CN117928202A - Continuous drying structure for circuit board production for electronic technology - Google Patents

Abstract

The invention discloses a continuous drying structure for circuit board production for electronic technology, which is applied to the technical field of circuit board production.

Description

Continuous drying structure for circuit board production for electronic technology

Technical Field

The invention belongs to the technical field of circuit board production, and particularly relates to a continuous drying structure for circuit board production for electronic technology.

Background

In circuit board production, a continuous drying apparatus is an apparatus specifically used for rapid, continuous drying of circuit boards or other sheet materials, which is commonly used in large-scale circuit board production lines to rapidly dry a large number of circuit boards under high efficiency conditions.

The existing continuous drying structure for producing the circuit board for the electronic technology has the following defects when in use: when the circuit board is dried, the two sides of the circuit board can be completely dried only by turning over the circuit board, but the gaps of the front side and the back side of the circuit board cannot be completely dried, so that the efficiency of completely drying the circuit board is reduced.

Disclosure of Invention

The invention aims at the existing continuous drying structure for producing the circuit board for the electronic technology, and has the advantages that: the continuous turnover structure for the circuit board can continuously dry the two sides of the circuit board and the positions except the two sides, so that the drying efficiency of the circuit board is greatly improved.

The technical aim of the invention is realized by the following technical scheme: the utility model provides a circuit board production is with continuous drying structure, includes drying mechanism and operating mechanism, operating mechanism joint is in drying mechanism's inboard, drying mechanism includes transmission subassembly, conveying subassembly, adjusting part, heating element and stoving subassembly, conveying subassembly bolt is in transmission subassembly's rear side, adjusting part bolt is in transmission subassembly's left side, heating element bolt is at adjusting part's top, stoving subassembly bolt is in heating element's bottom, operating mechanism includes rotating assembly, spacing subassembly, coupling assembling and storage subassembly, the rotating assembly joint is at conveying subassembly top, spacing subassembly bolt is in rotating assembly's inboard, coupling assembling bolt is at spacing subassembly's top and bottom, storage subassembly joint is in coupling assembling's inboard.

By adopting the technical scheme, the circuit board can be dried by the drying mechanism and the operating mechanism, and the circuit board can be continuously rotated by the operating mechanism, so that the drying efficiency of the circuit board is improved.

The invention is further provided with: the transfer assembly comprises a supporting table, a movable groove and a conveying plate, wherein the movable groove is formed in the rear side of the supporting table, and the conveying plate is bolted to the top of the front side of the supporting table.

By adopting the technical scheme, through setting up the transmission subassembly, the brace table can support delivery board, delivery subassembly and adjusting part, and the movable groove can be spacing to the motion of delivery subassembly, and the delivery board can be with the running gear who is equipped with the circuit board to delivery subassembly department.

The invention is further provided with: the conveying assembly comprises an electric rotating rod, a conveying belt and a clamping groove, wherein the electric rotating rod is bolted to the front side of the inner side of the movable groove and the rear side of the inner side of the movable groove, the conveying belt is sleeved on two sides of the surface of the electric rotating rod, and the clamping groove is formed in the surface of the conveying belt.

By adopting the technical scheme, through setting up conveying component, electronic bull stick can drive the conveyer belt and carry out reciprocating motion after the circular telegram starts, and the conveyer belt can be spacing with joint groove cooperation to rotating component, and rotating component rotates of being convenient for to carry out the continuity to operating mechanism and carry.

The invention is further provided with: the adjusting component comprises a supporting seat, a hydraulic rod and a supporting rod, wherein the supporting seat is bolted to the left side of the supporting table, the hydraulic rod is bolted to the top of the supporting seat, and the supporting rod is bolted to the output end of the top of the hydraulic rod.

By adopting the technical scheme, through setting up adjusting part, the supporting seat can support the hydraulic stem, and the hydraulic stem can be after the circular telegram and start, carries out lifting movement to heating element with the bracing piece cooperation, lets heating element be adapted to running gear's height.

The invention is further provided with: the heating assembly comprises a guide shell, an electric heater and a heat conducting net, wherein the guide shell is bolted to the top of the supporting rod, the electric heater is bolted to the front side of the guide shell, the heat conducting net is bolted to the top of the guide shell, and the front side of the heat conducting net is bolted to the output end of the rear side of the electric heater.

By adopting the technical scheme, through setting up heating element, guide shell can carry out spacingly to heat conduction net and stoving subassembly to can guide the air that stoving subassembly pumped, electric heater can be after the circular telegram and start with the heat conduction net cooperation, heat the air that stoving subassembly pumped.

The invention is further provided with: the drying assembly comprises a supporting ring, a fixing rod and an air extraction fan, wherein the supporting ring is bolted to the bottom of the guiding shell, the fixing rod is bolted to the inner side of the supporting ring, and the air extraction fan is bolted to the top of the fixing rod.

By adopting the technical scheme, through setting up the stoving subassembly, the support ring can support the fan of bleeding with the dead lever cooperation, and the fan of bleeding can be after the circular telegram and start outside air follow the heat conduction net department and pump to running gear department to can let the circuit board in the air flow direction running gear of heating assembly heating.

The invention is further provided with: the rotating assembly comprises a swivel, an auxiliary rod and a servo motor, wherein the swivel is clamped on the inner side of the clamping groove, the auxiliary rod is bolted on the inner side of the auxiliary rod, and the servo motor is bolted on one side, far away from the swivel, of the auxiliary rod.

By adopting the technical scheme, through setting up rotating assembly, the swivel can support servo motor with auxiliary rod cooperation, and servo motor can drive self and spacing subassembly and rotate for fixed point with auxiliary rod and swivel after the circular telegram and start.

The invention is further provided with: the limiting assembly comprises a limiting frame plate, an air vent groove and a supporting net, wherein the limiting frame plate is bolted to one side, far away from the swivel, of the servo motor, the air vent groove is formed in the top of the limiting frame plate, and the supporting net is bolted to the top of the inner side of the air vent groove and the bottom of the inner side of the air vent groove.

By adopting the technical scheme, through setting up spacing subassembly, spacing framed panel can support and spacing coupling assembling, and the ventilation groove can cooperate with the supporting network, when supporting spacing subassembly, can let the hot-air that flows pass spacing subassembly and storage subassembly.

The invention is further provided with: the connecting assembly comprises a top connecting frame, a bottom connecting frame and a connecting screw hole rod, wherein the top connecting frame is bolted to the top of the limiting frame plate, the bottom connecting frame is bolted to the bottom of the limiting frame plate, and the connecting screw hole rod is respectively bolted to the bottom of the inner side of the top connecting frame and the top of the inner side of the bottom connecting frame.

By adopting the technical scheme, through setting up coupling assembling, top coupling assembling and end coupling assembling can be fixed storage assembly respectively, and the connection screw hole pole can be with storage assembly respectively with top coupling assembling and end coupling assembling connection to can further increase storage assembly's stability when rotating.

The invention is further provided with: the storage assembly comprises a storage plate, a storage clamping groove and a mounting screw hole, wherein the storage plate is respectively clamped on the inner side of the top connecting frame and the inner side of the bottom connecting frame, the storage clamping groove is formed in the top of the storage plate, the mounting screw hole is formed in the top of the storage plate, and the inner side of the mounting screw hole is clamped with the surface of the connecting screw hole rod.

By adopting the technical scheme, through setting up storage component, the storage board can be fixed and temporarily store the circuit board with the cooperation of storage card slot to the circuit board carries out drying process, and the installation screw can be spacing with connecting screw pole cooperation to the storage board, further increases the stability that storage board and top connection frame and end connection frame are connected.

In summary, the invention has the following beneficial effects:

1. Through setting up the drying mechanism, the transport subassembly can carry the running gear that is equipped with the circuit board to transport subassembly department, and transport subassembly can carry running gear, and the adjusting part can be to the distance between heating element and the running gear adjustment to heating element and stoving subassembly are better carries out drying treatment to running gear, and heating element can blow running gear department after the air heating of external world with the cooperation of stoving subassembly, let the air that flows after heating carry out drying treatment to the circuit board in the running gear;

2. Through setting up running gear, rotating assembly can drive spacing subassembly and carry out the continuity and rotate, and spacing subassembly can drive coupling assembling and store the subassembly and keep rotating, can let the circuit board more comprehensive with flow hot air contact, improve the dry efficiency of circuit board, coupling assembling and storage subassembly can cooperate to two sets of circuit boards at most to improve the dry efficiency of circuit board.

Drawings

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

FIG. 2 is a schematic illustration of the transfer and transport assemblies of the present invention;

FIG. 3 is a schematic view of the adjusting assembly of the present invention;

FIG. 4 is a schematic view of the heating assembly and drying assembly of the present invention;

FIG. 5 is a schematic view of the operation mechanism of the present invention;

FIG. 6 is a schematic view of a rotating assembly of the present invention;

FIG. 7 is a schematic view of a spacing assembly of the present invention;

FIG. 8 is a schematic view of the connection assembly of the present invention;

FIG. 9 is a schematic diagram of a storage assembly according to the present invention.

Reference numerals: 1. a drying mechanism; 101. a transfer assembly; 1011. a support table; 1012. a movable groove; 1013. a conveying plate; 102. a transport assembly; 1021. an electric rotating rod; 1022. a conveyor belt; 1023. a clamping groove; 103. an adjustment assembly; 1031. a support base; 1032. a hydraulic rod; 1033. a support rod; 104. a heating assembly; 1041. a guide housing; 1042. an electric heater; 1043. a heat conducting net; 105. a drying assembly; 1051. a support ring; 1052. a fixed rod; 1053. an air extraction fan; 2. an operating mechanism; 201. a rotating assembly; 2011. a swivel; 2012. an auxiliary lever; 2013. a servo motor; 202. a limit component; 2021. a limit frame plate; 2022. a vent groove; 2023. a support net; 203. a connection assembly; 2031. a top connection frame; 2032. a bottom connecting frame; 2033. connecting a screw hole rod; 204. a storage assembly; 2041. a storage plate; 2042. a memory card slot; 2043. and (5) installing screw holes.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1:

Referring to fig. 1-4, a continuous drying structure for circuit board production for electronic technology comprises a drying mechanism 1, the drying mechanism 1 comprises a transmission component 101, a conveying component 102, an adjusting component 103, a heating component 104 and a drying component 105, the conveying component 102 is bolted to the rear side of the transmission component 101, the adjusting component 103 is bolted to the left side of the transmission component 101, the heating component 104 is bolted to the top of the adjusting component 103, the drying component 105 is bolted to the bottom of the heating component 104, the transmission component 101 can convey an operating mechanism 2 with a circuit board to the conveying component 102 by arranging the drying mechanism 1, the conveying component 102 can convey the operating mechanism 2, the adjusting component 103 can adjust the distance between the heating component 104 and the operating mechanism 2 so that the heating component 104 and the drying component 105 can perform drying treatment on the operating mechanism 2 better, the heating component 104 can be matched with the drying component 105 to heat the outside air and blow the operating mechanism 2, so that the heated flowing air can perform drying treatment on the circuit board in the operating mechanism 2.

As shown in fig. 2, the transfer assembly 101 includes a supporting table 1011, a movable slot 1012 and a conveying plate 1013, the movable slot 1012 is formed on the rear side of the supporting table 1011, the conveying plate 1013 is bolted to the top of the front side of the supporting table 1011, by setting the transfer assembly 101, the supporting table 1011 can support the conveying plate 1013, the conveying assembly 102 and the adjusting assembly 103, the movable slot 1012 can limit the movement of the conveying assembly 102, and the conveying plate 1013 can move the operating mechanism 2 with the circuit board to the conveying assembly 102.

As shown in fig. 2, the conveying assembly 102 includes an electric rotating rod 1021, a conveying belt 1022 and a clamping groove 1023, the electric rotating rod 1021 is bolted to the front side of the inner side of the movable groove 1012 and the rear side of the inner side, the conveying belt 1022 is sleeved on two sides of the surface of the electric rotating rod 1021, the clamping groove 1023 is arranged on the surface of the conveying belt 1022, the conveying assembly 102 is arranged, the electric rotating rod 1021 can drive the conveying belt 1022 to perform reciprocating motion after being electrified and started, the conveying belt 1022 and the clamping groove 1023 cooperate to limit the rotating assembly 201, the rotating assembly 201 is convenient to rotate, and the operating mechanism 2 is continuously conveyed.

As shown in fig. 3, the adjusting component 103 includes a supporting seat 1031, a hydraulic rod 1032 and a supporting rod 1033, the supporting seat 1031 is bolted to the left side of the supporting table 1011, the hydraulic rod 1032 is bolted to the top of the supporting seat 1031, the supporting rod 1033 is bolted to the output end of the top of the hydraulic rod 1032, by setting the adjusting component 103, the supporting seat 1031 can support the hydraulic rod 1032, and after the hydraulic rod 1032 is electrified and started, the hydraulic rod 1032 cooperates with the supporting rod 1033 to lift and move the heating component 104, so that the heating component 104 is adapted to the height of the operating mechanism 2.

As shown in fig. 4, the heating assembly 104 includes a guiding housing 1041, an electric heater 1042 and a heat conducting net 1043, the guiding housing 1041 is bolted on the top of the supporting rod 1033, the electric heater 1042 is bolted on the front side of the guiding housing 1041, the heat conducting net 1043 is bolted on the top of the guiding housing 1041, the front side of the heat conducting net 1043 is bolted with the output end of the rear side of the electric heater 1042, by setting the heating assembly 104, the guiding housing 1041 can limit the heat conducting net 1043 and the drying assembly 105, and can guide the air pumped by the drying assembly 105, the electric heater 1042 can cooperate with the heat conducting net 1043 after being electrified and started, and the air pumped by the drying assembly 105 is heated.

As shown in fig. 4, the drying assembly 105 includes a support ring 1051, a fixing rod 1052 and an air extraction fan 1053, the support ring 1051 is bolted to the bottom of the guiding housing 1041, the fixing rod 1052 is bolted to the inner side of the support ring 1051, the air extraction fan 1053 is bolted to the top of the fixing rod 1052, by setting the drying assembly 105, the support ring 1051 can cooperate with the fixing rod 1052 to support the air extraction fan 1053, and the air extraction fan 1053 can pump the external air from the heat conducting net 1043 to the operating mechanism 2 after being electrified and started, so that the air heated by the heating assembly 104 can flow to the circuit board in the operating mechanism 2.

The use process is briefly described: firstly, the drying mechanism 1 is electrified and started, then the operating mechanism 2 with the circuit board is placed on the conveying board 1013, then the operating mechanism 2 is pushed to the clamping groove 1023 on the conveying belt 1022 along the conveying board 1013, then the electric rotating rod 1021 drives the conveying belt 1022 to reciprocate, then the operating mechanism 2 gradually moves to the bottom of the air extraction fan 1053 along with the conveying belt 1022, then the hydraulic rod 1032 drives the supporting rod 1033 to drop the guiding shell 1041 downwards until the air extraction fan 1053 is close to the highest point of the circumferential rotation of the operating mechanism 2, the electric heater 1042 heats the heat conducting net 1043, the air extraction fan 1053 pumps the external air to the circuit board in the operating mechanism 2 along the heat conducting net 1043, and the heated air dries the circuit board until the drying of the circuit board is completed.

Example 2:

Referring to fig. 5-9, a continuous drying structure for circuit board production for electronic technology, including operating mechanism 2, operating mechanism 2 joint is in the inboard of drying mechanism 1, operating mechanism 2 includes rotating assembly 201, spacing subassembly 202, coupling assembling 203 and storage subassembly 204, rotating assembly 201 joint is at conveying assembly 102 top, spacing subassembly 202 bolt is in rotating assembly 201's inboard, coupling assembling 203 bolt is in spacing subassembly 202's top and bottom, storage subassembly 204 joint is in coupling assembling 203's inboard, through setting up operating mechanism 2, rotating assembly 201 can drive spacing subassembly 202 and carry out the continuity rotation, spacing subassembly 202 can drive coupling assembling 203 and storage subassembly 204 and keep rotating, can let the circuit board more comprehensive with flowing hot air contact, improve the dry efficiency to the circuit board, coupling assembling 203 and storage subassembly 204 can cooperate to two sets at most circuit boards store, thereby improve the dry efficiency to the circuit board.

As shown in fig. 6, the rotating assembly 201 includes a rotating ring 2011, an auxiliary rod 2012 and a servo motor 2013, the rotating ring 2011 is clamped at the inner side of the clamping groove 1023, the auxiliary rod 2012 is bolted at the inner side of the auxiliary rod 2012, the servo motor 2013 is bolted at one side of the auxiliary rod 2012 away from the rotating ring 2011, through the arrangement of the rotating assembly 201, the rotating ring 2011 can be matched with the auxiliary rod 2012 to support the servo motor 2013, and the servo motor 2013 can drive itself and the limiting assembly 202 to rotate by taking the auxiliary rod 2012 and the rotating ring 2011 as fixed points after being electrified and started.

As shown in fig. 7, the spacing assembly 202 includes a spacing frame plate 2021, an air vent 2022 and a supporting net 2023, the spacing frame plate 2021 is bolted on one side of the servo motor 2013 away from the swivel 2011, the air vent 2022 is opened at the top of the spacing frame plate 2021, the supporting net 2023 is bolted on the top of the inner side and the bottom of the inner side of the air vent 2022, by setting the spacing assembly 202, the spacing frame plate 2021 can support and limit the connecting assembly 203, the air vent 2022 can cooperate with the supporting net 2023, and when supporting the spacing assembly 202, flowing hot air can pass through the spacing assembly 202 and the storage assembly 204.

As shown in fig. 8, the connection member 203 includes a top connection frame 2031, a bottom connection frame 2032, and connection screw holes 2033, the top connection frame 2031 is bolted to the top of the spacing frame 2021, the bottom connection frame 2032 is bolted to the bottom of the spacing frame 2021, the connection screw holes 2033 are respectively bolted to the bottom inside the top connection frame 2031 and the top inside the bottom connection frame 2032, by providing the connection member 203, the top connection frame 2031 and the bottom connection frame 2032 can respectively fix the storage member 204, and the connection screw holes 2033 can respectively connect the storage member 204 with the top connection frame 2031 and the bottom connection frame 2032, so that the stability of the storage member 204 when rotated can be further increased.

As shown in fig. 9, the storage assembly 204 includes a storage plate 2041, a storage slot 2042 and a mounting screw hole 2043, the storage plate 2041 is respectively clamped on the inner side of the top connecting frame 2031 and the inner side of the bottom connecting frame 2032, the storage slot 2042 is formed at the top of the storage plate 2041, the mounting screw hole 2043 is formed at the top of the storage plate 2041, the inner side of the mounting screw hole 2043 is clamped with the surface of the connecting screw hole rod 2033, the storage plate 2041 can be matched with the storage slot 2042 to fix and temporarily store the circuit board by arranging the storage assembly 204, so that the circuit board can be dried, the mounting screw hole 2043 can be matched with the connecting screw hole rod 2033 to limit the storage plate 2041, and the connection stability of the storage plate 2041 and the top connecting frame 2031 and the bottom connecting frame 2032 is further increased.

The use process is briefly described: firstly, the running mechanism 2 is electrified and started, then a circuit board is installed in the storage clamping groove 2042, then the storage board 2041 with the circuit board is installed on the inner sides of the top connecting frame 2031 and the bottom connecting frame 2032 respectively until the installation screw holes 2043 are completely contacted with the connecting screw rods 2033, then the swivel 2011 is clamped with the drying mechanism 1, then the servo motor 2013 rotates by taking the swivel 2011 and the auxiliary rod 2012 as fixing points, and drives the limiting frame plate 2021 to rotate the top connecting frame 2031 and the bottom connecting frame 2032 together, and the circuit board can rotate circumferentially along with the top connecting frame 2031 and the bottom connecting frame 2032, so that the circuit board can be gradually contacted with flowing hot air until the circuit board is completely dried by the hot air.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and modifications to the present embodiment, which may not creatively contribute to the present invention as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present invention.

Claims (10)

1. The utility model provides a continuous drying structure is used in circuit board production for electronic technology, includes drying mechanism (1) and running gear (2), its characterized in that: the utility model provides a drying mechanism (1), drying mechanism (1) inboard at drying mechanism (1), drying mechanism (1) include transmission subassembly (101), conveying subassembly (102), adjusting part (103), heating subassembly (104) and stoving subassembly (105), conveying subassembly (102) bolt is in the rear side of transmission subassembly (101), adjusting part (103) bolt is in the left side of transmission subassembly (101), heating subassembly (104) bolt is at the top of adjusting part (103), stoving subassembly (105) bolt is in the bottom of heating subassembly (104), operating mechanism (2) include rotating subassembly (201), spacing subassembly (202), coupling assembling (203) and storage subassembly (204), rotating subassembly (201) joint is at conveying subassembly (102) top, spacing subassembly (202) bolt is in the inboard of rotating subassembly (201), coupling assembling (203) bolt is at the top and the bottom of spacing subassembly (202), storage subassembly (204) joint is in the inboard of coupling assembling (203).

2. The continuous drying structure for producing circuit boards for electronic technology according to claim 1, wherein: the transfer assembly (101) comprises a supporting table (1011), a movable groove (1012) and a conveying plate (1013), wherein the movable groove (1012) is formed in the rear side of the supporting table (1011), and the conveying plate (1013) is bolted to the top of the front side of the supporting table (1011).

3. A continuous drying structure for electronic technology circuit board production according to claim 2, characterized in that: the conveying assembly (102) comprises an electric rotating rod (1021), a conveying belt (1022) and a clamping groove (1023), wherein the electric rotating rod (1021) is bolted to the front side of the inner side of the movable groove (1012) and the rear side of the inner side of the movable groove, the conveying belt (1022) is sleeved on two sides of the surface of the electric rotating rod (1021), and the clamping groove (1023) is formed in the surface of the conveying belt (1022).

4. A continuous drying structure for electronic technology circuit board production according to claim 2, characterized in that: the adjusting assembly (103) comprises a supporting seat (1031), a hydraulic rod (1032) and a supporting rod (1033), wherein the supporting seat (1031) is bolted to the left side of the supporting table (1011), the hydraulic rod (1032) is bolted to the top of the supporting seat (1031), and the supporting rod (1033) is bolted to the output end of the top of the hydraulic rod (1032).

5. The continuous drying structure for producing circuit boards for electronic technology according to claim 4, wherein: the heating assembly (104) comprises a guide shell (1041), an electric heater (1042) and a heat conducting net (1043), wherein the guide shell (1041) is bolted to the top of the supporting rod (1033), the electric heater (1042) is bolted to the front side of the guide shell (1041), the heat conducting net (1043) is bolted to the top of the guide shell (1041), and the front side of the heat conducting net (1043) is bolted to the output end of the rear side of the electric heater (1042).

6. The continuous drying structure for producing circuit boards for electronic technology according to claim 5, wherein: the drying assembly (105) comprises a support ring (1051), a fixing rod (1052) and an air extraction fan (1053), wherein the support ring (1051) is bolted to the bottom of the guide shell (1041), the fixing rod (1052) is bolted to the inner side of the support ring (1051), and the air extraction fan (1053) is bolted to the top of the fixing rod (1052).

7. A continuous drying structure for electronic technology circuit board production according to claim 2, characterized in that: the rotating assembly (201) comprises a rotating ring (2011), an auxiliary rod (2012) and a servo motor (2013), wherein the rotating ring (2011) is clamped on the inner side of a clamping groove (1023), the auxiliary rod (2012) is bolted on the inner side of the auxiliary rod (2012), and the servo motor (2013) is bolted on one side, far away from the rotating ring (2011), of the auxiliary rod (2012).

8. The continuous drying structure for producing circuit boards for electronic technology according to claim 7, wherein: spacing subassembly (202) are including spacing framed board (2021), air vent (2022) and support net (2023), spacing framed board (2021) bolt is kept away from one side of swivel (2011) in servo motor (2013), air vent (2022) are seted up at the top of spacing framed board (2021), support net (2023) bolt is at the top and the bottom of inboard of air vent (2022).

9. The continuous drying structure for producing circuit boards for electronic technology according to claim 8, wherein: the connecting assembly (203) comprises a top connecting frame (2031), a bottom connecting frame (2032) and a connecting screw rod (2033), wherein the top connecting frame (2031) is bolted to the top of the limiting frame plate (2021), the bottom connecting frame (2032) is bolted to the bottom of the limiting frame plate (2021), and the connecting screw rod (2033) is respectively bolted to the bottom of the inner side of the top connecting frame (2031) and the top of the inner side of the bottom connecting frame (2032).

10. The continuous drying structure for producing circuit boards for electronic technology according to claim 9, wherein: the storage assembly (204) comprises a storage plate (2041), a storage clamping groove (2042) and a mounting screw hole (2043), wherein the storage plate (2041) is respectively clamped on the inner side of the top connecting frame (2031) and the inner side of the bottom connecting frame (2032), the storage clamping groove (2042) is formed in the top of the storage plate (2041), the mounting screw hole (2043) is formed in the top of the storage plate (2041), and the inner side of the mounting screw hole (2043) is clamped with the surface of the connecting screw rod (2033).