CN114953414B - Efficient film laminating device for processing modified asphalt waterproof coiled material - Google Patents

Abstract

The invention discloses a high-efficiency laminating device for processing a modified asphalt waterproof coiled material, which relates to the technical field of laminating devices and comprises a device main body, a conveying roller, a support frame and an air cylinder, wherein a connecting seat is arranged in the support frame, an auxiliary roller is arranged in the middle of the support frame, a heating roller is arranged in the middle of the support frame, and a buffer structure is arranged in the middle of the support frame; this design is through buffer structure's setting to play better buffering effect, avoid the phenomenon that extrudees between auxiliary roller and the heating roller to cause the damage to take place, through auxiliary structure's setting, the outside of the tight auxiliary roller of surface subsides of coiled material, thereby improve the spacing effect of coiled material, the operation is swift, improves its work efficiency, through setting up of putting the structure, thereby be convenient for follow-up putting of coiled material, improve its practicality.

Description

Efficient film laminating device for processing modified asphalt waterproof coiled material

Technical Field

The invention relates to the technical field of laminating devices, in particular to a high-efficiency laminating device for processing a modified asphalt waterproof coiled material.

Background

The film is also called overmoulding, mounting adhesive, sticking film and the like, is widely used for surface framing and protection of covers, paintings, autograph books, postcards, product specifications, calendars, maps and the like of books and periodicals, and the film laminating device is widely used in the film laminating process; but there is certain drawback in the use of current tectorial membrane device, firstly, when auxiliary roller and heating roller carry out position adjustment, do not have buffer structure, the phenomenon of the extrusion damage of heating roller and auxiliary roller appears easily, inconvenient its use, secondly, the coiled material is in the tectorial membrane in-process, can not be timely spacing to the width to cause the skew of coiled material, inconvenient subsequent rolling, finally, put inconvenient after the coiled material tectorial membrane is accomplished, the structure of not being convenient for its quick put reduces its availability factor, for this reason, the staff in this field has proposed a high-efficient tectorial membrane device of modified asphalt waterproofing membrane processing.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a high-efficiency film laminating device for processing a modified asphalt waterproof coiled material, which solves the problems in the prior art.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a high-efficient tectorial membrane device of modified asphalt waterproofing membrane processing, includes device main part, transfer roller, support frame and cylinder, the inside of support frame is provided with the connecting seat, the middle part of support frame is provided with the auxiliary roller, the middle part of support frame is provided with the heating roller, the middle part of support frame is provided with buffer structure, the inboard of device main part is provided with transmission structure, the upper end of device main part is provided with the film roller, one side of film roller is provided with gear motor, the inside of device main part is provided with wind-up roll and unreel the roller, the inside of device main part is provided with auxiliary structure, the outside of device main part is provided with puts the structure, the side trompil has been seted up to the outside of device main part;

the buffer structure comprises a buffer block, an auxiliary pad is arranged at the lower end of the buffer block, a buffer spring is arranged on the inner side of the auxiliary pad, a guide column is arranged on one side of the buffer block, and a guide groove is formed in one side of the auxiliary pad;

the placing structure comprises a placing frame, the upper end of the placing frame is provided with a groove, the inner side of the placing frame is provided with a turnover shaft, the upper end of the placing frame is provided with a limit cover, the joint of the placing frame and the limit cover is provided with a movable shaft, the upper end of the placing frame is provided with a fixed groove, the upper end of the placing frame is provided with a movable groove, the inside of the movable groove is provided with a movable block, one end of the movable block is provided with a limit spring, the other end of the movable block is provided with a limit pile, and the outer side of the limit cover is provided with a limit groove;

the side section of the placing frame is of a C-shaped structure, the number of the grooves is a plurality of groups and is distributed in an array, the placing frame is in rotary connection with the device main body through a turnover shaft, the limiting cover is in rotary connection with the placing frame through a movable shaft, and the fixed groove is matched with the limiting cover;

the device is characterized in that the moving groove and the moving block are matched, the diameter of the limiting spring is smaller than the width of the moving groove, the limiting pile is of a cylindrical structure, the limiting pile and the moving block are fixedly connected, and the limiting pile is matched with the limiting groove.

As a further technical scheme of the invention, the number of the supporting frames is two, the supporting frames are symmetrically distributed, the air cylinders and the supporting frames are fixedly connected through bolts, the air cylinders are movably connected with the connecting seat, the connecting seat is rotatably connected with the auxiliary roller, the heating roller is rotatably connected with the transmission structure, and the film roller is rotatably connected with the speed reduction motor.

As a further technical scheme of the invention, the winding roller and the unwinding roller are both in rotary connection with the device main body, and the number of the side holes is two groups and symmetrically distributed.

As a further technical scheme of the invention, the number of the buffer blocks is two groups and symmetrically distributed, the tops of the buffer blocks are of arc structures, the number of the auxiliary pads is a plurality of groups and symmetrically distributed, and the diameter of the buffer springs is smaller than that of the auxiliary pads.

As a further technical scheme of the invention, the guide post is of a cylindrical structure, the height of the guide post is smaller than that of the buffer spring, the diameter of the guide groove is larger than that of the guide post, and the guide post and the guide groove are matched.

As a further technical scheme of the invention, the auxiliary structure comprises an auxiliary frame, a rotating shaft is arranged on the inner side of the auxiliary frame, an auxiliary roller is arranged in the middle of the rotating shaft, a sliding block is arranged at the bottom of the auxiliary frame, a sliding rail is arranged in the device main body, a rotating seat is arranged on one side of the auxiliary frame, a rotating screw rod is arranged in the rotating seat, a limit nut is arranged on the outer side of the rotating screw rod, a rotating handle is arranged at one end of the rotating screw rod, and a threaded hole is formed in the outer side of the device main body.

As a further technical scheme of the invention, the number of the auxiliary frames is two groups and symmetrically distributed, the rotating shafts and the auxiliary rollers are movably connected, the number of the auxiliary rollers is three times that of the auxiliary frames, the sliding blocks and the sliding rails are matched, the rotating seats and the auxiliary frames are fixedly connected, the rotating screw rods and the rotating seats are rotatably connected, the rotating screw rods and the threaded holes are in threaded connection, the limit nuts and the rotating screw rods are matched, and the rotating screw rods and the rotating handles are fixedly connected.

Advantageous effects

The invention provides a high-efficiency film laminating device for processing a modified asphalt waterproof coiled material. Compared with the prior art, the method has the following beneficial effects:

1. the utility model provides a high-efficient tectorial membrane device of modified asphalt waterproofing membrane processing, through buffer structure's setting, in the auxiliary roller moves down through cylinder and connecting seat, the connecting seat contacts the buffer block at first for the buffer block atress under auxiliary pad as supporting role, makes buffer spring compress, and the guide post moves along the inside of guide way simultaneously, until the distance of connecting seat and heating roller reaches the setting value, the cylinder stops the motion, thereby play better buffering effect, avoid taking place the extrusion between auxiliary roller and the heating roller and cause the phenomenon of damage.

2. The utility model provides a high-efficient tectorial membrane device of modified asphalt waterproofing membrane processing, through auxiliary structure's setting, before the device main part uses, the user will rotate the twist grip through clockwise rotation for the twist grip drives the twist screw and rotates along the inside of screw hole, simultaneously the twist screw rotates along the inside of rotating the seat, thereby drive auxiliary frame and remove to the middle part of device main part, at the removal in-process, the auxiliary frame drives the slider and removes along the slide rail, until removing to suitable position, stop rotating the twist grip, rotate limit nut along the outside of twist screw, until the outside of limit nut hugs closely the device main part, with the twist screw spacing fixed, thereby in the coiled material tectorial membrane in-process, the outside of the tight auxiliary roller of surface subsides of coiled material makes the auxiliary roller rotate along the outside of axis of rotation, thereby improve the spacing effect of coiled material, and is swift in operation, improve its work efficiency.

3. The utility model provides a high-efficient tectorial membrane device of modified asphalt waterproofing membrane processing, through setting up of putting the structure, in the device main part use, after the coiled material tectorial membrane is accomplished, need packing in-process, the user will put the frame and overturn to the rear end of device main part through the recess, secondly remove the movable block, make the movable block remove along the inside of movable groove, make spacing spring compress, drive spacing stake simultaneously and remove along the inside of spacing groove, until spacing stake breaks away from the constraint of spacing groove, pull out the spacing lid outwards along the inboard of fixed slot, under the loose axle as rotating the basis, open the spacing lid, make the coiled material that the tectorial membrane accomplished put into the inside of recess, carry out spacing fixedly with spacing stake and spacing groove, thereby be convenient for put of coiled material, improve its practicality.

Drawings

FIG. 1 is a schematic structural view of a high-efficiency laminating device for processing a modified asphalt waterproof coiled material;

FIG. 2 is an enlarged view of the high-efficiency film laminating device in FIG. 1A for processing the modified asphalt waterproof coiled material;

fig. 3 is a schematic view of a partial structure of an auxiliary structure in a high-efficiency laminating device for processing a modified asphalt waterproof coiled material;

fig. 4 is a schematic diagram of a partial structure of a high-efficiency film laminating device for processing a modified asphalt waterproof coiled material;

FIG. 5 is a partial side cross-sectional view of a high efficiency laminating device for processing a modified asphalt waterproof roll;

fig. 6 is a schematic view of a part of a placement structure in a high-efficiency laminating device for processing a modified asphalt waterproof coiled material;

FIG. 7 is an enlarged view of B in FIG. 5 of a high efficiency laminating apparatus for modified asphalt waterproof roll processing;

fig. 8 is a partial side cross-sectional view of a placement structure in a high-efficiency laminating device for processing a modified asphalt waterproof roll.

In the figure: 1. a device body; 2. a conveying roller; 3. a support frame; 4. a cylinder; 5. a connecting seat; 6. an auxiliary roller; 7. a heating roller; 8. a buffer structure; 81. a buffer block; 82. an auxiliary pad; 83. a buffer spring; 84. a guide post; 85. a guide groove; 9. a transmission structure; 10. a film roll; 11. a speed reducing motor;

12. a wind-up roll; 13. an unreeling roller; 14. an auxiliary structure; 141. an auxiliary frame; 142. a rotating shaft; 143. an auxiliary roller; 144. a slide block; 145. a slide rail; 146. a rotating seat; 147. rotating the screw; 148. a limit nut; 149. rotating the handle; 1410. a threaded hole; 15. a placement structure; 151. a placing rack; 152. a groove; 153. a turnover shaft; 154. a limit cover; 155. a movable shaft; 156. a fixing groove; 157. a moving groove; 158. a moving block; 159. a limit spring; 1510. spacing piles; 1511. a limit groove; 16. and (5) side opening holes.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the invention provides a technical scheme of a high-efficiency laminating device for processing a modified asphalt waterproof coiled material, which comprises the following steps: the utility model provides a high-efficient tectorial membrane device of modified asphalt waterproofing membrane processing, which comprises a device main body 1, transfer roller 2, support frame 3 and cylinder 4, the inside of support frame 3 is provided with connecting seat 5, the middle part of support frame 3 is provided with auxiliary roller 6, the middle part of support frame 3 is provided with heating roller 7, the middle part of support frame 3 is provided with buffer structure 8, the inboard of device main body 1 is provided with transmission structure 9, the upper end of device main body 1 is provided with film roller 10, one side of film roller 10 is provided with gear motor 11, the inside of device main body 1 is provided with wind-up roll 12 and unreel roller 13, the inside of device main body 1 is provided with auxiliary structure 14, the outside of device main body 1 is provided with puts structure 15, side trompil 16 has been seted up in the outside of device main body 1;

the buffer structure 8 comprises a buffer block 81, an auxiliary pad 82 is arranged at the lower end of the buffer block 81, a buffer spring 83 is arranged on the inner side of the auxiliary pad 82, a guide column 84 is arranged on one side of the buffer block 81, and a guide groove 85 is formed on one side of the auxiliary pad 82;

referring to fig. 6-8, the placement structure 15 includes a placement frame 151, a groove 152 is formed at an upper end of the placement frame 151, a turnover shaft 153 is disposed at an inner side of the placement frame 151, a limit cover 154 is disposed at an upper end of the placement frame 151, a movable shaft 155 is disposed at a joint of the placement frame 151 and the limit cover 154, a fixed groove 156 is formed at an upper end of the placement frame 151, a moving groove 157 is formed at an upper end of the placement frame 151, a moving block 158 is disposed in the moving groove 157, a limit spring 159 is disposed at one end of the moving block 158, a limit pile 1510 is disposed at the other end of the moving block 158, and a limit groove 1511 is formed at an outer side of the limit cover 154; the side section of the placing frame 151 is of a C-shaped structure, the number of the grooves 152 is a plurality of groups and is distributed in an array, the placing frame 151 is in rotary connection with the device main body 1 through the turnover shaft 153, the limiting cover 154 is in rotary connection with the placing frame 151 through the movable shaft 155, and the fixed groove 156 is matched with the limiting cover 154; the diameter of the limiting spring 159 is smaller than the width of the moving groove 157, the limiting pile 1510 is of a cylindrical structure, the limiting pile 1510 is fixedly connected with the moving block 158, and the limiting pile 1510 is matched with the limiting groove 1511.

Referring to fig. 1 and 4, further, the number of the supporting frames 3 is two, and the two supporting frames are symmetrically distributed, the air cylinders 4 and the supporting frames 3 are fixedly connected through bolts, the air cylinders 4 are movably connected with the connecting seats 5, the connecting seats 5 are rotatably connected with the auxiliary rollers 6, the heating rollers 7 are rotatably connected with the transmission structure 9, the film rollers 10 are rotatably connected with the reducing motor 11, the wind-up rollers 12 and the unreeling rollers 13 are rotatably connected with the device main body 1, and the number of the side holes 16 is two, and the two groups are symmetrically distributed.

Referring to fig. 2, the number of the buffer blocks 81 is two, the top of the buffer blocks 81 is in an arc structure, the number of the auxiliary pads 82 is several, the buffer springs 83 are smaller than the diameter of the auxiliary pads 82.

The guide post 84 is of a cylindrical structure, the height of the guide post 84 is smaller than that of the buffer spring 83, the diameter of the guide groove 85 is larger than that of the guide post 84, and the guide post 84 is matched with the guide groove 85.

Referring to fig. 3 to 5, the auxiliary structure 14 includes an auxiliary frame 141, a rotating shaft 142 is disposed on the inner side of the auxiliary frame 141, auxiliary rollers 143 are disposed in the middle of the rotating shaft 142, a sliding block 144 is disposed at the bottom of the auxiliary frame 141, a sliding rail 145 is disposed in the device body 1, a rotating seat 146 is disposed on one side of the auxiliary frame 141, a rotating screw 147 is disposed in the rotating seat 146, a limit nut 148 is disposed on the outer side of the rotating screw 147, a rotating handle 149 is disposed at one end of the rotating screw 147, threaded holes 1410 are disposed on the outer side of the device body 1, the auxiliary frames 141 are symmetrically distributed, the rotating shaft 142 and the auxiliary rollers 143 are movably connected, the auxiliary rollers 143 are three times the auxiliary frames 141, the sliding block 144 and the sliding rail 145 are in fit, the rotating seat 146 and the auxiliary frame 141 are fixedly connected, the rotating screw 147 and the threaded holes 147 are in threaded connection, the limit nut 148 and the rotating screw 147 are in fit, and the rotating handle 149 are fixedly connected.

The working principle of the invention is as follows: in the use of the device main body 1, a user starts the transmission structure 9, the transmission structure 9 drives the heating roller 7 to rotate, the heating roller 7 is powered, coiled materials outside the unreeling roller 13 extend to the outer side of the wind-up roller 12 along the inner side of the conveying roller 2 through the auxiliary roller 6 and the heating roller 7, the thin films outside the thin film roller 10 are unreeled through the rotation of the gear motor 11 and are connected with the coiled materials, and the coiled materials are subjected to heating extrusion through the auxiliary roller 6 and the heating roller 7, so that the coiled materials are coated, and the device main body 1 is used.

It should be noted that, through the setting of buffer structure 8, in auxiliary roller 6 moves down through cylinder 4 and connecting seat 5, connecting seat 5 contacts buffer block 81 at first for buffer block 81 atress under auxiliary pad 82 as supporting role, makes buffer spring 83 compress, and guide post 84 moves along the inside of guide slot 85 simultaneously, until the distance of connecting seat 5 and heating roller 7 reaches the setting value, cylinder 4 stops the motion, thereby plays better buffering effect, avoids taking place the extrusion between auxiliary roller 6 and the heating roller 7 and causes the phenomenon of damage.

It should be noted that, through the setting of auxiliary structure 14, before device main part 1 uses, the user will be through clockwise rotation turning handle 149, make turning handle 149 drive turning screw 147 rotate along the inside of screw hole 1410, simultaneously turning screw 147 rotates along the inside of rotating seat 146, thereby drive auxiliary frame 141 to the middle part of device main part 1 and remove, in the course of moving, auxiliary frame 141 drives the slider 144 along the removal of slide rail 145, until remove to suitable position, stop turning handle 149, rotate limit nut 148 along the outside of turning screw 147, until limit nut 148 pastes the outside of device main part 1, limit fixed with turning screw 147, thereby in the coiled material tectorial membrane in-process, the outside of coiled material pastes the outside of auxiliary roller 143, make auxiliary roller 143 rotate along the outside of axis of rotation 142, thereby improve the limiting effect of coiled material, and is swift in operation, improve its work efficiency.

It should be noted that, through setting up of putting structure 15, in the use of device main part 1, after the coiled material tectorial membrane is accomplished, need pack the in-process, the user will put frame 151 and overturn to the rear end of device main part 1 through recess 152, secondly remove movable block 158, make movable block 158 remove along the inside of movable groove 157, make spacing spring 159 compress, drive spacing stake 1510 simultaneously and remove along the inside of spacing groove 1511, until spacing stake 1510 breaks away from the constraint of spacing groove 1511, pull out spacing lid 154 outside along the inboard of fixed slot 156, under loose axle 155 as the rotation basis, open spacing lid 154, make the coiled material that the tectorial membrane is accomplished put into the inside of recess 152, carry out spacing fixedly with spacing stake 1510 and spacing groove 1511, thereby the coiled material of being convenient for put, and its practicality is improved.

It should be noted that, after the placing rack 151 is used, the groove 152 rotates, so that the placing rack 151 is fixed to the inside of the side opening 16, and the placing rack 151 is fixed, and the storage and use are convenient.

Claims (7)

1. The utility model provides a high-efficient tectorial membrane device of modified asphalt waterproofing membrane processing, includes device main part (1), transfer roller (2), support frame (3) and cylinder (4), a serial communication port, the inside of support frame (3) is provided with connecting seat (5), the middle part of support frame (3) is provided with auxiliary structure (6), the middle part of support frame (3) is provided with heating roller (7), the middle part of support frame (3) is provided with buffer structure (8), the inboard of device main part (1) is provided with transmission structure (9), the upper end of device main part (1) is provided with film roller (10), one side of film roller (10) is provided with gear motor (11), the inside of device main part (1) is provided with wind-up roll (12) and unreel roller (13), the inside of device main part (1) is provided with auxiliary structure (14), the outside of device main part (1) is provided with puts structure (15), lateral opening (16) have been seted up in the outside of device main part (1).

The buffer structure (8) comprises a buffer block (81), an auxiliary pad (82) is arranged at the lower end of the buffer block (81), a buffer spring (83) is arranged on the inner side of the auxiliary pad (82), a guide column (84) is arranged on one side of the buffer block (81), and a guide groove (85) is formed in one side of the auxiliary pad (82);

the placing structure (15) comprises a placing frame (151), a groove (152) is formed in the upper end of the placing frame (151), a turnover shaft (153) is arranged on the inner side of the placing frame (151), a limit cover (154) is arranged on the upper end of the placing frame (151), a movable shaft (155) is arranged at the joint of the placing frame (151) and the limit cover (154), a fixed groove (156) is formed in the upper end of the placing frame (151), a movable groove (157) is formed in the upper end of the placing frame (151), a movable block (158) is arranged in the movable groove (157), a limit spring (159) is arranged at one end of the movable block (158), a limit pile (1510) is arranged at the other end of the movable block (158), and a limit groove (1511) is formed in the outer side of the limit cover (154).

The side section of the placing frame (151) is of a C-shaped structure, the number of the grooves (152) is a plurality of groups and is distributed in an array, the placing frame (151) is in rotary connection with the device main body (1) through a turnover shaft (153), the limiting cover (154) is in rotary connection with the placing frame (151) through a movable shaft (155), and the fixed groove (156) is matched with the limiting cover (154);

the movable groove (157) and the movable block (158) are matched, the diameter of the limiting spring (159) is smaller than the width of the movable groove (157), the limiting pile (1510) is of a cylindrical structure, the limiting pile (1510) and the movable block (158) are fixedly connected, and the limiting pile (1510) and the limiting groove (1511) are matched.

2. The efficient film laminating device for processing the modified asphalt waterproof coiled material according to claim 1, wherein the number of the supporting frames (3) is two, the supporting frames (3) are symmetrically distributed, the air cylinders (4) and the supporting frames (3) are fixedly connected through bolts, the air cylinders (4) and the connecting seats (5) are movably connected, the connecting seats (5) and the auxiliary rollers (6) are rotatably connected, the heating rollers (7) and the transmission structure (9) are rotatably connected, and the film rollers (10) and the speed reducing motor (11) are rotatably connected.

3. The efficient film laminating device for processing the modified asphalt waterproof coiled material according to claim 1, wherein the winding roller (12) and the unwinding roller (13) are in rotary connection with the device main body (1), and the number of the side open holes (16) is two groups and is symmetrically distributed.

4. The efficient film laminating device for processing the modified asphalt waterproof coiled material according to claim 1, wherein the number of the buffer blocks (81) is two, the buffer blocks are symmetrically distributed, the tops of the buffer blocks (81) are of arc-shaped structures, the number of the auxiliary pads (82) is a plurality of groups, the auxiliary pads are symmetrically distributed, and the diameter of the buffer springs (83) is smaller than that of the auxiliary pads (82).

5. The efficient film laminating device for processing the modified asphalt waterproof coiled material according to claim 1, wherein the guide post (84) is of a cylindrical structure, the height of the guide post (84) is smaller than that of the buffer spring (83), the diameter of the guide groove (85) is larger than that of the guide post (84), and the guide post (84) is matched with the guide groove (85).

6. The efficient film laminating device for processing the modified asphalt waterproof coiled material according to claim 1, wherein the auxiliary structure (14) comprises an auxiliary frame (141), a rotating shaft (142) is arranged on the inner side of the auxiliary frame (141), an auxiliary roller (143) is arranged in the middle of the rotating shaft (142), a sliding block (144) is arranged at the bottom of the auxiliary frame (141), a sliding rail (145) is arranged in the device main body (1), a rotating seat (146) is arranged on one side of the auxiliary frame (141), a rotating screw (147) is arranged in the rotating seat (146), a limit nut (148) is arranged on the outer side of the rotating screw (147), a rotating handle (149) is arranged at one end of the rotating screw (147), and a threaded hole (1410) is formed in the outer side of the device main body (1).

7. The efficient film laminating device for processing the modified asphalt waterproof coiled material according to claim 6, wherein the number of the auxiliary frames (141) is two groups and symmetrically distributed, the rotation shafts (142) and the auxiliary rollers (143) are movably connected, the number of the auxiliary rollers (143) is three times that of the auxiliary frames (141), the sliding blocks (144) and the sliding rails (145) are matched, the rotation seats (146) and the auxiliary frames (141) are fixedly connected, the rotation screws (147) and the rotation seats (146) are in rotary connection, the rotation screws (147) and the threaded holes (1410) are in threaded connection, the limit nuts (148) and the rotation screws (147) are matched, and the rotation screws (147) and the rotation handles (149) are fixedly connected.