CN210746939U - Automatic bread slicing device - Google Patents

Abstract

The utility model relates to an automatic bread slicing device, which comprises a bread adsorption device; the method is characterized in that: the bread adsorption device comprises a rotatable turntable assembly and an adsorption shaft tube used for connecting an adsorption system; the rotary disc component is provided with a plurality of radially extending adsorption channels and an adsorption surface for adsorbing the bread slices, and the adsorption surface is provided with a plurality of adsorption holes communicated with the adsorption channels; the adsorption shaft tube is coaxially inserted into a central hole on the turntable assembly, so that the inner cavity of the adsorption shaft tube is communicated with the adsorption channels through air inlets at the end parts. The automatic bread slicing device has the characteristics of good adsorption effect, reliable slicing performance, good sealing performance and the like.

Description

Automatic bread slicing device

Technical Field

The utility model relates to a bread preparation equipment specifically is an automatic bread burst equipment.

Background

In the preparation of sandwich, the bread slices are separated one by one, and then food materials are added into the bread slices. The existing slicing equipment generally absorbs the sliced bread slices one by one in an absorption mode so as to achieve the slicing effect; the end face of the rotary table is often provided with corresponding air holes, and the air holes are connected with an adsorption system through a pipe body so that the rotary table can generate an adsorption effect on bread slices; the adsorption holes in the prior art are generally arranged on the circumferential side wall of the turntable, so that the adsorption holes which can really generate adsorption action on the bread slice are few, and the adsorption effect is poor; in addition, the existing rotary table adsorption structure has the defects of serious air leakage, large friction resistance, high load factor and the like, so that the existing slicing equipment needs to be further improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the not enough of above-mentioned prior art existence, and provide an automatic bread burst equipment, this equipment adsorption effect is good, burst dependable performance, and the leakproofness is good.

The purpose of the utility model is realized like this:

an automatic bread slicing device comprises a bread adsorption device; the method is characterized in that: the bread adsorption device comprises a rotatable turntable assembly and an adsorption shaft tube used for connecting an adsorption system; the rotary disc component is provided with a plurality of radially extending adsorption channels and an adsorption surface for adsorbing the bread slices, and the adsorption surface is provided with a plurality of adsorption holes communicated with the adsorption channels; the adsorption shaft tube is coaxially inserted into a center hole in the turntable assembly, so that the inner cavity of the adsorption shaft tube is communicated with the adsorption channels through the air inlet holes in the end part, and the adsorption system enables the adsorption holes to generate negative pressure through the adsorption shaft tube and the adsorption channels.

The adsorption surface is a flat surface on the end surface and/or the circumferential side wall of the turntable assembly.

The rotary table component comprises a rotary table main body, an adsorption channel and an adsorption cavity which are communicated with each other are arranged on the rotary table main body, an adsorption panel is sealed at the opening of the adsorption cavity, an adsorption surface and/or an adsorption hole are/is arranged on the adsorption panel, and the adsorption hole is communicated with the adsorption channel through the adsorption cavity.

The bread adsorption device comprises a transmission shaft sleeve which is in transmission connection with a power system, the transmission shaft sleeve is in transmission connection with the turntable assembly, and the power system drives the turntable assembly to rotate through the transmission shaft sleeve.

The turntable assembly also comprises a connecting shaft sleeve which is coaxially inserted into a central hole on the turntable assembly, and the transmission shaft sleeve is connected with the turntable main body through the connecting shaft sleeve; the connecting shaft sleeve and/or the transmission shaft sleeve are/is rotatably sleeved outside the adsorption shaft tube; the connecting shaft sleeve is provided with a transition through hole, and the air inlet hole is communicated with the adsorption channel through the transition through hole.

The adsorption shaft tube end is provided with a plugging part for sealing the adsorption channel, and the adsorption channel is disconnected with the inner cavity of the adsorption shaft tube when rotating to correspond to the plugging part along with the turntable assembly.

The utility model has the advantages as follows:

set up radial extension's absorption passageway on the carousel subassembly, during the centre bore on the absorption central siphon inserted the carousel subassembly, make absorption central siphon inner chamber pass through the inlet port and respectively adsorb the passageway intercommunication, and then make the absorption hole produce the negative pressure, this gas circuit structure leakproofness is good, and difficult gas leakage, and adsorption system can make the absorption hole on the different adsorption planes produce the negative pressure simultaneously, has energy saving and emission reduction's effect. In addition, the flat adsorption surface is arranged on the end surface or the circumferential side wall of the turntable main body, so that on one hand, the adsorption effect on bread slices can be greatly improved, the slice conveying of the bread slices is more stable and reliable, and on the other hand, because the contact area between the adsorption surface and the bread slices is larger, enough adsorption holes for generating the adsorption effect are formed, the air suction quantity can be properly adjusted downwards, so that the load of the adsorption pump is reduced, and the energy consumption is reduced.

Drawings

Fig. 1 is an overall perspective view of an automatic bread slicing apparatus according to an embodiment of the present invention.

Fig. 2 is a partial schematic view of an automatic bread slicing apparatus according to an embodiment of the present invention.

Fig. 3 is an enlarged schematic view at H in fig. 2.

Fig. 4 is a partial sectional view of an automatic bread slicing apparatus according to an embodiment of the present invention.

Fig. 5 is an assembly view of the bread adsorbing device according to an embodiment of the present invention.

Fig. 6 and 7 are sectional views of different orientations of a bread absorbing device according to an embodiment of the present invention.

Detailed Description

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

Referring to fig. 1-7, the automatic bread slicing apparatus comprises three sets of bread adsorption devices a arranged on an apparatus frame J, wherein each bread adsorption device a comprises a rotatable turntable assembly, a transmission shaft sleeve 2 for being in transmission connection with a power system B and an adsorption shaft tube 3 for being in connection with an adsorption system C; the turntable assembly comprises a turntable main body 1, and a transmission shaft sleeve 2 and an adsorption shaft tube 3 are respectively coaxially matched with the turntable main body 1; the transmission shaft sleeve 2 is in transmission connection with a turntable main body 1 in the turntable assembly, and the power system B drives the turntable assembly to rotate in a positioning mode through the transmission shaft sleeve 2; four adsorption channels 101 extending in the radial direction are processed on the inner side of the rotary table assembly (the number of the adsorption channels 101 can be adjusted correspondingly according to actual production requirements), the adsorption channels 101 are uniformly distributed in an annular mode, an adsorption surface x for adsorbing the bread slices M is arranged on the surface of the rotary table main assembly, a plurality of adsorption holes k communicated with the adsorption channels 101 are formed in the adsorption surface x, and when the adsorption system works, negative pressure is generated on the adsorption holes k to effectively adsorb the bread slices M; adsorption shaft pipe 3 is hollow structure, and 3 coaxial-types of adsorption shaft pipe are pegged graft in the centre bore on the carousel subassembly to make 3 inner chambers of adsorption shaft pipe communicate with each absorption passageway 101 through the inlet port 301 of tip, adsorption system C makes adsorption hole k produce the negative pressure through adsorption shaft pipe 3.

Further, the adsorption surface x is a flat surface on the circumferential side wall of the turntable main body 1 in the turntable assembly, and four adsorption surfaces x are annularly and uniformly distributed and correspond to the adsorption channels 101 one by one.

Further, the inside processing of carousel main part 1 has mutual one-to-one and the absorption passageway 101 and the absorption chamber 102 that communicate, and the opening part of absorption chamber 102 is sealed has absorption panel 4, and absorption face x and absorption hole k set up respectively on absorption panel 4, and absorption hole k passes through absorption chamber 102 and communicates absorption passageway 101.

Furthermore, the turntable assembly further comprises a connecting shaft sleeve 5, the connecting shaft sleeve 5 is coaxially inserted in the middle of the turntable main body 1, the transmission shaft sleeve 2 is connected with the turntable main body 1 through the connecting shaft sleeve 5, namely, the transmission shaft sleeve 2 drives the turntable main body 1 to rotate through the connecting shaft sleeve 5; the connecting shaft sleeve 5 and the transmission shaft sleeve 2 are rotatably sleeved outside the adsorption shaft tube 3, and the turntable main body 1, the connecting shaft sleeve 5 and the transmission shaft sleeve 2 can rotate relative to the adsorption shaft tube 3 respectively; transition through holes 501 which are in one-to-one correspondence with and communicated with the adsorption channels 101 are formed in the inner side of the end part of the connecting shaft sleeve 5, and the air inlet holes 301 are communicated with the adsorption channels 101 through the transition through holes 501. In this carousel subassembly, adsorb 3 inner chambers of central siphon, inlet port 301, transition through-hole 501, absorption passageway 101 and adsorb chamber 102 and constitute unobstructed gas circuit jointly to guarantee that absorption hole k effectively adsorbs sliced bread M.

Furthermore, a blocking part 302 for blocking the adsorption channel 101 is arranged at the bottom side of the end part of the adsorption shaft tube 3, when the adsorption channel 101 rotates to the lower part along with the turntable assembly and corresponds to the blocking part 302, the adsorption channel 101 is disconnected with the inner cavity of the adsorption shaft tube 3, so that the negative pressure effect of the adsorption hole k disappears, and the bread slice M automatically falls to be convenient for subsequent processes; specifically, the plugging portion 302 is the position where the end of the adsorption shaft tube 3 is not provided with the adsorption hole k, and for improving the air tightness, the outer wall of the adsorption shaft tube 3 is matched with the inner wall of the central hole of the turntable main body 1. In order to ensure that the bread slice M falls off, the bottom of the turntable assembly is provided with a material blocking part 6 for acting the bread slice M on the adsorption surface x to be separated from the adsorption surface x; specifically, keep off material part 6 and be located the carousel subassembly below, when bread piece M reached the assigned position along with the carousel subassembly, keep off material part 6 and can block bread piece M and continue to advance, make bread piece M break away from the adsorption of adsorption hole k gradually to finally separate with the carousel subassembly, so that carry out next process.

Further, the turntable assembly further includes a detection element 7 for detecting whether the bread slice M is present on the suction surface x. Specifically, the detecting element 7 is disposed above the turntable assembly, and the adsorbing surface x passes through the detecting element 7 along with the rotation of the turntable assembly, so as to effectively detect whether there is a bread slice M on the adsorbing surface x.

Furthermore, two sets of adsorption systems are arranged, one set of adsorption system provides adsorption for one set of bread adsorption device A, and the other set of adsorption system provides adsorption for the other two sets of bread adsorption devices A; the adsorption system C includes an adsorption pump 21 and a debris collector 22, and the two sets of adsorption systems of the present embodiment share one debris collector 22; the adsorption air inlet end of the adsorption pump 21 is communicated with the container air outlet 222 on the debris collector 22, the container air outlet 222 is provided with a filtering component (not shown in the figure, the filtering component can be a filtering screen and the like) for filtering debris, the filtering component can effectively screen the debris generated by adsorbing the bread slices M and uniformly concentrate the debris in the debris collector 22, and the debris is effectively prevented from entering the adsorption pump 21, so that the adsorption pump 21 is easily damaged, and the service life of the adsorption pump 21 is shortened; the container air inlet 221 on the debris collector 22 is communicated with the inner cavity of the adsorption shaft tube 3.

Further, the power system B comprises a power motor 11 and a power transmission shaft 15, a motor shaft of the power motor 11 drives the power transmission shaft 15 to rotate through a first transmission assembly, and the power transmission shaft 15 drives the driving shaft sleeve 2 to rotate through a second transmission assembly. Specifically, the first transmission assembly comprises a first driving sprocket 12, a first driven sprocket 13 and a first transmission chain 14, the first driving sprocket 12 is connected with a motor shaft of the power motor 11, the first driven sprocket 13 is connected with the power transmission shaft 15, the first transmission chain 14 is wound on the first driving sprocket 12 and the first driven sprocket 13, and the power motor 11 can effectively drive the power transmission shaft 15 to rotate through the first transmission assembly when working; the second transmission assembly comprises a first bevel gear 16, a second bevel gear 17, a second driving sprocket 18 and a second transmission chain 19, the first bevel gear 16 is connected with the power transmission shaft 15, the second bevel gear 17 is meshed with the first bevel gear 16, the second driving sprocket 18 is coaxially connected with the second bevel gear 17, a second driven sprocket 201 is formed on the transmission shaft sleeve 2, the second transmission chain 19 is arranged on the second driving sprocket 18 and the second driven sprocket 201 in a surrounding manner, and the transmission shaft 15 can effectively drive the transmission shaft sleeve 2 to rotate through the second transmission assembly when rotating so as to drive the turntable assembly to rotate.

Further, the equipment also comprises a conveying system D, wherein the conveying system D comprises a conveying crawler 31 for conveying other bread slices M and a plurality of conveying belt wheels 32, the conveying crawler 31 is wound on the plurality of conveying belt wheels 32 to tighten the conveying crawler 31, and the conveying crawler 31 is driven to run by the conveying belt wheels 32; the power transmission shaft 15 drives more than one conveying belt wheel 32 to rotate through a third transmission assembly. Specifically, the third transmission assembly comprises a third bevel gear 110 and a fourth bevel gear 111, the third bevel gear 110 is connected with the power transmission shaft 15, the fourth bevel gear 111 is meshed with the third bevel gear 110, any one of the conveying belt wheels 32 is coaxially connected with the fourth bevel gear 111, and when the power transmission shaft 15 rotates, any one of the conveying belt wheels 32 can be effectively driven to rotate through the third transmission assembly, so that the conveying crawler 31 is driven to rotate.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and the scope of the invention is to be protected. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. An automatic bread slicing device comprises a bread adsorption device (A); the method is characterized in that: the bread adsorption device (A) comprises a rotatable turntable assembly and an adsorption shaft tube (3) used for connecting an adsorption system (C); the rotary disc component is provided with a plurality of radially extending adsorption channels (101) and an adsorption surface (x) for adsorbing the bread slices (M), and the adsorption surface (x) is provided with a plurality of adsorption holes (k) communicated with the adsorption channels (101); the adsorption shaft tube (3) is coaxially inserted into a center hole on the turntable assembly, so that the inner cavity of the adsorption shaft tube (3) is communicated with the adsorption channels (101) through air inlets (301) at the end parts.

2. The automatic bread slicing apparatus of claim 1, wherein: the adsorption surface (x) is a flat surface on the end face and/or the circumferential side wall of the turntable assembly.

3. The automatic bread slicing apparatus according to claim 1 or 2, characterized in that: the rotary table component comprises a rotary table main body (1), an adsorption channel (101) and an adsorption cavity (102) which are communicated with each other are arranged on the rotary table main body (1), an adsorption panel (4) is sealed at an opening of the adsorption cavity (102), an adsorption surface (x) and/or an adsorption hole (k) are/is arranged on the adsorption panel (4), and the adsorption hole (k) is communicated with the adsorption channel (101) through the adsorption cavity (102).

4. The automatic bread slicing apparatus of claim 1, wherein: the bread adsorption device (A) comprises a transmission shaft sleeve (2) which is in transmission connection with a power system (B), the transmission shaft sleeve (2) is in transmission connection with the turntable assembly, and the power system (B) drives the turntable assembly to rotate through the transmission shaft sleeve (2).

5. The automatic bread slicing apparatus of claim 4, wherein: the turntable assembly further comprises a connecting shaft sleeve (5), the connecting shaft sleeve (5) is coaxially inserted into a central hole in the turntable assembly, and the transmission shaft sleeve (2) is connected with the turntable main body (1) through the connecting shaft sleeve (5); the connecting shaft sleeve (5) and/or the transmission shaft sleeve (2) are/is rotatably sleeved outside the adsorption shaft tube (3); the connecting shaft sleeve (5) is provided with a transition through hole (501), and the air inlet hole (301) is communicated with the adsorption channel (101) through the transition through hole (501).

6. The automatic bread slicing apparatus of claim 1, wherein: the end of the adsorption shaft tube (3) is provided with a plugging part (302) for sealing the adsorption channel (101), and when the adsorption channel (101) rotates along with the turntable assembly to correspond to the plugging part (302), the adsorption channel (101) is disconnected with the inner cavity of the adsorption shaft tube (3).

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