阅读说明：本技术 一种用于鞋底自动除尘的隧道式除尘机 (Tunnel type dust remover for automatically removing dust of soles ) 是由 董兴太 于 2021-06-25 设计创作，主要内容包括：本发明公开的是一种用于鞋底自动除尘的隧道式除尘机,包括机架体,机架体上配合绕设有环形输送带,位于环形输送带的输送面下方的机架体上配合设置有一粉尘吸附机,环形输送带的输送面上方的机架体上设置有一除尘隧道腔,环形输送带输送通过除尘隧道腔,除尘隧道腔沿着环形输送带的输送方向依次设置有两送风装置,分别为设置在除尘隧道腔底部的送风装置和设置在除尘隧道腔上部的送风装置。本发明利用两送风装置同步式地多角度上下方向对流吹送高压气流,同时,粉尘吸附机向下吸附吹散开来的粉尘,形成波段阶梯式的循环除尘吸附气流,使输送通过的鞋底可以更加全面地进行除尘,实现鞋底在除尘隧道腔内自动完成除尘的目的。(The invention discloses a tunnel type dust remover for automatically removing dust from soles, which comprises a frame body, wherein an annular conveying belt is wound on the frame body in a matching manner, a dust adsorption machine is arranged on the frame body below a conveying surface of the annular conveying belt in a matching manner, a dust removing tunnel cavity is arranged on the frame body above the conveying surface of the annular conveying belt, the annular conveying belt is conveyed through the dust removing tunnel cavity, and the dust removing tunnel cavity is sequentially provided with two air supply devices along the conveying direction of the annular conveying belt, namely an air supply device arranged at the bottom of the dust removing tunnel cavity and an air supply device arranged at the upper part of the dust removing tunnel cavity. The invention synchronously blows high-pressure airflow in a multi-angle up-down direction in a convection manner by utilizing the two air supply devices, and meanwhile, the dust adsorption machine downwards adsorbs and blows away dust to form wave-band stepped circulating dust removal adsorption airflow, so that the soles conveyed through the dust removal adsorption airflow can be more comprehensively subjected to dust removal, and the aim of automatically removing dust in the dust removal tunnel cavity by the soles is fulfilled.)

1. The utility model provides a tunnel type dust shaker for automatic dust removal of sole which characterized in that: comprises a frame body, an annular conveying belt is wound on the frame body in a matching way, a dust adsorption machine is arranged on the frame body below the conveying surface of the annular conveying belt in a matching way, a dust removal tunnel cavity is arranged on the frame body above the conveying surface of the annular conveying belt, the annular conveying belt is conveyed to pass through the dust removal tunnel cavity, the dust removal tunnel cavity is sequentially provided with two air supply devices along the conveying direction of the annular conveying belt, wherein the two air supply devices are respectively an air supply device arranged at the bottom of the dust removal tunnel cavity and an air supply device arranged at the upper part of the dust removal tunnel cavity, the air supply device at the bottom blows air flow to the annular conveying belt from bottom to top, and the air supply device at the upper part blows air flow to the annular conveying belt from top to bottom, the dust adsorption machine, the air supply device at the bottom, the air supply device at the upper part and the dedusting tunnel cavity form a wave band stepped circulating dedusting adsorption airflow.

2. The tunnel dust collector for automatically collecting dust on shoe soles according to claim 1, characterized in that: the air supply device comprises a branch blowing unit, a driving device and a high-pressure air flow source which are symmetrically arranged on the left and right, the branch blowing unit comprises a linkage assembly and a blowing port, the blowing port is arranged on the linkage assembly in a matching mode, the driving device is connected with the linkage assembly in a matching driving mode, the linkage assembly drives the blowing port to swing and rotate, and the high-pressure air flow source is connected with the blowing port and provides high-pressure air flow for the blowing port.

3. The tunnel dust collector for automatically collecting dust on shoe soles according to claim 2, characterized in that: the linkage assembly includes: the power connecting rod is in driving connection with the driving device, the swinging pieces are in linkage connection through the connecting rods, the swinging rotating rods are respectively connected with the power connecting rod and the connecting rods, the power connecting rod drives the swinging rotating rods to rotate, and the swinging rotating rods drive the connecting rods to swing; the air blowing port is arranged on the swinging piece in a matching way.

4. The tunnel dust collector for automatically collecting dust on shoe soles according to claim 3, characterized in that: the swing rotating rod comprises a rotating connecting piece, a driving connecting piece and a swing connecting piece, one end of the rotating connecting piece is connected with the power output end of the driving device, the other end of the rotating connecting piece is connected with one end of the swing connecting piece, the driving connecting piece is sleeved on the connecting rod in a matching mode, and the other end of the swing connecting piece is connected with the driving connecting piece.

5. The tunnel dust collector for automatically collecting dust on shoe soles according to claim 3, characterized in that: the swing piece is left and right symmetry setting, and the synchronous linkage setting in left and right sides.

6. The tunnel dust collector for automatically collecting dust on shoe soles according to claim 1, characterized in that: the annular conveying belt is a chain type conveying belt.

7. The tunnel dust collector for automatically collecting dust on shoe soles according to claim 1, characterized in that: the dust adsorption machine is provided with an adsorption port which is correspondingly arranged at the bottom of the dust removal tunnel cavity.

Technical Field

The invention relates to the field of design and production of shoemaking equipment, in particular to a tunnel type dust remover for automatically removing dust from soles.

Background

In the production process of shoemaking, the sole generally needs to be attached and bonded with the vamp, so the sole needs to be in a dust-free state, and the sole needs to be dedusted in the production process, but the existing equipment simply utilizes a high-pressure air gun to blow the sole at high pressure, and although the adhered dust can be blown away temporarily, the dust in the air still falls down and adheres to the surface of the sole to form a new dust layer in the conveying process, and the bottom surface of the sole cannot be blown off positively if dust exists, and secondary pollution is easily caused.

Therefore, the special automatic sole dust removal equipment is developed by the technical scheme, so that sole dust can be adsorbed and removed more comprehensively and more effectively, and the subsequent shoemaking process can be carried out more smoothly.

Disclosure of Invention

The invention discloses a tunnel type dust remover for automatically removing dust of soles, which mainly aims to overcome the defects in the prior art.

The technical scheme adopted by the invention is as follows:

a tunnel type dust remover for automatically removing dust from soles comprises a frame body, wherein an annular conveying belt is wound on the frame body in a matching way, a dust adsorption machine is arranged on the frame body below the conveying surface of the annular conveying belt in a matching way, a dust removal tunnel cavity is arranged on the frame body above the conveying surface of the annular conveying belt, the annular conveying belt is conveyed to pass through the dust removal tunnel cavity, the dust removal tunnel cavity is sequentially provided with two air supply devices along the conveying direction of the annular conveying belt, wherein the two air supply devices are respectively an air supply device arranged at the bottom of the dust removal tunnel cavity and an air supply device arranged at the upper part of the dust removal tunnel cavity, the air supply device at the bottom blows air flow to the annular conveying belt from bottom to top, and the air supply device at the upper part blows air flow to the annular conveying belt from top to bottom, the dust adsorption machine, the air supply device at the bottom, the air supply device at the upper part and the dedusting tunnel cavity form a wave band stepped circulating dedusting adsorption airflow.

Furthermore, the air supply device comprises a branch blowing unit, a driving device and a high-pressure air flow source which are symmetrically arranged on the left and right, the branch blowing unit comprises a linkage assembly and a blowing opening, the blowing opening is arranged on the linkage assembly in a matching mode, the driving device is connected with the linkage assembly in a matching driving mode, the linkage assembly drives the blowing opening to swing and rotate, and the high-pressure air flow source is connected with the blowing opening and provides high-pressure air flow for the blowing opening.

Still further, the linkage assembly includes: the power connecting rod is in driving connection with the driving device, the swinging pieces are in linkage connection through the connecting rods, the swinging rotating rods are respectively connected with the power connecting rod and the connecting rods, the power connecting rod drives the swinging rotating rods to rotate, and the swinging rotating rods drive the connecting rods to swing; the air blowing port is arranged on the swinging piece in a matching way.

Furthermore, the swing rotating rod comprises a rotating connecting piece, a driving connecting piece and a swing connecting piece, one end of the rotating connecting piece is connected with the power output end of the driving device, the other end of the rotating connecting piece is connected with one end of the swing connecting piece, the driving connecting piece is sleeved on the connecting rod in a matching mode, and the other end of the swing connecting piece is connected with the driving connecting piece.

Furthermore, the swinging piece is symmetrically arranged on the left and the right, and the left and the right sides are synchronously linked.

Further, the endless conveyor is a chain conveyor.

Furthermore, the dust adsorption machine is provided with an adsorption port which is correspondingly arranged at the bottom of the dust removal tunnel cavity.

As can be seen from the above description of the present invention, compared with the prior art, the present invention has the following advantages:

1. according to the invention, by arranging the annular conveying belt, the dust adsorption machine, the dust removal tunnel cavity and the two air supply devices which are sequentially arranged, high-pressure air flow is blown in a multi-angle up-down direction convection manner synchronously by the two air supply devices, and meanwhile, the dust adsorption machine adsorbs and blows away dust downwards to form wave-band stepped circulating dust removal adsorption air flow, so that the soles conveyed to pass through can be more comprehensively subjected to dust removal, and the purpose of automatically removing dust in the dust removal tunnel cavity by the soles is realized.

2. The invention can realize the synchronous linkage of the blowing of high-pressure air flow at the two sides of the conveying belt by arranging the air supply devices which are arranged up and down correspondingly, and can form wave-band step-type circulating dust removal adsorption air flow by matching with the air flow adsorbed downwards by the dust adsorption machine, so that the dust at the sole is blown up from bottom to top, then adsorbed and removed downwards, then blown downwards from top to bottom to make the dust raise upwards twice, finally adsorbed and removed downwards, and the wave-band up-down blowing circulating dust removal treatment is automatically realized, so that the dust attached to the sole is completely and completely removed, and the invention is more favorable for the subsequent shoe processing and production process.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a side view of the present invention.

Fig. 3 is a schematic top view of the present invention.

FIG. 4 is a schematic structural view of the linkage assembly of the present invention.

Detailed Description

Embodiments of the present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 to 4, a tunnel type dust remover for automatically removing dust from soles comprises a frame body 1, wherein an annular conveyer belt 2 is wound on the frame body 1 in a matching manner, a dust adsorber 3 is arranged on the frame body 1 below a conveying surface of the annular conveyer belt 2 in a matching manner, a dust removal tunnel cavity 4 is arranged on the frame body above the conveying surface of the annular conveyer belt 2, the annular conveyer belt 2 is conveyed to pass through the dust removal tunnel cavity 4, the dust removal tunnel cavity 4 is sequentially provided with two air supply devices 5 along the conveying direction of the annular conveyer belt 2, the two air supply devices are respectively an air supply device arranged at the bottom of the dust removal tunnel cavity 4 and an air supply device arranged at the upper part of the dust removal tunnel cavity 4, the air supply device 5 at the bottom blows air flow to the annular conveyer belt 2 from bottom to top at multiple angles, the air supply device 5 at the upper part blows air flow to the annular conveyer belt 2 from top to bottom at multiple angles, the dust adsorber 3, the air supply device 5 at the bottom, the air supply device 5 at the upper part and the dedusting tunnel cavity 4 form a wave-band stepped circulating dedusting adsorption airflow.

Furthermore, the air supply device 5 includes a branch blowing unit 51, a driving device 52 and a high-pressure air flow source (not shown in the figure due to a view angle) symmetrically arranged left and right, the branch blowing unit 51 includes a linkage component 511 and an air blowing port 512, the air blowing port 512 is cooperatively arranged on the linkage component 511, the driving device 52 is cooperatively and drivingly connected with the linkage component 511, the linkage component 511 drives the air blowing port 512 to swing and rotate, and the high-pressure air flow source is connected with the air blowing port 512 to provide high-pressure air flow for the air blowing port 512.

Further, the linkage assembly 511 includes: the swing mechanism comprises four swing pieces 5111, a connecting rod 5112, a swing rotating rod 5113 and a power connecting rod 5114, wherein the power connecting rod 5114 is in driving connection with the driving device 52, the swing pieces 5111 are in linkage connection through the connecting rod 5112, the swing rotating rod 5113 is respectively connected with the power connecting rod 5114 and the connecting rod 5112, the power connecting rod 5114 drives the swing rotating rod 5113 to rotate, and the swing rotating rod 5113 drives the connecting rod 5112 to swing; the air blowing port 512 is provided on the swing member 5111 in a fitting manner.

Further, the swing rotary rod 5113 includes a rotary connecting member 51131, a driving connecting member 51132 and a swing connecting member 51133, one end of the rotary connecting member 51131 is connected to the power output end of the driving device 52, the other end of the rotary connecting member 51131 is connected to one end of the swing connecting member 51133, the driving connecting member 51132 is fittingly sleeved on the connecting rod 5112, and the other end of the swing connecting member 51133 is connected to the driving connecting member 51132.

Further, the swing connecting member 5111 is symmetrically arranged left and right, and the left and right sides are synchronously linked.

Further, the endless conveyor 2 is a chain conveyor.

Furthermore, the dust adsorber 3 is provided with an adsorption port 31, and the adsorption port 31 is correspondingly arranged at the bottom of the dust removal tunnel cavity 4.

The use process of the invention is as follows:

conveying soles: the sole is conveyed from one side of the dust removal tunnel cavity,

first dust removal: a blowing port on an air supply device at the bottom of the dust removal tunnel cavity blows high-pressure dust removal airflow to the sole along the swinging direction along with the transmission of the linkage assembly, dust attached to the sole is blown upwards, meanwhile, the dust adsorption machine adsorbs the upwards flying dust, the dust enters the dust adsorption machine, and at the moment, a first dust removal process is completed;

and (3) second dedusting: the annular conveying belt continues to convey forwards, at the moment, the sole reaches the lower part of the air supply device at the upper part of the dust removal tunnel cavity, an air blowing port on the air supply device blows high-pressure airflow to the sole from top to bottom along the swinging direction along the transmission of the linkage assembly, dust adhered to the sole is blown upwards again, meanwhile, the dust adsorber carries out secondary adsorption on the dust flying upwards, the dust enters the dust adsorber, and at the moment, a second dust removal process is completed;

and (3) finishing dust removal treatment: the dust adsorption machine, the air supply device at the bottom, the air supply device at the upper part and the dust removal tunnel cavity form a wave band stepped circulating dust removal adsorption air flow, so that the dust adhered on the shoe soles conveyed by the shoe soles can be automatically removed, the dust removal purpose can be automatically and comprehensively completed, and the designed technical requirements are met.

As can be seen from the above description of the present invention, compared with the prior art, the present invention has the following advantages:

1. according to the invention, by arranging the annular conveying belt, the dust adsorption machine, the dust removal tunnel cavity and the two air supply devices which are sequentially arranged, high-pressure air flow is blown in a multi-angle up-down direction convection manner synchronously by the two air supply devices, and meanwhile, the dust adsorption machine adsorbs and blows away dust downwards to form wave-band stepped circulating dust removal adsorption air flow, so that the soles conveyed to pass through can be more comprehensively subjected to dust removal, and the purpose of automatically removing dust in the dust removal tunnel cavity by the soles is realized.

2. The invention can realize the synchronous linkage of the blowing of high-pressure air flow at the two sides of the conveying belt by arranging the air supply devices which are arranged up and down correspondingly, and can form wave-band step-type circulating dust removal adsorption air flow by matching with the air flow adsorbed downwards by the dust adsorption machine, so that the dust at the sole is blown up from bottom to top, then adsorbed and removed downwards, then blown downwards from top to bottom to make the dust raise upwards twice, finally adsorbed and removed downwards, and the wave-band up-down blowing circulating dust removal treatment is automatically realized, so that the dust attached to the sole is completely and completely removed, and the invention is more favorable for the subsequent shoe processing and production process.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications of the present invention using this concept shall fall within the scope of infringing the present invention.