CN201756341U - Gas floating type auxiliary conveying device - Google Patents

Abstract

A gas floating type auxiliary conveying device comprises a work table, a plurality of gas floating units disposed on the gas table, and a gas supply unit disposed below the work table, wherein the work table includes a table body, a plurality of mounting slots formed on the top face of the table body, and a plurality of gas inlet holes communicated with the corresponding mounting slots, the gas supply unit is disposed below the table body and capable of conveying gas into the gas inlet holes, and each gas floating unit includes a main seat disposed into the corresponding mounting slot of the work table, a gas passage communicated with the corresponding gas inlet hole and formed on the main seat, a connecting seat disposed on the main seat, a gas outlet hole formed on the connecting seat and communicated with the gas passage, an elastic component disposed inside the gas passage, and a sphere capable of covering the gas outlet hole under pressing of the elastic component and disposed on the elastic component. Since the sphere of each gas floating unit can be matched with the elastic component of the gas floating unit to cover the gas outlet hole of the gas floating unit, emission of gas supplied by the gas supply unit from the gas outlet holes can be avoided, and gas consumption can be further reduced.

Description

Air-flotation type is assisted Handling device

Technical field

The utility model relates to a kind of auxiliary Handling device, particularly relates to the auxiliary Handling device of a kind of air-flotation type.

Background technology

The many kinds of modes of having transported goods are to see through the bench board that stainless steel is made in logistics centre mode commonly used, and are aided with the staff and carry.When carrying, the staff must be positioned over goods, parcel on this bench board earlier, then goods, parcel is firmly passed, and can make goods, parcel move a segment distance by ganoid bench board.But be subject to the friction force of goods and bench board, the mobile distance of goods is quite limited.

Consult Fig. 1, there is the dealer to propose to announce " air floating platform device " novel patent case M357019 number in order to improve above-mentioned shortcoming as TaiWan, China, disclosing as this patent case is that most pores 12 are set on a bench board 11, and gas fed this bench board 11 by bench board 11 belows, and the described pore 12 of gas permeation is upwards exported, the buoyancy that can provide a goods 13 to make progress by the gas that on average is output in bench board 11 upper surfaces reduces goods 13 whereby and contacts the friction force that is produced with 11 of bench board.Though existing air floating platform device has improved the excessive problem of friction force.But when reality is used, because this goods 13 is to move on bench board 11, therefore be not that all pores 12 all can be blocked by goods 13 simultaneously, yet whole pores 12 but can be given vent to anger simultaneously, so will cause meaningless air-loss, and cause the gaseous tension that acts on this goods 13 not enough and cause the long more bench board of buoyancy deficiency, especially length 11 air consumptions big more.In order to supply gaseous tension, certainly air feed equipment (Air compressor, fan) is turned round constantly, so will produce meaningless waste of power again.Therefore existing air floating platform device still must improve at the excessive shortcoming of air-loss amount.

The utility model content

The purpose of this utility model is to provide a kind of auxiliary Handling device of air-flotation type that can save gas consumption.

The purpose of this utility model and solve its technology and realize by the following technical solutions.According to the auxiliary Handling device of a kind of air-flotation type that the utility model proposes, comprise a bench board, most the air flotation cells that are arranged on this bench board, and air supply unit that is arranged under this bench board, this bench board comprises a stage body, most the grooves that are provided with that are formed at this stage body end face, and most corresponding blowholes that groove is set of connection, this air supply unit is arranged under this stage body and gas can be inputed in the described blowhole, wherein, each air flotation cell comprises a corresponding main base frame that is provided with in the groove that is arranged at this bench board, a gas passage that is formed at this main base frame and is communicated with corresponding blowhole, a connection pedestal that is arranged on this main base frame, an air gate that is formed at this connection pedestal and is connected with this gas passage, an elastic element that is arranged in this gas channel, and one be arranged on this elastic element and be subjected to these elastic element pushing and pressing and can block the spheroid of this air gate.

The purpose of this utility model and solve its technical matters and also can be applied to the following technical measures to achieve further.

Preferably, aforesaid air-flotation type is assisted Handling device, and wherein, each air flotation cell comprises that also one is arranged at this main base frame and corresponding first resilient ring that is provided with between groove.

Preferably, aforesaid air-flotation type is assisted Handling device, and wherein, each air flotation cell comprises that also one is arranged between this connection pedestal and this main base frame and can avoids second resilient ring of gas leak.

Preferably, aforesaid air-flotation type is assisted Handling device, and wherein, each air flotation cell also has most individual this main base frame can being spirally connected and is combined in corresponding first bolt that is provided with in the groove.

Preferably, aforesaid air-flotation type is assisted Handling device, and wherein, each air flotation cell also has most and this connection pedestal can be spirally connected and be combined in second bolt on the corresponding main base frame.

Preferably, aforesaid air-flotation type is assisted Handling device, wherein, the main base frame of each air flotation cell has a seat of honour body, and most separately and by the outward extending fastening block part down of this seat of honour body, each is provided with groove and has a major trough body, and most by the outward extending lower blocked slot of this major trough body portion, and the following fastening block part of this main base frame can be sticked in corresponding lower blocked slot portion.

Preferably, aforesaid air-flotation type is assisted Handling device, wherein, the main base frame of each air flotation cell also has most by the outward extending fastening block part of going up of this seat of honour body, each connects pedestal and has a Connection Block body, most the last draw-in groove portions that are formed at this Connection Block body, the last fastening block part of this main base frame can be sticked in corresponding on draw-in groove portion.

Preferably, aforesaid air-flotation type is assisted Handling device, and wherein, this bench board also comprises an air chamber that is formed in this stage body and is communicated in described blowhole, and the gas of this air supply unit output is to see through this air chamber to transmit as for described blowhole.

Preferably, aforesaid air-flotation type is assisted Handling device, and wherein, the connection pedestal apical margin of described air flotation cell is the stage body apical margin that trims in this bench board.

The beneficial effects of the utility model are, match with the elastic element of described air flotation cell and can block described air gate by the spheroid of described air flotation cell, goods is positioned on this stage body can pushes down corresponding spheroid, and then make described spheroid can't block described air gate and make gas that buoyancy to provide this goods to make progress is provided, because this air flotation cell institute spent gas is only pressed the part of putting described spheroid in this goods, thereby the gas that can avoid this air supply unit to provide continues to cause waste by described air gate loss.

Description of drawings

Fig. 1 is a birds-eye view, illustrates that TaiWan, China announces " air floating platform device " novel patent M357019 number;

Fig. 2 is a block diagram, and first preferred embodiment of the auxiliary Handling device of the utility model air-flotation type is described;

Fig. 3 is a lateral plan, illustrates a goods is positioned on the stage body of this first preferred embodiment;

Fig. 4 is a three-dimensional exploded view, and the air flotation cell of this first preferred embodiment is described;

Fig. 5 is a block diagram, and the bottom aspect of the air flotation cell of this first preferred embodiment is described;

Fig. 6 is a block diagram, illustrates that the spheroid of the air flotation cell of this first preferred embodiment blocks the aspect of air gate;

Fig. 7 is a block diagram, illustrates that the spheroid of the air flotation cell of this first preferred embodiment does not block the aspect of air gate;

Fig. 8 is a three-dimensional exploded view, second preferred embodiment of the auxiliary Handling device of the utility model air-flotation type.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is elaborated:

Before the utility model is described in detail, be noted that in the following description similarly assembly is to represent with identical numbering.

Consult Fig. 2,3, first preferred embodiment of the auxiliary Handling device of the utility model air-flotation type comprises a bench board 2, most air flotation cell 3, and an air supply unit 4.

Consult Fig. 3,4, this bench board 2 comprises that the groove 22, that is provided with that a stage body 21, majority are formed at these stage body 21 end faces is formed at air chamber 24 in this stage body 21, and mostly is formed at the described blowhole 23 that is provided with in the groove 22 and is communicated with this air chamber 24 respectively.

Consult Fig. 4,5, each air flotation cell 3 comprises that one is arranged at the corresponding main base frame 31 that is provided with in the groove 22 of this bench board 2, one is formed on this main base frame 31 and is communicated in the gas passage 32 of corresponding blowhole 23, one is arranged at this main base frame 31 and corresponding first resilient ring 33 that groove 22 junctions are set, one is arranged at the connection pedestal 34 on this main base frame 31, one is formed on this connection pedestal 34 and the air gate 35 that is connected with this gas passage 32, one is arranged at 31 of this connection pedestal 34 and this main base frames to avoid second resilient ring 36 of gas leak, one is arranged at the elastic element 37 in this gas channel 32, one is arranged on this elastic element 37 and is subjected to 37 pushing and pressing of this elastic element and can blocks the spheroid 38 of this air gate 35, most can be spirally connected this main base frame 31 and are combined in corresponding first bolt 39 that is provided with in the groove 22, and most can be spirally connected this connection pedestal 34 and are combined in second bolt 39 ' on the corresponding main base frame 31.

Special version be, in this preferred embodiment, this first resilient ring 33 and second resilient ring 36 are elastomeric O-rings (O-Ring), and be in order to prevent that the said modules seam from producing gas leakage, certainly coating gastight adhesive at described seam also is the purpose that can reach anti-gas-leak, so not as limit.In addition, when the precise structure degree of above-mentioned seam is enough when high, even O type ring can be set, therefore first resilient ring 33 is also inessential with the setting of second resilient ring 36.

Consult Fig. 6, described air flotation cell 3 is assembled on this bench board 2, and connection pedestal 34 apical margins of each air flotation cell 3 can trim stage body 21 apical margins in this bench board 2, and these spheroid 38 apical margins are slightly to protrude from this stage body 21 apical margins.

Consult Fig. 3 and Fig. 4, this air supply unit 4 is to be arranged at these stage body 21 bottom surfaces and gas to be imported in the air chamber 24 of this bench board 2, relends by this air chamber 24 gas is dispensed to described blowhole 23.In this preferred embodiment, this air supply unit 4 is for being arranged at the fan of these stage body 21 bottom surfaces, and this air supply unit 4 also can be that Air compressor or other can be exported the equipment of gas certainly, yet, the present technique field that the is set to person of this air supply unit 4 knows and is easy to and migrates, so not as limit.In addition, also this air supply unit 4 can be directly connected in described blowhole 23 certainly, not limited to present embodiment.

Consult Fig. 3,6,7, when a goods 5 is placed on these stage body 21 end faces, this goods 5 can be pushed down the spheroid 38 of corresponding air flotation cell 3, and then this spheroid 38 is moved down as shown in Figure 7, and make corresponding air gate 35 produce the gap and make gas push against this this goods 5 by the gap output of this air gate 35, make this goods 5 produce buoyancy power upwards, and connection pedestal 34 apical margins of described air flotation cell 3 are stage body 21 apical margins that trim in this bench board 2, so as to reducing the friction force of 21 of this goods 5 and this stage bodies.The personnel that proceed with one's work push this goods 5 by the direction of arrow shown in Figure 3 again and move because these goods 5 friction force diminish, therefore make this goods 5 resistance force diminishes and can mobile larger distance.When goods 5 is mobile on this stage body 21, can push down the spheroid 38 on the path in regular turn, make the air gate 35 on the path produce the gap, make this goods 5 continue to obtain the buoyancy of gas pushing and pressing.In addition, 38 of the spheroids of not pushed down by this goods 5 can be influenced by the permanent reset response power of corresponding elastic element 37 (see figure 4)s as yet, and upwards block corresponding air gate 35 as shown in Figure 6, so can reduce described air gate 35 to produce the chance in gap, to avoid meaningless gas loss.Produce gaps output gases because gas is the air gate 35 by minority, make the consumption of gas little, therefore can provide this goods 5 bigger buoyancy.In addition, no matter how long the length of this stage body 21 has, all have only the part air flotation cell 3 meeting spent gas that are pressed onto by this goods 5, that is to say, the number of air consumption is the area of contact that depends on this goods 5 and this bench board 2, and is irrelevant with the length of this bench board 2 itself.The auxiliary Handling device of the utility model air-flotation type is by above-described design, it is excessive and cause the problem of gaseous tension deficiency easily to improve existing air floating platform device air consumption, and simultaneously can reduce the chance of gas boosting and reduce the consumption of current of this air supply unit 4, so as to reaching the environmental demands of carbon reduction.

Consult Fig. 8, second preferred embodiment for the auxiliary Handling device of the utility model air-flotation type, this preferred embodiment roughly is similar to this first preferred embodiment, different places are: in this preferred embodiment, each is provided with groove 22 and has a major trough body 221, and most by the outward extending lower blocked slot of this major trough body 221 portion 222.The main base frame 31 of each air flotation cell 3 has a seat of honour body 311, most by these seat of honour body 311 outward extending fastening block parts 312 down, and most by these seat of honour body 311 outward extending fastening block parts 313 of going up.This connection pedestal 34 has a connecting seat body 341, and majority is formed at the last draw-in groove portion 342 of this Connection Block body 341.

When assembling was set, the following fastening block part 312 of this main base frame 31 was to be sticked in the corresponding lower blocked slot portion 222 that groove 22 is set in the mode that rotation engages.The last fastening block part 313 of this main base frame 31 is last draw-in groove portions 342 that the mode with rotation engaging is sticked in this connection pedestal 34.This preferred embodiment is to assemble by the mode of rotation engaging, therefore also has dismounting fast speed advantage compared to this first preferred embodiment.

Conclude above-mentioned, the auxiliary Handling device of the utility model air-flotation type matches to block described air gate 35 with the elastic element 37 of described air flotation cell 3 by the spheroid 38 of described air flotation cell 3, avoids gas that this air supply unit 4 provided by described air gate 35 loss.When this goods 5 is pushed down corresponding spheroid 38 downwards, can make corresponding air gate 35 produce the gap, gas just can and provide this buoyancy that goods 5 makes progress by this gap output, and is to reduce the friction force of 2 of goods 5 and this bench board, more laborsaving when making the staff push goods 5.

Claims (9)

1. an air-flotation type is assisted Handling device, comprise a bench board, most the air flotation cells that are arranged on this bench board, and air supply unit that is arranged under this bench board, this bench board comprises a stage body, most the grooves that are provided with that are formed at this stage body end face, and most corresponding blowholes that groove is set of connection, this air supply unit is arranged under this stage body and gas can be inputed in the described blowhole, it is characterized in that:

Each air flotation cell comprises that a corresponding main base frame in the groove, gas passage that is formed at this main base frame and is communicated with corresponding blowhole, of being provided with that is arranged at this bench board is arranged at connection pedestal on this main base frame, one and is formed at this connection pedestal and the air gate that is connected with this gas passage, an elastic element that is arranged in this gas channel, and one is arranged on this elastic element and is subjected to these elastic element pushing and pressing and can blocks the spheroid of this air gate.

2. air-flotation type is assisted Handling device according to claim 1, and it is characterized in that: each air flotation cell comprises that also one is arranged at this main base frame and corresponding first resilient ring that is provided with between groove.

3. the auxiliary Handling device of air-flotation type according to claim 1 is characterized in that: each air flotation cell comprises that also one is arranged between this connection pedestal and this main base frame and can avoids second resilient ring of gas leak.

4. as the auxiliary Handling device of air-flotation type as described in arbitrary in the claim 1 to 3, it is characterized in that: each air flotation cell also has most and this main base frame can be spirally connected and be combined in corresponding first bolt that is provided with in the groove.

5. as the auxiliary Handling device of air-flotation type as described in the claim 4, it is characterized in that: each air flotation cell also has most and this connection pedestal can be spirally connected and be combined in second bolt on the corresponding main base frame.

6. as the auxiliary Handling device of air-flotation type as described in arbitrary in the claim 1 to 3, it is characterized in that: the main base frame of each air flotation cell has a seat of honour body, and most separately and by the outward extending fastening block part down of this seat of honour body, each is provided with groove and has a major trough body, and most by the outward extending lower blocked slot of this major trough body portion, and the following fastening block part of this main base frame can be sticked in corresponding lower blocked slot portion.

7. as the auxiliary Handling device of air-flotation type as described in the claim 6, it is characterized in that: the main base frame of each air flotation cell also has most by the outward extending fastening block part of going up of this seat of honour body, each connects pedestal and has a Connection Block body, most the last draw-in groove portions that are formed at this Connection Block body, the last fastening block part of this main base frame can be sticked in corresponding on draw-in groove portion.

8. air-flotation type is assisted Handling device according to claim 1, it is characterized in that: this bench board also comprises an air chamber that is formed in this stage body and is communicated in described blowhole, and the gas of this air supply unit output is to see through this air chamber to transmit as for described blowhole.

9. air-flotation type is assisted Handling device according to claim 1, and it is characterized in that: the connection pedestal apical margin of described air flotation cell is the stage body apical margin that trims in this bench board.

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