber, a refrigerating storage track is arranged inside the refrigerating chamber, a tempering storage track is arranged inside the tempering chamber, the refrigerating storage track and the tempering storage track are arranged on a linear module in a one-to-one correspondence manner, the tempering storage track is arranged on the linear module, the refrigerating chamber is communicated with the tempering storage track through a connecting assembly, the refrigerating storage track and the tempering storage track convey a solder paste body through a connecting conveyor belt, the connecting assembly is arranged on an XZ-axis moving assembly, two ends of the refrigerating storage track are respectively provided with tempering zone blocking electromagnets, the discharge end of the tempering storage track is also provided with the tempering zone blocking electromagnets, and a heat insulation layer is arranged between the refrigerating chamber and the tempering chamber, and a heat insulation door is movably arranged in the middle of the heat insulation layer. The invention has the advantages of reasonable structural design, high efficiency and convenience.

Description

Solder paste storage management mechanism and working method thereof

Technical Field

The invention relates to the technical field of solder paste storage, in particular to a solder paste storage management mechanism and a working method thereof.

Background

The tin cream is a material used for connecting a part electrode and a circuit board bonding pad, the material is mainly a tin alloy component, and can play a role in conducting a part motor and a PCB after being solidified. The tin paste is uniformly stirred for more than 4 hours generally after being heated, the heating is carried out for the purpose of enabling the temperature of the tin paste to be closer to the room temperature, condensate water generated on the surface of the tin paste due to refrigeration is avoided, the condensate water can affect the quality of the tin paste, the phenomenon of tin explosion can occur, and the welding quality is seriously affected. When a user wants to take out solder paste, the mechanical gripper in the cold storage area grabs the solder paste at the specified position to the transition platform, and the manipulator in the temperature return area grabs the solder paste on the transition platform to the specified position in the temperature return area. The vertical storage management machine uses the vertical broken line track to transport the solder paste by means of the dead weight of the solder paste and the slotting thumb wheel structure, and the solder paste is easy to clamp a main solder paste and inconvenient to process after being clamped.

Disclosure of Invention

The invention aims to provide a solder paste storage management mechanism and a working method thereof, which have the advantages of reasonable structural design, high efficiency and convenience, and solve the problem that the conventional bottled solder paste storage management equipment adopts a mechanical gripper in a cold storage area, a mechanical gripper in a temperature return area and a transition platform. When a user wants to take out solder paste, the mechanical gripper in the cold storage area grabs the solder paste at the specified position to the transition platform, and the manipulator in the temperature return area grabs the solder paste on the transition platform to the specified position in the temperature return area. The vertical storage management machine uses the vertical broken line track to transport the solder paste by means of the dead weight of the solder paste and the slotting thumb wheel structure, and the solder paste is easy to block a main solder paste and block the problem of inconvenient post-processing.

In order to achieve the purpose, the invention provides the following technical scheme:

a tin paste storage management mechanism comprises a refrigerating chamber, a refrigerating storage track, a temperature return chamber and a box body, wherein the refrigerating chamber is arranged on one side of the box body, a transparent toughened glass door is rotatably installed on the refrigerating chamber, the temperature return chamber is arranged on the other side of the box body, the refrigerating storage track is arranged inside the refrigerating chamber, the temperature return storage track is arranged inside the temperature return chamber, the refrigerating storage track and the temperature return storage track are in one-to-one correspondence in number, the temperature return storage track is installed on a linear module, the refrigerating chamber is communicated with the temperature return storage track through a connecting assembly, the refrigerating storage track and the temperature return storage track convey a tin paste body through a connecting conveyor belt, the connecting assembly is installed on an XZ shaft moving assembly, temperature return zone blocking electromagnets are arranged at two ends of the refrigerating storage track, and a temperature return zone blocking electromagnet is also arranged at a discharge end of the temperature return storage track, and a heat insulation layer is arranged between the refrigerating chamber and the temperature return chamber, and a heat insulation door is movably arranged in the middle of the heat insulation layer.

Preferably, the cold-stored track of storing is equipped with a plurality of, just the cold-stored track of storing is evenly distributed side by side in the inside of walk-in, cold-stored storage is equipped with the cold-stored district conveyer belt on the track, the cold-stored district conveyer belt is connected with the transmission of cold-stored district conveying motor, install broken line type limit baffle on the cold-stored district conveyer belt, broken line type limit baffle's both ends are equipped with cold-stored district feeding respectively and stop the electro-magnet and the cold-stored district ejection of compact stops the electro-magnet, cold-stored district feeding inductor and cold-stored district ejection of compact inductor are installed respectively to broken line type limit baffle's both ends, the orbital discharge end of cold-stored is equipped.

Preferably, the connection assembly is movably provided with a connection conveyor belt, the connection conveyor belt is in transmission connection with a connection motor, one side of the connection conveyor belt is provided with a connection limiting baffle, and a connection feeding inductor is fixed on the connection limiting baffle.

Preferably, the track is stored to the temperature of returning is equipped with a plurality of, just the track evenly distributed on sharp module is stored to the temperature of returning, it stores the conveyer belt to be equipped with back temperature zone on the track to store to the temperature of returning, back temperature zone stores and installs back temperature zone conveyer belt limiting plate on the conveyer belt, install back temperature zone feeding inductor and back temperature zone ejection of compact inductor on the back temperature zone conveyer belt limiting plate.

Preferably, the front of box is equipped with sweeps a yard and prints all-in-one and touch-sensitive screen, the right side of box is equipped with the discharge gate.

A working method of a solder paste storage management mechanism is characterized by comprising the following steps:

s1, the identity of the user is verified on the touch screen, and the information is input into the solder paste body on the code scanning and printing all-in-one machine;

s2, opening the corresponding electromagnet, feeding by a user, working by the conveyor belt in the cold storage area, and conveying the solder paste body forwards along the broken line type limiting baffle;

s3, when the preset temperature return time is reached, the connection assembly moves to the corresponding cold storage track, the corresponding electromagnet rises, and the solder paste body falls into the connection assembly through the discharging sliding plate;

s4, opening the heat insulation door, moving the corresponding storage conveyor belt in the temperature return area to a position corresponding to the connection assembly by the linear module, and conveying the solder paste body to the conveyor belt in the temperature return area by the connection conveyor belt;

and S5, when the scheduled material taking time is reached, the corresponding temperature return area blocks the electromagnet to retract, and the temperature return area conveyor belt works to convey the solder paste to the material outlet.

Compared with the prior art, the invention has the beneficial effects that: the invention has simple and reasonable structural design, easy use, convenient operation and wide application prospect.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of a refrigerated storage track of the present invention;

FIG. 3 is a schematic structural diagram of a docking assembly of the present invention;

fig. 4 is a schematic structural diagram of a temperature-return storage track according to the present invention.

In the figure: 1. a refrigerating chamber; 2. a refrigerated storage track; 201. a cold storage zone feed inductor; 202. the cold storage area feeds and blocks the electromagnet; 203. a broken line type limit baffle; 204. the cold storage area discharges materials to block the electromagnet; 205. a cold storage area discharge sensor; 206. a discharging sliding plate; 207. a cold storage area transfer motor; 208. a cold storage area conveyor belt; 3. an XZ axis moving component; 4. a docking assembly; 401. connecting the conveyor belt; 402. connecting a limit baffle; 403. a connection motor; 404. connecting a feeding inductor; 5. a thermal insulation door; 6. returning to the greenhouse; 7. a temperature return storage track; 701. a temperature return zone feed inductor; 702. a linear module; 703. the return temperature zone blocks the electromagnet; 704. a discharge inductor in the temperature return area; 705. a temperature return area conveyor belt limiting plate; 706. a temperature return zone storage conveyor belt; 8. a discharge port; 9. a code scanning and printing all-in-one machine; 10. a touch screen; 11. a box body; 12. a solder paste body; 13. a transparent tempered glass door.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention provides a technical scheme of a solder paste storage management mechanism

Example 1:

a solder paste storage management mechanism comprises a refrigerating chamber 1, a refrigerating storage track 2, a temperature returning chamber 6 and a box body 11, wherein a code scanning and printing all-in-one machine 9 and a touch screen 10 are arranged on the front surface of the box body 11, a user inputs a supplement authority password on the touch screen 10, then the user opens a transparent toughened glass door 13, the transparent toughened glass door 13 is used for observing the state of solder paste conveniently, then the user scans a bar code on the solder paste by using the code scanning and printing all-in-one machine 9, if no bar code exists, the bar code is printed and pasted on a product, then an electromagnet 202 is blocked to lift corresponding to a cold storage area feeding of the refrigerating storage track 2, a solder paste body 12 is put into the cold storage area conveying belt 208, a corresponding cold storage area conveying motor 207 on the refrigerating storage track 2 starts to work, a cold storage area feeding inductor 201 at a feeding port senses the passing of the product, and a, after a period of time, the cold storage area conveying motor 207 stops rotating, after the feeding is successful, the cold storage area feeding blocking electromagnet 202 descends to prevent the materials from being continuously increased, the solder paste moves forwards along the broken line type limiting baffle 203 until the solder paste is blocked by the cold storage area discharging blocking electromagnet 204 at the outlet or the cold storage area conveying belt 208 stops, after the feeding is successful, the next bottle of solder paste can be continuously scanned and stacked, after the stored products of the cold storage track 2 reach the set upper limit, the touch screen 10 prompts that the solder paste is full, the cold storage area feeding blocking electromagnet 202 descends to prevent the continuous feeding of the solder paste, the right side of the box body 11 is provided with a discharging port 8, one side of the box body 11 is provided with a refrigerating chamber 1, a transparent toughened glass door 13 is rotatably installed on the refrigerating chamber 1, the other side of the box body 11 is provided with a temperature returning chamber 6, the refrigerating chamber 1 is internally provided with a plurality of refrigerating storage tracks 2, and the refrigerating storage tracks 2 are uniformly, be equipped with cold-stored district conveyer belt 208 on the cold-stored track 2 of storing, cold-stored district conveyer belt 208 is connected with cold-stored district transmission motor 207 transmission, install broken line type limit baffle 203 on the cold-stored district conveyer belt 208, the both ends of broken line type limit baffle 203 are equipped with the cold-stored district feeding respectively and stop electro-magnet 202 and the cold-stored district ejection of compact and stop electro-magnet 204, cold-stored district feeding inductor 201 and cold-stored district ejection of compact inductor 205 are installed respectively to the both ends of broken line type limit baffle 203, the discharge end of cold-stored track 2 of storing is equipped with ejection of compact slide 206.

The inside of the tempering room 6 is provided with a tempering storage track 7, the tempering storage track 7 is provided with a plurality of tempering storage tracks 7, the tempering storage tracks 7 are uniformly distributed on the linear module 702, the tempering storage track 7 is provided with a tempering area storage conveyor belt 706, the tempering area storage conveyor belt 706 is provided with a tempering area conveyor belt limiting plate 705, the tempering area conveyor belt limiting plate 705 is provided with a tempering area feeding sensor 701 and a tempering area discharging sensor 704, the refrigerating storage track 2 and the tempering storage track 7 are arranged on the linear module 702 in a one-to-one correspondence manner, the tempering storage track 7 is arranged on the refrigerating room 1 and the tempering storage track 7 and is communicated through a connection assembly 4, the connection assembly 4 is movably provided with a connection conveyor belt 401, the connection conveyor belt 401 is in transmission connection with a connection motor 403, one side of the connection conveyor belt 401 is provided with a connection limit baffle 402, and the connection limit baffle 402 is fixed with a connection feeding sensor 404.

The cold-stored track 2 of storing and the track 7 of returning the temperature are through the conveyer belt 401 transport tin cream body 12 of plugging into, the subassembly 4 of plugging into is installed on XZ axle removal subassembly 3, the cold-stored both ends of storing track 2 all are equipped with back the temperature district and block electro-magnet 703, the discharge end of the track 7 of storing of returning the temperature also is equipped with back the temperature district and blocks electro-magnet 703, be equipped with the heat insulating layer between walk-in 1 and the room 6 of returning the temperature, and department movable mounting has thermal-insulated door 5 in the middle of the heat insulating layer.

Example 2:

a solder paste storage management mechanism comprises a refrigerating chamber 1, a refrigerating storage track 2, a temperature return chamber 6 and a box body 11, wherein the front surface of the box body 11 is provided with a code scanning and printing integrated machine 9 and a touch screen 10, a user can reserve the time for taking a solder paste body 12 through the touch screen 10, after the time for returning the solder paste reaches the temperature return time, an XZ shaft moving shaft assembly 3 moves a connection assembly 4 to a corresponding discharging port of the refrigerating storage track 2, a cold storage area conveying belt 208 starts to work, a cold storage area discharging blocking electromagnet 204 lifts up, after the solder paste body 12 is in place, the cold storage area discharging sensor 205 senses a product and then sends a signal, the cold storage area conveying belt 208 stops working, the cold storage area discharging blocking electromagnet 204 puts down, the solder paste body 12 behind is blocked from passing through, the solder paste body 12 slides down to the connection conveying belt 401 from a discharging sliding plate 206, at the moment, the connection conveying belt 401 starts to work, a connection feeding sensor 404 on the connection assembly 4 senses the solder paste body, the connection conveyor belt 401 stops working, the heat insulation door 5 is opened, the linear module 702 works to enable the corresponding temperature return area storage conveyor belt 706 to be lifted to a corresponding position, the XZ-axis moving assembly 3 enables the connection conveyor belt 401 to pass through the heat insulation door 5 and be connected to the corresponding temperature return area storage conveyor belt 706, the connection conveyor belt 401 on the XZ-axis moving assembly 3 works to convey the solder paste body 12, the temperature return area feeding sensor 701 on the temperature return area storage conveyor belt 706 senses that a product is produced or passes through, the connection conveyor belt 401 on the XZ-axis moving assembly 3 stops working, the XZ-axis moving assembly 3 returns to the refrigerating chamber, the heat insulation door 5 is closed, after the temperature return time is up, a user inputs a goods taking code of the user on the touch screen 10, the linear module 702 moves to enable the temperature return area storage conveyor belt 706 corresponding to move to the discharge port 8, the temperature return area blocks the electromagnet 703 from being pulled open, and the corresponding temperature return area storage conveyor belt 706 works, the solder paste body 12 falls into the discharge hole 8 after passing through the induction area of the discharge inductor 704 in the temperature return area, the storage conveyor belt 706 in the temperature return area stops working, the blocking electromagnet 703 in the temperature return area extends out to block the product behind, the sensor is arranged on the discharge hole, the discharge can be continued only when the product is not at the discharge hole, the discharge hole 8 is arranged on the right side of the box body 11, the refrigerating chamber 1 is arranged on one side of the box body 11, the transparent toughened glass door 13 is rotatably arranged on the refrigerating chamber 1, the temperature return chamber 6 is arranged on the other side of the box body 11, the refrigerating chamber 1 is internally provided with a plurality of refrigerating storage rails 2, the refrigerating storage rails 2 are uniformly distributed in the refrigerating chamber 1 in parallel, the refrigerating storage rails 2 are provided with the refrigerating area conveyor belt 208, the refrigerating area conveyor belt 208 is in transmission connection with the refrigerating area conveyor motor 207, the refrigerating area conveyor belt 208 is provided with the broken line type limit baffle, the both ends of broken line type limit baffle 203 are equipped with respectively that the district's feeding of refrigerating stops electro-magnet 202 and the district's ejection of compact of refrigerating stops electro-magnet 204, and the district's feeding inductor 201 of refrigerating and the district's ejection of compact inductor 205 of refrigerating are installed respectively to the both ends of broken line type limit baffle 203, and the cold-stored discharge end of storing track 2 is equipped with ejection of compact slide 206.

The inside of the tempering room 6 is provided with a tempering storage track 7, the tempering storage track 7 is provided with a plurality of tempering storage tracks 7, the tempering storage tracks 7 are uniformly distributed on the linear module 702, the tempering storage track 7 is provided with a tempering area storage conveyor belt 706, the tempering area storage conveyor belt 706 is provided with a tempering area conveyor belt limiting plate 705, the tempering area conveyor belt limiting plate 705 is provided with a tempering area feeding sensor 701 and a tempering area discharging sensor 704, the refrigerating storage track 2 and the tempering storage track 7 are arranged on the linear module 702 in a one-to-one correspondence manner, the tempering storage track 7 is arranged on the refrigerating room 1 and the tempering storage track 7 and is communicated through a connection assembly 4, the connection assembly 4 is movably provided with a connection conveyor belt 401, the connection conveyor belt 401 is in transmission connection with a connection motor 403, one side of the connection conveyor belt 401 is provided with a connection limit baffle 402, and the connection limit baffle 402 is fixed with a connection feeding sensor 404.

The cold-stored track 2 of storing and the track 7 of returning the temperature are through the conveyer belt 401 transport tin cream body 12 of plugging into, the subassembly 4 of plugging into is installed on XZ axle removal subassembly 3, the cold-stored both ends of storing track 2 all are equipped with back the temperature district and block electro-magnet 703, the discharge end of the track 7 of storing of returning the temperature also is equipped with back the temperature district and blocks electro-magnet 703, be equipped with the heat insulating layer between walk-in 1 and the room 6 of returning the temperature, and department movable mounting has thermal-insulated door 5 in the middle of the heat insulating layer.

The invention provides a technical scheme of a working method of a solder paste storage management mechanism

Example 1:

a working method of a solder paste storage management mechanism comprises the following steps:

s1, the identity of the user is verified on the touch screen, and the information is input into the solder paste body on the code scanning and printing all-in-one machine;

s2, opening the corresponding electromagnet, feeding by a user, working by the conveyor belt in the cold storage area, and conveying the solder paste body forwards along the broken line type limiting baffle;

s3, when the preset temperature return time is reached, the connection assembly moves to the corresponding cold storage track, the corresponding electromagnet rises, and the solder paste body falls into the connection assembly through the discharging sliding plate;

s4, opening the heat insulation door, moving the corresponding storage conveyor belt in the temperature return area to a position corresponding to the connection assembly by the linear module, and conveying the solder paste body to the conveyor belt in the temperature return area by the connection conveyor belt;

and S5, when the scheduled material taking time is reached, the corresponding temperature return area blocks the electromagnet to retract, and the temperature return area conveyor belt works to convey the solder paste to the material outlet.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a solder paste stores administrative mechanism, includes walk-in (1), cold-stored track (2), returns greenhouse (6) and box (11), its characterized in that: a refrigerating chamber (1) is arranged on one side of the box body (11), a transparent toughened glass door (13) is rotatably mounted on the refrigerating chamber (1), a tempering chamber (6) is arranged on the other side of the box body (11), a refrigerating storage track (2) is arranged inside the refrigerating chamber (1), a tempering storage track (7) is arranged inside the tempering chamber (6), the refrigerating storage track (2) and the tempering storage track (7) are in one-to-one correspondence in number, the tempering storage track (7) is mounted on the linear module (702), the refrigerating chamber (1) and the tempering storage track (7) are communicated through a connecting assembly (4), the refrigerating storage track (2) and the tempering storage track (7) are used for conveying tin paste bodies (12) through a connecting conveyor belt (401), and the connecting assembly (4) is mounted on the XZ-axis moving assembly (3), the cold-stored both ends of storing track (2) all are equipped with back warm area and block electro-magnet (703), the discharge end that returns warm and store track (7) also is equipped with back warm area and blocks electro-magnet (703), be equipped with the heat insulating layer between walk-in (1) and the room (6) of returning warm, and department movable mounting has heat insulating door (5) in the middle of the heat insulating layer.

2. The solder paste storage management mechanism of claim 1, wherein: the cold-stored track (2) of storing is equipped with a plurality of, just the cold-stored track (2) of storing is in the inside of walk-in (1) evenly distributed side by side, be equipped with cold-stored district conveyer belt (208) on cold-stored track (2), cold-stored district conveyer belt (208) are connected with cold-stored district conveying motor (207) transmission, install broken line type limit baffle (203) on cold-stored district conveyer belt (208), the both ends of broken line type limit baffle (203) are equipped with cold-stored district feeding respectively and block electro-magnet (202) and the ejection of compact of cold-stored district and block electro-magnet (204), cold-stored district feeding inductor (201) and cold-stored district ejection of compact inductor (205) are installed respectively to the both ends of broken line type limit baffle (203), the discharge end of cold-stored track (2) is equipped with ejection of compact slide (206.

3. The solder paste storage management mechanism of claim 1, wherein: the connection assembly (4) is movably provided with a connection conveyor belt (401), the connection conveyor belt (401) is in transmission connection with a connection motor (403), one side of the connection conveyor belt (401) is provided with a connection limit baffle (402), and a connection feeding inductor (404) is fixed on the connection limit baffle (402).

4. The solder paste storage management mechanism of claim 1, wherein: the track is stored to temperature regain (7) are equipped with a plurality of, just the track is stored to temperature regain (7) evenly distributed on sharp module (702), it stores conveyer belt (706) to be equipped with temperature regain district on track (7) to store to temperature regain, install temperature regain district conveyer belt limiting plate (705) on the temperature regain district storage conveyer belt (706), install temperature regain district feeding inductor (701) and temperature regain district ejection of compact inductor (704) on temperature regain district conveyer belt limiting plate (705).

5. The solder paste storage management mechanism of claim 1, wherein: the front of box (11) is equipped with sweeps sign indicating number and prints all-in-one (9) and touch-sensitive screen (10), the right side of box (11) is equipped with discharge gate (8).

6. A working method of a solder paste storage management mechanism is characterized by comprising the following steps:

s1, the identity of the user is verified on the touch screen, and the information is input into the solder paste body on the code scanning and printing all-in-one machine;

s2, opening the corresponding electromagnet, feeding by a user, working by the conveyor belt in the cold storage area, and conveying the solder paste body forwards along the broken line type limiting baffle;

s3, when the preset temperature return time is reached, the connection assembly moves to the corresponding cold storage track, the corresponding electromagnet rises, and the solder paste body falls into the connection assembly through the discharging sliding plate;

s4, opening the heat insulation door, moving the corresponding storage conveyor belt in the temperature return area to a position corresponding to the connection assembly by the linear module, and conveying the solder paste body to the conveyor belt in the temperature return area by the connection conveyor belt;

and S5, when the scheduled material taking time is reached, the corresponding temperature return area blocks the electromagnet to retract, and the temperature return area conveyor belt works to convey the solder paste to the material outlet.

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