CN114714673A - Continuous corrugated forming system for water curtain block paper tape - Google Patents

Abstract

The invention discloses a continuous corrugated forming system for a water curtain block paper tape, which comprises a machine base, wherein an upper forming device and a lower forming device which are oppositely arranged are arranged on the machine base, the upper forming device and the lower forming device sequentially perform linear pressing arrangement on the paper tape, the linear direction pressed by the upper forming device and the lower forming device is obliquely arranged relative to the conveying direction of the paper tape, and the upper forming device and/or the lower forming device are/is connected with a forming driving device. The paper tape between the upper forming device and the lower forming device is pressed by the oblique line, and the formed corrugated paper can still be conveyed in parallel with the former paper tape as a whole compared with the former paper tape, so that the continuous forming operation can be realized. The linear pressing does not transversely tear the paper tape, the paper tape is integrally conveyed along the length direction, the integral mutual pulling and holding effect is formed, the input postures of the paper tape are kept consistent constantly, and the better inclined corrugated forming quality is realized.

Description

Continuous corrugated forming system for water curtain block paper tape

Technical Field

The invention relates to the technical field of corrugated paper forming equipment, in particular to a water curtain block paper tape continuous corrugated forming system.

Background

The water curtain wall is also called a wet curtain wall or a cooling water curtain, and in the using process, a water film is kept at the corrugated fiber part inside the water curtain wall, so that hot air flowing through rapidly is subjected to the heat exchange effect of evaporation after the water film absorbs heat, the temperature is reduced, and the aim of reducing the room temperature is fulfilled. The water curtain wall has unique cooling, environmental protection and energy saving effects, and is widely used in the fields of industry, gardening, livestock and poultry breeding and the like.

The water curtain wall is usually formed by cutting honeycomb water curtain blocks into required sizes, and the water curtain blocks are usually formed by alternately stacking obliquely corrugated paper in a positive and negative mode and then solidifying the corrugated paper in the production process based on the use requirement of the water curtain wall. In the production, only the pretreatment processes of gumming, drying and the like of the paper tape at the early stage realize automatic operation and the subsequent processes of corrugated forming, stacking, curing and the like, and are realized by mainly matching various process devices with a large amount of manual operation.

Among them, a corrugation forming process capable of forming an inclined corrugation is often performed by a twin-roll forming apparatus. The double rollers in the equipment are respectively provided with forming teeth which can mutually form occlusion and are arranged in a straight line shape, paper is obliquely input between the two rollers, and under the press forming of the two rollers, the paper feeding and the forming of the oblique corrugation are completed in the direction forming an angle with the length direction. The equipment is limited by the input direction of the plane paper, the forming part of the paper is transversely and continuously deviated relative to a double roller in the input process, and the length of the double roller is wired, so that in the production of the water curtain block, only after a pretreated paper tape is cut into plane paper with a fixed length, single paper is sequentially fed into the equipment by manpower for forming, and automatic production operation cannot be formed in a matching way. In addition, in the forming process, the controllability of the input posture of the paper is poor, and the forming quality is generally uneven, which affects the quality of the final water curtain block.

In addition to the above-described linear tooth forming apparatus, there is also a twin-roll forming apparatus for forming a spiral-shaped tooth. The double rollers of the device are respectively provided with forming teeth which can mutually form an occlusion spiral shape, and a paper strip can be linearly input between the two rollers in the length direction for continuous oblique corrugation forming, for example, the invention patent application with the name of 201910207762.1 entitled corrugated paper, corrugated paper production device and corrugated paper production line is the double roller forming device. Although the continuous oblique corrugated paper forming can be realized by the equipment, the automatic matching operation can be carried out, when the paper tape passes between two rollers, the cross section of the paper tape can be simultaneously acted by a plurality of groups of forming teeth, namely the cross section which is originally of a line segment structure is forced to be pressed into a wave shape with unchanged width, the inside of the paper is equal to be transversely torn, a plurality of tearing problems and paper strength reduction problems exist in the formed corrugated paper, and the corrugated paper cannot be applied to the subsequent production of the water curtain block.

In summary, there is no corrugating machine that can perform both continuous and oblique corrugating, and therefore the corrugating process is still only semi-automated.

Disclosure of Invention

The invention aims to solve the technical problem of providing a continuous corrugated forming system of a water curtain block paper tape, which can realize continuous forming operation, can realize better inclined corrugated forming quality and is beneficial to matching and realizing full-automatic production of a water curtain block.

In order to solve the technical problems, the technical scheme of the invention is as follows: the continuous corrugated forming system for the water curtain block paper tape comprises a base, wherein an upper forming device and a lower forming device which are oppositely arranged are installed on the base, the upper forming device and the lower forming device sequentially perform linear pressing on the paper tape, the linear direction pressed by the upper forming device and the lower forming device is obliquely arranged relative to the conveying direction of the paper tape, and the upper forming device and/or the lower forming device are/is connected with a forming driving device.

As a preferred technical scheme, the lower forming device comprises a lower forming chain belt which is installed on the base and is arranged in an annular shape, the lower forming chain belt comprises a lower forming section which is arranged in the same direction as the conveying direction of the paper tape, a plurality of lower forming plates which are transversely arranged are uniformly installed on the lower forming chain belt, and a plurality of forming helical teeth are sequentially arranged on the lower forming plates; the lower forming plates are arranged by being attached to the lower forming sections end to form the lower forming plates, and the forming inclined teeth on two adjacent lower forming plates at the lower forming sections are arranged in an aligned mode.

Preferably, a forming support platform is arranged on the machine base at the lower forming section.

Preferably, the lower forming plate is connected to a lower forming heating device, and a heat insulating structure is provided between the lower forming plate and the lower forming chain.

As a preferred technical scheme, the forming driving device comprises two forming driving wheels rotatably mounted on the machine base, the two forming driving wheels are provided with the lower forming chain belt, and a forming driving motor is arranged between one of the forming driving wheels and the machine base.

As a preferable technical scheme, the upper forming device includes two upper forming bearing seats installed on the base and respectively located at two sides of the paper tape conveying direction, an upper forming roller forming an oblique direction is installed between the two upper forming bearing seats, a plurality of upper forming teeth for performing linear pressing are uniformly distributed on the outer circumferential surface of the upper forming roller, and adjusting devices are respectively arranged between the two upper forming bearing seats and the base.

As a preferred technical solution, the adjusting device includes an adjusting seat installed on the machine base, an adjusting rod movably installed on the adjusting seat on the corresponding side is provided on the upper forming bearing seat, a height adjusting assembly is provided between the adjusting rod and the corresponding adjusting seat, and a horizontal adjusting assembly is provided between the adjusting seat and the machine base.

As a preferred technical scheme, the height adjusting assembly comprises a mounting hole for the adjusting rod to penetrate through, height adjusting hand wheels are respectively installed on the upper portion and the lower portion of the adjusting rod, which are located in the mounting hole, in a threaded manner, and hand wheel limiting structures are respectively arranged on the adjusting seat, which are located at the upper end and the lower end of the mounting hole.

As a preferred technical scheme, the horizontal adjustment assembly comprises a horizontal adjustment screw rod rotatably mounted on the adjustment seat, an axial limiting structure is arranged between the horizontal adjustment screw rod and the adjustment seat, and a horizontal adjustment nut matched with the horizontal adjustment screw rod is fixedly arranged on the machine base.

Preferably, the upper forming roll is connected to an upper forming heater.

Due to the adoption of the technical scheme, the water curtain block paper tape continuous corrugating forming system comprises a base, wherein an upper forming device and a lower forming device which are oppositely arranged are installed on the base, the upper forming device and the lower forming device sequentially perform linear pressing on a paper tape, the linear direction pressed by the upper forming device and the lower forming device is obliquely arranged relative to the conveying direction of the paper tape, and the upper forming device and/or the lower forming device are/is connected with a forming driving device. The paper tape passing between the upper forming device and the lower forming device is subjected to the oblique linear pressing action, and compared with the former paper tape, the formed corrugated paper can still be integrally conveyed in parallel with the former paper tape, so that the continuous forming operation can be realized. The linear pressing does not transversely tear the paper tape, and the paper tape is integrally conveyed along the length direction, so that the integral mutual pulling and holding effect is formed, the input postures of the paper tape can be kept consistent constantly, and the better inclined corrugated forming quality is realized, so that the invention is beneficial to realizing the full-automatic production of the water curtain block in a matching way.

Drawings

The drawings are only for purposes of illustrating and explaining the present invention and are not to be construed as limiting the scope of the present invention. Wherein:

FIG. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a schematic front view of an embodiment of the present invention;

FIG. 3 is a schematic perspective view of a lower forming chain, forming drive and a portion of a lower forming plate according to an embodiment of the present invention;

FIG. 4 is a schematic perspective view of a forming apparatus according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the A-A structure of FIG. 4;

FIG. 6 is a schematic view of the B-B structure of FIG. 5;

fig. 7 is a schematic perspective exploded view of a single-side adjustment device according to an embodiment of the present invention.

In the figure: 1-a machine base; 2-lower forming device; 21-lower forming chain belt; 211-lower forming section; 22-forming drive means; 221-forming a transmission wheel; 222-a forming drive motor; 23-a lower forming plate; 24-forming helical teeth; 25-lower forming teeth; 26-forming a support table; 27-a thermally insulating structure; 28-lower forming heating means; 3-upper forming device; 31-forming a bearing seat on the bearing seat; 32-an upper forming roll; 33-upper forming teeth; 4-adjusting the device; 41-adjusting seat; 42-an adjusting rod; 43-a height adjustment assembly; 431-mounting holes; 432-height adjustment handwheel; 433-a hand wheel limiting structure; 44-a level adjustment assembly; 441-a horizontal adjusting screw; 442-an axial restraining structure; 443-horizontal adjusting nut; 444-horizontal adjustment of the slot.

Detailed Description

The invention is further illustrated below with reference to the figures and examples. In the following detailed description, exemplary embodiments of the invention are described by way of illustration only. Needless to say, a person skilled in the art realizes that the described embodiments can be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive on the scope of the claims.

As shown in fig. 1 to 7, the continuous corrugating system for a water curtain block paper tape comprises a machine base 1, wherein an upper forming device 3 and a lower forming device 2 which are oppositely arranged are installed on the machine base 1, the upper forming device 3 and the lower forming device 2 sequentially perform linear pressing arrangement on the paper tape, the linear pressing direction of the upper forming device 3 and the lower forming device 2 is obliquely arranged relative to the paper tape conveying direction, and a forming driving device 22 is connected with the upper forming device 3 and/or the lower forming device 2.

When the paper tape passes between the upper forming device 3 and the lower forming device 2, the paper tape is subjected to an oblique linear pressing action, the pressing forming direction is perpendicular to the linear direction, although the corrugation deviates along the linear direction after each pressing, the continuously input paper tape compensates the previous deviation by utilizing the partial displacement of the conveying displacement in the linear direction before the next pressing, so that the paper tape is still conveyed in parallel with the original paper tape macroscopically after the corrugation is formed, and the continuous oblique corrugation forming operation is realized. The linear pressing does not transversely tear the paper tape, and the paper tape is integrally conveyed along the length direction, so that the integral mutual pulling and holding effect is formed, the input postures of the paper tape can be kept consistent all the time, and the better inclined corrugation forming quality is realized.

The lower forming device 2 of the present embodiment includes a lower forming chain belt 21 installed on the machine base 1 and arranged in an annular shape, and the lower forming chain belt 21 is conveyed by a driving chain in the present embodiment. Based on this structure, the forming driving device 22 of the present embodiment includes two forming driving wheels 221 rotatably mounted on the base 1, the lower forming chain belt 21 is mounted on the two forming driving wheels 221, and a forming driving motor 222 is disposed between one of the forming driving wheels 221 and the base 1. Preferably, the other forming transmission wheel 221 adopts a tensioning device to tension the lower forming chain belt 21. Of course, in practical use, three, four or more forming driving wheels 221 may be used in the forming driving device 22 to mount the lower forming chain 21.

The lower forming chain belt 21 includes a lower forming segment 211 arranged in the same direction as the paper tape conveying direction, and for the embodiment where the lower forming chain belt 21 is installed by two forming transmission wheels 221, the upper segment of the lower forming chain belt 21 is the lower forming segment 211. The lower forming chain 21 is uniformly provided with a plurality of lower forming plates 23 arranged in a transverse direction, here the transverse direction being taken as the longitudinal direction with respect to the web transport direction. In this embodiment, there are two lower forming links 21, and the lower forming plate 23 is fixed to the corresponding links of the two lower forming links 21. The lower forming plate 23 is provided with a plurality of forming helical teeth 24 in sequence.

The lower forming plates 23 are arranged end to end in the lower forming section 211 in abutment with the lower forming plate, and the forming helical teeth 24 of two adjacent lower forming plates 23 in the lower forming section 211 are arranged in alignment with each other, so that lower forming teeth 25 are formed in succession in the direction of web transport on the lower forming plate formed. A linear press is formed between a certain lower forming tooth 25 on the lower forming flat plate and the upper forming device 3. After pressing, the flute pressed by the lower forming tooth 25 can still be supported on the lower forming tooth 25, and the lower forming flat plate formed by the lower forming section 211 gives a longer auxiliary conveying path to the formed flute, thereby being beneficial to keeping the flute shaped continuously and conveying the corrugated paper in a straight line.

Preferably, the machine base 1 is provided with a forming abutment 26 at the lower forming section 211, said forming abutment 26 constituting a rigid support for the lower forming plate 23 to ensure a reliable press forming action between the lower forming device 2 and the upper forming device 3.

The lower forming plate 23 is associated with lower forming heating means 28 to promote a better formation of the strip by the heating action. The present embodiment illustrates that the lower forming heating device 28 is a plurality of electric heating plates arranged below the lower forming section 211, and the electric heating plates mainly heat the lower forming plate 23 by the action of heat radiation, so as to promote the corrugating of paper tape. Of course, the lower forming heater 28 may be realized by heating wires or the like connected to the lower forming plates 23, respectively. An insulating structure 27 is provided between the lower forming plate 23 and the lower forming chain 21 to reduce the influence of high temperature on the lower forming chain 21.

The upper forming device 3 of the present embodiment includes two upper forming bearing blocks 31 installed on the machine base 1 and respectively located at both sides of the paper tape conveying direction, an upper forming roller 32 formed obliquely is installed between the two upper forming bearing blocks 31, and a plurality of upper forming teeth 33 for performing linear pressing are uniformly distributed on the outer circumferential surface of the upper forming roller 32. The upper forming device 3 directly matches the lower forming teeth 25 formed on the lower forming device 2 with the upper forming teeth 33 on the upper forming roller 32 in an oblique direction to realize linear corrugation. Preferably, the upper forming roll 32 is associated with upper forming heating means to further promote better formation of the paper strip. The upper forming heating device can be realized by adopting the forms of electric heating or heat conducting oil heating and the like.

Adjusting devices 4 are respectively arranged between the two upper forming bearing seats 31 and the machine base 1, and are used for adjusting the height of the upper forming roller 32, the inclination degree of the upper forming roller relative to the lower forming plate 23 and the oblique angle of the upper forming roller relative to the paper tape conveying direction so as to ensure that the upper forming teeth 33 can be accurately meshed with the lower forming teeth 25 to perform ideal pressing operation.

The adjusting device 4 of the present embodiment includes an adjusting seat 41 installed on the machine base 1, an adjusting rod 42 movably installed on the adjusting seat 41 on the corresponding side is disposed on the upper forming bearing seat 31, a height adjusting assembly 43 is disposed between the adjusting rod 42 and the corresponding adjusting seat 41, and a horizontal adjusting assembly 44 is disposed between the adjusting seat 41 and the machine base 1. The adjustment of the height, inclination degree and slant angle of the upper forming roller 32 can be achieved by the height displacement adjustment and horizontal displacement adjustment of each end of the upper forming roller 32.

The height adjusting assembly 43 of the present embodiment includes a mounting hole 431 for the through mounting of the adjusting rod 42, and preferably, the adjusting rod 42 is vertically installed in the mounting hole 431; height adjusting handwheels 432 are respectively installed on the upper portion and the lower portion of the adjusting rod 42, which are positioned in the installation hole 431, in a threaded manner, and handwheel limiting structures 433 are respectively arranged on the adjusting seat 41, which are positioned at the upper end and the lower end of the installation hole 431. The height of the upper forming bearing seat 31 is fixed by screwing the two height adjusting hand wheels 432 together to the corresponding hand wheel limiting structures 433; and the height of the upper forming bearing seat 31 can be adjusted by loosening one of the height adjusting handwheels 432 and then screwing the other height adjusting handwheel 432.

Preferably, thrust bearings are installed at two ends of the adjusting seat 41, which are located in the installation hole 431, and the thrust bearings also serve as the hand wheel limiting structure 433, so that the adjustment resistance can be reduced, and the height adjustment can be performed more quickly and conveniently. Of course, the hand wheel structure is adopted in this embodiment for convenience of adjustment operation, and in practical use, other structures capable of being screwed on the adjusting rod 42, such as a nut, may be adopted. Preferably, the linear bearing matched with the adjusting rod 42 is installed in the installation hole 431 in the embodiment, so that the resistance of height adjustment is reduced, and the convenience of the adjustment operation is further improved.

The horizontal adjustment assembly 44 of this embodiment includes a horizontal adjustment screw 441 rotatably mounted on the adjustment seat 41, an axial limiting structure 442 is disposed between the horizontal adjustment screw 441 and the adjustment seat 41, and a horizontal adjustment nut 443 engaged with the horizontal adjustment screw 441 is fixedly disposed on the housing 1. When the horizontal adjusting screw 441 is operated to rotate, the horizontal adjusting nut 443 is in threaded fit, so that the horizontal adjusting screw 441 drives the adjusting seat 41 to horizontally displace, thereby achieving horizontal adjustment. Of course, the horizontal movement direction of the adjustment seat 41 is spatially formed to intersect the axial direction of the upper forming roll 32; preferably, the horizontal moving direction of the adjusting base 41 is along the tape conveying direction.

In this embodiment, the horizontal adjusting screw 441 penetrates through the adjusting base 41, and horizontal adjusting handles are fixedly mounted at two ends of the horizontal adjusting screw 441, respectively, and the horizontal adjusting handles also serve as the axial limiting structure 442. In addition, in this embodiment, the adjusting seat 41 is fixed on the base 1 by a plurality of bolts, in order to match with the horizontal adjustment, a plurality of horizontal adjustment long holes 444 parallel to the horizontal adjustment screw 441 are provided on the adjusting seat 41, and a horizontal adjustment fixing bolt in threaded connection with the base 1 is installed at each horizontal adjustment long hole 444.

In this embodiment, before operation, the height, inclination and slant angle of the upper forming roller 32 are adjusted by the adjusting device 4, so that the upper forming teeth 33 can reliably engage with the lower forming teeth 25 formed at the lower forming section 211. The forming drive 22 is activated and the lower forming teeth 25 formed by the lower forming plate 23 at the lower forming section 211 rotate the upper forming roller 32. That is, the flat-plate lower forming teeth 25 are formed to carry the circumferential upper forming teeth 33 for corrugating. The pressing principle is as follows: when one lower forming tooth 25 is meshed with the upper forming tooth 33, the pressed paper tape part is driven to advance, and in the pressing process, the lower forming plate 23 linearly advances, so that the lower forming tooth 25 generates deviation along the pressing linear direction relative to the upper forming tooth 33, the deviation can drive the formed paper tape, the reverse deviation in oblique linear corrugating is eliminated, the formed corrugated paper can be better conveyed in parallel with the base paper tape, and therefore the embodiment can more reliably perform continuous forming operation. The continuous pulling and holding effect of the paper tape before forming and the auxiliary shaping effect of the lower forming plate 23 after forming are matched with each other, so that the input postures of the paper tape are kept consistent constantly, and the linear pressing does not tear the paper tape, so that the embodiment realizes better inclined corrugated forming quality and is beneficial to realizing full-automatic production of the water curtain block in a matching way.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the above embodiments and descriptions are only for illustrating the principle of the present invention, and the present invention may have various changes and modifications without departing from the spirit and scope of the present invention, such as that the lower forming device 2 directly adopts a roller structure, and cooperates with the roller of the upper forming device 3 to form the inclined linear corrugation pressing, and these changes and modifications are all within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. Continuous flute forming system of water curtain piece paper tape, including the frame, its characterized in that: the machine base is provided with an upper forming device and a lower forming device which are oppositely arranged, the upper forming device and the lower forming device sequentially perform linear pressing on a paper tape, the linear direction pressed by the upper forming device and the lower forming device is obliquely arranged relative to the conveying direction of the paper tape, and the upper forming device and/or the lower forming device are/is connected with a forming driving device.

2. A water curtain block paper strip continuous corrugating system as claimed in claim 1, wherein: the lower forming device comprises a lower forming chain belt which is arranged on the base and is arranged in an annular shape, the lower forming chain belt comprises a lower forming section which is arranged in the same direction as the conveying direction of the paper tape, a plurality of lower forming plates which are transversely arranged are uniformly arranged on the lower forming chain belt, and a plurality of forming helical teeth are sequentially arranged on the lower forming plates; the lower forming plates are arranged by being attached to the lower forming sections end to form the lower forming plates, and the forming inclined teeth on two adjacent lower forming plates at the lower forming sections are arranged in an aligned mode.

3. A water curtain block paper strip continuous corrugating system as claimed in claim 2, wherein: and a forming support platform is arranged at the lower forming section on the machine seat.

4. A water curtain block paper strip continuous corrugating system as claimed in claim 2, wherein: the lower forming plate is connected with a lower forming heating device, and a heat insulation structure is arranged between the lower forming plate and the lower forming chain belt.

5. A water curtain block paper strip continuous corrugating system as claimed in claim 2, wherein: the forming driving device comprises two forming driving wheels which are rotatably arranged on the base, the two forming driving wheels are provided with the lower forming chain belt, and a forming driving motor is arranged between one of the forming driving wheels and the base.

6. The cascade bar paper strip continuous corrugating system as claimed in claim 1, wherein: the upper forming device comprises two upper forming bearing seats which are arranged on the machine base and are respectively positioned on two sides of the paper tape conveying direction, an inclined upper forming roller is arranged between the two upper forming bearing seats, a plurality of upper forming teeth for linear pressing are uniformly distributed on the peripheral surface of the upper forming roller, and adjusting devices are respectively arranged between the two upper forming bearing seats and the machine base.

7. The cascade bar paper strip continuous corrugating system of claim 6, wherein: the adjusting device comprises an adjusting seat arranged on the machine base, an adjusting rod movably arranged on the adjusting seat on the corresponding side is arranged on the upper forming bearing seat, a height adjusting assembly is arranged between the adjusting rod and the corresponding adjusting seat, and a horizontal adjusting assembly is arranged between the adjusting seat and the machine base.

8. The cascade bar paper continuous corrugating system as claimed in claim 7, wherein: the height adjustment subassembly is including being used for the adjusting lever runs through the mounting hole of installation, be located on the adjusting lever the upper portion and the lower part of mounting hole threaded mounting respectively have a height adjustment hand wheel, be located on the adjustment seat the upper end and the lower extreme punishment of mounting hole do not are equipped with hand wheel limit structure.

9. The cascade bar paper continuous corrugating system as claimed in claim 7, wherein: the horizontal adjustment assembly comprises a horizontal adjustment screw rod rotatably installed on the adjustment seat, an axial limiting structure is arranged between the horizontal adjustment screw rod and the adjustment seat, and a horizontal adjustment nut matched with the horizontal adjustment screw rod is fixedly arranged on the machine base.

10. The cascade bar paper continuous corrugating system as claimed in claim 6, wherein: the upper forming roll is connected with an upper forming heating device.

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