CN111907305A

CN111907305A - Ultraviolet disinfection assembly for bus

Info

Publication number: CN111907305A
Application number: CN202010655082.9A
Authority: CN
Inventors: 余乐平; 周小红; 路露
Original assignee: Wuxi Institute of Commerce
Current assignee: Wuxi Institute of Commerce
Priority date: 2020-07-09
Filing date: 2020-07-09
Publication date: 2020-11-10

Abstract

The invention discloses an ultraviolet disinfection assembly for a bus, which comprises a solar battery pack, a storage battery pack, a linear motor and a disinfection unit, wherein the solar battery pack is arranged on the solar battery pack; the power output end of the solar battery pack is electrically connected with the power input end of the storage battery pack; the power output end of the storage battery pack is electrically connected with the linear motor and the disinfection unit; the shielding covers are arranged at the light-transmitting areas around the vehicle body; the linear motor reciprocates at the top in the vehicle along the length direction of the vehicle body; the disinfection unit is connected and arranged below the linear motor and moves synchronously with the linear motor; the disinfection unit that utilizes self-powered, reciprocating motion at non-operating time carries out the interior disinfection of car, and it is installed and can not produce the interference to the operation of day at the roof, and space utilization is high, has also make full use of vehicle restriction time simultaneously, has promoted the efficiency of bus operation.

Description

Ultraviolet disinfection assembly for bus

Technical Field

The invention relates to the field of disinfection equipment, in particular to an ultraviolet disinfection assembly for a bus.

Background

Routine killing work on public transportation vehicles (such as buses) is an effective way to control the spread of infectious diseases. At present, the main approach for killing public transport means is to repeatedly spray disinfectant by manpower. However, this method requires a lot of manual labor and time, and the volatile disinfectant can leave irritating gases in the air, which is not good for the health of the drivers and passengers of the bus. In addition, ultraviolet disinfection technology is introduced in the Shanghai public transportation industry recently, buses are placed in ultraviolet disinfection workshops (quartz ultraviolet lamp tubes are additionally arranged on walls, floors and roofs), and a plurality of movable ultraviolet lamp brackets are arranged to irradiate the interiors of carriages, so that the aim of disinfection is fulfilled. However, this method is limited to a fixed geographical location and limited space volume in the sterilization plant and is inefficient. Based on the above-mentioned drawbacks and shortcomings, there is a need for improvements over the existing conventional disinfection methods. Therefore, it is necessary to invent a uv disinfection module for a bus with high space utilization and high working efficiency.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the prior art, the invention provides the ultraviolet disinfection component for the bus, which has high space utilization rate and high working efficiency.

The technical scheme is as follows: in order to achieve the above object, the present invention provides an ultraviolet ray sterilizing assembly for a bus, including a solar cell set, a storage battery, a linear motor, and a sterilizing unit; the power output end of the solar battery pack is electrically connected with the power input end of the storage battery pack; the power output end of the storage battery pack is electrically connected with the linear motor and the disinfection unit; the shielding covers are arranged at the light-transmitting areas around the vehicle body; the linear motor reciprocates at the top in the vehicle along the length direction of the vehicle body; the disinfection unit is connected and arranged below the linear motor and moves synchronously with the linear motor.

Further, the disinfection unit comprises a driving lamp body and a driven lamp body; the driven lamp bodies are connected and distributed on two sides of the driving lamp body; a connecting rod is connected between the driving lamp body and the linear motor; a telescopic rod is connected between the driving lamp body and the driven lamp body; the distance between the driving lamp body and the driven lamp body is twice the distance between the driven lamp body and the side wall of the vehicle body.

Further, the driving lamp body and the driven lamp body have the same structure; the active lamp body comprises a lamp tube and a lampshade; the lampshade is arranged outside the lamp tube in a surrounding manner; the initial position of the disinfection unit is positioned at one end of the length direction of the vehicle body; a first storage box and a second storage box are arranged at the initial position of the disinfection unit; the first storage box is provided with a storage opening facing the other end of the vehicle body; the moving tracks of the driving lamp body and the driven lamp body correspond to the positions of the containing openings; the second storage box is arranged on one side, back to the containing opening, of the first storage box; an automatic winding roll is arranged in the second storage box; and the wire harnesses from the driving lamp body and the driven lamp body are wound on the automatic winding roll after passing through the first storage box and the second storage box.

Furthermore, a pulley is connected to the top of the driven lamp body; the top of the inner side of the vehicle body is provided with a guide rail along the length direction of the vehicle body; the pulley is in sliding fit with the guide rail.

Further, the solar battery pack comprises a plate body, a support and a retractor; the lower end of the support is connected with the top end outside the vehicle body; the upper end of the support is connected with a spherical hinge at the bottom gravity center of the plate body; a photovoltaic plate is laid at the upper end of the plate body; the dragger centers are symmetrically distributed around the plate body; and adjusting the length of the traction device, and correspondingly changing the inclination of the plate surface of the plate body.

Further, the traction device comprises a spring, a steel rope, a winding rod and a motor; the motor is connected and arranged at the top of the inner side of the vehicle body; the winding rod is connected with the power output end of the motor; one end of the steel rope penetrates through the roof to be wound on the winding rod, and the other end of the steel rope is connected with the spring; one end of the spring, which is far away from the steel rope, is connected with the edge of the plate body; and rotating and adjusting the motor to correspondingly adjust the inclination of the plate body.

Has the advantages that: the invention discloses an ultraviolet disinfection assembly for a bus, which comprises a solar battery pack, a storage battery pack, a linear motor and a disinfection unit, wherein the solar battery pack is arranged on the solar battery pack; the power output end of the solar battery pack is electrically connected with the power input end of the storage battery pack; the power output end of the storage battery pack is electrically connected with the linear motor and the disinfection unit; the shielding covers are arranged at the light-transmitting areas around the vehicle body; the linear motor reciprocates at the top in the vehicle along the length direction of the vehicle body; the disinfection unit is connected and arranged below the linear motor and moves synchronously with the linear motor; the disinfection unit that utilizes self-powered, reciprocating motion at non-operating time carries out the interior disinfection of car, and it is installed and can not produce the interference to the operation of day at the roof, and space utilization is high, has also make full use of vehicle restriction time simultaneously, has promoted the efficiency of bus operation.

Drawings

FIG. 1 is an overall architecture diagram of the UV disinfection module;

FIG. 2 is a schematic view of a solar panel installation location;

FIG. 3 is a schematic view of the shield placement position;

FIG. 4 is a schematic view of an active lamp body structure;

FIG. 5 is a schematic view of the overall structure of the sterilization unit;

FIG. 6 is a partial schematic view of the driven lamp body;

FIG. 7 is a schematic view of the operation of the sterilization unit;

fig. 8 is a schematic structural view of a solar cell module.

Detailed Description

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

An ultraviolet ray sterilizing assembly for a bus, as shown in fig. 1, 4 and 5, includes a solar cell set 1, a storage battery, a linear motor 5 and a sterilizing unit; the power output end of the solar battery pack 1 is electrically connected with the power input end of the storage battery pack; the power output end of the storage battery is electrically connected with the linear motor 5 and the disinfection unit; by utilizing the solar battery pack 1, partial light irradiation can be converted into electric energy to be stored in the storage battery pack in the running process of the bus, so that the linear motor 5 and the disinfection unit are powered, and self-sufficiency of energy is realized; the light-transmitting areas around the vehicle body are all provided with the shielding covers 3, as shown in fig. 3, the shielding covers 3 are arranged according to the distribution positions of the light-transmitting areas 4; the shielding case 3 can be realized in the form of a curtain or a folding plate, and the surface of the shielding case realizes the safe blocking of ultraviolet rays by arranging a shielding agent (carbon black, titanium dioxide, zinc oxide, and the like); the linear motor 5 reciprocates at the top in the vehicle along the length direction of the vehicle body; the disinfection unit is connected and arranged below the linear motor 5 and synchronously moves along with the linear motor 5 as shown in fig. 7; as shown in fig. 1, a controller and an inverter are connected between the storage battery pack and the linear motor and between the storage battery pack and the disinfection unit in a control manner, the functions of the controller and the inverter can be replaced by a control circuit board matched with the linear motor in purchasing to realize simple timing and reciprocating movement, and the controller and the inverter can be purchased by self, so that a hardware basis is provided for controlling more complex working modes.

As shown in fig. 4 to 6, the sterilizing unit includes a driving lamp body 61 and a driven lamp body 62; the driven lamp bodies 61 are connected and distributed on two sides of the driving lamp body 61; a connecting rod 10 is connected between the driving lamp body 61 and the linear motor 5; the telescopic rod 11 is connected between the driving lamp body 61 and the driven lamp body 62, and vehicle types with different widths can be adapted by using the flexible and adjustable characteristic of the telescopic rod 11, so that the applicability of the disinfection component is greatly enhanced; the distance between the driving lamp body 61 and the driven lamp body 62 is twice the distance between the driven lamp body 62 and the side wall of the vehicle body, so that the light on all places in the vehicle can be ensured to be uniform as much as possible.

The driving lamp body 61 and the driven lamp body 62 have the same structure; the active lamp body 61 comprises a lamp tube 601 and a lampshade 7; the lampshade 7 is arranged outside the lamp tube 601 in a surrounding manner; the initial position of the disinfection unit is positioned at one end of the length direction of the vehicle body; a first storage tank 8 and a second storage tank 9 are arranged at the initial position of the disinfection unit; the first storage box 8 is provided with a storage opening facing the other end of the vehicle body; the moving tracks of the driving lamp body 61 and the driven lamp body 62 correspond to the positions of the accommodating openings; the second storage box 9 is arranged on one side of the first storage box 8, which is back to the receiving opening; an automatic winding roll is arranged in the second storage box 9; the wire harnesses from the driving lamp body 61 and the driven lamp body 62 are wound on an automatic winding roll after passing through the first storage box 8 and the second storage box 9; wherein, the shield 7 is made of a hollow and transparent polymethyl methacrylate polymer material; the first storage tank 8 is intended to provide protection when the sterilisation unit is not operating;

the top of the driven lamp body 62 is connected with a pulley 12; the top of the inner side of the vehicle body is provided with a guide rail 13 along the length direction of the vehicle body; the pulley 12 is in sliding fit with the guide rail 13; as shown in fig. 7, when the disinfection unit starts disinfection operation at night (at this time, the shielding layer 3 on the outer side of the carriage is put down), the driving lamp body 61 is moved out of the first storage tank 8 by the linear motor 5, and the driven lamp body 62 is simultaneously driven to move together; assuming that the initial position of the disinfection unit is located at the vehicle head, the lamp 601 is lighted and the disinfection operation is started when the disinfection unit moves to a position 0.75-1 m away from the vehicle head; then, every 25-35 minutes, the linear motor 5 drives the disinfection unit to move to the tail of the vehicle by a distance of 1.5-2 meters; repeating the steps until the disinfection unit moves to the tail of the vehicle, and the lamp tube 601 is extinguished; the total time is 2-4 hours according to the length of the carriage.

As shown in fig. 8, the solar cell set 1 includes a plate body 101, a support 102, and a retractor 15; the lower end of the support 102 is connected with the top end outside the vehicle body; the upper end of the support 102 is connected with a spherical hinge at the bottom gravity center of the plate body 101; a photovoltaic panel 103 is laid at the upper end of the plate body 101; the retractors 15 are centrally and symmetrically distributed around the plate body 101; the length of the tractor 15 is adjusted to correspondingly change the inclination of the plate surface of the plate body 101.

The retractor 15 comprises a spring 151, a steel rope 152, a winding rod 153 and a motor 154; the motor 154 is connected and arranged at the top of the inner side of the vehicle body; the winding rod 153 is connected with the power output end of the motor 154; one end of the steel cable 152 is wound on the winding rod 153 through the roof, and the other end is connected with the spring 151; one end of the spring 151 away from the steel rope 152 is connected with the edge of the plate body 101; the motor 154 is rotationally adjusted, and the inclination of the plate body 101 is correspondingly adjusted; when the solar battery pack 1 is installed, one side of the plate body 101 corresponding to the south can be slightly tightened according to the current vehicle form track, so that the plate surface is slightly inclined to the south, the condition that the whole northern hemisphere sunshine is inclined to the south can be adapted, and certain power generation efficiency is improved; when the bus running route needs to be obviously switched for many times, the motor 154 in the bus can be used for driving the winding rod 153 to rotate, so that the tightness of the steel rope 152 and the spring 151 is controlled, and the inclination direction of the plate body 101 is correspondingly adjusted; the motor 154 may be correspondingly connected to a control circuit board, which provides a hardware basis for implementing adjustment and orientation synchronization with reference to the vehicle-mounted station location monitoring device.

The above description is only of the preferred embodiments of the present invention, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the invention and these are intended to be within the scope of the invention.

Claims

1. An ultraviolet disinfection assembly for a bus, characterized by: comprises a solar battery pack (1), a storage battery pack, a linear motor (5) and a disinfection unit; the power output end of the solar battery pack (1) is electrically connected with the power input end of the storage battery pack; the power output end of the storage battery is electrically connected with the linear motor (5) and the disinfection unit; the light-transmitting areas around the vehicle body are provided with shielding cases (3); the linear motor (5) reciprocates at the top in the vehicle along the length direction of the vehicle body; the disinfection unit is connected and arranged below the linear motor (5) and moves synchronously with the linear motor (5).

2. The uv disinfecting assembly for buses according to claim 1, characterized in that: the disinfection unit comprises a driving lamp body (61) and a driven lamp body (62); the driven lamp bodies (61) are connected and distributed on two sides of the driving lamp body (61); a connecting rod (10) is connected between the driving lamp body (61) and the linear motor (5); a telescopic rod (11) is connected between the driving lamp body (61) and the driven lamp body (62); the distance between the driving lamp body (61) and the driven lamp body (62) is twice the distance between the driven lamp body (62) and the side wall of the vehicle body.

3. The uv disinfecting assembly for buses according to claim 2, characterized in that: the driving lamp body (61) and the driven lamp body (62) have the same structure; the active lamp body (61) comprises a lamp tube (601) and a lampshade (7); the lampshade (7) is arranged outside the lamp tube (601) in a surrounding manner; the initial position of the disinfection unit is positioned at one end of the length direction of the vehicle body; a first storage tank (8) and a second storage tank (9) are arranged at the initial position of the disinfection unit; the first storage box (8) is provided with a storage opening facing the other end of the vehicle body; the moving tracks of the driving lamp body (61) and the driven lamp body (62) correspond to the positions of the containing openings; the second storage box (9) is arranged on one side, back to the containing opening, of the first storage box (8); an automatic winding roll is arranged in the second storage box (9); the wire harnesses from the driving lamp body (61) and the driven lamp body (62) are wound on the automatic winding roll after passing through the first storage box (8) and the second storage box (9).

4. The uv disinfecting assembly for buses according to claim 3, characterized in that: the top of the driven lamp body (62) is connected with a pulley (12); a guide rail (13) is arranged at the top of the inner side of the vehicle body along the length direction of the vehicle body; the pulley (12) is in sliding fit with the guide rail (13).

5. The uv disinfecting assembly for buses according to claim 1, characterized in that: the solar battery pack (1) comprises a plate body (101), a support (102) and a retractor (15); the lower end of the support (102) is connected with the top end outside the vehicle body; the upper end of the support (102) is connected with the bottom gravity center of the plate body (101) through a spherical hinge; a photovoltaic panel (103) is laid at the upper end of the plate body (101); the dragger (15) is centrally and symmetrically distributed around the plate body (101); the length of the tractor (15) is adjusted, and the inclination of the plate surface of the plate body (101) is correspondingly changed.

6. The uv disinfecting assembly for buses according to claim 5, characterized in that: the retractor (15) comprises a spring (151), a steel rope (152), a winding rod (153) and a motor (154); the motor (154) is connected and arranged at the top of the inner side of the vehicle body; the winding rod (153) is connected with the power output end of the motor (154); one end of the steel rope (152) penetrates through the roof to be wound on the winding rod (153), and the other end of the steel rope is connected with the spring (151); one end of the spring (151) far away from the steel rope (152) is connected with the edge of the plate body (101); the motor (154) is rotationally adjusted, and the inclination of the plate body (101) is correspondingly adjusted.