CN115218152A - Open type high-pole lamp capable of being accurately debugged - Google Patents

Abstract

The invention provides an open type high-pole lamp capable of being accurately debugged, which comprises a main body, a support and a power supply module, wherein the main body comprises a rotary connecting block, the support comprises a connecting plate, a left support and a right support, the left support and the right support are connected with the connecting plate, the left support and the right support are identical in structure, and the rotary connecting block is arranged on the left support and the right support; the power module is installed on the connecting plate, and the power module is electrically connected with the main body. The invention has the beneficial effects that: the high-pole lamp is used for various illumination places such as outdoors, docks, ports, high-speed exits, airports, courts and the like; the split type structure has the advantages that the product is installed in an open mode, construction convenience is improved, and particularly for projects needing high-altitude operation, construction efficiency and labor cost are greatly improved; the reliability of the product is greatly improved, and the maintenance cost of the product in the later period is reduced.

Description

Open type high-pole lamp capable of being accurately debugged

Technical Field

The invention relates to the technical field of lamps, in particular to an open type high-pole lamp capable of being accurately debugged.

Background

The high-pole lamp, as a special lamp in the field of outdoor lighting, has the characteristics of high power, large size, special application environment, large construction amount and the like; the device is commonly used for outdoor courts, ports, airports, large outdoor warehouses, road roundabouts, expressway annular outlets and the like. The most common high-pole lamp used in the market at present is an LED high-pole lamp except the traditional high-voltage sodium lamp and a metal halide lamp; the energy saving performance of metal halide lamps and high-pressure sodium lamps is not as good as that of LEDs, but the requirements on heat dissipation are not high, the size of products is relatively small, and the products are mainly old items because the cost of maintenance and replacement is involved. And the LED high-pole lamp mainly takes a new project as a main part, most products on the market are heavy, the installation structure is single, the LED high-pole lamp is not convenient enough, and the LED high-pole lamp is not suitable for replacing the old project. With the trend of global energy utilization, energy conservation, emission reduction and environmental protection are the primary targets at present. The metal halide lamp is inevitably eliminated with the high-pressure sodium lamp, and except for new projects, if the application environment of the existing metal halide lamp with the high-pressure sodium lamp needs to be replaced, the metal halide lamp is a very big puzzlement to the size of the product and the construction convenience.

Disclosure of Invention

The invention provides an open type high-pole lamp capable of being accurately debugged, which comprises a main body, a support and a power supply module, wherein the main body comprises a rotary connecting block, the support comprises a connecting plate, a left support and a right support, the left support and the right support are connected with the connecting plate, the left support and the right support are identical in structure, and the rotary connecting block is arranged on the left support and the right support; the power module is installed on the connecting plate, and the power module is electrically connected with the main body.

The invention has the beneficial effects that: the high-pole lamp is used for various illumination places such as outdoors, docks, ports, high-speed exits, airports, court and the like; the split type structure has the advantages that the product is installed in an open mode, construction convenience is improved, and particularly for projects needing high-altitude operation, construction efficiency and labor cost are greatly improved; the reliability of the product is greatly improved, and the maintenance cost of the product in the later period is reduced.

Drawings

FIG. 1 is an exploded view of a high stem lamp; FIG. 2 is a schematic exploded view of the main body; FIG. 3 is an exploded view of the bracket; FIG. 4 is an exploded view of the power module; FIG. 5a is a schematic view of the front side of the heat sink; FIG. 5b is a schematic view of the back side of the heat sink; FIG. 6a is a schematic diagram of the dial front structure; FIG. 6b is a schematic view of the back side of the dial; FIG. 7 is a schematic view of a glass button configuration; FIG. 8a is a schematic view of an angle of a rotary joint block; FIG. 8b is a schematic view of another angular configuration of the rotary connector block; FIG. 9a is a front view of the auxiliary connecting member; FIG. 9b is a schematic view of the back structure of the auxiliary connecting member; FIGS. 10a to 10e are schematic views of the left bracket at different angles; FIG. 11 is a schematic view of a web construction; FIG. 12 is a schematic view of a decorative block construction; FIG. 13a is a schematic structural diagram of the front side of the upper cover; FIG. 13b is a schematic view of the back structure of the upper cover; FIG. 14a is a front view of the lower cover;

FIG. 14b is a schematic view of the back structure of the lower cover; FIG. 15 is a schematic view of a guide bracket construction; FIG. 16 is a schematic view of the construction of the button assembly; FIG. 17 is an exploded view of the clasp assembly; FIG. 18 is a schematic view of the mounting structure of the power module and the bracket; FIG. 19 is a schematic view of a high stem lamp assembly; FIGS. 20a and 20b are two angular cross-sectional views of the glass cover assembled with the heat sink; FIG. 21 is a cross-sectional view of the body assembled with the bracket; FIG. 22 is a schematic view of a heat sink configuration; FIGS. 23 a-23 c are schematic views of the heat sink at various angles of assembly with the dial; FIGS. 24 a-24 c are schematic views of various angles of assembly of the main body with the bracket; FIG. 25 is a cross-sectional view of the upper and lower covers mounted together; FIG. 26a is a schematic diagram showing the front structure of the pointing block; FIG. 26b is a schematic diagram of the back structure of the indicating block.

Detailed Description

As shown in figure 1, the invention discloses an open type high-pole lamp capable of being accurately debugged, which comprises a main body 1-01, an indication block 1-02, an indication block gasket 1-03, an indication block screw 1-04, a support 1-05, a sliding fixing screw 1-06, a power module 1-07, a decoration block 1-08 and a decoration block screw 1-09.

As shown in fig. 2, the main body 1-01 includes a glass cover 1-0101, a glass seal ring 1-0102, a lens screw 1-0103, a lens 1-0104, an LED light source 1-0105, an aluminum substrate 1-0106, a fixing screw 1-0107, an elastic glue 1 with a reference number of 1-0108, a dial 1-0109, a heat sink 1-0110, a dial screw 1-0111, a glass buckle 1-0112, a glass buckle screw 1-0113, a terminal interface 1-0114, a rotary screw 1-0115, a rotary connecting block 1-0116, an elastic glue 2 with a reference number of 1-0117, and an auxiliary connecting member 1-0118.

As shown in figure 3, the bracket 1-05 comprises a left bracket 1-0501, a connecting plate 1-0502, a bracket screw 1-0503 and a right bracket 1-0504.

As shown in FIG. 4, the power module 1-07 comprises an upper cover 1-0701, a driving screw 1-0702, an AC terminal screw 1-0703, an AC terminal 1-0704, a silica gel ring 1-0705, an AC cable 1-0706, an AC metal head 1-0707, a buckle component 1-0708, a lower cover screw 1-0709, a guide support 1-0710, a lower cover 1-0711, a DC metal head 1-0712, a DC waterproof joint wire 1-0713, a rotating shaft 1-0714, a machine-meter screw 1-0715, a DC terminal 1-0716, a DC terminal screw 1-0717 and a driving part 1-0718.

As shown in fig. 5a and 5b, the heat sink 1-0110 includes a sealing ring groove 1-011001, an aluminum substrate screw 1-011002, a limiting rib 1-011003, a heat sink fixing screw hole 1-011004, a dial fixing screw hole 1-011005, a dial mounting surface 1-011006, a concave curved heat dissipation rib 1-011007, a convex curved heat dissipation rib 1-011008, a glass buckle mounting notch 1-011009, a terminal interface hole 1-011010, a glass buckle screw limiting hole 1-011011, and a glass buckle limiting notch 1-011012.

As shown in FIGS. 6a and 6b, the dial 1-0109 comprises concave teeth 1-01091, a radiator limiting hole side surface 1-01092, a radiator fixing screw through hole 1-01093, a dial fixing screw through hole 1-01094, a mounting surface 1-01095 and a limiting groove 1-01096.

As shown in FIG. 7, the glass buckle 1-0112 comprises a buckle screw hole 1-01121, a glass attachment surface 1-01122 and a limit hook 1-01123.

As shown in fig. 8a and fig. 8b, the rotary connecting block 1-0116 comprises an oval limiting step 1-01161, a limiting step vertical face 1-01162, a connecting convex tooth 1-01163, a connecting block limiting column vertical face 1-01164, an elastic glue 2 mounting groove 1-01165, a through hole 1-01166, a sliding pillow position groove 1-01167, a connecting block angle arrow 1-01168 and a fine adjustment screw tooth 1-01169.

As shown in fig. 9a and 9b, the auxiliary connecting member 1-0118 comprises a dial limiting hole cylindrical surface 1-01181, a dial abutting convex tooth 1-01182, a fixing screw through hole 1-01183, a connecting block limiting hole side surface 1-01184, a connecting block concave tooth 1-01185, a dial indicator 1-01186 and a rotating screw hole 1-01187.

As shown in fig. 10a to 10e, the left bracket 1-0501 includes a waist-shaped side surface 1-050101, fine-adjustment saw teeth 1-050102, a bolt sliding groove 1-050103, a decoration block fixing screw hole 1-050104, an open notch 1-050105, an upper sliding limiting rib 1-050106, fine-adjustment scales 1-050107, an upper groove 1-050108, a lower sliding limiting rib 1-050109, a decoration block limiting groove 1-050110, a lower groove 1-050111, a connecting plate fixing notch 1-050112, a limiting rib 1-050113, a connecting plate groove 1-05014, and a connecting plate screw hole 1-050115.

The structure of the right bracket 1-0504 is symmetrical with the structure of the left bracket 1-0501, and the description is not provided for a plurality of times.

As shown in FIG. 11, the connecting plate 1-0502 comprises a fixing plane 1-050201, a reinforcing rib 1-050202, a power module limiting rib 1-050203, a mounting groove 1-050204 and a fixing screw through hole 1-050205.

As shown in FIG. 12, the decoration block 1-08 comprises a decoration block fixing screw through hole 1-0801, a sliding rib position 1-0802 and a decoration block limiting rib 1-0803 (the decoration block is divided into two structures which are symmetrical left and right, and the description is not repeated here).

As shown in fig. 13a and 13b, the upper cover 1-0701 comprises an upper cover sealing ring groove 1-070101, a screw post 1-070102, an upper cover expansion interface 1-070103, a rotating shaft fixing hole 1-070104, a rotating shaft post 1-070105, a rotating shaft fixing screw tooth 1-070106, an upper cover internal supporting surface 1-070107, a hanging buckle limiting groove 1-070108 and an upper cover radiating fin 1-070109.

As shown in FIGS. 14a and 14b, the lower cover 1-0711 comprises an AC wire inlet hole 1-071101, a screw stud 1-071102, a lower cover sealing ring groove 1-071103, a lower cover internal support surface 1-071104, a DC wire outlet hole 1-070105, a rotating shaft hole 1-071106, a rotating shaft stud notch 1-071107, a rotating buckle 1-071108, a lower cover expansion interface 1-071109, a buckle fixing hole 1-071110, a buckle fixing surface 1-071111, a bracket fixing hole 1-071112 and a heat sink 1-071113.

As shown in FIG. 15, the guide support 1-0710 comprises a U-shaped groove 1-071001, a waist-shaped through hole 1-071002, and a support screw through hole 1-071003.

As shown in FIG. 16, the fastener assembly 1-0708 comprises a rotary fastener 1-07081, a torsion spring 1-07082, a fixing fastener 1-07083, a fixing fastener screw 1-070804, a rivet 1-07085 and a hanging fastener 1-07086.

As shown in FIGS. 26a and 26b, the indicator block 1-02 includes an indicator block screw through hole 1-021, an indicator block mark 1-022, fine adjustment teeth 1-023, and an indicator block inner side surface 1-024.

The main body 1-01 is downwards arranged from the right top of the bracket 1-05 (figure 19), the rotary connecting blocks 1-0116 (figure 2) at two sides of the main body 1-01 are arranged in the bracket 1-05 opposite to the open type gaps 1-050105 (figure 10) of the left bracket 1-0501 and the right bracket 1-0504 (figure 3), the decoration blocks 1-08 are arranged in the open type gaps 1-050105 from the side surfaces of the left bracket 1-0501 and the right bracket 1-0504, and the decoration quick limiting ribs 1-0803 (figure 12) are matched with the decoration block limiting grooves 1-050110 to form a closed loop of the upper groove 1-050108; the decorating block screws 1-09 penetrate through the decorating block fixing screw through holes 1-0801 and are fastened in the corresponding decorating block fixing screw holes 1-050104 on the supports 1-05 to reliably fix the decorating blocks 1-08; the indicating block screws 1-04 pass through the indicating block gaskets 1-03 and the indicating blocks 1-02 (figure 1) and then pass through the bolt sliding grooves 1-050103 (figure 10) of the left support 1-0501 and the right support 1-0504 respectively to be fixed with the fine adjustment threads 1-01169 (figure 8) on the rotary connecting blocks 1-0116 at the two ends of the main body 1-01, so that the installation and the fixation of the main body 1-01 are completed. The power module 1-07 is pushed forwards from the right back of the bracket 1-05 (figure 19), a U-shaped groove 1-071001 (figure 15) of the guide bracket 1-0710 (figure 4) and a power module limiting rib 1-050203 on the connecting plate 1-0502 (figure 3) form a meshing shape (figure 18), and a sliding fixing screw 1-06 penetrates through a waist-shaped through hole 1-071002 (figure 15) on the guide bracket 1-0710 and then is fixed on a thread hole of the power module limiting rib 1-050203 on the connecting plate 1-0502 to complete the fixed installation of the power module 1-07.

LED light source 1-0105 of main part 1-01 pastes dress to aluminium base board 1-0106 on, and lens screw 1-0103 passes lens 1-0104 and aluminium base board 1-0106 on the corresponding via hole fasten to the aluminium base board screw hole 1-011002 of radiator 1-0110 and accomplishes the fixed to light source lamp plate lens. The glass sealing ring 1-0102 is arranged in the sealing ring groove 1-011001, the glass cover 1-0101 is arranged on the front face of the glass sealing ring 1-0102, the glass buckle 1-0112 is arranged in the glass buckle mounting notch 1-011009 from the side face, the glass binding face 1-01122 of the glass buckle 1-0112 is attached to the front face of the glass cover 1-0101, meanwhile, the limit hooks 1-01123 on the two sides of the glass buckle 1-0112 are meshed with the glass buckle limit notches 1-011012 to form transverse and longitudinal limit (fig. 20a and fig. 20 b), the glass buckle screw 1-0113 is driven into the buckle screw hole 1-01121 to form thread meshing and is continuously pushed downwards to the inside of the glass buckle screw limit hole 1-011011 to tension the glass buckle 1-0112 to form front face sealing installation of the main body 1-01; the terminal interface 1-0114 is fixedly installed with the terminal interface hole 1-011010 through a screw thread; the mounting surface 1-01095 of the dial 1-0109 is tightly attached to the dial mounting surface 1-011006 at two ends of the radiator 1-0110, the limiting groove 1-01096 is wrapped by the limiting rib 1-011003 to achieve the foolproof effect, the dial screw 1-0111 penetrates through the dial fixing screw through hole 1-01094 and then is fixed on the dial fixing screw hole 1-011005, the elastic glue 1 is sleeved on the dial limiting hole cylindrical surface 1-01181 of the auxiliary connecting piece 1-0118, the fixing screw 1-0107 penetrates through the fixing screw through hole 1-01183 and the radiator fixing screw through hole 1-01093 and then is fastened on the radiator fixing screw hole 1-004 at the side of the radiator 1-0110, the elastic glue 2 is sleeved in the elastic glue 2 mounting groove 1-01165 of the rotary connecting block 1-0116, and the rotary screw 1-0115 penetrates through the through hole 1-01166 of the rotary connecting block 1-0116 and then is fixed on the rotary screw hole 1-01187 of the auxiliary connecting piece 1-0118. The installation of the accessories on the two sides and the front and the back of the main body 1-01 is completed by the above method to complete the integral independent installation of the main body 1-01.

Fixing plane 1-050201 structures at two ends of a connecting plate 1-0502 of a support 1-05 need to be respectively sleeved in connecting plate grooves 1-050114 of a left support 1-0501 and a right support 1-05014, and meanwhile, a reinforcing rib 1-050202 of a side structure of the connecting plate 1-0502 also needs to be sleeved in a connecting fixing plate notch 1-050112 of the left support 1-0501 and the right support 1-0504; the bracket screws 1-0503 penetrate through the fixing screw through holes 1-050205 to fix the two ends of the connecting plates 1-0502 to the connecting plate screw holes 1-050115 of the left bracket 1-0501 and the right bracket 1-0504 respectively to complete the integral independent installation of the brackets 1-05.

A lower cover screw 1-0709 of a power module 1-07 penetrates through a bracket screw through hole 1-071003 on a guide bracket 1-0710 and then is fixed to a bracket fixing hole 1-071112 at the bottom of the lower cover 1-0711 to complete the fixation of the guide bracket 1-0710; the fixing buckle screws 1-07084 penetrate through the fixing buckle through holes 1-070831 on the fixing buckles 1-07083 to be fixed in the buckle fixing holes 1-071110, and the two buckle assemblies 1-0708 are fixed on the side faces of the lower cover 1-0711; the AC metal head 1-0707 and the DC metal head 1-0712 are respectively arranged on an AC wire inlet 1-071101 and a DC wire outlet 1-071105 of a lower cover 1-0711, the AC cable 1-0706 is connected to an AC terminal 1-0704 through the AC metal head 1-0707, the DC waterproof joint wire 1-0713 is connected to a DC terminal 1-0716 through the DC metal head 1-0712, and an AC terminal screw 1-0703 is fixed to a screw post 1-071102 through the AC terminal 1-0704; DC terminal screws 1-0717 are secured to screw posts 1-071102 through DC terminals 1-0716; a drive screw 1-0702 fixes a drive 1-0718 to a screw post 1-071102, one side of the drive 1-0718 being attached to a lower cover internal support surface 1-071104; the AC input line and the DC output line at the two ends of the drive 1-0718 are respectively connected to the AC terminal 1-0704 and the DC terminal 1-0717; the method comprises the following steps that a silica gel ring 1-0705 is provided with a sealing ring groove 1-071103, an upper cover 1-0701 and a lower cover 1-0711 are closed at the same time, a rotating shaft column 1-070105 is provided with a rotating shaft column notch 1-071107, a rotating shaft 1-0714 penetrates through a rotating shaft hole 1-071106 on a rotating buckle 1-071108 on the lower cover 1-0711 and a rotating shaft fixing hole 1-070104 of the upper cover 1-0701, a machine-rice screw 1-0715 is screwed on the rotating shaft fixing screw hole 1-070106 to prop against the rotating shaft 1-0714 at the same time to limit the movement of the rotating shaft, and the upper cover 1-0701 and the lower cover 1-0711 are reliably connected; the upper cover 1-0701 rotates around a rotating shaft 1-0714 to be folded with the lower cover 1-0711 to form hinge type connection rotation, a silica gel ring 1-0705 is clamped in the middle to form integral sealing, and a hanging buckle 1-07086 in the buckle component 1-0708 is hung on a hanging buckle limiting groove 1-070108 in the upper cover 1-0701 and rotates downwards to fix the upper cover and the lower cover of the power module 1-07.

The torsion springs 1-07082 in the buckle sub-assemblies 1-0708 are placed into the fixing buckles 1-07083, and meanwhile the rotating buckles 1-07081 downwards form a holding fit with the fixing buckles 1-07083 to clamp the torsion springs 1-07082 in the middle; the rivet 1-07085 penetrates through the rotary buckle rivet through hole 1-070812, the fixed buckle rivet through hole 1-070832 and the torsion spring hole 1-070822 and is riveted on the other surface, the torsion spring support end 1-070823 is clamped on the inner side of the fixed buckle 1-07083, and one end of the buckle opening shaft 1-070861 on the buckle 1-07086 penetrates through the buckle through hole 1-070811 and the torsion spring buckle end 1-070821 to complete connection of the whole buckle assembly 1-0708.

The invention adopts modular design and open installation, the main body 1-01, the support 1-05 and the power module 1-07 belong to separate bodies, and during product construction, the support 1-05 is fixed on an installation surface by bolts through holes in the installation groove 1-050204; then the main body 1-01 is downwards installed from the right above the support 1-05, the rotary connecting blocks 1-0116 on the two sides of the main body 1-01 face the open type gaps 1-050105 of the left support 1-0501 and the right support 1-0504 and are installed in the support 1-05, the structural sliding pillow grooves 1-01167 on the rotary connecting blocks 1-0116 on the two ends of the main body 1-01 are contacted with the lower sliding limiting ribs 1-050109, the limiting steps 1-01162 are reversely buckled with the inner side faces of the lower sliding limiting ribs 1-050109 to prevent the main body 1-01 from falling off the support 1-05 (figure 21), meanwhile, the rotary connecting blocks 1-0116 are provided with the oval limiting steps 1-05061, the length dimension of the oval steps exceed the distance from the upper grooves 1-050108 to the lower grooves 1-111 in the left support 1-0501 or the right support 1-0504, and the main body 1-01 can be effectively prevented from rotating on the support 1-05. The decoration blocks 1-08 are arranged in the open type gaps 1-050105 from the side surfaces of the left support 1-0501 and the right support 1-0504, and the decoration fast limiting ribs 1-0803 are matched with the decoration block limiting grooves 1-050110 to form a closed loop of the upper groove 1-050108; the decorating block screws 1-09 penetrate through the decorating block fixing screw through holes 1-0801 and are fastened in the corresponding decorating block fixing screw holes 1-050104 on the supports 1-05 to reliably fix the decorating blocks 1-08; the indicating block screws 1-04 penetrate through the indicating block gaskets 1-03 and the indicating blocks 1-02 and then penetrate through the bolt sliding grooves 1-050103 of the left support 1-0501 and the right support 1-0504 respectively to be fixed with the fine-tuning threads 1-01169 on the rotary connecting blocks 1-0116 at the two ends of the main body 1-01, and therefore the main body 1-01 is installed and fixed. The power module 1-07 is pushed forwards from the right back of the support 1-05, and forms a snap-in shape through the U-shaped groove 1-071001 of the guide support 1-0710 and the power module limiting rib 1-050203 on the connecting plate 1-0502, and the sliding fixing screw 1-06 passes through the waist-shaped through hole 1-071002 on the guide support 1-0710 and then is fixed on the thread hole of the power module limiting rib 1-050203 on the connecting plate 1-0502 to complete the fixed installation of the power module 1-07; after the main body 1-01, the power module 1-07 and the support 1-05 are installed, one end of the DC waterproof joint line 1-0713 with a waterproof head is respectively butted with two terminal interfaces 1-0114 arranged on the radiator 1-0110 on the main body 1-01, and the main body 1-01 is screwed up by a self-provided nut to complete the connection of the main body 1-01 and the electric appliance of the power module 1-07. The invention adopts modular design and open installation; the construction difficulty of the product on site can be reduced, the purpose of single-person operation construction is realized, the construction, packaging, transportation and storage cost is reduced, and the danger coefficient of overhead operation is reduced.

The invention adopts a self-absorption heat dissipation structure, and the heat dissipation effect is improved mainly by making a fluid line design on the heat dissipation plate structure of the heat dissipater 1-0110; when the lamp radiates, the air flow distribution is that the middle temperature is higher than the peripheral temperature, so that high-temperature region vortex is easily formed, and the heat radiation effect is influenced; make the fin fluid line type fall structural design, as shown in fig. 22, the height of the concave curved heat dissipation muscle high level 1-0110062 in the middle of the concave curved heat dissipation muscle 1-011006 is the same as the height of the convex curved heat dissipation muscle high level 1-0110072 in the middle of the convex curved heat dissipation muscle 1-011007, and the concave curved heat dissipation muscle low level 1-0110061 on both sides of the concave curved heat dissipation muscle 1-011006 is recessed, and the convex curved heat dissipation muscle low level 1-0110071 on both sides of the convex curved heat dissipation muscle 1-0110071 is higher than the concave curved heat dissipation muscle low level 1-0110061, form a big space of high level between two convex curved muscle positions on both sides, after the side air enters between the fins from A, the space between the convex curved muscle positions on both sides is big, can let the air flow to the middle high level faster, and the low level heat dissipation structure on both sides of the concave curved heat dissipation muscle 1-011006 cuts off the air current of low level, also flow to the middle under the siphon effect of the temperature difference, because the big air flow speed of high level is also big, it can drive the air flow to the low level, thereby it also reduces the whole flow to the accelerated drainage, thereby form the flow of the whole radiator, thereby the flow of the air, the radiator, thereby the flow of the radiator is increased efficiency of the flow of the radiator, the radiator is formed. In addition, the radiators 1-0110 on the main body 1-01 are made into a module type, and an air convection gap is reserved between the two radiators, so that the heat dissipation of the product is effectively facilitated, and meanwhile, the wind resistance of the product is reduced. The invention adopts a self-absorption heat dissipation structure, can improve the heat dissipation efficiency of products, reduce the overall dimension and weight of the products, reduce the material cost, and provide a more superior choice for the specific project replacement scheme with small size.

The invention adopts a simple self-locking structure to ensure the consistency of the appearance, and the small structural design of the glass buckle 1-0112 of the glass cover 1-0101 and the radiator 1-0110 is fixed on the main body 1-01; the glass buckle 1-0112 is arranged in the glass buckle mounting notch 1-011009 from the side surface, the glass binding surface 1-01122 of the glass buckle 1-0112 is jointed with the front surface of the glass cover 1-0101, meanwhile, the limiting hooks 1-01123 on the two sides of the glass buckle 1-0112 are meshed with the glass buckle limiting notches 1-011012 to form transverse limiting with longitudinal limiting, the glass buckle screw 1-0113 is driven into the buckle screw hole 1-01121 to form screw tooth meshing, and the glass buckle 1-0112 is continuously pushed downwards to the inside of the glass buckle screw limiting hole 1-011011 to be tensioned to form the front surface mounting of the main body; the design of the small notch of the glass buckle 1-0112 can effectively prevent the screw from falling off after loosening and ensure the consistency of the A surface after assembly. The invention adopts a self-locking simple structure, ensures the integral appearance, simplifies the production process, improves the production efficiency and is convenient for maintaining products on a production line.

The invention adopts an independent angle-adjusting automatic separation structure, mainly means that the main bodies 1-01 can be integrally adjusted in angle, and a single radiator can be independently adjusted in angle and can be adjusted by 5 degrees by one unit. The anti-fool effect is achieved by mainly attaching the mounting surfaces 1-01095 of the dial scales 1-0109 to the dial scale mounting surfaces 1-011006 at two ends of the radiator 1-0110 (fig. 23 a-23 c) and wrapping the limiting ribs 1-011003 by the limiting grooves 1-01096, the dial scale screws 1-0111 penetrate through the dial scale fixing screw through holes 1-01094 and then are fixed to the dial scale fixing screw holes 1-011005, the elastic glue 1 is sleeved into the cylindrical surfaces 1-01181 of the dial scale limiting holes of the auxiliary connecting pieces 1-0118, the fixing screws 1-0107 penetrate through the fixing screw through holes 1-01183 and the radiator fixing screw through holes 1-01093 and then are fastened to the upper surfaces of the radiator fixing screw holes 1-011004 on the side surfaces of the radiator 1-0110, at the moment, the elastic glue 1 is extruded, and the concave teeth 1-01091 on the dial scales 1-0109 are meshed with the dial scale butt convex teeth 1-01182 on the auxiliary connecting pieces 1-0118; when a single radiator is adjusted in angle, the fixing screws 1-0107 are loosened to be 3mm, the extruded elastic glue 1 automatically separates teeth meshed with the dial 1-0109 and the auxiliary connecting piece 1-0118 under the action of elastic force, and then the radiator 1-0110 can rotate by taking the cylindrical surface 1-01181 of the dial limiting hole as a center to adjust the required angle and then lock the fixing screws 1-0107 again to complete T angle adjustment. The elastic glue 2 is sleeved in an installation groove 1-01165 of the elastic glue 2 of the rotary connecting block 1-0116, the rotary screw 1-0115 penetrates through a through hole 1-01166 of the rotary connecting block 1-0116 and is fixed on a rotary screw hole 1-01187 of the auxiliary connecting piece 1-0118, the elastic glue 2 is extruded, meanwhile, the connecting convex teeth 1-01163 are meshed with the concave teeth 1-01185 of the connecting block to be fastened, when the integral angle of the main body 1-01 needs to be adjusted, the rotary screw 1-0115 is unscrewed to be 3mm, the extruded elastic glue 2 automatically separates the teeth meshed with the convex teeth 1-01163 and the concave teeth 1-01185 of the connecting block under the action of elastic force, the purpose of separating the auxiliary connecting piece 1-0118 from the rotary connecting block 1-0116 is achieved, then the main body 1-01 can rotate by taking the rotary cylindrical surface 1-01164 of the connecting block as a center to adjust the required angle of the main body 1-01, and then the rotary screw 1-0115 is locked again to finish the adjustment of the Q angle. The invention adopts an independent angle adjustment automatic separation structure, can realize adjustment of various illumination angles, and provides more illumination guarantees for diversified project design.

The invention adopts a multi-process combined bracket to manufacture the structure of the bracket 1-05 mainly by combining die casting with metal plates; the left bracket 1-0501 and the right bracket 1-0504 are made by die casting, and the connecting plate 1-0502 is made by sheet metal. The fixing plane 1-050201 structures at two ends of the connecting plate 1-0502 are required to be respectively sleeved in the connecting plate grooves 1-050114 of the left bracket 1-0501 and the right bracket 1-05014, and meanwhile, the reinforcing ribs 1-050202 of the side structure of the connecting plate 1-0502 are also required to be sleeved in the connecting fixing plate gaps 1-050112 of the left bracket 1-0501 and the right bracket 1-0504; the support screws 1-0503 penetrate through the fixing screw through holes 1-050205 to fix the two ends of the connecting plates 1-0502 to the connecting plate screw holes 1-050115 of the left support 1-0501 and the right support 1-0504 respectively to complete the integral independent installation of the supports 1-05, the concave installation grooves 1-050204 are formed in the middle of the connecting plates 1-0502, on one hand, the integral strength is enhanced, and in addition, the space can be avoided for the bolt structure of the whole lamp installation. The invention adopts a multi-process combined bracket, reduces the process cost and provides safe and convenient product output;

the invention adopts guide rail fine adjustment, and the accurate self-locking structure mainly refers to that the fine adjustment of 0.5 degree per unit can be performed on the main body 1-01 through the bracket 1-05 on the basis of the determination of the adjusted angle of the main body 1-01. After the main body 1-01 is installed on the support 1-05 (fig. 24 a-24 c), the indicating block screw 1-04 passes through the indicating block washer 1-03 and the indicating block screw through hole 1-021 on the indicating block 1-02 and then passes through the bolt sliding groove 1-050103 of the left support 1-0501 and the right support 1-0504 respectively and is fixed with the fine adjustment screw thread 1-01169 on the rotary connecting block 1-0116 at the two ends of the main body 1-01; at the moment, the inner side surface 1-024 structure of the indicating block 1-02 is jointed with the waist-shaped side surface 1-050101 of the left bracket 1-0501 and the right bracket 1-0504; the fine-tuning teeth 1-023 of the indicating blocks 1-02 are meshed with the fine-tuning teeth 1-050102 of the left bracket 1-0501 and the right bracket 1-0504; the fine-tuning sawteeth 1-050102 are distributed on the circular arc edge line with the diameter 550 and are arranged in a grid of 0.5 degrees, and 20 grids are arranged in total. The screw 1-04 of the indication block at the two ends of the support 1-05 is unscrewed to be 4mm, the main body 1-01 can integrally move along the arc line 550, after the main body is moved to a required approximate angle, due to the fact that the concave-convex structure of the sawtooth occlusion exists in a guiding fit relation, the indication mark 1-022 on the indication block 1-02 is aligned to the fine adjustment scales 1-050107 on the left support 1-0501 and the right support 1-0504, the screw 1-04 of the indication block is screwed, the fine adjustment teeth 1-023 and the fine adjustment sawteeth 1-050102 on the left support 1-0501 and the right support 1-0504 at a new angle are automatically aligned and occluded under the thrust of the screw, the angle after fine adjustment is accurate, and the angle after adjustment cannot move. The invention adopts the guide rail fine adjustment, the accurate self-locking and the high-precision illumination angle adjustment, can provide more accurate illumination effect for different illumination requirements, provides more appropriate light for the scene, and ensures that the adjusted angle is more durable and stable due to the accurate self-locking.

The hinge type fixed connection is mainly adopted; the upper cover 01-0701 is connected with the lower cover 1-0711 and is arranged in a rotating shaft column notch 1-071107 through a rotating shaft column 1-070105, a rotating shaft 1-0714 penetrates through a rotating shaft hole 1-071106 on a rotating buckle 1-071108 on the lower cover 1-0711 and a rotating shaft fixing hole 1-070104 of the upper cover 1-0701, a machine rice screw 1-0715 is simultaneously screwed on the rotating shaft fixing screw hole 1-070106 to prop against the rotating shaft 1-0714 to limit the movement of the rotating shaft, and the upper cover 1-0701 and the lower cover 1-0711 are reliably connected; the upper cover 1-0701 rotates by taking the rotating shaft 1-0714 as a center and folds with the lower cover 1-0711 to form hinge type connection rotation, and the flexible and effective connection of the upper cover 1-0701 and the lower cover 1-0711 is realized in a simple manner. The hinge type fixed connection is adopted, so that a simpler, flexible and safe connection mode is provided for products.

The IP65 protection wiring integrated independent power supply bin mainly comprises: as shown in fig. 25, a silica gel ring 1-0705 is arranged between an upper cover 1-0701 and a lower cover 1-0711, and after hinge-type connection is realized through a rotating shaft 1-0714, the silica gel ring 1-0705 is clamped between the upper cover 1-0701 and the lower cover 1-0711 to form integral sealing protection; the AC metal head 1-0707 and the DC metal head 1-0712 are respectively arranged on an AC wire inlet 1-071101 and a DC wire outlet 1-071105 of a lower cover 1-0711, while the AC cable 1-0706 is connected to an AC terminal 1-0704 through the AC metal head 1-0707, a DC waterproof joint wire 1-0713 is connected to the DC terminal 1-0716 through the DC metal head 1-0712, and an AC terminal screw 1-0703 is fixed to a screw post 1-071102 through the AC terminal 1-0704; the DC terminal screw 1-0717 is fixed on the screw post 1-071102 through the DC terminal 1-0716; a drive screw 1-0702 fixes a drive 1-0718 to a screw post 1-071102, one side of the drive 1-0718 being attached to a lower cover internal support surface 1-071104; the AC input line and the DC output line at two ends of the drive 1-0718 are respectively connected to the AC terminal 1-0704 and the DC terminal 1-0717; prevent through the sealing washer and realize waterproofly with the metal head, the inside terminal wiring can let whole power storehouse act as power protection function and still realized the function of terminal box outward. The invention adopts the IP65 protection wiring integrated independent power supply bin, so that the product module part is safer and more convenient, and simultaneously, the material and the construction cost of the part of the junction box are saved.

The invention adopts a sliding guide convenient installation structure to mainly and effectively realize the independent and quick installation of the power supply bin; the power module 1-07 transversely pushes the bracket 1-05, the U-shaped grooves 1-0710 of the guide brackets at the two sides of the power module 1-07 are meshed with the anchor ears of the power module limiting ribs 1-050203 on the connecting plate 1-0502 of the bracket 1-05, the power module limiting ribs 1-050203 integrally form left and right limiting for the power module 1-07, the power module is guided to slide back and forth, and the power module 1-07 can be limited from front to back and from top to bottom only by the two sliding fixing screws 1-06. The sliding guide convenient installation provides a faster and more reliable installation mode for products.

The invention adopts portable self-locking fixation, mainly the upper cover 1-0701 and the lower cover 1-0711 are connected in a hinge mode, when the covers are closed and sealed, an external force is needed to maintain, and the button component 1-0708 is fixed to the lower cover 1-0711 through the fixing button screw 1-07084; the torsion springs 1-07082 in the buckle sub-assemblies 1-0708 are placed into the fixing buckles 1-07083, and meanwhile the rotating buckles 1-07081 downwards form an embracing with the fixing buckles 1-07083 to clamp the torsion springs 1-07082 in the middle; the rivet 1-07085 penetrates through the rotary buckle rivet through hole 1-070812, the fixed buckle rivet through hole 1-070832 and the torsion spring hole 1-070822 and is riveted on the other surface, the torsion spring support end 1-070823 is clamped on the inner side of the fixed buckle 1-07083, and one end of a buckle opening shaft 1-070861 on the buckle 1-07086 penetrates through the buckle through hole 1-070811 and the torsion spring buckle end 1-070821 to complete connection of the whole buckle assembly 1-0708; when a rotating buckle 1-07081 in the buckle sub-assembly 1-0708 rotates outwards by taking a rivet 1-07085 as a center, the rotating force of the rotating buckle 1-07081 is transmitted to a hanging buckle 1-07086 and a torsion spring 1-07082, the hanging buckle 1-07086 moves upwards by taking a hanging buckle opening shaft 1-070861 as the center, meanwhile, a hanging buckle end 1-070821 of the torsion spring 1-07082 is tightened outwards, and a reverse torsion force is formed for the rotating buckle 1-07081; after the hanging buckle 1-07086 hangs the hanging buckle limiting groove 1-070108 in the upper cover 1-0701, the hanging buckle rotates to the bottom in the opposite direction of the rotation to form a reverse angle, and the upper cover 1-0701 and the lower cover 1-0711 on the power module 1-07 are fixed. The portable self-locking fixation can ensure that the product is maintained more conveniently, and the installation of the wiring line is more convenient and simpler.

The glass cover 1-0101 is toughened glass with silk screen frame; the lens 1-0104 is of a through hole structure with a screw; the aluminum substrate 1-0106 is provided with a screw via hole structure; the heat radiating fins on the back of the heat radiator 1-0111 are uniformly distributed; the terminal interfaces 1-0114 are provided with sealing rings, and the interior of each terminal interface is provided with a conductor structure of a wiring-capable terminal; the expansion holes around the upper cover 1-0701 are provided with thread structures; the middle groove of the connecting plate 1-0502 is provided with a bolt perforation structure for construction and installation; the AC terminals 1-0704 are provided with screw via hole structures; the AC metal head 1-0707 is provided with a thread and a sealing ring structure; the expansion holes on the two sides of the lower cover 1-0711 are provided with screw tooth structures; the DC metal head 1-0712 is provided with a thread heel sealing ring structure; one end of the DC waterproof joint 1-0713 is provided with a waterproof structure and a nut structure; the DC terminals 1-0716 are provided with screw via hole structures; the drive 1-0718 is provided with an input/output line and a screw through hole; when the guide support on the power module 1-07 is installed, the U-shaped groove is installed inwards.

The high-pole lamp is used for various illumination places such as outdoors, docks, ports, high-speed exits, airports, courts and the like; the quality of the product is improved, the production efficiency is verified through actual production, the reliability of the product is greatly improved, and the material loss and the cost are reduced.

The foregoing is a further detailed description of the invention in connection with specific preferred embodiments and it is not intended to limit the invention to the specific embodiments described. For those skilled in the art to which the invention pertains, numerous simple deductions or substitutions may be made without departing from the spirit of the invention, which shall be deemed to belong to the scope of the invention.

Claims (10)

1. The utility model provides a high pole lamp of accurate debugging of open, its characterized in that: the device comprises a main body (1-01), supports (1-05) and a power module (1-07), wherein the main body (1-01) comprises a rotary connecting block (1-0116), each support (1-05) comprises a connecting plate (1-0502), a left support (1-0501) and a right support (1-0504) which are connected with the connecting plate (1-0502), the left support (1-0501) and the right support (1-0504) are identical in structure, and the rotary connecting block (1-0116) is arranged on the left support (1-0501) and the right support (1-0504); the power supply module (1-07) is installed on the connecting plate (1-0502), and the power supply module (1-07) is electrically connected with the main body (1-01).

2. The high pole lamp of claim 1, wherein: the left support (1-0501) and the right support (1-0504) are provided with open type gaps (1-050105), and the rotary connecting blocks (1-0116) on two sides of the main body (1-01) face the open type gaps (1-050105) of the left support (1-0501) and the right support (1-0504) to be loaded into the supports (1-05);

the rotary connecting block (1-0116) is provided with a sliding pillow position groove (1-01167) and a limiting step vertical face (1-01162), the left support (1-0501) and the right support (1-0504) are provided with lower sliding limiting ribs (1-050109), the sliding pillow position groove (1-01167) is in contact with the lower sliding limiting ribs (1-050109), and the inner side faces of the limiting step vertical face (1-01162) and the lower sliding limiting ribs (1-050109) form an inverted buckle; the length dimension of the oval limiting step (1-01161) of the rotary connecting block (1-0116) exceeds the distance from the upper groove (1-050108) to the lower groove (1-050111) in the left support (1-0501) or the right support (1-0504);

the high-pole lamp also comprises a decoration block (1-08) and an indication block (1-02), wherein the decoration block (1-08) is provided with a decoration block limiting rib (1-0803), the decoration block (1-08) is arranged into an open type gap (1-050105) from the side surfaces of a left support (1-0501) and a right support (1-0504), and the decoration block limiting rib (1-0803) is matched with a decoration block limiting groove (1-050110) to form a closed loop of an upper groove (1-050108); the decoration blocks (1-08) are fixed on the brackets (1-05); the indicating block screws (1-04) penetrate through the indicating block gaskets (1-03) and the indicating blocks (1-02) and then penetrate through bolt sliding grooves (1-050103) of the left support (1-0501) and the right support (1-0504) respectively to be fixed with fine-adjustment screw teeth (1-01169) on rotary connecting blocks (1-0116) at two ends of the main body (1-01).

3. The high pole lamp of claim 1, wherein: one end of the DC waterproof joint line (1-0713) with a waterproof head is respectively butted with two terminal interfaces (1-0114) arranged on a radiator (1-0110) of the main body (1-01), and the main body (1-01) is screwed up by a self-provided nut to complete the connection of the main body (1-01) and an electric appliance of the power module (1-07).

4. The high pole lamp of claim 1, wherein: the LED light source heat dissipation device is characterized in that the main body (1-01) comprises an LED light source (1-0105), an aluminum substrate (1-0106), a heat sink (1-0110), a dial (1-0109), elastic glue 1 (1-0108), elastic glue 2 (1-0117) and an auxiliary connecting piece (1-0118), the LED light source (1-0105) is pasted on the aluminum substrate (1-0106), the aluminum substrate (1-0106) is fixed on the heat sink (1-0110), and the dial (1-0109) is fixed on the heat sink (1-0110); the elastic glue 1 (1-0108) is sleeved into a dial limiting hole cylindrical surface (1-01181) of the auxiliary connecting piece (1-0118), the fixing screw (1-0107) penetrates through the fixing screw through hole (1-01183) and the radiator fixing screw through hole (1-01093) and then is fastened to the radiator fixing screw hole (1-011004) on the side surface of the radiator (1-0110), at the moment, the elastic glue 1 (1-0108) is extruded, and the concave teeth (1-01091) on the dial (1-0109) are meshed with the dial butt joint convex teeth (1-01182) on the auxiliary connecting piece (1-0118); the elastic glue 2 (1-0117) is sleeved in an elastic glue 2 mounting groove (1-01165) of the rotary connecting block (1-0116), the rotary screw (1-0115) penetrates through a through hole (1-01166) of the rotary connecting block (1-0116) to be fixed on a rotary screw hole (1-01187) of the auxiliary connecting piece (1-0118), the elastic glue 2 (1-01165) is extruded, and meanwhile, the connecting convex teeth (1-01163) are meshed and fastened with the concave teeth (1-01185) of the connecting block.

5. The high stem lamp of claim 4, wherein: the main body (1-01) further comprises a glass cover (1-0101) and a glass buckle (1-0112), the glass cover (1-0101) is located on the outer side of the main body (1-01), the glass buckle (1-0112) is installed into the glass buckle installation notch (1-009) from the side face, a glass attachment face (1-01122) of the glass buckle (1-0112) is attached to the front face of the glass cover (1-0101), limiting hooks (1-01123) on two sides of the glass buckle (1-0112) are meshed with the glass buckle limiting notch (1-011012) to form transverse limiting with longitudinal limiting, and a glass buckle screw (1-0113) is driven into the buckle screw hole (1-01121) to form screw teeth meshing and is continuously pushed downwards into the glass buckle screw limiting hole (1-011011) to tension the glass buckle (1-0112).

6. The high pole lamp of claim 2, wherein: the inner side surface (1-024) of the indicating block (1-02) is attached to the waist-shaped side surface (1-050101) of the left bracket (1-0501) and the right bracket (1-0504); the fine-tuning teeth (1-023) of the indicating blocks (1-02) are meshed with the fine-tuning teeth (1-050102) of the left bracket (1-0501) and the right bracket (1-0504); the fine-tuning sawteeth (1-050102) are distributed on an arc edge line and arranged in a grid according to the specified degrees, and a plurality of grids are arranged together; when the indicating block screw (1-04) is unscrewed, the whole body (1-01) can move along an arc line, after the indicating block screw is moved to a required angle, the indicating mark (1-022) on the indicating block (1-02) is aligned to the fine adjustment scales (1-050107) on the left support (1-0501) and the right support (1-0504), the indicating block screw (1-04) is screwed, and the fine adjustment teeth (1-023) are automatically aligned and meshed with the fine adjustment teeth (1-050102) on the left support (1-0501) and the right support (1-0504) at a new angle under the thrust of the screw.

7. The high pole lamp of claim 4, wherein: radiator (1-0110) is equipped with a plurality of crisscross concave song heat dissipation muscle (1-011006) of arranging, protruding song heat dissipation muscle (1-011007), concave song heat dissipation muscle (1-011006) includes concave song heat dissipation muscle low level (1-0110061) and concave song heat dissipation muscle high level (1-0110062), protruding song heat dissipation muscle (1-011007) includes protruding song heat dissipation muscle low level (1-0110071) and protruding song heat dissipation muscle high level (1-0110072), the height of concave song heat dissipation muscle high level (1-0110062) and protruding song heat dissipation muscle high level (1-0110072) is unanimous, protruding song heat dissipation muscle low level (1-0071) highly is greater than concave song heat dissipation muscle low level (1-0110061) height.

8. The high stem lamp of claim 1, wherein: the left support (1-0501) and the right support (1-0504) are manufactured by a die-casting process, the connecting plate (1-0502) is manufactured by a sheet metal process, fixing planes (1-050201) at two ends of the connecting plate (1-0502) are respectively sleeved in connecting plate grooves (1-050114) of the left support (1-0501) and the right support (1-0504), and reinforcing ribs (1-050202) on the side surface of the connecting plate (1-0502) are sleeved in connecting fixing plate notches (1-050112) of the left support (1-0501) and the right support (1-0504); the support screws (1-0503) penetrate through the fixing screw through holes (1-050205) to fix the two ends of the connecting plates (1-0502) to the connecting plate screw holes (1-050115) of the left support (1-0501) and the right support (1-0504) respectively, and the middle of the connecting plates (1-0502) is provided with a concave mounting groove (1-050204).

9. The high pole lamp of claim 1, wherein: the power module (1-07) comprises an upper cover (1-0701), a lower cover (1-0711), a drive (1-0718), a rotating shaft (1-0714) and a machine-to-rice screw (1-0715), wherein the drive (1-0718) is installed in the lower cover (1-0711), the upper cover (1-0701) is buckled on the lower cover (1-0711), the upper cover (01-0701) is provided with a rotating shaft column (1-070105), the lower cover (1-0711) is provided with a rotating shaft column notch (1-071107), the rotating shaft column (1-070105) is installed in the rotating shaft column notch (1-071107), the rotating shaft (1-0714) penetrates through a rotating shaft hole (1-071106) in a rotating buckle (1-071108) of the lower cover (1-0711) and a rotating shaft fixing hole (1-071104) in the upper cover (1-0701), the machine-rice screw (1) is screwed into the rotating shaft fixing hole (1-071106), and the rotating shaft fixing hole (1-0701) is connected with the rotating shaft cover (1-0714) in a hinge mode of limiting the rotating shaft (1-0714) to form a hinge joint, and the rotating hinge cover (1-0711) is folded type.

10. The high stem lamp of claim 9, wherein: the power supply module (1-07) comprises an AC metal head (1-0707), a DC metal head (1-0712), an AC cable wire (1-0706), an AC terminal (1-0704), a DC waterproof joint wire (1-0713) and a DC terminal (1-0716), wherein the AC metal head (1-0707) and the DC metal head (1-0712) are respectively installed on an alternating current wire inlet (1-071101) and a direct current wire outlet (1-071105) of a lower cover (1-0711), the AC cable wire (1-0706) penetrates through the AC metal head (1-0707) and is connected to the AC terminal (1-0704), the DC waterproof joint wire (1-0713) penetrates through the DC metal head (1-0712) to connect with the DC terminal (1-0716), the AC terminal (1-0704) is fixed to the lower cover (0711-0701), the DC terminal (1-0706) is fixed to the lower cover (1-0701), the driving wire (1-0718) is fixed to the upper cover (1-0711) and the driving wire (0704) and is connected to two driving wires (1-0718) of the DC terminal (1-0711) and the DC terminal (0704);

the AC terminal screw (1-0703) penetrates through the AC terminal (1-0704) and is fixed on the screw post (1-071102); the DC terminal screw (1-0717) is fixed on the screw post (1-071102) through the DC terminal (1-0716); the driving screw (1-0702) fixes the driver (1-0718) on the screw post (1-071102); the power module (1-07) comprises a guide support (1-0710), the guide support (1-0710) is connected with a lower cover (1-0711), the guide support (1-0710) is provided with a U-shaped groove (1-071001), the U-shaped groove (1-071001) of the guide support (1-0710) and a power module limiting rib (1-050203) on a connecting plate (1-0502) form a snap-in shape, and a sliding fixing screw (1-06) penetrates through a waist-shaped through hole (1-071002) on the guide support (1-0710) and then is fixed on a thread hole of the power module limiting rib (1-050203) of the connecting plate (1-0502);

the power module (1-07) comprises a button assembly (1-0708) for fixing an upper cover (1-0701) and a lower cover (1-0711), the button assembly (1-0708) comprises a rotary button (1-07081), a torsion spring (1-07082), a fixed button (1-07083), a rivet (1-07085) and a hanging button (1-07086), the rotary button (1-07081) is provided with a rotary button rivet through hole (1-070812) and a hanging button through hole (1-070811), the fixed button (1-07083) is provided with a fixed button rivet through hole (1-070832), the torsion spring (1-07082) is provided with a torsion spring hole (1-070822), a torsion spring support end (1-070823) and a torsion spring hanging button end (1-070821); the torsion spring (1-07082) is placed in the fixed buckle (1-07083), the rotary buckle (1-07081) and the fixed buckle (1-07083) are downward to form a closed clasp to clamp the torsion spring (1-07082) in the middle, the rivet (1-07085) penetrates through the rotary buckle rivet through hole (1-070812), the fixed buckle rivet through hole (1-070832) and the torsion spring hole (1-070822) and then is riveted on the other side, the torsion spring support end (1-070823) is clamped on the inner side of the fixed buckle (1-07083), and one end of a buckle opening shaft (1-070861) of the buckle (1-07086) penetrates through the buckle through hole (1-070811) and the torsion spring buckle hanging end (1-070821); the upper cover (1-0701) is provided with a hanging buckle limiting groove (1-070108), and the hanging buckle (1-07086) is hung on the hanging buckle limiting groove (1-070108); the fixing buckle (1-07083) is connected with the lower cover (1-0711).

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