JP2019134655A - New model of power distribution box device - Google Patents

Abstract

To provide a new model of power distribution box device.SOLUTION: The new model of power distribution box device includes a main pedestal and a switch box connected with the main pedestal. A set enclosure is installed on a top end face of the main pedestal, a rubber pad is stuck to the left and right sides of the set enclosure, a first slide enclosure is installed on a bottom wall of the set enclosure, a first slide base is closely fitted to the first slide enclosure, and a first rack is installed on walls of both left and right sides of the first slide enclosure.SELECTED DRAWING: Figure 3

Description

The present invention relates to a power equipment area, and more particularly to a new type power distribution box.

A distribution box is a device for loading electrical appliance parts, and the service lines in the distribution box are usually connected directly to the grid or solar power generation facilities, but existing solar power generation facilities are automatically angled. Controlling the adjustment and accommodating operation cannot be realized.

China Utility Model No. 201805041 Specification Chinese Patent Application No. 106129846 Specification

An object of the present invention is to provide a new type of power distribution box device, which is used to overcome the above-mentioned deficiencies of existing technologies.

The new power distribution box device includes a main pedestal and a distribution box connected to the main pedestal, a set housing is installed on the top end surface of the main pedestal, and rubber pads are attached to the left and right sides of the set housing, A first sliding housing is installed on the bottom wall of the set housing, and a first slide is attached to the first sliding housing according to the slide, and first racks are mounted on the left and right walls of the first sliding housing. Is installed on the top end face of the first slide, and a second sliding housing that extends vertically corresponding to the left and right is installed, and a sliding axis that passes through the set housing on the second sliding housing is aligned with the slide. The photoelectric device is mounted on the top of the sliding shaft, the second rack is installed on the inner end surface of the sliding shaft, and the first transmission housing is installed between the second sliding housings on both the left and right sides. Under the first transmission housing A second transmission housing is installed on the inner wall of the first slide, and a first rack that meshes with the second rack corresponding to the left and right sides of the first transmission housing is rotatably installed. The first racks on both the left and right sides mesh with each other with a first pyramid ring that is rotatably mounted on the first transmission housing, and a second pyramid ring meshes with the front end of the first pyramid ring. The first rotary shaft is fixedly attached to the bottom end face of the second pyramid ring, and the first rotary shaft is rotatably connected to the inner bottom wall of the first transmission housing. The extended end passes through the second transmission housing, a first spline inner hole is installed in the bottom end surface of the first rotating shaft, and a second slide is attached to the second transmission housing in accordance with the slide, The first electric roller is fixedly attached to the second slide. The first spline shaft is connected to the tip of the first electric roller so as to be connected to the first spline inner hole so that power can be transmitted, and the second spline is installed at the bottom of the first electric roller. The shaft is installed so that power can be transmitted, and the screw shaft is attached to the second slide on the right side of the first electric roller by screwing, and the top extended end of the screw shaft is connected to the second transmission housing. A second electric roller is attached to the inner top wall of the body so as to be rotatable, and a second electric roller is attached to the bottom extended end of the screw shaft so that power can be transmitted. Fixedly installed on the inner bottom wall of the transmission housing, and installed on the inner bottom wall of the second transmission housing immediately below the second spline shaft so as to be rotatable. The top end face of the rotation shaft A second spline inner hole connected with the second spline shaft is installed, and the bottom extended end of the second rotary shaft passes through the third transmission housing of the inner wall of the first slide, and the third transmission housing The body penetrates the left and right end faces of the first slide, the first triangular pyramid is fixedly attached to the bottom extended end of the second rotating shaft, and the transmission device can transmit power to the first triangular pyramid. It is attached together.

Beneficially, the transmission device includes a fourth pyramid ring that is rotatably fitted to the third transmission housing and meshes with the third triangular pyramid ring, on both left and right sides of the fourth pyramid ring, respectively. A second gear is installed so as to be rotatable, a third gear is installed so as to be rotatable at the rear side of the second gear, and the third gear on the left side is mutually connected to the first rack on the left side. The fourth gear is installed so as to mesh with the third gear on the right side, and the right side of the fourth gear meshes with the first rack on the right side.

Beneficially, the photoelectric device includes a hinge arm fixedly attached to a top end surface of the sliding shaft on both left and right sides, and a stacking plate installed on the upper side of the hinge arm, and the bottom end surface of the stacking plate is on the left side. The dovetail is fixedly connected to the hinge arm, is extended to the left and right at the bottom end face of the plywood, and a dovetail groove is installed. A photoelectric plate is fixedly connected to the hinge arm, and a photoelectric plate is fixedly attached to the top end surface of the plywood.

The structure of the present invention is simple, the operation is convenient, the angle adjustment and accommodation operation of the photoelectric device can be realized, the solar light absorption conversion rate is increased and the service life is extended.

FIG. 1 is a schematic diagram of the overall structure inside the new power distribution box device of the present invention. FIG. 2 is an enlarged schematic view of the portion A in FIG. FIG. 3 is a schematic view of the overhead view in FIG.

The following describes the present invention in detail with reference to FIGS.

1 to 3, a new power distribution box device according to an embodiment of the present invention includes a main pedestal 100 and a distribution box 200 connected to the main pedestal 100, and is set on the top end surface of the main pedestal 100. A housing 110 is installed, rubber pads 136 are attached to the left and right sides of the set housing 110, a first sliding housing 115 is installed on the bottom wall of the set housing 110, and the first sliding housing 115 A first slide 112 is attached in accordance with the slide, and first racks 114 are installed on the left and right walls of the first slide housing 115, and the top end surface of the first slide 112 is extended up and down corresponding to the left and right. A second sliding housing 135 is installed, and a sliding shaft 111 whose top passes through the set housing 110 is attached to the second sliding housing 135 according to the slide, and a photoelectric device is attached to the top of the sliding shaft 111 A second rack 132 is installed on the inner end surface of the sliding shaft 111, A first transmission housing 134 is installed between the second sliding housings 135 on both right sides, and a second transmission housing 163 is formed on the inner wall of the first slide 112 below the first transmission housing 134. The first transmission housing 134 is installed so that the left and right sides of the first transmission housing 134 correspond to each other and mesh with the second rack 132 so that the first rack 133 can rotate. The first pyramid ring 113 that is rotatably installed in the first transmission housing 134 is meshed with each other, and the second pyramid ring 131 is installed at the front end of the first pyramid ring 113 so as to mesh with each other. A first rotating shaft 156 is fixedly attached to the bottom end face of the second pyramid ring 131, and the first rotating shaft 156 is rotatably connected to the inner bottom wall of the first transmission housing 134 so as to be bottom extended end. Passes through the second transmission housing 163 and is in the first spline on the bottom end surface of the first rotating shaft 156. 155 is installed, a second slide 161 is attached to the second transmission housing 163 in accordance with the slide, a first electric roller 154 is fixedly attached to the second slide 161, and the first electric roller 154 A first spline shaft 157 connected to the front end of the first spline inner hole 155 is installed so that power can be transmitted, and the second spline shaft 153 transmits power to the bottom of the first electric roller 154. The screw shaft 162 is screwed and attached to the second slide 161 on the right side of the first electric roller 154, and the top extension end of the screw shaft 162 is connected to the second transmission housing. 163 is rotatably connected to the inner top wall of 163, and the second electric roller 164 is attached to the bottom extended end of the screw shaft 162 so that power can be transmitted, and the outer surface of the second electric roller 164 Is the second transmission housing Fixedly installed on the inner bottom wall of the body 163, a second rotary shaft 151 is rotatably installed on the inner bottom wall of the second transmission housing 163 directly below the second spline shaft 153, and A second spline inner hole 152 connected to the second spline shaft 153 is connected to the top end surface of the second rotary shaft 151, and the bottom extended end of the second rotary shaft 151 is the inner wall body of the first slide 112. The third transmission housing 122 passes through the left and right end faces of the first slide 112, and a third triangular pyramid ring 151 is formed at the bottom extended end of the second rotating shaft 151. A transmission device is fixedly attached to the first triangular pyramid ring 151 so that power can be transmitted.

Beneficially, the transmission device includes a fourth pyramid ring 126 that is rotatably fitted to the third transmission housing 122 and meshes with the third triangular pyramid ring 151. The second gear 127 is rotatably installed on both sides, the third gear 123 is rotatably installed on the rear side of the second gear 127, and the left third gear 123 is on the left side. The first gear 114 is meshed with each other, the fourth gear 121 is installed on the right third gear 123, and the right side of the fourth gear 121 is mutually connected with the right first rack 114. Engagement, thereby automatically controlling the raising / lowering slide operation of the first slide.

Beneficially, the photoelectric device includes a hinge arm 141 fixedly attached to a top end surface of the sliding shaft 111 on both the left and right sides, and a stacking plate 142 installed on the upper side of the hinge arm 141, and a bottom portion of the stacking plate 142. The end face is fixedly connected to the left hinge arm 141, and a dovetail groove 145 is installed on the bottom end face of the stacking plate 142 to the left and right, and an ant block 144 is attached to the dovetail groove 145 according to the slide, The bottom end surface of the ant block 144 is fixedly connected to the right hinge arm 141, and the photoelectric plate 143 is fixedly attached to the top end surface of the stacking plate 142, thereby realizing the angle adjustment work of the photoelectric plate 143. To do.

The working principle of the present invention is that, when in use, the second electric roller 164 is activated and slides down with the second slide 161 until the second spline shaft 153 is completed through the second spline inner hole 152. The first electric roller 154 is activated to rotate the third gear 123 and the fourth gear 121 on the left side, and through the action of the first rack 114, the first slide is raised, that is, the photoelectric plate 143 is raised. When it is necessary to adjust the angle by rising and absorbing sunlight, the second electric roller 164 is activated and slides up with the second slide 161, and the first spline shaft 157 is completed. Until after passing through 155, the first electric roller 154 is activated and the sliding shafts 111 on both the left and right sides are slid in reverse, thereby adjusting the angle of the photoelectric plate 143.

Engineers in this area can make various modifications to the above embodiments without departing from the overall meaning and concept of the present invention, and they are within the protection scope of the present invention. The protection scheme is based on the claims of the present invention.

The present invention relates to a power equipment area, and more particularly to a new type power distribution box.

A distribution box is a device for loading electrical appliance parts, and the service lines in the distribution box are usually connected directly to the grid or solar power generation facilities, but existing solar power generation facilities are automatically angled. Controlling the adjustment and accommodating operation cannot be realized.

China Utility Model No. 201805041 Specification Chinese Patent Application No. 106129846 Specification

An object of the present invention is to provide a new type of power distribution box device, which is used to overcome the above-mentioned deficiencies of existing technologies.

The new power distribution box device includes a main pedestal and a distribution box connected to the main pedestal, a set housing is installed on the top end surface of the main pedestal, and rubber pads are attached to the left and right sides of the set housing, A first sliding housing is installed on the bottom wall of the set housing, and a first slide is attached to the first sliding housing according to the slide, and first racks are mounted on the left and right walls of the first sliding housing. Is installed on the top end face of the first slide, and a second sliding housing that extends vertically corresponding to the left and right is installed, and a sliding axis that passes through the set housing on the second sliding housing is aligned with the slide. The photoelectric device is mounted on the top of the sliding shaft, the second rack is installed on the inner end surface of the sliding shaft, and the first transmission housing is installed between the second sliding housings on both the left and right sides. Under the first transmission housing Second transmission housing is installed in the inner wall of the first slide, the first gear corresponds to the left and right sides mesh with the second rack and mutual first transmission casing is installed to fit rotatably, The first gears on both the left and right sides mesh with each other with a first pyramid ring that is rotatably mounted on the first transmission housing, and a second pyramid meshes with the front end of the first pyramid ring. The first rotary shaft is fixedly attached to the bottom end face of the second pyramid ring, and the first rotary shaft is rotatably connected to the inner bottom wall of the first transmission housing. The extended end passes through the second transmission housing, a first spline inner hole is installed in the bottom end surface of the first rotating shaft, and a second slide is attached to the second transmission housing in accordance with the slide, The first electric roller is fixedly attached to the second slide A first spline shaft that is connected to the tip of the first electric roller so as to be connected to the inner hole of the first spline so that power can be transmitted, and a second spline shaft is installed at the bottom of the first electric roller. Are installed so that power can be transmitted, and a screw shaft is attached to the second slide on the right side of the first electric roller with a screw, and the top extension end of the screw shaft is connected to the second transmission housing. The second electric roller is attached to the bottom extended end of the screw shaft so that power can be transmitted, and the outer surface of the second electric roller is the second transmission. The second rotation shaft is fixedly installed on the inner bottom wall of the housing, and the second rotation shaft is rotatably installed on the inner bottom wall of the second transmission housing just below the second spline shaft. The second screw is placed on the top end surface of the shaft. A second spline inner hole connected with the pline shaft is installed, and the bottom extended end of the second rotating shaft passes through the third transmission housing of the inner wall of the first slide, and the third transmission housing Passes through the left and right end faces of the first slide, a third triangular pyramid is fixedly attached to the bottom extended end of the second rotating shaft, and a transmission device can transmit power to the first triangular pyramid. It is attached according to.

Beneficially, the transmission device includes a fourth pyramid ring that is rotatably fitted to the third transmission housing and meshes with the third triangular pyramid ring, on both left and right sides of the fourth pyramid ring, respectively. A second gear is installed so as to be rotatable, a third gear is installed so as to be rotatable at the rear side of the second gear, and the third gear on the left side is mutually connected to the first rack on the left side. The fourth gear is installed so as to mesh with the third gear on the right side, and the right side of the fourth gear meshes with the first rack on the right side.

Beneficially, the photoelectric device includes a hinge arm fixedly attached to a top end surface of the sliding shaft on both left and right sides, and a stacking plate installed on the upper side of the hinge arm, and the bottom end surface of the stacking plate is on the left side. The dovetail is fixedly connected to the hinge arm, is extended to the left and right at the bottom end face of the plywood, and a dovetail groove is installed. A photoelectric plate is fixedly connected to the hinge arm, and a photoelectric plate is fixedly attached to the top end surface of the plywood.

The structure of the present invention is simple, the operation is convenient, the angle adjustment and accommodation operation of the photoelectric device can be realized, the solar light absorption conversion rate is increased and the service life is extended.

FIG. 1 is a schematic diagram of the overall structure inside the new power distribution box device of the present invention. FIG. 2 is an enlarged schematic view of the portion A in FIG. FIG. 3 is a schematic view of the overhead view in FIG.

The following describes the present invention in detail with reference to FIGS.

1 to 3, a new power distribution box device according to an embodiment of the present invention includes a main pedestal 100 and a distribution box 200 connected to the main pedestal 100, and is set on the top end surface of the main pedestal 100. A housing 110 is installed, rubber pads 136 are attached to the left and right sides of the set housing 110, a first sliding housing 115 is installed on the bottom wall of the set housing 110, and the first sliding housing 115 A first slide 112 is attached in accordance with the slide, and first racks 114 are installed on the left and right walls of the first slide housing 115, and the top end surface of the first slide 112 is extended up and down corresponding to the left and right. A second sliding housing 135 is installed, and a sliding shaft 111 whose top passes through the set housing 110 is attached to the second sliding housing 135 according to the slide, and a photoelectric device is attached to the top of the sliding shaft 111 A second rack 132 is installed on the inner end surface of the sliding shaft 111, A first transmission housing 134 is installed between the second sliding housings 135 on both right sides, and a second transmission housing 163 is formed on the inner wall of the first slide 112 below the first transmission housing 134. The first transmission housing 134 is installed so that the left and right sides of the first transmission housing 134 correspond to each other and mesh with the second rack 132 so that the first gear 133 can rotate. The first pyramid ring 113 that is rotatably installed in the first transmission housing 134 is meshed with each other, and the second pyramid ring 131 is installed at the front end of the first pyramid ring 113 so as to mesh with each other. A first rotating shaft 156 is fixedly attached to the bottom end face of the second pyramid ring 131, and the first rotating shaft 156 is rotatably connected to the inner bottom wall of the first transmission housing 134 so as to be bottom extended end. Passes through the second transmission housing 163, and the first spline inner hole 155 is formed in the bottom end surface of the first rotating shaft 156. Installed, a second slide 161 is attached to the second transmission housing 163 in accordance with the slide, a first electric roller 154 is fixedly attached to the second slide 161, and a tip of the first electric roller 154 is attached. The first spline shaft 157 connected together with the first spline inner hole 155 is installed so that power can be transmitted, and the second spline shaft 153 can transmit power to the bottom of the first electric roller 154. The screw shaft 162 is screwed and attached to the second slide 161 on the right side of the first electric roller 154, and the top extended end of the screw shaft 162 is connected to the second transmission housing 163. The second electric roller 164 is attached to the bottom extended end of the screw shaft 162 so as to be capable of transmitting power, and the outer surface of the second electric roller 164 is connected to the inner top wall so as to be rotatable. Dual transmission housing 163 The second rotating shaft 151 is rotatably installed on the inner bottom wall of the second transmission housing 163 directly below the second spline shaft 153, and is rotatably installed on the inner bottom wall of the second spline shaft 153. A second spline inner hole 152 connected with the second spline shaft 153 is installed on the top end surface of the rotary shaft 151, and the bottom extended end of the second rotary shaft 151 is the first inner wall body of the first slide 112. Passing through the three transmission housings 122, the third transmission housing 122 penetrates the left and right end faces of the first slide 112, and the third triangular pyramid ring 151 is fixed to the bottom extended end of the second rotating shaft 151. The transmission device is attached to the first triangular pyramid ring 151 so that power can be transmitted.

Beneficially, the transmission device includes a fourth pyramid ring 126 that is rotatably fitted to the third transmission housing 122 and meshes with the third triangular pyramid ring 151. The second gear 127 is rotatably installed on both sides, the third gear 123 is rotatably installed on the rear side of the second gear 127, and the left third gear 123 is on the left side. The first gear 114 is meshed with each other, the fourth gear 121 is installed on the right third gear 123, and the right side of the fourth gear 121 is mutually connected with the right first rack 114. Engagement, thereby automatically controlling the raising / lowering slide operation of the first slide.

Beneficially, the photoelectric device includes a hinge arm 141 fixedly attached to a top end surface of the sliding shaft 111 on both the left and right sides, and a stacking plate 142 installed on the upper side of the hinge arm 141, and a bottom portion of the stacking plate 142. The end face is fixedly connected to the left hinge arm 141, and a dovetail groove 145 is installed on the bottom end face of the stacking plate 142 to the left and right, and an ant block 144 is attached to the dovetail groove 145 according to the slide, The bottom end surface of the ant block 144 is fixedly connected to the right hinge arm 141, and the photoelectric plate 143 is fixedly attached to the top end surface of the stacking plate 142, thereby realizing the angle adjustment work of the photoelectric plate 143. To do.

The working principle of the present invention is that, when in use, the second electric roller 164 is activated and slides down with the second slide 161 until the second spline shaft 153 is completed through the second spline inner hole 152. The first electric roller 154 is activated to rotate the third gear 123 and the fourth gear 121 on the left side, and through the action of the first rack 114, the first slide is raised, that is, the photoelectric plate 143 is raised. When it is necessary to adjust the angle by rising and absorbing sunlight, the second electric roller 164 is activated and slides up with the second slide 161, and the first spline shaft 157 is completed. Until after passing through 155, the first electric roller 154 is activated and the sliding shafts 111 on both the left and right sides are slid in reverse, thereby adjusting the angle of the photoelectric plate 143.

Engineers in this area can make various modifications to the above embodiments without departing from the overall meaning and concept of the present invention, and they are within the protection scope of the present invention. The protection scheme is based on the claims of the present invention.

Claims (1)

A power distribution box device comprising a main pedestal and a distribution box connected to the main pedestal, wherein a set housing is installed on the top end surface of the main pedestal, and rubber pads are installed on the left and right sides of the set housing. A first sliding housing is installed on the bottom wall of the set housing, and a first slide is attached to the first sliding housing according to the slide, and the first sliding housing is attached to the left and right side walls of the first sliding housing. One rack is installed, and a second sliding housing that extends up and down corresponding to the left and right is installed on the top end surface of the first slide, and a sliding shaft with the top passing through the set housing slides on the second sliding housing. A photoelectric device is mounted on the top of the sliding shaft, a second rack is installed on the inner end surface of the sliding shaft, and a first transmission housing is provided between the second sliding housings on both the left and right sides. Installed in the first transmission housing A second transmission housing is installed on the inner wall of the first slide on the lower side, and a first rack that engages with the second rack corresponding to the left and right sides of the first transmission housing is installed to be rotatable. The first racks on both the left and right sides are meshed with a first pyramid ring that is rotatably mounted on the first transmission housing, and a second pyramid ring is mutually connected to the front end of the first pyramid ring. The first rotating shaft is fixedly attached to the bottom end face of the second pyramid ring, and the first rotating shaft is connected to the inner bottom wall of the first transmission housing so as to be rotatable. The bottom extended end passes through the second transmission housing, a first spline inner hole is installed in the bottom end surface of the first rotating shaft, and a second slide is attached to the second transmission housing in accordance with the slide. The first electric roller is fixed to the second slide And a first spline shaft that is connected to the tip of the first electric roller so as to be connected to the inner hole of the first spline is installed so that power can be transmitted, and a second spline shaft is installed at the bottom of the first electric roller. A spline shaft is installed so that power can be transmitted, and a screw shaft is screwed and attached to the second slide on the right side of the first electric roller, and the top extended end of the screw shaft is the second transmission end. A second electric roller is attached to the inner top wall of the housing so as to be rotatable, and a second electric roller is attached to the bottom extended end of the screw shaft so that power can be transmitted. Fixedly installed on the inner bottom wall of the second transmission housing, and installed on the inner bottom wall of the second transmission housing just below the second spline shaft so as to be rotatable. Front to top end face of dual rotation shaft A second spline inner hole to be connected with the second spline shaft is installed, and the bottom extended end of the second rotary shaft passes through the third transmission housing of the inner wall of the first slide, and the third spline shaft A transmission housing penetrates the left and right end faces of the first slide, a third triangular pyramid is fixedly attached to the bottom extended end of the second rotating shaft, and the transmission device transmits power to the first triangular pyramid. The transmission device includes a fourth pyramid ring that is rotatably fitted to the third transmission housing and meshes with the third triangular pyramid ring; A second gear is rotatably installed on both the left and right sides, a third gear is rotatably installed on the rear side of the second gear, and the third gear on the left side is the first rack on the left side. And the third gear on the right A hinge arm that is installed so that the gears mesh with each other, the right side of the fourth gear meshes with the first rack on the right side, and the photoelectric device is fixedly attached to the top end surfaces of the sliding shafts on the left and right sides; Including a plywood installed on the upper side of the hinge arm, the bottom end face of the plywood is fixedly connected to the left hinge arm, and the dovetail is extended to the left and right on the bottom end face of the plywood, An ant block is attached to the dovetail according to the slide, a bottom end surface of the dove block is fixedly connected to the right hinge arm, and a photoelectric plate is fixedly attached to the top end surface of the stacking plate. A power distribution box device.