Background
At present IV tester lamp house does not have heat dissipation mechanism, and the lamp house is located factory building top moreover, generally all is on the ceiling, so can't be radiated by workshop air conditioner, and when the lamp tube was dodged in the lamp house simultaneously, because the passing through of heavy current, self can send very big heat in the twinkling of an eye, in addition summer, the very hot of part above the ceiling, the temperature can reach more than 50 ℃. If the lamp tube can not radiate heat in time, the service life of the lamp tube can be influenced, thereby increasing the frequency of lamp tube replacement and increasing the cost of consumables and manpower.
To the problem that the existing IV tester lamp box in the related art does not have a heat dissipation mechanism, is special in position and cannot realize effective cooling, and meanwhile, a lamp tube in the lamp box can generate a large amount of heat during working and cannot dissipate heat in time, so that the service life of the lamp tube is influenced, the replacement frequency of the lamp tube is increased, and consumable materials and labor cost are increased, an effective solution is not provided at present.
SUMMERY OF THE UTILITY MODEL
Utility model purpose: the heat dissipation device for the lamp box of the IV tester is provided to solve the problems in the prior art.
The technical scheme is as follows: a heat sink for an IV tester light box, comprising:
the lamp box is arranged outside the lamp box in a surrounding mode; the temperature sensing probe is arranged at the top of the heat insulation box body; the heat dissipation device is connected with the heat insulation box body; the control cabinet is electrically connected with the temperature sensing probe and the heat dissipation device respectively; the real-time temperature in the heat insulation box body is sensed through the temperature sensing probe, the sensed temperature signal is fed back to the control cabinet, and the control cabinet sends out a control signal according to a preset value to control the action of the heat dissipation device.
Preferably, the material adopted by the heat insulation box body can be one or more of glass fiber, asbestos or aerogel felt.
Preferably, a first channel for air inlet and a second channel for air outlet are respectively arranged on two sides of the heat insulation box body.
Preferably, the heat sink includes: the air blower is arranged at the air inlet of the first channel, and the air suction fan is arranged at the air outlet of the second channel.
Preferably, the number of the temperature sensing probes is plural, and the plural temperature sensing probes are uniformly arranged on the top of the heat insulation box body.
Preferably, a temperature display screen and a key are arranged on the control cabinet.
Preferably, pipeline interfaces are further arranged on two sides of the heat insulation box body.
Preferably, the heat insulation box body is rectangular.
Has the advantages that: in the embodiment of the application, adopt the mode of automatic heat dissipation cooling, through temperature sensing probe response the internal real-time temperature of heat-proof box to the temperature signal feedback who will sense extremely the switch board, the switch board sends control signal control according to the default the heat abstractor action has reached the purpose of automatic heat dissipation cooling, thereby has realized in time for fluorescent tube cooling and radiating technological effect, and then has solved current IV tester lamp house and has not had heat dissipation mechanism, and its position is special, can't realize effectual cooling, and the fluorescent tube can produce a large amount of heats at the during operation in the lamp house simultaneously, can not in time dispel the heat, leads to influencing the life-span of fluorescent tube, and then increases the frequency that the fluorescent tube was changed to and increase consumptive material and human cost's technical problem.
Detailed Description
In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the utility model.
As shown in fig. 1, the present application relates to a heat sink for a light box of an IV tester. This a heat abstractor for IV tester lamp house includes: the lamp box comprises a lamp box 1 and a heat insulation box body 2, wherein the heat insulation box body is arranged on the outer side of the lamp box 1 in a surrounding mode; the temperature sensing probe 3 is arranged at the top of the heat insulation box body 2; the heat dissipation device 4 is connected with the heat insulation box body 2; the control cabinet 5 is electrically connected with the temperature sensing probe 3 and the heat dissipation device 4 respectively; the real-time temperature in the heat insulation box body 2 is sensed through the temperature sensing probe 3, the sensed temperature signal is fed back to the control cabinet 5, and the control cabinet 5 sends out a control signal according to a preset value to control the action of the heat dissipation device 4.
Specifically, the lamp box 1 is a lamp tube accommodating box, and can realize a good box body for accommodating and placing lamp tubes. The heat insulation box body 2 is a heat insulation box body, and can realize the effect of blocking heat exchange with the outside. The heat insulation box body 2 is arranged around the outer side of the lamp box 1; the exchange of the isolated lamp box 1 and external heat sources can be realized, so that the generated heat sources are gathered in the heat insulation box body 2, and the subsequent heat dissipation operation is facilitated. Further, the material adopted by the heat insulation box body 2 can be one or more of glass fiber, asbestos or aerogel felt. Can ensure good heat insulation effect, thereby preventing the occurrence of heat overflow. The temperature sensing probe 3 is arranged at the top of the heat insulation box body 2; good temperature sensing detection effect can be realized, and thus the temperature in the heat insulation box body 2 can be detected in real time. Furthermore, the number of the temperature sensing probes 3 is multiple, and the multiple temperature sensing probes 3 are uniformly arranged on the top of the heat insulation box body 2. The effect of a plurality of point location temperature detection can be realized to improve the precision of detection. The heat dissipation device 4 is connected with the heat insulation box body 2; when the temperature in the heat insulation box body 2 is too high, the heat is radiated through the heat radiating device 4, the effect of protecting the lamp tube can be realized while the temperature is reduced, and the service life of the lamp tube is further prolonged. The control cabinet 5 is electrically connected with the temperature sensing probe 3 and the heat dissipation device 4 respectively; the effect of electric signal transmission is ensured, and thus a good electric control effect can be realized.
The real-time temperature in the heat insulation box body 2 is sensed through the temperature sensing probe 3, the sensed temperature signal is fed back to the control cabinet 5, and the control cabinet 5 sends out a control signal according to a preset value to control the action of the heat dissipation device 4. Can carry out real-time monitoring to the temperature in the thermal-insulated box 2, blow the heat dissipation through 5 control heat abstractor 4 of switch board simultaneously, reduce the temperature in the thermal-insulated box 2, and then ensure the normal function of fluorescent tube, finally realize improving life's effect.
From the above description, it can be seen that the following technical effects are achieved by the present application:
in the embodiment of the application, adopt the mode of automatic heat dissipation cooling, through temperature sensing probe 3 response real-time temperature in the thermal-insulated box 2 to the temperature signal feedback who will sense extremely switch board 5, switch board 5 sends control signal control according to the default 4 actions of heat abstractor have reached the purpose of automatic heat dissipation cooling, thereby realized in time cooling and radiating technological effect for the fluorescent tube, and then solved current IV tester lamp house 1 and not have heat dissipation mechanism, and its position is special, can't realize effectual cooling, and the fluorescent tube can produce a large amount of heats at the during operation in lamp house 1 simultaneously, can not in time dispel the heat, leads to influencing the life-span of fluorescent tube, and then increases the frequency that the fluorescent tube was changed to and increase consumptive material and human cost's technical problem.
As shown in fig. 2-3, a first channel 6 for air intake and a second channel 7 for air outtake are respectively disposed on two sides of the heat insulation box 2. The effect of the directional delivery of air can be achieved, thereby ensuring effective and rapid cooling. Furthermore, pipeline interfaces are further arranged on two sides of the heat insulation box body 2. 14 can achieve the effect of facilitating the connection with the first passage 6 and the second passage 7.
Further, the heat sink 4 includes: the air suction device comprises a blower 8 and a suction fan 9, wherein the suction fan 9 is arranged at an air inlet 10 of the first channel 6, and the suction fan 9 is arranged at an air outlet 11 of the second channel 7. Good air inlet and blowing effects can be realized, and therefore the circulation efficiency of air is improved.
Further, a temperature display screen 12 and a key 13 are arranged on the control cabinet 5. Good temperature display and key 13 operation effects can be achieved. Preferably, the heat insulation box 2 is rectangular. The effect of being convenient for the circulation of air can be realized to improve circulation efficiency.
The specific working principle of the utility model is as follows:
the heat insulation box body is arranged outside the lamp box at the top of the tester and surrounds the lamp box to achieve the heat insulation effect; two sides of the heat insulation box body are respectively provided with two ventilation pipe openings which are connected with two ventilation pipes, and are finally connected with two fans, one fan and one air suction fan, the fans are connected with a workshop, the temperature in the workshop is constant at 25 ℃, so that the air introduced by the fans is enough to cool the temperature in the lamp box; still distribute a plurality of temperature probe in the hot box for detect the problem in the box, feed back to control system simultaneously, then reach intelligent control's function through control system to the control of fan switching on and shutting down, set up on the touch-sensitive screen and open and close temperature just can intelligent control.
The utility model also has the following beneficial effects:
through reforming transform the back, equipment load capacity improves by a wide margin, and consumptive material life-span greatly reduced, this equipment has still perfected the functionality of equipment and has improved the latent energy of equipment, can make consumptive material life-span obtain promoting again, practices thrift use cost, simultaneously, has reduced equipment spoilage, has improved production efficiency.
The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the specific details of the embodiments, and various equivalent changes can be made to the technical solution of the present invention within the technical idea of the present invention, and these equivalent changes are within the protection scope of the present invention.