CN219135732U - Novel air supporting conveying unit and air supporting transfer chain - Google Patents

Abstract

The utility model discloses a novel air floatation conveying unit and an air floatation conveying line, wherein the novel air floatation conveying unit comprises an upper wood board, a lower wood board, an air blowing box, an air floatation box and a fan; the upper wood board is positioned on the lower wood board, and the lower side edges of the upper wood board and the lower wood board are inclined surfaces; the air blowing box is of a stainless steel, plastic steel or aluminum alloy structure and is provided with two air blowing openings which are respectively positioned below the upper wood board and the lower wood board and are arranged at positions facing the inclined planes, and the rear side of the air blowing box is provided with an opening communicated with the air blowing openings; the two air floating boxes are respectively positioned at the rear sides of the two blowing boxes, and an air floating cavity communicated with the opening is arranged in the air floating boxes; the fan is provided with two, communicates with the air supporting chamber of two air supporting casees respectively. The lower part and the middle part are respectively provided with an air blowing opening, so that the control force on glass with different specifications and sizes is better, and a high-power variable-frequency fan is not required to be used; the blowing port can not be affected with damp and deformed, and the straight line size of the blowing port can be ensured to be consistent and the air outlet is uniform.

Description

Novel air supporting conveying unit and air supporting transfer chain

Technical Field

The utility model relates to the technical field of hollow glass production equipment, in particular to a novel air floatation conveying unit and an air floatation conveying line for vertical conveying of glass.

Background

The hollow glass is processed by adopting a vertical conveying structure, so that the space is saved and the energy consumption is reduced. The vertical conveying mode mainly comprises two modes of roller conveying and air floatation conveying. As the requirements for processing the hollow glass in the market are gradually increased, the improvement of the conveying mechanism is quite important while the whole processing technology is improved by equipment manufacturing enterprises. The roller conveying is easy to pollute the environment, and after the wheels print the glass, the glass can not be cleaned after being combined into the hollow glass, so that the air floatation conveying mode is the trend of future hollow glass processing.

Traditional air supporting is carried, as shown in fig. 1, the lower extreme of upper plank 1 and the upper end of lower plank 2 all cut into and be 30 inclined planes, and two inclined planes interval 3mm forms the mouth 3 of blowing of 30 contained angles, and fan 6 blows air into air supporting chamber 4, and air supporting chamber 4 communicates with mouth 3 of blowing, thereby makes the wind blow the guide surface on plank inclined plane, forms the air wall between glass 7 and plank inclined plane, floats glass 7. The reason why this solution has not been popular is that: the design of a blowing port is arranged below the glass, the control force of the glass with different specifications and sizes is poor, and a power source fan is required to be a high-power variable-frequency fan so as to adjust the air output of the glass; because the air blowing opening is formed by the included angles of the boards, after the boards are wetted, the air blowing opening cannot ensure the consistent dimension (different widths) on a straight line, and the phenomenon of uneven air outlet is caused, so that the large glass is scratched by the conveying boards, and the boards are marked on the glass.

Disclosure of Invention

Therefore, the utility model provides a novel air floatation conveying unit and an air floatation conveying line for vertical conveying of glass, which are used for solving the technical problems that in the prior art, the straight line size of a blowing port is inconsistent, the air outlet is not uniform, the control force on glass with different specifications and sizes is poor, and a high-power variable-frequency fan is required to be used due to a bottom single-channel blowing port formed by double boards.

In order to achieve the above object, the present utility model provides the following technical solutions:

the first aspect of the utility model provides a novel air floatation conveying unit which comprises an upper wood board, a lower wood board, an air blowing box, an air floatation box and a fan; the upper wood board is positioned on the lower wood board, and the lower side edges of the upper wood board and the lower wood board are inclined surfaces; the air blowing box is of a stainless steel, plastic steel or aluminum alloy structure and is provided with two air blowing openings which are respectively positioned below the upper wood board and the lower wood board and are arranged at positions facing the inclined surfaces, and the rear side of the air blowing box is provided with an opening communicated with the air blowing openings; the two air floatation boxes are respectively positioned at the rear sides of the two blowing boxes, and an air floatation cavity communicated with the opening is arranged in the air floatation boxes; the fans are arranged in two and are respectively communicated with the air floatation cavities of the two air floatation boxes.

Further, the air floatation conveying unit further comprises a surface type support, the upper wood plate, the lower wood plate and the air blowing box are arranged on one side face of the support, and the air floatation box and the fan are arranged on the other side face of the support.

Further, the air floatation conveying unit further comprises a filter box, the filter box is arranged on one side face of the support, provided with the fan, of the filter box, and the air outlet end of the filter box is connected with the air inlet pipe of the fan.

Further, two filter boxes are arranged, and the two filter boxes are arranged in one-to-one correspondence with the two fans.

Further, the air blowing box and the air floating box are long-strip-shaped, the air floating cavity is a long-strip-shaped cavity, the opening is a long-strip-shaped semi-enclosed bin, the air blowing opening is a strip-shaped opening, and the length directions of the air blowing box, the air floating cavity, the opening and the air blowing opening are all parallel to the glass transportation direction.

The second aspect of the utility model provides an air-float conveying line, which comprises a plurality of air-float conveying units provided in the first aspect of the utility model, wherein the heads and the tails of the air-float conveying units are sequentially connected to form a linear conveying line for conveying glass in an air-float manner.

The utility model has the following advantages:

the fan transmits the impurity-free air filtered in the filter box to the air blowing opening through the air floating cavity, air is blown out from the air blowing opening to the inclined surface, and then is blown into the space between the glass and the wood board to form an air wall, and the glass cannot be stuck to the side surface of the wood board due to the existence of the air wall, so that the pollution to the glass is lower compared with the traditional conveying mode (namely roller conveying) in which wheels are arranged on the back board; because the air wall is formed by flowing air flow, negative pressure is generated between the glass and the wood board, so that the glass has a trend of approaching to the wood board, and the wood board is inclined at a certain angle (the prior art), so that the glass can be effectively prevented from falling off in the conveying process. According to the air floatation conveying unit provided by the utility model, the lower part and the middle part are respectively provided with one air blowing opening, for larger glass, the two air blowing openings are both used for blowing air, for smaller glass, only the lower air blowing opening is used for blowing air, so that the control force on glass with different specifications and sizes is better, a high-power variable-frequency fan is not needed, the power requirement of a single machine is low, and the energy conservation and consumption reduction are realized; the air blowing opening is formed by the air blowing box, and the air blowing box is made of stainless steel, plastic steel or aluminum alloy, so that the air blowing opening cannot be affected with damp and deform, and the straight line size of the air blowing opening is consistent and the air outlet is uniform.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those skilled in the art from this disclosure that the drawings described below are merely exemplary and that other embodiments may be derived from the drawings provided without undue effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the utility model, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present utility model, should fall within the scope of the utility model.

Fig. 1 is a schematic diagram of a conventional air-float conveying device according to the background art of the present utility model;

fig. 2 is a schematic front structural view of a novel air-floating conveying unit according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram of a back structure of a novel air-floating conveying unit according to an embodiment of the present utility model;

FIG. 4 is an enlarged view of a portion of a novel air bearing conveyor unit according to an embodiment of the present utility model;

fig. 5 is a schematic diagram of a blow box and a blow port of the novel air-float conveying unit according to the embodiment of the utility model.

In the figure: 1-upper wood board, 2-lower wood board, 3-air blowing port, 4-air floating cavity, 5-filter box, 6-fan and 7-glass.

Detailed Description

Other advantages and advantages of the present utility model will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The terms such as "upper", "lower", "left", "right", "middle" and the like are also used in the present specification for convenience of description, but are not intended to limit the scope of the present utility model, and the changes or modifications of the relative relationship thereof are considered to be within the scope of the present utility model without substantial modification of the technical content.

As shown in fig. 2-5, the present embodiment provides a new air-float conveyor line and new air-float conveyor unit for air-float conveying glass.

The air supporting transfer chain includes a plurality of air supporting conveying unit, and the head and the tail of a plurality of air supporting conveying unit links up in proper order and forms linear transfer chain.

The air supporting conveying unit comprises a conveying frame (an existing structure and not marked in the figure), a bracket (an existing structure and not marked in the figure), a supporting rod (an existing structure and not marked in the figure), an upper wood board 1, a lower wood board 2, an air blowing box, an air supporting box, a filtering box 5 and a fan 6.

The carriage has a row of power rollers (not shown in the drawings) on which the lower edge of the glass 7 is supported, so that the glass 7 is moved forward. The support is inclined at a certain angle and is arranged on the conveying frame, the support is of a face type or a plate type, namely a hollowed plane is formed, one side (front) is used for fixing the upper wood board 1, the lower wood board 2 and the blow box, and the other side (back) is used for fixing the air flotation box, the filter box 5, the fan 6 and the supporting rods. The upper end of the supporting rod is connected with the back surface of the upper part of the bracket, and the lower end of the supporting rod is connected with the conveying frame.

The upper board 1, the lower board 2 and the blow box are all arranged on the front surface of the bracket, so that the upper board 1 and the lower board 2 also have certain inclination. The upper board 1 is located on the lower board 2 with a certain distance between them, and also with a certain distance between the lower board 2 and the power roller, so as to install the blow box. The lower side edges of the upper and lower boards 1 and 2 are inclined surfaces for guiding the wind of the air outlet 3 between the glass 7 and the front surface of the boards. The blow box is of a stainless steel, plastic steel or aluminum alloy structure, a blow opening 3 is arranged at the position facing the inclined surface, an opening (not shown in the figure) communicated with the blow opening 3 is arranged at the rear side, and the open solid is a groove; the blow box is provided with two blow boxes which are respectively positioned below the upper wood board 1 and the lower wood board 2. The air flotation box is fixed on the back of the bracket, and an air flotation cavity 4 is arranged in the air flotation box, and the air flotation cavity 4 is used for uniformly dispersing wind and conveying the wind into an opening of the air blowing box, so that the air flotation cavity 4 is communicated with the opening; the air supporting case is equipped with two, sets up with two blast boxes one-to-one respectively. The filter box 5 is fixedly arranged on the back side of the bracket, and an air outlet port of the filter box is connected with an air inlet pipe of the fan 6 and is used for purifying air; the filter boxes 5 are arranged in two and are arranged in one-to-one correspondence with the two fans 6. The fan 6 is arranged on the back side of the bracket, and the air outlet end of the fan is communicated with the air floatation cavity 4 of the air floatation box; the fans 6 are arranged in two and are respectively arranged in one-to-one correspondence with the two air floatation tanks.

Wherein, blow case, air supporting case are rectangular shape, and air supporting chamber 4 is rectangular shape's cavity, and the uncovered is rectangular shape's half storehouse of encircleing, and the mouth 3 of blowing is the bar mouth, and blow case, air supporting chamber 4, uncovered and the length direction of mouth 3 of blowing all are parallel with glass transportation direction.

According to the novel air floatation conveying unit and the novel air floatation conveying line for vertical conveying of glass, which are provided by the embodiment, the fan 6 transmits the impurity-free air filtered in the filter box 5 to the air blowing opening 3 through the air floatation cavity 4, and air is blown out from the air blowing opening 3 to the inclined surface, so that an air wall is formed between the glass 7 and the wood board, the glass 7 cannot be attached to the side surface of the wood board due to the existence of the air wall, and compared with a conveying mode (namely roller conveying) of installing wheels on a traditional backboard, the pollution of the mode to the glass 7 is lower; because the air wall is formed by flowing air flow, negative pressure is generated between the glass 7 and the wood board, so that the glass 7 has a trend of approaching to the wood board, and the wood board is inclined at a certain angle (the prior art), so that the glass 7 can be effectively prevented from falling off in the conveying process. According to the air floatation conveying unit provided by the utility model, the lower part and the middle part are respectively provided with one air blowing port 3, for larger glass 7, the two air blowing ports 3 are used for blowing air, for smaller glass 7, only the air blowing port 3 below is used for blowing air, so that the control force on the glass 7 with different specifications and sizes is better, and a high-power variable-frequency fan is not needed; the air blowing opening 3 is formed by an air blowing box, and the air blowing box is made of stainless steel, plastic steel or aluminum alloy, so that the air blowing opening 3 cannot be affected with damp and deformed, and the straight line size of the air blowing opening 3 is consistent and the air outlet is uniform.

While the utility model has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the utility model and are intended to be within the scope of the utility model as claimed.

Claims (6)

1. The novel air floatation conveying unit is characterized by comprising an upper wood board, a lower wood board, an air blowing box, an air floatation box and a fan; the upper wood board is positioned on the lower wood board, and the lower side edges of the upper wood board and the lower wood board are inclined surfaces; the air blowing box is of a stainless steel, plastic steel or aluminum alloy structure and is provided with two air blowing openings which are respectively positioned below the upper wood board and the lower wood board and are arranged at positions facing the inclined surfaces, and the rear side of the air blowing box is provided with an opening communicated with the air blowing openings; the two air floatation boxes are respectively positioned at the rear sides of the two blowing boxes, and an air floatation cavity communicated with the opening is arranged in the air floatation boxes; the fans are arranged in two and are respectively communicated with the air floatation cavities of the two air floatation boxes.

2. The novel air flotation conveyor unit of claim 1 further comprising a planar support, wherein the upper plank, the lower plank, and the blow box are all disposed on one side of the support, and wherein the air flotation box and the blower are disposed on the other side of the support.

3. The novel air flotation conveyor unit according to claim 2, further comprising a filter box, wherein the filter box is arranged on one side surface of the bracket, on which the fan is arranged, and the air outlet end of the filter box is connected with the air inlet pipe of the fan.

4. A novel air floatation conveying unit according to claim 3, wherein two filter boxes are arranged, and the two filter boxes are arranged in one-to-one correspondence with the two fans and the air floatation box.

5. The novel air flotation conveyor unit according to any one of claims 1 to 4 wherein the air blowing box and the air flotation box are elongated, the air flotation chamber is an elongated chamber, the opening is an elongated semi-enclosed bin, the air blowing opening is an elongated opening, and the length directions of the air blowing box, the air flotation chamber, the opening and the air blowing opening are all parallel to the glass transportation direction.

6. An air-float conveying line, characterized by comprising a plurality of air-float conveying units according to any one of claims 1-5, wherein the heads and tails of the air-float conveying units are sequentially connected to form a linear conveying line for conveying glass in an air-float mode.

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