CN116982910A - Sole dust removing device for cleaning factory building - Google Patents

Abstract

The utility model discloses a sole dust removing device for cleaning a factory building, which comprises a factory building channel frame body (1), a cushion block (2), a dust binding belt, a starting point winding roller (5), a separation paper winding roller (6) and a dust binding paper winding roller (7); a channel (101) for communicating the inside and the outside of the clean factory building is formed in the middle of the factory building channel frame, a cushion block is arranged at the bottom of the channel (101), and a dust-binding through groove (201) is formed on the cushion block; the starting point winding roller, the isolating paper winding roller and the dust-binding paper winding roller are rotatably arranged in the workshop channel frame; the dust-binding belt comprises dust-binding paper (3) and isolating paper (4), the dust-binding paper and the isolating paper are of strip-shaped structures and are adhered together, and the dust-binding belt is wound on a starting point winding roller; the end part of the dust-binding paper is connected to the dust-binding paper winding roller, the end part of the isolating paper is connected to the isolating paper winding roller, and the dust-binding paper is movably arranged below the dust-binding through groove after being separated from the isolating paper. The utility model can solve the problem that the dust-binding belt in the prior art cannot be replaced in time after being used ineffectively.

Description

Sole dust removing device for cleaning factory building

Technical Field

The utility model relates to cleaning equipment, in particular to a sole dust removing device for cleaning a factory building.

Background

In the factory production process, due to the specificity of some products (such as integrated chip production, circuit production or biological product production), the cleanliness requirement of the factory is very high, so that dust removal treatment is needed for soles before personnel enter the factory.

The Chinese patent CN218835437U discloses a 304 stainless steel air shower, which comprises an air shower main body, wherein the air shower main body is a 304 stainless steel air shower integral shell, a base is fixedly arranged at the lower end of the air shower main body, the length and width of the base are the same as those of the air shower main body, and the air shower main body is made of 304 stainless steel; the foot pad area is arranged in the middle of the upper end of the base; opposite adhesive pads which are arranged at four corners of the foot pad area; the dust adhering belt is arranged on the side surface of the foot pad area; the pasting corners are arranged at four corners of the dust-binding belt, and the pasting corners are in pasting connection with the opposite-pasting pad; a sealing plate assembled to a front end side surface of the air shower main body by bolts; bolts each assembled on the surface of the sealing plate; and the embedded blocks are all arranged in the air shower main body.

Above-mentioned 304 stainless steel air shower has realized the adhesion of sole dust through setting up the dust adhesion area, but because the dust adhesion area uses the number of times of bonding dust limited, can't reach effectual adhesion dust removal effect after the multiple use, and the people of business turn over factory building every day are more. The dust-binding belt needs to be manually replaced, the workload is large, the replacement is not timely, and the phenomenon that personnel enter the factory building without dedusting is avoided, so that the production quality of the factory building is affected. Therefore, there is a need to provide a sole dust collector for cleaning in the factory building, which can solve the problem that the dust sticking belt in the prior art cannot be replaced in time after being used and disabled.

Disclosure of Invention

The utility model aims to provide a sole dust removing device for cleaning a factory building, which can solve the problem that a dust sticking belt in the prior art cannot be replaced in time after being used ineffectively.

The utility model is realized in the following way:

a sole dust removing device for cleaning a factory building comprises a factory building channel frame body, a cushion block, a dust binding belt, a starting point winding roller, a separation paper winding roller and a dust binding paper winding roller; the factory building channel frame body is of a hollow frame type structure, a channel which is communicated with the inside and the outside of the clean factory building is formed in the middle of the factory building channel frame body, the cushion block is arranged at the bottom of the channel, and a dust sticking through groove is formed on the cushion block; the starting point winding roller, the isolating paper winding roller and the dust-binding paper winding roller are rotatably arranged in the workshop channel frame; the dust-binding belt comprises dust-binding paper and isolating paper, the dust-binding paper and the isolating paper are of strip-shaped structures and are adhered together, and the dust-binding belt is wound on the starting point winding roller; the end of the dust-binding paper is connected to the dust-binding paper winding roller, the end of the isolating paper is connected to the isolating paper winding roller, and the isolating paper winding roller and the dust-binding paper winding roller are respectively positioned at two sides of the starting point winding roller, so that the dust-binding paper and the isolating paper are movably arranged below the dust-binding through groove after being separated.

The isolating paper winding roller and the dust-binding paper winding roller both comprise guide sections of cylindrical structures, one ends of the guide sections are coaxially and fixedly connected with first gears, the first gears are meshed with second gears which are coaxially and fixedly connected to the motors, and the other ends of the guide sections are rotatably connected to the inner walls of the frame doors of the plant channel frames.

The middle outer wall of the guide section is provided with a middle section, the guide section between the middle section and the first gear is provided with a clamping groove, and the clamping block is embedded in the clamping groove in a matching way; the end part of the dust-binding paper is clamped between the clamping groove and the clamping block of the dust-binding paper winding roller, and the end part of the isolation paper is clamped between the clamping groove and the clamping block of the isolation paper winding roller.

A plurality of inserting posts are formed in the clamping groove at intervals, a plurality of inserting holes are formed in the clamping block, and the inserting posts are respectively matched and inserted into the inserting holes; the plug of the dust-binding paper winding roller penetrates through the end of the dust-binding paper, and the plug of the isolating paper winding roller penetrates through the end of the isolating paper.

The clamping block comprises a winding section, a gradient section and an end section, wherein the winding section is embedded in a clamping groove on the middle section in a matching way, and the gradient section and the end section are embedded in a clamping groove on the guide section in a matching way; the diameter of the end section is smaller than that of the winding section, and the gradient section is of a variable-diameter structure and is connected between the winding section and the end section in a smooth transition mode.

The clamping block is movably abutted with a blocking mechanism, and the blocking mechanism can be elastically installed in a workshop channel frame; the blocking mechanism is arranged along the radial direction of the middle section and can be movably abutted in the clamping groove.

The blocking mechanism comprises a blocking arm, a spring and a mounting arm; one end of the mounting arm is mounted on the inner wall of the workshop channel frame body, and the other end of the mounting arm is movably inserted into one end of the blocking arm; the other end of the blocking arm is movably abutted on the clamping block, the spring is sleeved on the mounting arm, and two ends of the spring are respectively propped against between one end flange of the mounting arm and one end face of the blocking arm.

The lateral part of the blocking arm is provided with a limiting arm, the limiting arm is parallel to the clamping block, and the limiting arm is perpendicular to the blocking arm.

Compared with the prior art, the utility model has the following beneficial effects:

1. the dust-binding belt, the starting point winding roller, the isolating paper winding roller and the dust-binding paper winding roller are arranged, the starting point winding roller for winding the dust-binding belt can rotate to release the dust-binding belt, the dust-binding paper winding roller rotates to drive the dust-binding paper of the dust-binding belt to move below the dust-binding through groove of the cushion block, so that the dust-binding paper can be automatically and timely replaced, the dust-binding paper can be effectively adhered to dust and dirt on the sole, the dust removal purpose is achieved, the dust-binding paper does not need to be replaced manually, and the operation is more efficient and convenient; meanwhile, the release paper of the dust-binding tape is pulled through synchronous rotation of the release paper winding roller, so that the release paper is peeled off from the dust-binding paper and wound and collected, and the use of the dust-binding paper is facilitated.

2. According to the utility model, as the isolating paper winding roller and the dust-binding paper winding roller are arranged, the ends of the isolating paper and the dust-binding paper are clamped by the embedding of the clamping grooves and the clamping blocks, so that the isolating paper and the dust-binding paper can be conveniently pulled and wound, the rotation of the isolating paper winding roller and the dust-binding paper winding roller is controlled in a linkage manner under the induction of the sensor, the replacement timeliness of the dust-binding paper is ensured, and the continuous updating and using requirements of the dust-binding paper are met.

3. The utility model has the advantages that the blocking mechanism is arranged, the idle running of the isolating paper winding roller and the dust-binding paper winding roller when the dust-binding belt is not installed is avoided through the abutting connection of the blocking arm and the clamping groove, and meanwhile, the winding quantity of the isolating paper and the dust-binding paper can be limited through the limiting arm, so that the used dust-binding belt can be replaced in time.

Drawings

FIG. 1 is a perspective view of a sole dust collector for cleaning a factory building according to the present utility model;

FIG. 2 is a perspective view of the sole dust collector (without the pad) of the present utility model for cleaning the sole of a plant;

FIG. 3 is a schematic view showing the internal structure of the dust removing device for sole in clean factory building according to the present utility model;

FIG. 4 is an enlarged schematic view at A in FIG. 3;

FIG. 5 is a perspective view of a dust-binding paper winding roller used in the sole dust removing device in a clean factory building of the present utility model;

fig. 6 is a perspective view of a clamping block in the dust removing device for cleaning soles in a factory building according to the present utility model.

In the figure, a plant channel frame body, a channel 101, a frame door 10, a cushion block 2, a dust-binding through groove 201, dust-binding paper 3, release paper 4, a starting point winding roller 5, a release paper winding roller 6, a clamping groove 60, a clamping block 61, a 611 winding section, a 612 gradient section, a 613 end section, a 614 jack, a 62 plunger, a 63 guide section, a 64 middle section, a 65 first gear, a 7 dust-binding paper winding roller, a 9 blocking mechanism, a 91 blocking arm, a 92 spring, a 93 mounting arm and a 94 limiting arm.

Detailed Description

The utility model will be further described with reference to the drawings and the specific examples.

Referring to fig. 1 to 3, a dust removing device for cleaning soles in a factory building comprises a factory building channel frame 1, a cushion block 2, a dust binding belt, a starting point winding roller 5, a release paper winding roller 6 and a dust binding paper winding roller 7; the factory building channel frame body 1 is of a hollow frame type structure, a channel 101 for communicating the inside and the outside of a clean factory building is formed in the middle of the factory building channel frame body 1, a cushion block 2 is arranged at the bottom of the channel 101, and a dust sticking through groove 201 is formed in the cushion block 2; the starting point winding roller 5, the isolating paper winding roller 6 and the dust-binding paper winding roller 7 are rotatably arranged in the workshop channel frame body 1; the dust-binding belt comprises dust-binding paper 3 and isolating paper 4, the dust-binding paper 3 and the isolating paper 4 are of strip-shaped structures and are adhered together, and the dust-binding belt is wound on a starting-point winding roller 5; the end of the dust-binding paper 3 is connected to the dust-binding paper winding roller 7, the end of the isolating paper 4 is connected to the isolating paper winding roller 6, the isolating paper winding roller 6 and the dust-binding paper winding roller 7 are respectively positioned at two sides of the starting point winding roller 5, so that the dust-binding paper 3 and the isolating paper 4 are movably arranged below the dust-binding through groove 201 after being separated.

When personnel enter the clean factory building through the channel 101 of the factory building channel frame body 1, feet are trampled in the dust-binding through groove 201 through the cushion block 2, dust and dirt on soles are adhered by using adhesive materials such as adhesive glue on the surface of the dust-binding paper 3 below the dust-binding through groove 201, dust removal of the soles is achieved, and pollution to the clean factory building caused by personnel entering and exiting is reduced to the greatest extent.

The dust-binding belt is wound on the starting point winding roller 5, the unused dust-binding paper 3 is attached and protected through the isolation paper 4, and the dust-binding paper winding roller 7 pulls the dust-binding paper 3 towards the dust-binding through groove 201, so that the dust-binding paper 3 below the dust-binding through groove 201 is convenient to continuously update, and the dust-binding effectiveness of the sole is guaranteed. At the same time, the release paper winding roller 6 pulls the release paper 4 away from the dust-binding through groove 201, so that the release paper 4 is conveniently peeled off from the dust-binding paper 3, and one surface of the dust-binding paper 3 with the adhesive material is exposed below the dust-binding through groove 201. The start winding roller 5 is driven to rotate synchronously while the dust-binding belt is pulled.

Preferably, the dust-binding paper 3 can horizontally move below the cushion block 2, so as to ensure that the dust-binding paper 3 can move below the dust-binding through groove 201 and play a role in effectively removing dust from soles. The isolation paper 4 can move upwards beside the cushion block 2, so that the vertical space is fully utilized, and the transverse occupied space is reduced.

Preferably, a triggering mechanism can be arranged on the cushion block 2, personnel can complete one-time triggering after passing through the cushion block 2 and removing dust on the sole, the triggering times can be set according to the viscosity performance of the dust-binding paper 3, and the release paper winding roller 6 and the dust-binding paper winding roller 7 are started to drive and update the dust-binding paper 3 after the triggering times are reached. The length of each rotation of the starting point winding roller 5, the separator paper winding roller 6, and the dust-binding paper winding roller 7 is updated once by the length of the dust-binding paper 3 below the dust-binding through slot 201.

The cushion block 2 can be made of wood plates, steel plates and other materials, the mass is large, the shifting is not easy, the size of the dust-binding through groove 201 can be set according to practical requirements, such as 50 x 50cm, and the dust-binding paper 3 needs to cover the whole dust-binding through groove 201.

Referring to fig. 4, the separator winding roller 6 and the dust-binding paper winding roller 7 each include a guiding section 63 with a cylindrical structure, a first gear 65 is coaxially and fixedly connected to one end of the guiding section 63, the first gear 65 is meshed with a second gear (not shown) coaxially and fixedly connected to a motor (not shown), and the other end of the guiding section 63 is rotatably connected to the inner wall of the frame door 10 of the plant channel frame 1 through a rotating bearing.

The two motors are synchronously triggered and controlled by the triggering mechanism, the output shafts of the motors drive the second gears to rotate, and the second gears are meshed with the first gears 65, so that the first gears 65 drive the release paper winding roller 6 and the dust-binding paper winding roller 7 to rotate, and the pulling of the dust-binding paper 3 and the winding of the release paper 4 are realized.

The two ends of the roll shaft of the starting point winding roll 5 can be arranged in the workshop channel frame body 1 through a rotating bearing, and when the dust binding belt is pulled, the starting point winding roll 5 is driven to rotate through the reaction force to release the dust binding belt, and the rotating bearing ensures smooth rotation of the starting point winding roll 5.

The separator paper winding roller 6 and the dust-binding paper winding roller 7 have the same structure, and only the dust-binding paper winding roller 7 is shown in fig. 4.

Referring to fig. 4, an intermediate section 64 is formed on the outer wall of the middle portion of the guide section 63, a clamping groove 60 is formed on the intermediate section 64 and the guide section 63 between the intermediate section 64 and the first gear 65, and the clamping block 61 is embedded in the clamping groove 60 in a matching manner; the end of the dust-binding sheet 3 is clamped between the clamping groove 60 and the clamping block 61 of the dust-binding sheet winding roller 7, and the end of the separator 4 is clamped between the clamping groove 60 and the clamping block 61 of the separator winding roller 6.

Through the embedding cooperation of clamping groove 60 and clamping piece 61, the tip of tight dust paper 3 of being convenient for presss from both sides and seals the paper 4, and the dust paper 3 of being convenient for is coiled on the interlude 64 of the dust paper winding roller 7, and the release paper 4 of being convenient for is coiled on the interlude 64 of release paper winding roller 6 simultaneously, is difficult for droing when flattening dust paper 3 and release paper 4, and it is also comparatively convenient to change dust paper 3 and release paper 4.

Preferably, the cross sections of the clamping groove 60 and the clamping block 61 can be in a fan-shaped structure, and the disassembly and the assembly are convenient.

Referring to fig. 5 and 6, a plurality of inserting posts 62 are formed in the clamping groove 60 at intervals, a plurality of inserting holes 614 are formed in the clamping block 61, and the plurality of inserting posts 62 are respectively inserted into the plurality of inserting holes 614 in a matching manner; the post 62 of the dust-binding paper winding roller 7 penetrates the end of the dust-binding paper 3, and the post 62 of the release paper winding roller 6 penetrates the end of the release paper 4.

The number of the inserting posts 62 can be adjusted according to actual demands, holes can be reserved at the end parts of the dust-binding paper 3 and the isolating paper 4 and used for penetrating through the inserting posts 62, so that the dust-binding paper 3 can be further prevented from falling off from the dust-binding paper winding roller 7, and the isolating paper 4 can be further prevented from falling off from the dust-binding paper winding roller 7. At the same time, by the matched plugging of the plug posts 62 and the plug holes 614, the reliable embedding of the clamping blocks 61 in the clamping grooves 60 is ensured not to fall off.

Referring to fig. 6, the clamping block 61 includes a winding section 611, a gradient section 612 and an end section 613, the winding section 611 is embedded in the clamping groove 60 on the middle section 64 in a matching manner, and the gradient section 612 and the end section 613 are embedded in the clamping groove 60 on the guiding section 63 in a matching manner; the diameter of the end section 613 is smaller than that of the winding section 611, and the gradient section 612 is of a variable diameter structure and is smoothly connected between the winding section 611 and the end section 613.

The winding section 611 is used for matching the larger size of the middle section 64, the end section 613 is used for matching the smaller size of the guiding section 63, after the clamping block 61 is embedded into the clamping groove 60, the winding section 611 and the middle section 64 form a large cylindrical structure, the end section 613 and the guiding section 63 where the end section 613 is positioned form a small cylindrical structure, and the gradient section 612 forms a slope transition section between the large cylindrical structure and the small cylindrical structure.

Referring to fig. 3 and 4, the clamping block 61 is movably abutted with a blocking mechanism 9, and the blocking mechanism 9 is movably mounted in the plant channel frame 1; the blocking means 9 are arranged radially of the intermediate section 64 and are movably abutted in the clamping groove 60.

The blocking mechanism 9 installed in the plant passage frame 1 is used for abutting against the clamping block 61, and if the clamping block 61 is not embedded into the clamping groove 60, i.e. the dust sticking belt is not installed, the blocking mechanism 9 is embedded into the clamping groove 60. Since the blocking mechanism 9 is disposed in the radial direction of the intermediate section 64, the inner wall of the clamping groove 60 of the intermediate section 64 collides with the blocking mechanism 9 when it rotates, for restricting the rotation of the intermediate section 64, thereby avoiding unnecessary idling of the separator winding roller 6 and the dust-binding paper winding roller 7.

Referring to fig. 4, the blocking mechanism 9 includes a blocking arm 91, a spring 92, and a mounting arm 93; one end of the mounting arm 93 is mounted on the inner wall of the plant channel frame body 1, and the other end of the mounting arm 93 is movably inserted into one end of the blocking arm 91; the other end of the blocking arm 91 is movably abutted on the clamping block 61, the spring 92 is sleeved on the mounting arm 93, and two ends of the spring 92 are respectively abutted between one end flange of the mounting arm 93 and one end face of the blocking arm 91.

The blocking arm 91 can stretch and spring relative to the mounting arm 93 by the spring 92, and the spring 92 is always in a slightly compressed state, so that the blocking arm 91 can be abutted against the clamping block 61 or in the clamping groove 60. When the release paper winding roller 6 and the dust-binding paper winding roller 7 are installed, the blocking arm 91 transitionally moves from the small-size end section 613 to the large-size winding section 611 through the gradient section 612, and the spring 92 is gradually compressed, so that the blocking arm 91 is abutted on the clamping block 61, and the blocking arm 91 is prevented from being blocked at the diameter abrupt change positions of the winding section 611 and the end section 613.

Preferably, the other end of the blocking arm 91 may be formed in a spherical structure to be in contact with the cylindrical surface Zhou Xiangdian formed by the clamping block 61 and the intermediate section 64, and the blocking arm 91 hardly affects the rotation of the release paper winding roller 6 and the dust-binding paper winding roller 7.

Referring to fig. 4, a limiting arm 94 is formed on the side of the blocking arm 91, the limiting arm 94 is parallel to the clamping block 61, and the limiting arm 94 is perpendicular to the blocking arm 91.

As the release paper 4 is wound around the release paper winding roller 6, the dust-binding paper 3 is wound around the dust-binding paper winding roller 7, the diameters of the release paper winding roller 6 and the dust-binding paper winding roller 7 are gradually increased, when the release paper 4 and the dust-binding paper 3 are in contact with the limiting arm 94, the winding length of the release paper winding roller 6 and the dust-binding paper winding roller 7 is maximized, and the dust-binding tape on the starting point winding roller 5 is just completely released, and at this time, the dust-binding tape needs to be replaced.

The spacing of the spacing arm 94 from the release paper winding roller 6 and the dust-binding paper winding roller 7 may be determined according to the winding diameter of the dust-binding tape.

Referring to fig. 1 to 6, the installation and use method of the present utility model is as follows:

the factory building passageway framework 1 is arranged at the inlet of the clean factory building, the hollow frame-shaped factory building passageway framework 1 can be manufactured by adopting hard plates such as plastic plates according to the inlet size of the clean factory building, and a passageway 101 communicated with the inside and the outside of the clean factory building is formed in the middle of the factory building passageway framework 1 so as to allow personnel to enter the clean factory building.

After entering the channel 101, people step on the dust-sticking through groove 201 of the cushion block 2 by feet, the sole is contacted with the dust-sticking paper 3, dust and dirt on the sole are stuck by using the adhesive material on the surface of the dust-sticking paper 3, and the sole enters a clean factory building after dust removal.

The cushion block 2 can be provided with sensing equipment such as a gravity sensor or an infrared sensor and the like for sensing the passing and treading quantity of personnel, and after a certain treading time, the adhesive material on the surface of the dust-binding paper 3 loses viscosity and cannot effectively adhere to dust and dirt on the sole.

The sensing equipment sends signals to the motors, the two motors are started simultaneously, one motor drives the dust-binding paper winding roller 7 to rotate, the dust-binding paper 3 is wound on the dust-binding paper winding roller 7, the dust-binding paper 3 losing viscosity is moved out of the lower part of the dust-binding through groove 201, and the new dust-binding paper 3 is moved to the lower part of the dust-binding through groove 201. The other motor drives the release paper winding roller 6 to rotate, so that the release paper 4 is peeled off from the dust-binding paper 3 and wound on the release paper winding roller 6, and the release paper 4 is conveniently collected. The starting point winding roller 5 rotates along with the dust adhering belt being pulled out to release the dust adhering belt, and the release paper 4 and the dust adhering paper 3 of the pulled dust adhering belt are driven in different directions, so that the release paper 4 is peeled from the dust adhering paper 3, and the dust adhering paper 3 is convenient to use.

With the continuous entry of personnel, the starting point winding roller 5, the isolating paper winding roller 6 and the dust-binding paper winding roller 7 synchronously drive the dust-binding paper 3 so as to ensure the dust removing effect of the sole. After the dust-binding paper 3 is used up, the frame door 10 is opened, and the winding roller 5, the release paper winding roller 6 and the dust-binding paper winding roller 7 are removed to replace the dust-binding tape.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the scope of the utility model, and therefore, any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (8)

1. A sole dust collector for in clean factory building, characterized by: comprises a factory building channel frame body (1), a cushion block (2), a dust binding belt, a starting point winding roller (5), a separation paper winding roller (6) and a dust binding paper winding roller (7); the factory building channel frame body (1) is of a hollow frame type structure, a channel (101) for communicating the inside and the outside of a clean factory building is formed in the middle of the factory building channel frame body (1), the cushion block (2) is arranged at the bottom of the channel (101), and a dust sticking through groove (201) is formed in the cushion block (2); the starting point winding roller (5), the isolating paper winding roller (6) and the dust-binding paper winding roller (7) are rotatably arranged in the workshop channel frame body (1); the dust-binding belt comprises dust-binding paper (3) and isolating paper (4), the dust-binding paper (3) and the isolating paper (4) are of long-strip structures and are adhered together, and the dust-binding belt is wound on a starting-point winding roller (5); the end part of the dust-binding paper (3) is connected to the dust-binding paper winding roller (7), the end part of the isolating paper (4) is connected to the isolating paper winding roller (6), the isolating paper winding roller (6) and the dust-binding paper winding roller (7) are respectively positioned at two sides of the starting point winding roller (5), and the dust-binding paper (3) and the isolating paper (4) are movably arranged below the dust-binding through groove (201) after being separated.

2. The sole dust removing apparatus for cleaning a shoe sole in a factory building according to claim 1, wherein: the isolating paper winding roller (6) and the dust-binding paper winding roller (7) comprise guide sections (63) of cylindrical structures, one ends of the guide sections (63) are coaxially and fixedly connected with first gears (65), the first gears (65) are meshed with second gears which are coaxially and fixedly connected to a motor, and the other ends of the guide sections (63) are rotatably connected to the inner wall of a frame door (10) of a plant channel frame body (1).

3. The sole dust removing apparatus for cleaning the interior of a factory building according to claim 2, wherein: the middle outer wall of the guide section (63) is provided with a middle section (64), the middle section (64) and the guide section (63) between the middle section (64) and the first gear (65) are provided with a clamping groove (60), and the clamping block (61) is embedded in the clamping groove (60) in a matching way; the end of the dust-binding paper (3) is clamped between the clamping groove (60) of the dust-binding paper winding roller (7) and the clamping block (61), and the end of the isolation paper (4) is clamped between the clamping groove (60) of the isolation paper winding roller (6) and the clamping block (61).

4. A sole dust collector for cleaning interior of factory building according to claim 3, wherein: a plurality of inserting posts (62) are formed in the clamping groove (60) at intervals, a plurality of inserting holes (614) are formed in the clamping block (61), and the inserting posts (62) are respectively inserted into the inserting holes (614) in a matching manner; the plug-in post (62) of the dust-binding paper winding roller (7) penetrates through the end part of the dust-binding paper (3), and the plug-in post (62) of the isolating paper winding roller (6) penetrates through the end part of the isolating paper (4).

5. The dust removing apparatus for cleaning shoe soles in a factory building according to claim 3 or 4, characterized in that: the clamping block (61) comprises a winding section (611), a gradient section (612) and an end section (613), wherein the winding section (611) is matched and embedded in a clamping groove (60) positioned on the middle section (64), and the gradient section (612) and the end section (613) are matched and embedded in the clamping groove (60) positioned on the guide section (63); the diameter of the end section (613) is smaller than that of the winding section (611), and the gradient section (612) is of a variable diameter structure and is connected between the winding section (611) and the end section (613) in a smooth transition mode.

6. The dust removing apparatus for cleaning shoe soles in a factory building according to claim 5, wherein: the clamping block (61) is movably abutted with a blocking mechanism (9), and the blocking mechanism (9) can be elastically installed in the workshop channel frame body (1); the blocking mechanism (9) is arranged along the radial direction of the middle section (64) and can be movably abutted in the clamping groove (60).

7. The dust removing apparatus for cleaning shoe soles in a factory building according to claim 6, wherein: the blocking mechanism (9) comprises a blocking arm (91), a spring (92) and a mounting arm (93); one end of the mounting arm (93) is mounted on the inner wall of the workshop channel frame body (1), and the other end of the mounting arm (93) is movably inserted into one end of the blocking arm (91); the other end of the blocking arm (91) is movably abutted on the clamping block (61), the spring (92) is sleeved on the mounting arm (93), and two ends of the spring (92) are respectively abutted between one end flange of the mounting arm (93) and one end face of the blocking arm (91).

8. The dust removing apparatus for cleaning shoe soles in a factory building according to claim 7, characterized in that: the side part of the blocking arm (91) is provided with a limiting arm (94), the limiting arm (94) is parallel to the clamping block (61), and the limiting arm (94) is perpendicular to the blocking arm (91).