CN113524277A

CN113524277A - PTFE filter bag cutting device for glass kiln and processing method thereof

Info

Publication number: CN113524277A
Application number: CN202110795069.8A
Authority: CN
Inventors: 李士亮
Original assignee: Jiangsu Kanglongdi Ultra Clean Technology Co ltd
Current assignee: Jiangsu Kanglongdi Ultra Clean Technology Co ltd
Priority date: 2021-07-14
Filing date: 2021-07-14
Publication date: 2021-10-22
Anticipated expiration: 2041-07-14
Also published as: CN113524277B

Abstract

The invention discloses a PTFE filter bag cutting device for a glass kiln and a processing method thereof. Through fixture to the stable centre gripping and the high-efficient tensioning of being cut the material, the follow-up going on of cutting of being convenient for has guaranteed the stability and the neat effect of cutting the process through cutting the mechanism.

Description

PTFE filter bag cutting device for glass kiln and processing method thereof

Technical Field

The invention relates to the technical field of dust removal products, in particular to a PTFE filter bag cutting device for a glass kiln and a processing method thereof.

Background

With the development of science and technology, the industrial industry is also advanced continuously, and while the industrial industry is advanced, a lot of emissions in industrial production are accompanied, if the emissions can not be treated, serious pollution can be caused to the environment of our life, wherein a glass kiln can discharge a large amount of smoke in the operation process, so that a dust removal filter bag is required for filtering, and the filter bag is required to cut raw materials in the processing process, namely a special cutting device is also required.

The existing cutting device has the following defects: 1. the existing filter bag material cutting device has poor tensioning effect on materials in the cutting process, is easy to loosen and fall off to cause loosening of the materials, and seriously influences the cutting operation. 2. The existing cutting device is poor in stability, irregular cutting is easy to occur, and reworking is needed, so that the using effect of the cutting device is reduced.

Disclosure of Invention

The invention mainly aims to provide a PTFE filter bag cutting device for a glass kiln and a processing method thereof, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that:

a PTFE filter bag cutting device for a glass kiln comprises a base, a material wheel, a clamping mechanism and a cutting mechanism, wherein first side plates are mounted on the front side wall and the rear side wall of the upper end of the left side of the base, the material wheel is mounted between the front first side plate and the rear first side plate, the front end of the material wheel penetrates through the first side plate and is connected with a first motor, second side plates are mounted on the front outer wall and the rear outer wall of the right side of the base, the clamping mechanism which can be adjusted correspondingly according to different sizes of raw materials is mounted inside the second side plates, a second connecting plate is mounted on the outer wall of the right side of the base, a fixing block is mounted at the upper end of the second connecting plate, the cutting mechanism which enables the cutting process to be more stable is mounted on the upper side of the fixing block, a first cutter is mounted on the left side of the cutting mechanism, and a second cutter is mounted on the outer wall of the upper end of the center of the base;

the clamping mechanism comprises a second motor, a threaded rod, a limiting groove and a clamping plate, the threaded rod is installed inside the second side plate, the right end of the threaded rod penetrates through the second side plate and is connected with the second motor, a threaded sleeve is installed on the outer wall of the threaded rod in a meshed mode, side rings are installed at the left end and the right end of the outer wall of the threaded sleeve, a sliding sleeve is sleeved on the outer wall of the center of the threaded sleeve, the limiting groove is formed in the side wall of the upper end of the second side plate, a first connecting plate is installed inside the limiting groove in an embedded mode at the upper end of the sliding sleeve, a first vertical plate is installed at the left end of the upper side of the first connecting plate, an electric telescopic rod is installed on the right side of the center of the first vertical plate, a second vertical plate is installed at the right end of the upper side of the second vertical plate, the left ends of the upper side of the lower side of the second vertical plate penetrate through the first vertical plate and are connected with the limiting rod, and the clamping plate is installed at the inner ends of the front and back of the first vertical plate and the second vertical plate respectively.

Preferably, it includes pole setting, lagging, spring, third riser and runner to cut the mechanism, the pole setting is installed at fixed block upside outer wall front and back end, the lagging suit is at the pole setting outer wall, the spring mounting is at the pole setting outer wall of lagging downside, the central platform is installed to lagging center upper end, the inside recess of having seted up of central platform upside, the third riser is installed in fixed block right side upper end, the runner is installed in third riser left side, the runner right side is run through the third riser and is connected with the third motor.

Preferably, the thread on the outer wall of the threaded rod is meshed with the thread on the inner wall of the screw sleeve.

Preferably, the front and back sizes of the first connecting plate are matched with the front and back sizes of the limiting groove.

Preferably, the anti-slip strip is serrated.

Preferably, the sleeve plate is connected with one end of the spring, and the other end of the spring is connected with the upper wall of the fixed block.

Preferably, the groove is in a semi-circular arc shape.

Preferably, the runner is elliptical cylindrical.

Preferably, the position of the first cutter is aligned with the position of the second cutter up and down.

A processing method of a PTFE filter bag cutting device for a glass kiln comprises the following steps:

the method comprises the following steps: when the material needs to be cut, the first motor is controlled by external control equipment to rotate to drive the material wheel to rotate, so that the material is suspended to the lower right;

step two: the electric telescopic rod is controlled by external control equipment to contract leftwards to drive the second vertical plate to move leftwards, and in the process that the limiting rods penetrating through the upper side and the lower side slide leftwards symmetrically, the second vertical plate moves leftwards stably to be attached to the first vertical plate, so that the clamping plates arranged at the rear ends are driven to approach, and materials falling in the middle are clamped through the serrated anti-slip strips;

step three: the second motor is controlled by external control equipment to rotate to drive the threaded rod to rotate, the threaded sleeve is driven to rotate rightwards through meshing rotation and move rightwards at the same time, the side ring is driven to move rightwards, the sliding sleeve is pushed to move rightwards to drive the upper first connecting plate to be embedded in the limiting groove to move rightwards stably, and therefore the clamped material is driven to move rightwards and is tensioned;

step four: when the tensioned material passes through the space between the first cutter and the second cutter rightwards and the extending length reaches the size to be cut, the third motor is controlled to operate to drive the oval rotating wheel to rotate, so that the oval rotating wheel is tightly attached to and rotates in the circular-arc groove, and the long diameter end of the rotating wheel is in a vertical state, the sleeve plate is downwards extruded, the sleeve plate slides downwards on the outer wall of the vertical rod to extrude the spring, the spring is extruded and contracted to deform, kinetic energy is converted into elastic potential energy, meanwhile, the sleeve plate moves downwards to drive the first cutter at the left end to vertically move downwards to be in contact with the second cutter, the cutting of the material can be completed, after the cutting is completed, the rotating wheel is controlled to rotate, the short diameter end of the rotating wheel is rotated to the inside of the groove, the spring converts the elastic potential energy into the kinetic energy to upwards push the sleeve plate to move, so that the first cutter moves upwards to the initial position, and the complete cutting process can be completed.

Compared with the prior art, the invention has the following beneficial effects: 1. when needs cut filter bag production material, the splint that adopt electric telescopic handle to drive second riser rear end move to the left side and are close with the splint of first riser rear end, adjust the distance between the splint according to different thickness dimension's material, thereby all can carry out the centre gripping to the material, the antislip strip that adopts the cockscomb structure simultaneously has improved the stability of centre gripping, adopt the meshing rotation between threaded rod and the swivel nut simultaneously, make the side ring promote the sliding sleeve right, thereby it is tensile straight to drive the material that is moved by the centre gripping right, guaranteed that the material is being tailor the in-process tight, it is more efficient to make the process of tailorring.

2. When cutting out the material, drive oval-shaped runner through the third motor and rotate, cut out as needs, the major diameter end that drives the runner rotates and keeps vertical state, the lower extreme of runner is supporting downwards in oval recess and is pressing the center platform this moment, make the lagging at the pole setting outer wall lapse, the lagging downstream extrusion spring makes it receive compression deformation and convert kinetic energy into elastic potential energy, the in-process that moves down at the lagging receives the decurrent pressure of runner and the ascending thrust of spring all the time, the equilibrium stability of lagging has been guaranteed, thereby drive first cutter downwards and the contact of second cutter, more stable cuts the material, the neat effect of cutting has been increased.

Drawings

FIG. 1 is a schematic perspective view of a cutting device for a PTFE filter bag of a glass kiln according to the present invention.

FIG. 2 is a schematic structural diagram of a front view cross section of a clamping mechanism of the PTFE filter bag cutting device for the glass kiln.

Fig. 3 is a partially enlarged structural schematic diagram of a part A in fig. 1 of the PTFE filter bag cutting device for the glass kiln.

FIG. 4 is a schematic view of a partial side view and a sectional structure of a cutting mechanism of the PTFE filter bag cutting device for the glass kiln.

Fig. 5 is a schematic diagram of a part B enlarged structure in fig. 1 of the PTFE filter bag cutting device for the glass kiln.

In the figure: 1. a base; 2. a first side plate; 3. a first motor; 4. a material wheel; 5. a second side plate; 601. a second motor; 602. a threaded rod; 603. a threaded sleeve; 604. a side ring; 605. a sliding sleeve; 606. a limiting groove; 607. a first connecting plate; 608. a first vertical plate; 609. an electric telescopic rod; 610. a second vertical plate; 611. a limiting rod; 612. a splint; 613. anti-slip strips; 7. a second connecting plate; 8. a fixed block; 901. erecting a rod; 902. sheathing; 903. a spring; 904. a center table; 905. a groove; 906. a third vertical plate; 907. a third motor; 908. a rotating wheel; 10. a first cutter; 11. and a second cutter.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-5, a PTFE filter bag cutting device for a glass kiln comprises a base 1, a material wheel 4, a clamping mechanism and a cutting mechanism, wherein the front side wall and the rear side wall of the upper end of the left side of the base 1 are both provided with a first side plate 2, the material wheel 4 is arranged between the front first side plate 2 and the rear first side plate 2, the front end of the material wheel 4 penetrates through the first side plate 2 and is connected with a first motor 3, the front outer wall and the rear outer wall of the right side of the base 1 are both provided with a second side plate 5, the clamping mechanism which can be adjusted correspondingly according to the size of raw materials is arranged in the second side plate 5, the outer wall of the right side of the base 1 is provided with a second connecting plate 7, the upper end of the second connecting plate 7 is provided with a fixed block 8, the upper side of the fixed block 8 is provided with the cutting mechanism which can stabilize the cutting process, the left side of the cutting mechanism is provided with a first cutter 10, and the outer wall of the upper end of the center of the base 1 is provided with a second cutter 11;

the clamping mechanism comprises a second motor 601, a threaded rod 602, a limiting groove 606 and a clamping plate 612, the threaded rod 602 is installed inside a second side plate 5, the right end of the threaded rod 602 penetrates through the second side plate 5 and is connected with the second motor 601, the outer wall of the threaded rod 602 is meshed with and is provided with a threaded sleeve 603, side rings 604 are installed at the left end and the right end of the outer wall of the threaded sleeve 603, a sliding sleeve 605 is sleeved on the outer wall of the center of the threaded sleeve 603, the side wall of the upper end of the second side plate 5 is provided with the limiting groove 606, the upper end of the sliding sleeve 605 is embedded inside the limiting groove 606 and is provided with a first connecting plate 607, the left end of the upper side of the first connecting plate 607 is provided with a first vertical plate 608, the right end of the center of the first vertical plate 608 is provided with an electric telescopic rod 609, the right end of the electric telescopic rod 609 is provided with a second vertical plate 610, the left ends of the upper and lower sides of the second vertical plate 610 penetrate through the first vertical plate 608 and are connected with a limiting rod 611, and the clamping plate 612 is installed at the inner ends of the front and back of the first vertical plate 608 and the second vertical plate 610 respectively; the material of being convenient for to different thickness size all can carry out effective centre gripping, effectively strains the material simultaneously.

The cutting mechanism comprises a vertical rod 901, a sleeve plate 902, a spring 903, a third vertical plate 906 and a rotating wheel 908, the vertical rod 901 is installed at the front end and the rear end of the outer wall of the upper side of the fixed block 8, the sleeve plate 902 is sleeved on the outer wall of the vertical rod 901, the spring 903 is installed on the outer wall of the vertical rod 901 at the lower side of the sleeve plate 902, a central table 904 is installed at the upper end of the center of the sleeve plate 902, a groove 905 is formed in the inner portion of the upper side of the central table 904, the third vertical plate 906 is installed at the upper end of the right side of the fixed block 8, the rotating wheel 908 is installed on the left side of the third vertical plate 906, and the right side of the rotating wheel 908 penetrates through the third vertical plate 906 and is connected with a third motor 907; the cutting mechanism is more stable and efficient in the cutting process.

Wherein, the thread on the outer wall of the threaded rod 602 is meshed with the thread on the inner wall of the threaded sleeve 603; making it more efficient in tensioning the material.

Wherein, the front and back sizes of the first connecting plate 607 are matched with the front and back sizes of the limit groove 606; making the process of tensioning the material more even.

Wherein, the anti-slip strip 613 is serrated; the clamping effect on the material is more obvious.

Wherein, the sleeve plate 902 is connected with one end of a spring 903, and the other end of the spring 903 is connected with the upper wall of the fixed block 8; the cutting and resetting effect is achieved through the storage and release of the elastic potential energy of the spring 903.

Wherein, the groove 905 is in a semi-arc shape; the rotating wheel 908 can rotate tightly against the groove 905, and the stability of the cutting process is ensured.

Wherein, the rotating wheel 908 is elliptic cylinder; the cutting and resetting are achieved through the staggered rotation of the oval long-diameter end and the oval short-diameter end.

Wherein, the position of the first cutter 10 is aligned with the position of the second cutter 11 up and down; the trimming is ensured to be tidy.

the method comprises the following steps: when the material needs to be cut, the first motor 3 is controlled by external control equipment to rotate to drive the material wheel 4 to rotate, so that the material is suspended to the lower right;

step two: the electric telescopic rod 609 is controlled by external control equipment to contract leftwards, so that the second vertical plate 610 is driven to move leftwards, and in the process that the limiting rods 611 penetrating through the upper side and the lower side slide leftwards symmetrically, the second vertical plate 610 moves leftwards stably and is tightly attached to the first vertical plate 608, so that the clamping plates 612 mounted at the rear ends are driven to approach, and materials falling in the middle are clamped through the serrated anti-slip strips 613;

step three: the second motor 601 is controlled by external control equipment to rotate to drive the threaded rod 602 to rotate, the threaded sleeve 603 is driven to rotate rightwards and move rightwards at the same time through meshing rotation, the side ring 604 is driven to move rightwards, the sliding sleeve 605 is pushed to move rightwards to drive the upper first connecting plate 607 to be embedded in the limiting groove 606 and move rightwards stably, and therefore the clamped material is driven to move rightwards and is tensioned;

step four: when the tensioned material passes through the space between the first cutter 10 and the second cutter 11 rightwards and the extending length reaches the size to be cut, the third motor 907 is controlled to operate to drive the elliptical rotating wheel 908 to rotate so as to enable the elliptical rotating wheel to be tightly attached and rotated in the arc-shaped groove 905, and the long diameter end of the rotating wheel 908 is in a vertical state, the sleeve plate 902 is pressed downwards, the sleeve plate 902 slides downwards on the outer wall of the upright rod 901 to press the spring 903, the spring 903 is pressed and contracted to deform, the kinetic energy is converted into elastic potential energy, meanwhile, the sleeve plate 902 moves downwards to drive the first cutter 10 at the left end to vertically move downwards to be in contact with the second cutter 11, the material can be cut, after the cutting is finished, the rotating wheel 908 is controlled to rotate so that the short diameter end of the sleeve plate rotates into the groove 905, the spring 903 converts the elastic potential energy into the kinetic energy to upwards push the sleeve plate 902 to move, and enables the first cutter 10 to move upwards to the initial position, and the complete cutting process can be finished.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a device is tailor to PTFE filter bag for glass kiln which characterized in that: comprises a base (1), a material wheel (4), a clamping mechanism and a cutting mechanism, wherein the front side wall and the rear side wall of the upper end of the left side of the base (1) are both provided with a first side plate (2), the material wheel (4) is arranged between the front first side plate and the rear first side plate (2), the front end of the material wheel (4) penetrates through the first side plate (2) to be connected with a first motor (3), the front outer wall and the rear outer wall of the right side of the base (1) are both provided with a second side plate (5), a clamping mechanism which can be adjusted correspondingly according to different sizes of raw materials is arranged in the second side plate (5), a second connecting plate (7) is arranged on the outer wall of the right side of the base (1), a fixing block (8) is arranged at the upper end of the second connecting plate (7), a cutting mechanism which enables the cutting process to be more stable is arranged on the upper side of the fixed block (8), a first cutter (10) is installed on the left side of the cutting mechanism, and a second cutter (11) is installed on the outer wall of the upper end of the center of the base (1);

the clamping mechanism comprises a second motor (601), a threaded rod (602), a limiting groove (606) and a clamping plate (612), the threaded rod (602) is installed inside a second side plate (5), the right end of the threaded rod (602) penetrates through the second side plate (5) to be connected with the second motor (601), the outer wall of the threaded rod (602) is meshed with a threaded sleeve (603), side rings (604) are installed at the left end and the right end of the outer wall of the threaded sleeve (603), a sliding sleeve (605) is sleeved on the outer wall of the center of the threaded sleeve (603), the limiting groove (606) is formed in the side wall of the upper end of the second side plate (5), a first connecting plate (607) is installed inside the limiting groove (606) in a jogged mode at the upper end of the sliding sleeve (605), a first vertical plate (608) is installed at the left end of the upper side of the first connecting plate (607), an electric telescopic rod (609) is installed at the right side of the center of the first vertical plate (608), a second vertical plate (610) is installed at the right end of the electric telescopic rod (609), the left ends of the upper side and the lower side of the second vertical plate (610) penetrate through the first vertical plate (608) and are connected with a limiting rod (611), and the clamping plate (612) is respectively installed at the inner ends of the first vertical plate (608) and the second vertical plate (610) in the front-back direction.

2. The PTFE filter bag cutting device for glass kilns as claimed in claim 1, characterized in that: the cutting mechanism comprises a vertical rod (901), a sleeve plate (902), a spring (903), a third vertical plate (906) and a rotating wheel (908), the vertical rod (901) is installed at the front end and the rear end of the outer wall of the upper side of a fixed block (8), the sleeve plate (902) is installed on the outer wall of the vertical rod (901), the spring (903) is installed on the outer wall of the vertical rod (901) of the lower side of the sleeve plate (902), a central table (904) is installed at the upper end of the center of the sleeve plate (902), a groove (905) is formed in the upper side of the central table (904), the third vertical plate (906) is installed at the upper end of the right side of the fixed block (8), the rotating wheel (908) is installed on the left side of the third vertical plate (906), and the right side of the rotating wheel (908) penetrates through the third vertical plate (906) and is connected with a third motor (907).

3. The PTFE filter bag cutting device for glass kilns as claimed in claim 1, characterized in that: the thread on the outer wall of the threaded rod (602) is meshed with the thread on the inner wall of the threaded sleeve (603).

4. The PTFE filter bag cutting device for glass kilns as claimed in claim 1, characterized in that: the front and back sizes of the first connecting plate (607) are matched with the front and back sizes of the limiting groove (606).

5. The PTFE filter bag cutting device for glass kilns as claimed in claim 1, characterized in that: the anti-skid strips (613) are serrated.

6. The PTFE filter bag cutting device for glass kilns of claim 2, wherein: the sleeve plate (902) is connected with one end of a spring (903), and the other end of the spring (903) is connected to the upper wall of the fixed block (8).

7. The PTFE filter bag cutting device for glass kilns of claim 2, wherein: the groove (905) is in a semi-circular arc shape.

8. The PTFE filter bag cutting device for glass kilns of claim 2, wherein: the rotating wheel (908) is in an elliptic cylinder shape.

9. The PTFE filter bag cutting device for glass kilns as claimed in claim 1, characterized in that: the position of the first cutter (10) is vertically aligned with the position of the second cutter (11).

10. The method for processing the PTFE filter bag cutting device for the glass kiln as set forth in any one of claims 1 to 9, wherein: the method comprises the following steps:

the method comprises the following steps: when the material needs to be cut, the first motor (3) is controlled by external control equipment to rotate to drive the material wheel (4) to rotate, so that the material is suspended to the lower right;

step two: the electric telescopic rod (609) is controlled by external control equipment to contract leftwards to drive the second vertical plate (610) to move leftwards, and in the process that the limiting rods (611) penetrating through the upper side and the lower side slide leftwards symmetrically, the second vertical plate (610) moves leftwards stably to be attached to the first vertical plate (608), so that the clamping plates (612) installed at the rear ends are driven to approach, and materials falling in the middle are clamped through the serrated anti-slip strips (613);

step three: the second motor (601) is controlled by external control equipment to rotate to drive the threaded rod (602) to rotate, the threaded sleeve (603) is driven to rotate rightwards and move rightwards at the same time through meshing rotation, the side ring (604) is driven to move rightwards, the sliding sleeve (605) is pushed to move rightwards, the first connecting plate (607) on the upper side is driven to be embedded in the limiting groove (606) to be combined and move rightwards stably, and therefore the clamped material is driven to move rightwards and is tensioned;

step four: when the tensioned material passes through the space between the first cutter (10) and the second cutter (11) rightwards and the extending length reaches the size to be cut, the third motor (907) is controlled to operate to drive the elliptical rotating wheel (908) to rotate so as to enable the elliptical rotating wheel to be tightly attached and rotated in the circular arc-shaped groove (905), and the long diameter end of the rotating wheel (908) is in a vertical state, the sleeve plate (902) is downwards extruded, the sleeve plate (902) slides downwards on the outer wall of the upright rod (901) to extrude the spring (903), the spring (903) is extruded, contracted and deformed, kinetic energy is converted into elastic potential energy, meanwhile, the sleeve plate (902) downwards moves to drive the first cutter (10) at the left end to vertically downwards move to be contacted with the second cutter (11), the material can be cut, after the cutting is finished, the rotating wheel (908) is controlled to rotate, the short diameter end of the rotating wheel is rotated into the groove (905), and the spring (903) converts the elastic potential energy into kinetic energy to upwards push the sleeve plate (902) to move, the first cutter (10) is moved upwards to the initial position, and then the complete cutting process can be completed.