CN213480706U - Vertical airflow cooling device for processing anti-static tray - Google Patents

Abstract

The utility model aims at providing a perpendicular air current cooling device for preventing static tray processing, its characterized in that: the air circulation device consists of a blower, an exhaust channel and two air supply pipelines, wherein an exhaust fan is arranged at the connecting position of each air supply pipeline and the refrigerating cabin, and a filter screen is arranged at the position of each air outlet of the exhaust channel; wholly adopt upper and lower vertically air exit structural design, can blow simultaneously to needs refrigerated antistatic tray just, the back of the body two-sided, improve the speed of cooling, be equipped with one set of air current circulating device and be used for realizing the circulation of the inside cold airflow in cabin, guarantee the persistence of air conditioning, utilize the passageway that has the inclined plane structure to be convenient for prevent the input and the output of electrostatic tray, also can avoid dispersing of air conditioning, improved cooling effect and cooling quality.

Description

Vertical airflow cooling device for processing anti-static tray

Technical Field

The utility model relates to an electronic product machining equipment field especially relates to a perpendicular air current cooling device for preventing static tray processing.

Background

The production of the anti-static tray is basically completed by heating raw materials and molding the raw materials by using plastic suction, and then cooling the plastic-molded tray, so that a more stable shape structure is achieved, and therefore, cooling the plastic-molded tray by using cooling equipment is also an important link in the production process of the anti-static tray, and the quality of a tray product is related; the structure of the past cooling device is simple, the tray in the cabin is cooled by cold air basically, the recycling of the cold air and the reduction of the diffusion of the cold air are not considered thoroughly, so the cold air can be quickly lost, the consumption of the machine body is increased, an air outlet for supplying the cold air of the traditional cooling device is not set reasonably, the tray is cooled by the ambient temperature in the cabin usually, some trays are conveyed out from the cooling cabin without complete cooling, and the quality of cooling processing is influenced; to sum up, how to let dredging of tray link up more, the continuity of reinforcing tray conduction can also avoid losing with the inside air conditioning make full use of in cabin simultaneously, lets the cooling of tray more thoroughly, improves work efficiency and treatment quality, then needs to improve cooling device's structure, solves above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a be used for heating the processing link of antistatic tray after plastic uptake shaping, adopt upper and lower vertically air exit structural design, can be to needs refrigerated antistatic tray just, the back of the body is two-sided to be blown simultaneously, and then improve the speed of cooling, and be equipped with one set of air current circulating device and be used for realizing the circulation of the internal cold airflow in cabin and get up, and then guarantee the persistence of air conditioning, the passageway that utilizes the inclined plane structure simultaneously is convenient for prevent the input and the output of electrostatic tray, also can avoid dispersing of air conditioning, improve the perpendicular air current cooling device of cooling effect and cooling quality.

The technical scheme of the utility model is that: the utility model provides a vertical airflow cooling device for preventing static tray processing which characterized in that: by refrigeration cabin, conveyer, conveying driving motor, air current circulating device, electrically controlled device, feedstock channel and discharging channel and constitute, still be equipped with a plurality of perpendicular air outlets on the refrigeration cabin, every two a set of difference horizontal parallel of a plurality of perpendicular air outlets is located the inboard top and the bottom position department of refrigeration cabin, a plurality of perpendicular air outlets all are fixed connection with the refrigeration cabin, conveyer is located the inside of refrigeration cabin, conveyer is fixed connection with the refrigeration cabin, conveying driving motor is located conveyer one side, and conveying driving motor is located the outside of refrigeration cabin, conveying driving motor's one end is passed the refrigeration cabin and is fixed connection with conveyer, air current circulating device is located the upper portion of refrigeration cabin, air current circulating device is fixed connection with the refrigeration cabin, air current circulating device is by the forced draught blower, The air exhaust channel is positioned at the top of the refrigerating cabin, the air blower is fixedly connected with the refrigerating cabin, the air exhaust channel is positioned at the top of the refrigerating cabin under the air blower, the top end of the air exhaust channel is fixedly connected with the air blower, the air exhaust channel is fixedly connected with the refrigerating cabin, the two air supply pipelines are respectively positioned at two sides of the refrigerating cabin, one end of each air supply pipeline is fixedly connected with the refrigerating cabin, the other end of each air supply pipeline is fixedly connected with the air blower, an exhaust fan is further arranged on each air supply pipeline, the exhaust fan is positioned at the connecting position of the air supply pipeline and the refrigerating cabin, one end of the exhaust fan is fixedly connected with the refrigerating cabin, the other end of the exhaust fan is fixedly connected with the air supply pipeline, and the electric control device is positioned at one side of the refrigerating cabin, the electric control device is fixedly connected with the refrigerating cabin, the feeding channel and the discharging channel are respectively positioned at the inlet and the outlet of the refrigerating cabin, and the feeding channel and the discharging channel are fixedly connected with the refrigerating cabin.

Further, the conveying device is a plurality of rubber roller wheel linkage type conveying mechanisms.

Furthermore, the air exhaust channel is of a multi-port trapezoidal structure.

Furthermore, still be equipped with a plurality of filter screens on the passageway of airing exhaust, a plurality of filter screens all are located every air outlet position department of the passageway of airing exhaust of refrigeration cabin inside, a plurality of filter screens are fixed connection with every air outlet of passageway of airing exhaust respectively.

Still further, the plurality of filter webs are fibrous webs.

Furthermore, the feeding channel and the discharging channel are both inclined plane structure channels.

The beneficial effects of the utility model reside in that: whole equipment simple structure, high durability and convenient use, wholly be used for heating the antistatic tray processing link after the plastic uptake shaping, adopt upper and lower vertically air exit structural design, can be to needs refrigerated antistatic tray just, the back of the body is two-sided to be bloied simultaneously, and then improve the speed of cooling, and be equipped with one set of air current circulating device and be used for realizing the circulation of the internal cold airflow in cabin and get up, and then guarantee the persistence of air conditioning, the passageway that utilizes to have the inclined plane structure simultaneously is convenient for prevent the input and the output of electrostatic tray, also can avoid dispersing of air conditioning, cooling effect and cooling quality have been improved.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a schematic view of the disassembly structure of the present invention.

Fig. 3 is a sectional view of the internal side structure of the present invention.

Wherein: 1. refrigerating chamber 2, vertical air outlet 3 and conveying device

4. Conveying drive motor 5, airflow circulating device 6 and blower

7. Air exhaust channel 8, filter screen 9 and air supply pipeline

10. Exhaust fan 11, electric control device 12 and feeding channel

13. Discharge channel

Detailed Description

The following provides a brief description of the embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1, 2 and 3, the vertical airflow cooling device for processing the antistatic tray is characterized in that: the refrigerator is characterized by comprising a refrigerating cabin 1, a conveying device 3, a conveying driving motor 4, an airflow circulating device 5, an electric control device 11, a feeding channel 12 and a discharging channel 13, wherein a plurality of vertical air outlets 2 are further arranged on the refrigerating cabin 1, every two groups of the vertical air outlets 2 are respectively horizontally and parallelly arranged at the top and the bottom of the inner side of the refrigerating cabin 1, the vertical air outlets 2 are fixedly connected with the refrigerating cabin 1, the conveying device 3 is arranged inside the refrigerating cabin 1, the conveying device 3 is fixedly connected with the refrigerating cabin 1, the conveying driving motor 4 is arranged on one side of the conveying device 3, the conveying driving motor 4 is arranged outside the refrigerating cabin 1, one end of the conveying driving motor 4 penetrates through the refrigerating cabin 1 and is fixedly connected with the conveying device 3, the airflow circulating device 5 is arranged at the upper part of the refrigerating cabin 1, and the airflow circulating device 5 is fixedly connected with the refrigerating cabin 1, the air circulation device 5 is composed of a blower 6, an exhaust channel 7 and two air supply pipelines 9, the blower 6 is positioned at the upper part of the refrigerating cabin 1, the blower 6 is fixedly connected with the refrigerating cabin 1, the exhaust channel 7 is positioned at the top position of the refrigerating cabin 1 under the blower 6, the top end of the exhaust channel 7 is fixedly connected with the blower 6, the exhaust channel 7 is fixedly connected with the refrigerating cabin 1, the exhaust channel 7 is also provided with a plurality of filter screens 8, the filter screens 8 are all positioned at each air outlet position of the exhaust channel 7 in the refrigerating cabin 1, the filter screens 8 are respectively and fixedly connected with each air outlet of the exhaust channel 7, the two air supply pipelines 9 are respectively positioned at two sides of the refrigerating cabin 1, and one end of any air supply pipeline 9 is fixedly connected with the refrigerating cabin 1, it is arbitrary the other end of supply air duct 9 is fixed connection, arbitrary still be equipped with air exhauster 10 on the supply air duct 9, air exhauster 10 is located supply air duct 9 and the hookup location department in refrigeration cabin 1, the one end of air exhauster 10 is fixed connection with refrigeration cabin 1, the other end and the supply air duct 9 of air exhauster 10 are fixed connection, electrically controlled device 11 is located one side in refrigeration cabin 1, electrically controlled device 11 is fixed connection with refrigeration cabin 1, feedstock channel 12 and discharging channel 13 are located the import and the exit position department in refrigeration cabin 1 respectively, feedstock channel 12 and discharging channel 13 all are fixed connection with refrigeration cabin 1. The conveying device 3 is a plurality of rubber roller wheel linkage type conveying mechanisms. The air exhaust channel 7 is of a multi-opening type trapezoidal structure. The plurality of filter webs 8 are fibrous webs. The feeding channel 12 and the discharging channel 13 are both inclined plane structure channels.

The working mode is as follows: the mechanism mainly comprises a refrigerating chamber 1, a conveying device 3, a conveying driving motor 4, an airflow circulating device 5, an electric control device 11, a feeding channel 12 and a discharging channel 13, when in use, firstly, an anti-static tray which needs to be cooled and is subjected to heating plastic-suction molding enters the refrigerating chamber 1 along the feeding channel 12, the feeding channel 12 adopts a slope structure channel, the anti-static tray which needs to be cooled and is subjected to heating plastic-suction molding can slide to the conveying device 3 in the refrigerating chamber 1 along the slope channel in the feeding channel 12, the conveying device 3 adopts a plurality of rubber roller linkage type conveying mechanisms, the conveying device utilizes the driving of the conveying driving motor 4 on one side of the refrigerating chamber 1 to carry out rolling conveying, and due to the linkage type conveying mechanisms, each rubber roller can be driven to rotate, and then the anti-static tray which needs to be cooled and is subjected to heating plastic-suction molding is conveyed, the rubber roller can also increase the friction force of the anti-static tray in the cooling and conveying process so as to avoid the slipping phenomenon of the tray in the conveying process; a plurality of vertical air outlets 2 are arranged in the refrigerating cabin 1, every two vertical air outlets 2 are respectively horizontally and parallelly arranged at the top and the bottom of the inner side of the refrigerating cabin 1, so that a vertical convection air blowing effect can be formed, each group of vertical air outlets 2 is arranged at the position of a gap between every two rollers of the conveying device 3 and is used for blowing the upper and the lower surfaces of the anti-static tray, the whole refrigerating cabin 1 is subjected to refrigeration control by the electric control device 11, and the electric control device 11 can also control the running speed of the conveying device 3 to enable the anti-static tray to be cooled to slowly run; then, the anti-static tray is cooled by directly blowing cold air in the refrigerating cabin 1, and finally the cooled anti-static tray is conveyed out from the output end of the refrigerating cabin 1 along a discharge channel 13, and the discharge channel 13 also adopts a channel with an inclined surface structure, so that the whole equipment can more automatically advance the anti-static tray without manual conveying; besides, a set of airflow circulating device 5 is arranged on the refrigerating chamber 1, the airflow circulating device 5 is composed of a blower 6, an exhaust channel 7 and two air supply pipelines 9, wherein the blower 6 is arranged at the upper part of the refrigerating chamber 1, the exhaust channel 7 is arranged at the top part of the refrigerating chamber 1 right below the blower 6, the two air supply pipelines 9 are respectively arranged at two sides of the refrigerating chamber 1, an exhaust fan 10 is also arranged at the connecting position of each air supply pipeline 9 and the refrigerating chamber 1, when the heating plastic-suction formed antistatic tray which needs to be cooled is cooled in the refrigerating chamber 1, cold air blown out from the vertical air outlets 2 in the refrigerating chamber 1 can form upper and lower convection airflows in the refrigerating chamber 1 and can directly blow to the upper and lower surfaces of the antistatic tray to form a lateral flowing airflow, in order to avoid dissipation and loss of cold air, the cold air is collected by exhaust fans 10 on two sides of the refrigerating compartment 1 and enters the air supply fan 6 along an air supply pipeline 9, each exhaust fan 10 and the air supply fan 6 are also controlled by an electric control device 11, under the action of the air supply fan 6, the cold air is discharged into the refrigerating compartment 1 from an air exhaust channel 7 on the lower part of the air supply fan 6, so that a cold air circulation mechanism is formed, the cold air is fully utilized, the air exhaust channel 7 adopts a multi-opening type ladder-shaped structure, the output of the cold air can be dispersed, a cold air multi-outlet structure is formed at the top of the refrigerating compartment 1, the cold air covers the inside of the refrigerating compartment 1 from top to bottom, the temperature inside the refrigerating compartment 1 is more stable, in addition, filter screens 8 are correspondingly arranged at each air outlet position of the air exhaust channel 7, the filter screens 8 adopt fiber screens, impurities in the machine body pipeline can be filtered, so that the circulating air flow is purer; in addition, the inclined surface structure of the feeding channel 12 and the discharging channel 13 can also slow down the diffusion of the cold air in the refrigerating chamber 1, and the tray is conveyed and plays a role in inhibiting the output of the cold air; whole equipment simple structure, high durability and convenient use, wholly be used for heating the antistatic tray processing link after the plastic uptake shaping, adopt upper and lower vertically air exit structural design, can be to needs refrigerated antistatic tray just, the back of the body is two-sided to be bloied simultaneously, and then improve the speed of cooling, and be equipped with one set of air current circulating device and be used for realizing the circulation of the internal cold airflow in cabin and get up, and then guarantee the persistence of air conditioning, the passageway that utilizes to have the inclined plane structure simultaneously is convenient for prevent the input and the output of electrostatic tray, also can avoid dispersing of air conditioning, cooling effect and cooling quality have been improved.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", "end", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention, and should not be considered as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (6)

1. The utility model provides a vertical airflow cooling device for preventing static tray processing which characterized in that: by refrigeration cabin, conveyer, conveying driving motor, air current circulating device, electrically controlled device, feedstock channel and discharging channel and constitute, still be equipped with a plurality of perpendicular air outlets on the refrigeration cabin, every two a set of difference horizontal parallel of a plurality of perpendicular air outlets is located the inboard top and the bottom position department of refrigeration cabin, a plurality of perpendicular air outlets all are fixed connection with the refrigeration cabin, conveyer is located the inside of refrigeration cabin, conveyer is fixed connection with the refrigeration cabin, conveying driving motor is located conveyer one side, and conveying driving motor is located the outside of refrigeration cabin, conveying driving motor's one end is passed the refrigeration cabin and is fixed connection with conveyer, air current circulating device is located the upper portion of refrigeration cabin, air current circulating device is fixed connection with the refrigeration cabin, air current circulating device is by the forced draught blower, The air exhaust channel is positioned at the top of the refrigerating cabin, the air blower is fixedly connected with the refrigerating cabin, the air exhaust channel is positioned at the top of the refrigerating cabin under the air blower, the top end of the air exhaust channel is fixedly connected with the air blower, the air exhaust channel is fixedly connected with the refrigerating cabin, the two air supply pipelines are respectively positioned at two sides of the refrigerating cabin, one end of each air supply pipeline is fixedly connected with the refrigerating cabin, the other end of each air supply pipeline is fixedly connected with the air blower, an exhaust fan is further arranged on each air supply pipeline, the exhaust fan is positioned at the connecting position of the air supply pipeline and the refrigerating cabin, one end of the exhaust fan is fixedly connected with the refrigerating cabin, the other end of the exhaust fan is fixedly connected with the air supply pipeline, and the electric control device is positioned at one side of the refrigerating cabin, the electric control device is fixedly connected with the refrigerating cabin, the feeding channel and the discharging channel are respectively positioned at the inlet and the outlet of the refrigerating cabin, and the feeding channel and the discharging channel are fixedly connected with the refrigerating cabin.

2. The vertical airflow cooling device for antistatic tray processing according to claim 1, wherein: the conveying device is a plurality of rubber roller wheel linkage type conveying mechanisms.

3. The vertical airflow cooling device for antistatic tray processing according to claim 1, wherein: the air exhaust channel is of a multi-opening type trapezoidal structure.

4. The vertical airflow cooling device for antistatic tray processing according to claim 1, wherein: the air exhaust channel is also provided with a plurality of filter screens, the filter screens are all positioned at the positions of the air outlets of the air exhaust channel inside the refrigeration cabin, and the filter screens are fixedly connected with the air outlets of the air exhaust channel respectively.

5. The vertical airflow cooling device for antistatic tray processing according to claim 4, wherein: the plurality of filter screens are fiber screens.

6. The vertical airflow cooling device for antistatic tray processing according to claim 1, wherein: the feeding channel and the discharging channel are both inclined plane structural channels.

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