阅读说明：本技术 一种电子元器件储存用恒温防潮装置 (Constant-temperature damp-proof device for storage of electronic components ) 是由 高玉霞 于 2021-08-12 设计创作，主要内容包括：本发明涉及一种防潮装置,尤其涉及一种电子元器件储存用恒温防潮装置。需要设计一种方便人们对电子元器件进行储存,且使得电子元器被限位的电子元器件储存用恒温防潮装置。一种电子元器件储存用恒温防潮装置,包括有：防潮底箱,防潮底箱上设有支撑底座；密闭滚筒,密闭滚筒安装在防潮底箱上；密闭罩,密闭罩铰接式安装在防潮底箱上。本发明在固定机构和驱动机构配合下,启动伺服电机一次使得收纳滚筒转动90度,再将元器件从密闭滚筒右侧放入两个定位卡板之间,分隔皮带组件起到导向作用,且因卡位弹簧的作用,定位卡板始终对向内移动与元器件接触进行限位,如此,可方便人们对电子元器件进行储存,避免损坏。(The invention relates to a moisture-proof device, in particular to a constant-temperature moisture-proof device for storing electronic components. It is convenient for people to store electronic components and devices, and the electronic components and devices are stored by the limited electronic components and devices with constant temperature and moisture-proof device. The utility model provides an electronic components stores and uses constant temperature dampproof device, including: the damp-proof bottom box is provided with a supporting base; the closed roller is arranged on the moisture-proof bottom box; and the closed cover is hinged to the moisture-proof bottom box. According to the invention, under the coordination of the fixing mechanism and the driving mechanism, the servo motor is started to rotate the accommodating roller for 90 degrees once, then the component is placed between the two positioning clamping plates from the right side of the closed roller, the belt assembly is separated to play a guiding role, and the positioning clamping plates move inwards all the time to be in contact with the component for limiting under the action of the clamping springs, so that the electronic component can be conveniently stored by people, and the damage is avoided.)

1. The utility model provides an electronic components stores and uses constant temperature dampproof device which characterized in that, including:

the damp-proof bottom box (1), a supporting base (2) is arranged on the damp-proof bottom box (1);

the closed roller (3), the closed roller (3) is installed on the damp-proof bottom box (1);

the closed cover (41), the closed cover (41) is hinged on the damp-proof bottom box (1);

the starting button (42), the starting button (42) is installed on the damp-proof bottom box (1);

a stop button (43), wherein the stop button (43) is arranged on the moisture-proof bottom box (1);

the protective cover (5), the protective cover (5) is installed on the damp-proof bottom case (1);

the fixed bottom plate (6), the fixed bottom plate (6) is installed on the damp-proof bottom box (1);

the fixing mechanism (7) is arranged on the closed roller (3) and is used for fixing the components;

and the driving mechanism (8) is arranged between the moisture-proof bottom box (1) and the fixing mechanism (7) and is used for providing power.

2. A constant temperature and humidity preventing apparatus for storing electronic components as claimed in claim 1, wherein the fixing mechanism (7) comprises:

the fixed cross bar (72), the fixed cross bar (72) is installed on the closed drum (3) in a rotating way;

a storage roller (71), wherein the storage roller (71) is arranged on the fixed cross bar (72);

the positioning clamping plates (73), the positioning clamping plates (73) are arranged on the containing roller (71) at intervals in a sliding manner;

the clamping spring (74) is symmetrically positioned between the clamping plate (73) and the accommodating roller (71);

the positioning short shafts (76), the positioning short shafts (76) are rotatably arranged on the containing roller (71) at intervals, and every two positioning short shafts (76) form a group;

and the separating belt assemblies (75), and the separating belt assemblies (75) are respectively arranged between the two positioning short shafts (76).

3. A constant temperature and humidity preventing apparatus for storing electronic components as claimed in claim 2, wherein the driving mechanism (8) includes:

the fixed underframe (81), the fixed underframe (81) is arranged on the damp-proof bottom box (1);

the servo motor (82), the servo motor (82) is installed on the fixed chassis (81);

the first fixing short column (84), the first fixing short column (84) is rotatably installed on the damp-proof bottom box (1);

the first transmission assembly (83), the first transmission assembly (83) is installed between the first fixed short column (84) and the output shaft of the servo motor (82);

the second fixed short column (86), the second fixed short column (86) is installed on the damp-proof bottom box (1) in a rotating mode;

the reversing bevel gear assembly (85), the reversing bevel gear assembly (85) is installed between the second fixed short column (86) and the first fixed short column (84);

the transmission short shaft (88), the transmission short shaft (88) is installed on the damp-proof bottom box (1) in a rotating mode;

the second transmission assembly (87), the second transmission assembly (87) is installed between the transmission short shaft (88) and the second fixed short column (86);

a positioning circular plate (89), wherein the positioning circular plate (89) is arranged on the transmission short shaft (88);

the first fixed short rod (810), the first fixed short rod (810) is installed on the transmission short shaft (88);

the driving roller (811), the driving roller (811) is rotatably mounted on the first fixed short rod (810);

and the positioning locking plate (812), and the positioning locking plate (812) is arranged on the fixed cross rod (72).

4. A constant temperature and humidity preventing device for storing electronic components as claimed in claim 3, further comprising an automatic feeding mechanism (9), wherein the automatic feeding mechanism (9) comprises:

the second fixed short rod (91), the second fixed short rod (91) is installed on the transmission short shaft (88);

the driven long plate (92), the driven long plate (92) is installed on the second fixed short rod (91) in a rotating mode;

the positioning slotted round rod (94), the positioning slotted round rod (94) is rotatably installed on the damp-proof bottom box (1);

the third fixed short rod (93), the third fixed short rod (93) is installed on the positioning slotted round rod (94), and the third fixed short rod (93) is rotatably connected with the driven long plate (92);

the fixing support (95), the fixing support (95) is symmetrically installed on the damp-proof bottom box (1);

the movable sliding block (97), the movable sliding block (97) is installed on the fixed bracket (95) in a rotating mode;

the positioning vertical plates (98), the positioning vertical plates (98) are symmetrically arranged on the positioning slotted round rod (94);

the slotting vertical plate (96), the slotting vertical plate (96) is rotatably arranged on the positioning vertical plate (98), the slotting vertical plate (96) is sleeved on the movable sliding block (97), and the slotting vertical plate (96) is in sliding fit with the movable sliding block (97);

the feeding transverse plate (99), the feeding transverse plate (99) is arranged between the two slotted vertical plates (96);

the booster pump (910), the booster pump (910) is installed on the damp-proof bottom case (1);

the telescopic air pipe (912), the telescopic air pipe (912) is arranged between the booster pump (910) and the feeding transverse plate (99);

the dust cover (911), the dust cover (911) is installed on the telescopic air pipe (912);

the guide transverse plates (913), the guide transverse plates (913) are symmetrically arranged on the moisture-proof bottom box (1);

the pressure sensor (914), the pressure sensor (914) is installed on the feeding transverse plate (99);

the soft rubber sucker (915), the soft rubber sucker (915) is arranged on the feeding transverse plate (99) in a sliding way;

the photoelectric sensor (916), the photoelectric sensor (916) is installed on the soft rubber sucker (915);

a charging box (917), the charging box (917) being mounted between the two fixed supports (95).

5. A constant temperature and moisture-proof device for storing electronic components as claimed in claim 4, further comprising a dehumidifying mechanism (10), wherein the dehumidifying mechanism (10) comprises:

the fixed circular ring (103), the fixed circular ring (103) is symmetrically installed on the damp-proof bottom box (1);

the heating module (102), the heating module (102) is installed between the two fixed circular rings (103);

the positioning guide pipe (101), the positioning guide pipe (101) is installed on the heating module (102);

the air pump (104), the air pump (104) is installed on the dampproof bottom case (1), and the air pump (104) is fixedly connected with the positioning conduit (101);

the rotary guide pipe (105), the rotary guide pipe (105) is installed on the fixed cross rod (72), and the rotary guide pipe (105) is rotatably connected with the positioning guide pipe (101);

the humidity sensor (106), the humidity sensor (106) is installed on the closed roller (3);

t-shaped guide pipes (107), wherein the T-shaped guide pipes (107) are arranged on the rotary guide pipe (105) at intervals;

the one-way filter plate (108), the one-way filter plate (108) is symmetrically installed on the T-shaped conduit (107).

6. A constant temperature and moisture-proof device for storing electronic components as claimed in claim 5, further comprising a material ejecting mechanism (11), wherein the material ejecting mechanism (11) comprises:

the guide vertical rods (116), the guide vertical rods (116) are installed on the charging box (917) at intervals;

the sponge bottom plate (111), the sponge bottom plate (111) is installed on the guide vertical rod (116) in a sliding way;

the ejection spring (112), the ejection spring (112) is symmetrically installed between the sponge bottom plate (111) and the charging box (917);

the limiting clamping block (113), the limiting clamping block (113) is symmetrically and slidably installed on the charging box (917);

the pressurizing spring (114), the pressurizing spring (114) is symmetrically arranged between the limiting clamping block (113) and the charging box (917);

the auxiliary roller (115), the auxiliary roller (115) is installed on the limit fixture block (113) in a rotating way.

7. A constant temperature and moisture-proof device for storing electronic components as claimed in claim 6, further comprising a heat dissipation mechanism (12), wherein the heat dissipation mechanism (12) comprises:

the heat dissipation frame (121), the heat dissipation frame (121) is installed on the damp-proof bottom case (1);

the closed blade plates (122), the closed blade plates (122) are arranged on the heat dissipation frame (121) at intervals;

a heat radiation fan (123), wherein the heat radiation fan (123) is arranged on the heat radiation frame (121);

and the temperature sensor (124), wherein the temperature sensor (124) is arranged on the heat dissipation frame (121).

8. The constant-temperature and moisture-proof device for storing the electronic components as claimed in claim 7, further comprising an electric cabinet (4), wherein the electric cabinet (4) is installed at one side of the moisture-proof bottom box (1) far away from the charging box (917), the electric cabinet (4) comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the player, the power supply module is connected with a power supply main switch through a circuit, and the control module is electrically connected with the power supply module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the starting button (42), the stopping button (43), the pressure sensor (914), the photoelectric sensor (916), the temperature sensor (124) and the humidity sensor (106) are electrically connected with the control module, and the servo motor (82), the cooling fan (123), the heating module (102), the booster pump (910) and the air pump (104) are connected with the control module through peripheral circuits.

Technical Field

The invention relates to a moisture-proof device, in particular to a constant-temperature moisture-proof device for storing electronic components.

Background

Electronic components are various in types, and if the electronic components are not stored properly, the electronic components cannot be used subsequently. At present, most of electronic component storage equipment is simple in structure and incomplete in function, can not improve the protection of electronic components, easily causes the damage of the electronic components, and influences subsequent use.

The patent application number is CN201921971351.1, which comprises a storage main body, wherein a drying mechanism communicated with the storage main body is arranged on the storage main body; the storage main body is internally provided with a plurality of layers of partition plates, and the plurality of layers of partition plates are arranged to facilitate the storage of different types of electronic components; the drying mechanism is internally provided with an active carbon net, a thermal resistor and a fan from top to bottom in sequence; the drying mechanism is communicated with the storage main body through a through hole arranged on the drying mechanism and the storage main body; the upper end and the lower end of the drying mechanism are respectively provided with an air outlet and an air inlet, and shutters capable of being automatically opened are mounted on the air outlet and the air inlet; the bottom of the storage main body is provided with a damping supporting leg, and the bottom of the damping supporting leg is provided with a universal wheel; the storage main part is inside still to be provided with humidity transducer and controller, thermal resistance, fan and humidity transducer all are connected with the controller electricity.

This dampproofing electronic components storage device switches on through controller control fan and thermal resistance, carries out the air-out and dehumidifies electronic components, but does not carry out the effect of spacing buffering to electronic components, makes electronic components drop easily, consequently designs one kind now and makes things convenient for people to store electronic components, and makes the electron unit ware by spacing electronic components store with constant temperature dampproof device to solve prior art problem.

Disclosure of Invention

The invention aims to overcome the defects that the electronic components cannot be limited and buffered due to incomplete functions, and the electronic components are damaged when being vibrated, and the constant-temperature damp-proof device for storing the electronic components is convenient for people to store the electronic components and enables electronic elements to be limited.

The technical scheme is as follows: the utility model provides an electronic components stores and uses constant temperature dampproof device, including: the damp-proof bottom box is provided with a supporting base; the closed roller is arranged on the moisture-proof bottom box; the closed cover is hinged on the moisture-proof bottom box; the starting button is arranged on the moisture-proof bottom box; the stop button is arranged on the moisture-proof bottom box; the protective cover is arranged on the moisture-proof bottom box; the fixed bottom plate is arranged on the moisture-proof bottom box; the fixing mechanism is arranged on the closed roller and used for fixing the components; and the driving mechanism is arranged between the damp-proof bottom box and the fixing mechanism and used for providing power.

As a further preferable mode, the fixing mechanism includes: the fixed cross rod is rotatably arranged on the closed roller; the storage roller is arranged on the fixed cross rod; the positioning clamping plates are arranged on the accommodating roller at intervals in a sliding manner; the clamping springs are symmetrically positioned between the clamping plates and the accommodating roller; the positioning short shafts are rotatably arranged on the containing roller at intervals, and every two positioning short shafts form a group; and the separation belt assemblies are respectively arranged between the two positioning short shafts.

As a further preferable mode, the driving mechanism includes: the fixed underframe is arranged on the damp-proof bottom box; the servo motor is arranged on the fixed underframe; the first fixing short column is rotatably arranged on the moisture-proof bottom box; the first transmission assembly is arranged between the first fixed short column and an output shaft of the servo motor; the second fixed short column is rotatably arranged on the damp-proof bottom box; the reversing bevel gear assembly is arranged between the second fixed short column and the first fixed short column; the transmission short shaft is rotatably arranged on the moisture-proof bottom box; the second transmission assembly is arranged between the transmission short shaft and the second fixed short column; the positioning circular plate is arranged on the transmission short shaft; the first fixed short rod is arranged on the transmission short shaft; the driving roller is rotatably arranged on the first fixed short rod; the positioning locking plate is arranged on the fixed cross rod.

As a further preferable scheme, the automatic feeding device further comprises an automatic feeding mechanism, wherein the automatic feeding mechanism comprises: the second fixed short rod is arranged on the transmission short shaft; the driven long plate is rotatably arranged on the second fixed short rod; the positioning slotting round bar is rotatably arranged on the damp-proof bottom box; the third fixed short rod is arranged on the positioning slotted round rod and is rotationally connected with the driven long plate; the fixed brackets are symmetrically arranged on the moisture-proof bottom box; the movable sliding block is rotatably arranged on the fixed bracket; the positioning vertical plates are symmetrically arranged on the positioning slotted round rods; the slotting vertical plate is rotatably arranged on the positioning vertical plate, the slotting vertical plate is sleeved on the movable sliding block, and the slotting vertical plate is in sliding fit with the movable sliding block; the feeding transverse plate is arranged between the two slotted vertical plates; the booster pump is arranged on the moisture-proof bottom box; the telescopic air pipe is arranged between the booster pump and the feeding transverse plate; the dust cover is arranged on the telescopic air pipe; the guide transverse plates are symmetrically arranged on the damp-proof bottom box; the pressure sensor is arranged on the feeding transverse plate; the flexible glue sucker is arranged on the feeding transverse plate in a sliding manner; the photoelectric sensor is arranged on the soft rubber sucker; the charging box is arranged between the two fixed brackets.

As a further preferable mode, the device further comprises a dehumidifying mechanism, and the dehumidifying mechanism comprises: the fixed circular rings are symmetrically arranged on the moisture-proof bottom box; the heating module is arranged between the two fixed circular rings; the positioning guide pipe is arranged on the heating module; the air pump is arranged on the moisture-proof bottom box and is fixedly connected with the positioning conduit; the rotary guide pipe is arranged on the fixed cross rod and is rotationally connected with the positioning guide pipe; the humidity sensor is arranged on the closed roller; the T-shaped guide pipes are arranged on the rotary guide pipe at intervals; the one-way filter plate is symmetrically arranged on the T-shaped guide pipe.

As a further preferable scheme, the device further comprises an ejection mechanism, wherein the ejection mechanism comprises: the guide vertical rods are arranged on the charging box at intervals; the sponge bottom plate is arranged on the guide upright rod in a sliding manner; the ejection springs are symmetrically arranged between the sponge bottom plate and the charging box; the limiting clamping blocks are symmetrically and slidably arranged on the charging box; the pressurizing springs are symmetrically arranged between the limiting clamping blocks and the charging box; the auxiliary roller is rotatably arranged on the limiting clamping block.

As a further preferable aspect, the apparatus further includes a heat dissipation mechanism, and the heat dissipation mechanism includes: the heat dissipation frame is arranged on the moisture-proof bottom box; the closed blade plates are arranged on the heat dissipation frame at intervals; the heat radiation fan is arranged on the heat radiation frame; and the temperature sensor is arranged on the heat dissipation frame.

As a further preferable scheme, the player further comprises an electric cabinet, wherein the electric cabinet is arranged on one side of the moisture-proof bottom box far away from the charging box, a switching power supply, a power supply module and a control module are arranged in the electric cabinet, the switching power supply supplies power to the player, the power supply module is connected with a power supply main switch through a circuit, and the control module is electrically connected with the power supply module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the starting button, the stopping button, the pressure sensor, the photoelectric sensor, the temperature sensor and the humidity sensor are electrically connected with the control module, and the servo motor, the cooling fan, the heating module, the booster pump and the air pump are connected with the control module through a peripheral circuit.

The beneficial effects are that:

1. according to the invention, under the coordination of the fixing mechanism and the driving mechanism, the servo motor is started to rotate the accommodating roller for 90 degrees once, then the component is placed between the two positioning clamping plates from the right side of the closed roller, the belt assembly is separated to play a guiding role, and the positioning clamping plates move inwards all the time to be in contact with the component for limiting under the action of the clamping springs, so that the electronic component can be conveniently stored by people, and the damage is avoided.

2. Under the action of the dehumidifying mechanism, the air pump discharges air through the positioning guide pipe, the heating module heats the air, and then hot air is discharged onto the rotating guide pipe and discharged from the T-shaped guide pipe, so that the phenomenon that the inside of the closed roller is too humid can be avoided.

3. Under the action of the material ejecting mechanism, when the soft rubber sucker adsorbs components for loading, the sponge bottom plate moves upwards for a certain distance under the action of the material ejecting spring, so that the problem that the soft rubber sucker is difficult to adsorb the components can be avoided.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a partial perspective view of the fixing mechanism of the present invention.

Fig. 5 is an enlarged schematic view of part a of the present invention.

Fig. 6 is a schematic view of a first partial body structure of the driving mechanism of the present invention.

Fig. 7 is a schematic view of a second partial body structure of the driving mechanism of the present invention.

Fig. 8 is a schematic view of a first partially separated body structure of the automatic feeding mechanism of the present invention.

Fig. 9 is a schematic view of a second partial body structure of the automatic feeding mechanism of the present invention.

Fig. 10 is a perspective view of a third part of the automatic feeding mechanism of the present invention.

Fig. 11 is an enlarged view of part B of the present invention.

Fig. 12 is a perspective view of a fourth portion of the automatic feeding mechanism of the present invention.

Fig. 13 is a schematic view of a first partial body structure of the dehumidifying mechanism according to the present invention.

Fig. 14 is an enlarged view of part C of the present invention.

Fig. 15 is a schematic view of a second partial structure of the dehumidifying mechanism according to the present invention.

Fig. 16 is a schematic partial perspective view of the ejector mechanism of the present invention.

Fig. 17 is an enlarged view of portion D of the present invention.

Fig. 18 is a partial perspective view of the heat dissipation mechanism of the present invention.

FIG. 19 is a circuit block diagram of the present invention.

Fig. 20 is a circuit schematic of the present invention.

Part names and serial numbers in the figure: 1_ dampproof bottom box, 2_ supporting base, 3_ sealed roller, 4_ electric cabinet, 41_ sealed cover, 42_ start button, 43_ stop button, 5_ protective cover, 6_ fixed bottom plate, 7_ fixed mechanism, 71_ containing roller, 72_ fixed cross bar, 73_ positioning clamping plate, 74_ clamping spring, 75_ partition belt component, 76_ positioning short shaft, 8_ driving mechanism, 81_ fixed bottom frame, 82_ servo motor, 83_ first driving component, 84_ first fixed short column, 85_ reversing bevel gear component, 86_ second fixed short column, 87_ second driving component, 88_ driving short shaft, 89_ positioning circular plate, 810_ first fixed short bar, 811_ driving roller, 812_ positioning locking plate, 9_ automatic feeding mechanism, 91_ second fixed short bar, 92_ driven long plate, 93_ third fixed short bar, 94_ positioning circular bar, 95_ fixed bracket, 96_ slotted vertical plate, 97_ movable slide block, 98_ positioning vertical plate, 99_ feeding horizontal plate, 910_ booster pump, 911_ dust cover, 912_ telescopic air pipe, 913_ guiding horizontal plate, 914_ pressure sensor, 915_ soft rubber suction cup, 916_ photoelectric sensor, 917_ charging box, 10_ dehumidification mechanism, 101_ positioning conduit, 102_ heating module, 103_ fixed ring, 104_ air pump, 105_ rotary conduit, 106_ humidity sensor, 107_ T type conduit, 108_ one-way filter plate, 11_ liftout mechanism, 111_ sponge bottom plate, 112_ liftout spring, 113_ limiting clamping block, 114_ pressurizing spring, 115_ auxiliary roller, 116_ guiding vertical rod, 12_ heat dissipation mechanism, 121_ heat dissipation frame, 122_ closed blade, 123_ heat dissipation fan, 124_ temperature sensor.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

A constant temperature and moisture-proof device for storing electronic components is shown in figures 1-7, and comprises a moisture-proof bottom box 1, a supporting base 2, a closed roller 3, a closed cover 41 and a start button 42, stop button 43, protection casing 5, PMKD 6, fixed establishment 7 and actuating mechanism 8, 1 bottom rigid coupling of dampproofing under casing has support base 2, 1 interior left part upside rigid coupling of dampproofing under casing has airtight cylinder 3, 1 outer leading flank right upper portion articulated formula of dampproofing under casing is equipped with airtight cover 41, 1 outer leading flank right upper portion rigid coupling of dampproofing under casing has start button 42, 1 outer leading flank right upper portion rigid coupling of dampproofing under casing has stop button 43, stop button 43 is located start button 42 right side, 1 outer trailing flank left portion rigid coupling of dampproofing under casing has protection casing 5, 1 rear portion downside of dampproofing under casing is embedded to be equipped with PMKD 6, be equipped with fixed establishment 7 on the airtight cylinder 3, be equipped with actuating mechanism 8 between 1 of dampproofing under casing and the fixed establishment 7.

The fixing mechanism 7 comprises a receiving roller 71, a fixed cross bar 72 and a positioning clamping plate 73, screens spring 74, separate belt subassembly 75 and location minor axis 76, airtight cylinder 3 centre of a circle position rotary type is equipped with fixed horizontal pole 72, fixed horizontal pole 72 middle part rigid coupling has accomodate the cylinder 71, it is located airtight cylinder 3 to accomodate cylinder 71, it all is connected with a pair of location cardboard 73 to accomodate the equal slidingtype in four sides about the outside of cylinder 71, totally 4 pairs of location cardboard 73, every pair has two location cardboard 73, location cardboard 73 and accomodate the cylinder 71 between equal front and back symmetry have connect screens spring 74 around, it is connected with four group's location minor axes 76 to accomodate the equal rotary type in both sides around the cylinder 71, every two location minor axes 76 are a set of, four group's location minor axes 76 are located four sides about the top of accomodating cylinder 71 respectively, it all is connected with between every group's location minor axis 76 middle part and separates belt subassembly 75.

The driving mechanism 8 comprises a fixed underframe 81, a servo motor 82, a first transmission component 83, a first fixed short column 84, a reversing bevel gear component 85, a second fixed short column 86, a second transmission component 87, a transmission short shaft 88, a positioning circular plate 89, a first fixed short rod 810, a driving roller 811 and a positioning locking plate 812, the fixed underframe 81 is fixedly connected with the lower middle part of the outer left side surface of the moisture-proof bottom box 1, the servo motor 82 is fixedly connected with the inner top part of the fixed underframe 81, the first fixed short column 84 is rotatably arranged on the lower rear side of the left part of the moisture-proof bottom box 1, the first transmission component 83 is connected between the left part of the first fixed short column 84 and the output shaft of the servo motor 82, the first transmission component 83 consists of two first transmission wheels and a first transmission belt, the two first transmission wheels are respectively connected with the left part of the first fixed short column 84 and the output shaft of the servo motor 82, the first transmission belt is wound between the two first transmission wheels, a second fixed short column 86 is rotatably arranged around the lower left side of the rear part of the moisture-proof bottom case 1, a reversing bevel gear assembly 85 is connected between the front part of the second fixed short column 86 and the right part of the first fixed short column 84, the bevel gear assembly 85 is composed of two bevel gears which are respectively connected with the front part of the second fixed short column 86 and the right part of the first fixed short column 84, a short transmission shaft 88 is rotatably arranged on the lower left side of the rear part of the moisture-proof bottom case 1, a second transmission assembly 87 is connected between the middle part of the short transmission shaft 88 and the rear part of the second fixed short column 86, the second transmission assembly 87 is composed of two second transmission wheels and a second transmission belt, the two second transmission wheels are respectively connected with the middle part of the short transmission shaft 88 and the rear part of the second fixed short column 86, the second transmission belt is wound between the two second transmission wheels, a positioning circular plate 89 is fixedly connected with the rear part of the short transmission shaft 88, a first fixed short rod 810 is fixedly connected with the rear part of the short transmission shaft 88, the first short fixed rod 810 is located behind the positioning circular plate 89, the driving roller 811 is rotatably disposed at the lower portion of the first short fixed rod 810, and the positioning locking plate 812 is fixedly connected to the rear portion of the fixed cross bar 72.

When people need to put components into the device, the start button 42 is pressed once, the start button 42 sends a signal, the control module receives the signal and then controls the servo motor 82 to work, the servo motor 82 drives the first transmission component 83 to rotate, the first transmission component 83 rotates and drives the first fixed short column 84 to rotate, the first fixed short column 84 rotates and drives the reversing bevel gear component 85 to rotate, the reversing bevel gear component 85 rotates and drives the second fixed short column 86 to rotate, the second fixed short column 86 rotates and drives the second transmission component 87 to rotate, the second transmission component 87 rotates and drives the transmission short column 88 to rotate, the transmission short column 88 rotates and drives the positioning circular plate 89 and the first fixed short rod 810 to rotate, the first fixed short rod 810 rotates and drives the driving roller 811 to rotate, and the driving roller 811 rotates and enables the positioning locking plate 812 to rotate 90 degrees, press stop button 43 once, stop button 43 signals, control servo motor 82 stops behind the control module received signal, and then positioning lock board 812 rotates 90 degrees and drives fixed horizontal pole 72 and rotate 90 degrees, fixed horizontal pole 72 rotates 90 degrees and drives and accomodate cylinder 71 and rotate 90 degrees, put into two location cardboard 73 from airtight cylinder 3 right side with components and parts again between, separate belt subassembly 75 and play the guide effect, and because of the effect of screens spring 74, location cardboard 73 is all the time the in-process removal and the components and parts contact spacing, so relapse, can constantly accomodate components and parts.

Example 2

On the basis of embodiment 1, as shown in fig. 8 to 15, the automatic feeding device further comprises an automatic feeding mechanism 9, the automatic feeding mechanism 9 comprises a second fixed short rod 91, a driven long plate 92, a third fixed short rod 93, a positioning slotted round rod 94, a fixed bracket 95, a slotted vertical plate 96, a movable slider 97, a positioning vertical plate 98, a feeding horizontal plate 99, a booster pump 910, a dust cover 911, a telescopic air pipe 912, a guide horizontal plate 913, a pressure sensor 914, a soft rubber suction cup 915, a photoelectric sensor 916 and a charging box 917, the front part of the transmission short shaft 88 is fixedly connected with the second fixed short rod 91, the right part of the second fixed short rod 91 is rotatably provided with the driven long plate 92, the lower right part of the moisture-proof bottom box 1 is rotatably provided with the positioning slotted round rod 94, the rear part of the positioning slotted round rod 94 is fixedly connected with the third fixed short rod 93, the third fixed short rod 93 is rotatably connected with the driven long plate 92, the fixed brackets 95 are symmetrically and longitudinally fixed in the right part of the moisture-proof bottom box 1, the upper portion rotary type of fixed bolster 95 is equipped with movable slider 97, both sides all rigid coupling has location riser 98 around the location fluting round bar 94, location riser 98 upper portion rotary type is equipped with fluting riser 96, fluting riser 96 overlaps on movable slider 97, fluting riser 96 and movable slider 97 sliding fit, the rigid coupling has feeding diaphragm 99 between the front and back both sides fluting riser 96 right flank, the rigid coupling has booster pump 910 in the outer top left side of dampproofing under casing 1, be equipped with flexible trachea 912 between booster pump 910 and the feeding diaphragm 99, flexible trachea 912 left end rigid coupling has dust cover 911, the inboard rigid coupling in the upper portion of dampproofing under casing 1 has two direction diaphragms 913, the anterior upside of feeding diaphragm 99 is equipped with pressure sensor 914, feeding diaphragm 99 middle part slidingtype is equipped with flexible glue sucking disc 915, flexible glue sucking disc 915 right side front rigid coupling has photoelectric sensor 916, be equipped with charging box 917 between front and back both sides fixed bolster 95 lower part.

Still including dehumidification mechanism 10, dehumidification mechanism 10 is including location pipe 101, heating module 102, fixed ring 103, air pump 104, rotatory pipe 105, humidity transducer 106, T type pipe 107 and one-way filter plate 108, dampproofing under casing 1 outer top left side front and back symmetry rigid coupling has fixed ring 103, be equipped with heating module 102 between the fixed ring 103 of front and back both sides, heating module 102 middle part is equipped with location pipe 101, dampproofing under casing 1 outer top left rear side rigid coupling has air pump 104, air pump 104 and location pipe 101 fixed connection, fixed horizontal pole 72 outside rigid coupling has rotatory pipe 105, rotatory pipe 105 rotates with location pipe 101 to be connected, middle part rigid coupling has humidity transducer 106 on the rear wall in the airtight cylinder 3, interval is equipped with T type pipe 107 on the rotatory pipe 105, T type pipe 107 outside is equipped with two one-way filter plates 108.

Initially, a proper amount of components are installed in the charging box 917, when the servo motor 82 works, the transmission short shaft 88 rotates to drive the second fixed short rod 91 to rotate, the second fixed short rod 91 rotates to drive the third fixed short rod 93 to swing left and right through the driven long plate 92, the third fixed short rod 93 swings left and right to drive the positioning slotted circular rod 94 to rotate forward and backward, the positioning slotted circular rod 94 rotates forward and backward to drive the positioning vertical plate 98 to swing left and right, the positioning vertical plate 98 swings left and right to drive the slotted vertical plate 96 to swing left and right, the slotted vertical plate 96 swings left and right to drive the feeding horizontal plate 99 to swing left and right, the feeding horizontal plate 99 swings left and right to drive the soft rubber sucker 915 to swing left and right, the soft rubber sucker 915 swings right to correspond to the components, the photoelectric sensor 916 detects that light is blocked, the photoelectric sensor 916 sends a signal, the control module receives the signal and controls the booster pump 910 to work, the booster pump 910 makes the soft rubber sucker 915 absorb the components through the telescopic air pipe 912, and then flexible glue sucking disc 915 swings left and puts into between two location cardboard 73 with components and parts through direction diaphragm 913, and pressure sensor 914 and the contact of airtight cylinder 3, pressure sensor 914 signals, control booster pump 910 stops behind the control module received signal, flexible glue sucking disc 915 just stops adsorbing just, so relapse, can constantly put into location cardboard 73 with components and parts in, after the storage of whole components and parts is accomplished, press stop button 43 once, stop button 43 signals, control servo motor 82 stops behind the control module received signal, flexible glue sucking disc 915 just stops the horizontal hunting just, so, need not people's manual components and parts of placing.

When people use the device, the humidity sensor 106 monitors humidity, when the humidity sensor 106 detects that the humidity of the closed roller 3 is higher than a rated value in the control module, the humidity sensor 106 sends a signal, the control module receives the signal and then controls the air pump 104 and the heating module 102 to work, the air pump 104 discharges air through the positioning conduit 101, the heating module 102 heats the air, then hot air is discharged onto the rotating conduit 105 and discharged from the T-shaped conduit 107, the unidirectional filter plate 108 plays a sieving role, meanwhile, the fixed cross rod 72 rotates and also drives the rotating conduit 105 to rotate, the rotating conduit 105 rotates and drives the T-shaped conduit 107 to rotate, so that the hot air is more uniformly distributed, when the humidity sensor 106 detects that the humidity is lower than the rated value in the control module, the humidity sensor 106 sends a signal again, and the control module receives the signal and then controls the air pump 104 and the heating module 102 to stop, after all the components are stored, the fixed cross bar 72 stops driving the rotating guide pipe 105 to rotate, and the T-shaped guide pipe 107 stops rotating, so that the inside of the closed roller 3 is prevented from being too wet.

Example 3

On the basis of the embodiment 1 and the embodiment 2, as shown in fig. 16 to fig. 18, the device further comprises an ejecting mechanism 11, wherein the ejecting mechanism 11 comprises a sponge bottom plate 111, an ejecting spring 112, a limiting fixture block 113, a pressure spring 114, an assist roller 115 and a guiding upright rod 116, the guiding upright rods 116 are arranged at intervals at the lower part of the charging box 917, the sponge bottom plate 111 is arranged between the guiding upright rods 116 in a sliding manner, the ejecting spring 112 is symmetrically fixedly connected between the bottom of the sponge bottom plate 111 and the inner bottom of the charging box 917 in a front-back manner, the limiting fixture block 113 is arranged at both the front side and the rear side of the upper part of the charging box 917 in a sliding manner, the pressure spring 114 is symmetrically wound between the limiting fixture block 113 and the charging box 917 in a left-right manner, and the assist roller 115 is rotatably arranged at the lower part of the limiting fixture block 113.

Still including heat dissipation mechanism 12, heat dissipation mechanism 12 is including heat dissipation frame 121, airtight lamina 122, radiator fan 123 and temperature sensor 124, and the medial side rigid coupling has heat dissipation frame 121 on the dampproofing under casing 1 left portion, and heat dissipation frame 121 left portion articulated formula is equipped with airtight lamina 122, and heat dissipation frame 121 middle part rotary type is equipped with radiator fan 123, and the right medial side rigid coupling in top has temperature sensor 124 in heat dissipation frame 121.

Put into the charging bin 917 when people with appropriate amount components and parts, components and parts make sponge bottom plate 111 move down, liftout spring 112 is compressed, because of the effect of compression spring 114, spacing fixture block 113 is spacing to components and parts inwards all the time, whenever when the flexible glue sucking disc 915 adsorbs components and parts and carries out the material loading, help gyro wheel 115 to play the guide effect, because of liftout spring 112's effect, sponge bottom plate 111 also upwards moves the certain distance just so, can avoid flexible glue sucking disc 915 to be difficult to adsorb components and parts.

When people use the device, temperature sensor 124 monitors the temperature, when temperature sensor 124 detects that the temperature of sealed cylinder 3 is higher than the rated value in the control module, temperature sensor 124 sends a signal, control cooling fan 123 after the control module receives the signal to work, cooling fan 123 exhausts and dissipates heat, and sealed louver 122 is opened, when temperature sensor 124 detects that the temperature is lower than the rated value in the control module, temperature sensor 124 sends a signal again, control cooling fan 123 after the control module receives the signal to stop, sealed louver 122 is also closed, and thus, the heat dissipation of sealed cylinder 3 can be conveniently carried out.

As shown in fig. 2, 19 and 20, the player further comprises an electric cabinet 4, wherein the electric cabinet 4 is installed at the lower middle side of the left part of the moisture-proof bottom case 1, a switching power supply, a power supply module and a control module are included in the electric cabinet 4, the switching power supply supplies power to the player, the power supply module is connected with a power supply main switch through a circuit, and the control module is electrically connected with the power supply module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the start button 42, the stop button 43, the pressure sensor 914, the photoelectric sensor 916, the temperature sensor 124 and the humidity sensor 106 are all electrically connected to the control module, and the servo motor 82, the heat dissipation fan 123, the heating module 102, the booster pump 910 and the air pump 104 are all connected to the control module through peripheral circuits.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.