CN110665767A - Manual rubber coating equipment of banding strip - Google Patents

Abstract

The invention belongs to the technical field of manual gluing, and particularly relates to edge sealing strip manual gluing equipment which comprises an installation shell, a glue spreader, a gear adjusting device and an isolation inclined plate. When the glue spreading device is placed at ordinary times without work, the glue spreading roller is arranged upwards, and glue liquid which is extruded out by the isolation inclined plate under the state flows into the rear area of the isolation inclined plate from a gap between the upper end of the isolation inclined plate and the upper end surface in the installation shell along the isolation inclined plate under the action of gravity, namely the glue liquid recycling device also has a certain glue liquid recycling function.

Description

Manual rubber coating equipment of banding strip

Background

Present panel is after production and processing, and the panel edge is more level and smooth, but the marginal zone edges and corners of panel is clear, receives the damage easily, in case the edge of panel receives the damage back in addition, makes the damaged area expand whole panel easily, makes the quality of panel receive the influence, consequently need carry out the banding to panel, need laminate the banding strip on the lateral wall of plank promptly.

The existing woodworking industry generally adopts manual gluing on the inner side surface of the edge banding, and the manual gluing is roughly divided into two types, namely manually brushing the edge banding by a brush, but the method increases the labor intensity of workers; the other method is to brush the edge banding through a small glue spreader; the small glue spreader is provided with a glue outlet, and the glue outlet speed can be adjusted according to different gears; when the gluing device is used, the edge sealing strip is manually pulled to move, so that the inner side surface of the edge sealing strip is in contact with a glue outlet of the gluing machine, glue is coated on the edge sealing strip, but the gluing uniformity of the edge sealing strip is judged by a worker through the operation experience of the worker, the moving speed of the edge sealing strip determines the gluing uniformity, and if the worker is inexperienced, the gluing is not uniform, and the glue is easily wasted; therefore, it is necessary to design a uniform gluing device which can uniformly glue and does not need to depend on the moving speed of the edge sealing strip after gear adjustment.

The invention designs an edge banding manual gluing device which solves the problems.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention discloses a manual gluing device for an edge banding, which is realized by adopting the following technical scheme.

The utility model provides a manual rubber coating equipment of banding strip which characterized in that: the glue spreading device comprises a mounting shell, a glue spreading roller, a gear adjusting device and an isolating inclined plate, wherein the lower end of the mounting shell is provided with a square opening which is communicated with the inside and the outside, the lower end surface of the inner side of the mounting shell is an inclined surface, and one end of the inclined surface, which is close to the square opening, is a pressing inclined surface; the glue spreader is rotatably arranged in the mounting shell through a supporting rotating shaft and is close to a square opening on the mounting shell; the glue spreading roller is fixedly arranged with the supporting rotating shaft; the outer circular surface of the glue spreader is sequentially provided with a rubber ring and a plush ring from inside to outside, and the plush ring is matched with a pressing inclined surface in the mounting shell; the larger the down ring is compressed by the compression inclined plane, the less glue is brought out by the down ring, so the glue amount which can be brought out in the unit perimeter of the down ring can be controlled by controlling the compression degree of the down ring by the compression inclined plane, namely the density of the glue applied to the edge sealing strip corresponding to the unit perimeter of the down ring can be controlled when the edge sealing strip is applied; two ends of the isolation inclined plate are fixedly arranged on two side surfaces in the installation shell, a gap is formed between the upper end of the isolation inclined plate and the upper end surface of the inner side of the installation shell, and the lower end of the isolation inclined plate is in press contact fit with a rubber ring arranged on the glue spreader; the installation shell is divided into a left area and a right area by the isolation inclined plate, and the glue solution is positioned in the area of one side of the separation inclined plate with the inclined surface; and a gear adjusting device for adjusting the extrusion degree between the outer circular surface of the plush ring and the pressing inclined surface in the mounting shell is arranged on the outer side of the mounting shell.

In the invention, because the glue spreader and the edge sealing strip move relatively, the glue spreader rotates due to the friction of the edge sealing strip, the rotation of the glue spreader can drive the plush ring to move relatively to the edge sealing strip, the plush ring can smear the adsorbed glue solution on the edge sealing strip in the process of moving relatively to the edge sealing strip, the amount of the glue solution smeared in the unit length of the edge sealing strip is determined by the contact stroke of the plush ring and the edge sealing strip, the distance smeared on the edge sealing strip by the plush ring rotating for one circle is the perimeter of the plush ring, that is, the amount of glue coating of the edge banding of unit length by the plush ring is irrelevant to the rotating speed of the plush ring, the plush ring rotates fast, the length of the contacted edge banding is relatively long, the plush ring rotates slowly, the length of the contacted edge banding is relatively short, and the amount of glue solution in the unit circumference on the plush ring is controlled by the gear adjusting device, so that the uniformity of coating the glue solution on the edge banding is ensured.

The lower end of the isolation sloping plate is in extrusion contact with the rubber ring arranged on the glue spreader, when the plush ring is in a gluing process, if glue solution is remained in an area of the plush ring away from the unsealing edge strip, the lower end of the isolation sloping plate can extrude the segment of plush ring after the segment of area is in contact with the lower end of the isolation sloping plate, the glue solution on the plush ring is extruded and left on one side of the isolation sloping plate, and the plush ring with the squeezed glue solution rotates to an area for storing the glue solution again, namely, when the plush ring is in contact with the glue solution again, the glue solution on the plush ring is in a basically cleaned state, the amount of the plush ring adsorbing the glue solution again is basically kept unchanged, namely, the glue solution amount of the plush ring coated on the seal edge strip is basically unchanged each time; the glue solution on the edge banding strip is ensured to be evenly smeared.

As a further improvement of the technology, the gear adjusting device comprises a protective cover, a swinging plate, an arc-shaped rack, an adjusting rack, a shifting block and a gear latch, wherein two arc-shaped guide grooves which are communicated from inside to outside are symmetrically formed in two sides of the mounting shell, and two ends of a supporting rotating shaft for mounting the glue coating roller correspondingly penetrate through the two arc-shaped guide grooves and are positioned outside the mounting shell; the two fixed shafts are symmetrically arranged on the two side surfaces of the mounting shell, and the axes of the two fixed shafts, the lower ends of the isolation inclined plates and contact lines formed by the contact of the rubber rings are collinear; one ends of the two swing plates are respectively arranged at two ends of the supporting rotating shaft in a rotating fit manner, and the other ends of the two swing plates are respectively arranged on the two fixed shafts in a rotating fit manner; the arc-shaped rack is installed on one side of the installation shell through the supporting guide rail, one end of the arc-shaped rack is fixedly connected to one of the two swinging plates which is located on the same side as the arc-shaped rack, and one end of the arc-shaped rack, which is connected with the corresponding swinging plate, is close to the supporting rotating shaft; a sliding groove is formed in the protective cover, gear teeth are mounted in the sliding groove, and the protective cover is fixedly mounted on one side of the mounting shell; the adjusting rack is arranged on the protective cover through the U-shaped guide plate, and the adjusting rack and the arc-shaped rack are in transmission through the gear; a shifting block is arranged on the adjusting rack, one end of the shifting block, which is far away from the adjusting rack, penetrates through a chute on the protective cover and is positioned outside the protective cover, and the shifting block is matched with gear teeth on the protective cover; the reason why the axes of the two fixed shafts, the lower ends of the isolating inclined plates and the contact lines formed by the rubber rings in a contact mode are collinear is that when the glue outlet amount is adjusted through the gear adjusting device, the lower ends of the isolating inclined plates can be always in contact with the rubber rings in the process that the glue spreader swings around the fixed shafts, and glue liquid brought up by the plush rings is extruded and left on the front sides of the isolating inclined plates.

As a further improvement of the technology, the adjusting rack and the arc-shaped rack are driven by a first gear and a second gear, a gear rotating shaft is arranged on the side surface of the mounting shell through a bearing, the first gear and the second gear are fixedly arranged on the gear rotating shaft, the first gear is meshed with the arc-shaped rack, and the second gear is meshed with the adjusting rack; the radius of the second gear is larger than the radius of the first gear.

As a further improvement of the present technology, the radius of the second gear is 5 times the radius of the first gear.

In the invention, gear teeth are arranged in a sliding groove formed in a protective cover, and the movement of a shifting block is divided into three gears by the gear teeth, wherein the three gears are respectively corresponding to three different intervals; the gear is leaned on more, and the interval that compresses tightly between the inclined plane in plush ring and the installation casing is just bigger, and it is just more to go out the volume of gluing, and the glue spreader rotates the glue solution that the round was glued out and is more.

The reason why the radius of the second gear is larger than that of the first gear is that in order to ensure that the distance between the plush ring and the pressing inclined plane in the mounting shell is not too large, so that glue solution flows out, the adjusting variable of the distance between the plush ring and the pressing inclined plane in the mounting shell cannot be too large, but when people adjust the shifting block, in order to better determine the adjusting degree, the distance between shifting blocks needing to shift gears and move is ensured to be within a certain range, and people can better observe the gear shifting condition; through the change of first gear and second gear drive ratio, guarantee the distance that the shifting block removed at the gear shift in-process, both can satisfy the demand that people observed, simultaneously plush ring and installation casing internal pressure down the adjustment variable of the interval between the inclined plane can not be because too big yet, and lead to the glue solution oneself to flow.

As a further improvement of the technology, one end of the mounting shell, which is not provided with the square opening, is provided with a handle which is convenient for people to operate by hands.

As a further improvement of the technology, a one-way clutch is arranged between one of the two swing plates far away from the gear adjusting device and the outer circular surface of the corresponding end of the supporting rotating shaft; the one-way clutch only allows the glue spreader to rotate in one direction and can drive the glue solution to be discharged to rotate; when the glue spreader drives the glue solution to flow out, the rotating direction of the glue spreader is set due to the structural design, if people use the glue spreader for the first time and the rotating direction of the driving glue spreader is reversed, the glue spreader cannot rotate, and people can recognize that the glue spreader is mistakenly used and then correct the glue spreader.

As a further improvement of the technology, a rocker is arranged at one end of the supporting rotating shaft, which is far away from the arc-shaped rack.

As a further improvement of the technology, the upper end face of the mounting shell is provided with a glue adding hole for adding glue solution, and the glue adding hole is sealed by a plunger.

As a further improvement of the technology, the swinging plate is connected with the fixed shaft through a bearing.

As a further improvement of the technology, two ends of the isolation inclined plate are fixedly installed in the installation shell in a welding mode.

Compared with the traditional manual gluing technology, the invention has the following beneficial effects:

1. according to the gluing equipment designed by the invention, in the relative movement process of the glue spreader and the edge sealing strip, the glue spreader can drive the plush ring to move relative to the edge sealing strip, the plush ring can apply adsorbed glue on the edge sealing strip, the amount of glue applied in the unit length of the edge sealing strip is determined by the amount of the contact stroke of the plush ring and the edge sealing strip, namely the amount of glue applied to the edge sealing strip in the unit length by the plush ring is irrelevant to the rotation speed of the plush ring, the plush ring rotates fast, the length of the contacted edge sealing strip is relatively longer, the plush ring rotates slowly, the length of the contacted edge sealing strip is relatively shorter, and the amount of glue applied in the unit circumference of the plush ring is controlled by the gear adjusting device, so that the uniformity of glue application on the edge sealing strip is ensured.

2. According to the gluing equipment designed by the invention, when the gluing equipment is not in work and is placed at ordinary times, the glue spreading roller is arranged upwards, and under the state, glue liquid which is extruded by the isolation inclined plate flows into the rear side area of the isolation inclined plate from a gap between the upper end of the isolation inclined plate and the upper end surface in the installation shell along the isolation inclined plate under the action of gravity, namely the equipment also has a certain recovery function, and the glue liquid which is extruded by the isolation inclined plate and is arranged at the front side of the isolation inclined plate is recovered into the rear side area of the isolation inclined plate for recycling.

Drawings

Fig. 1 is an external view of an entire part.

Fig. 2 is a schematic view of the overall component distribution.

Fig. 3 is a schematic plan view of the entire part.

Figure 4 is a schematic view of the plunger and glue roll installation.

Fig. 5 is a schematic view of the mounting housing structure.

Fig. 6 is a schematic structural view of the gear adjusting device.

Fig. 7 is a schematic view of the adjustment rack and paddle distribution.

FIG. 8 is a schematic view of the adjustment rack and paddle installation.

Fig. 9 is a schematic view showing an operation state and a placement state of the apparatus.

Number designation in the figures: 1. installing a shell; 2. a plunger; 3. glue spreading roller; 4. a rubber ring; 5. a gear adjusting device; 6. a plush ring; 7. a support shaft; 8. isolating the inclined plate; 9. a handle; 10. a bevel; 11. an arc-shaped guide groove; 12. a fixed shaft; 13. a square opening; 14. a protective cover; 15. a swinging plate; 17. a first gear; 18. a second gear; 19. supporting the guide rail; 20. an arc-shaped rack; 21. a rocker; 22. a one-way clutch; 23. a U-shaped guide plate; 24. adjusting the rack; 25. shifting blocks; 26. a chute; 27. gear clamping teeth; 28. a gear shaft; 29. glue adding holes; 30. the inclined plane is compressed.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples or figures are illustrative of the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1, 2 and 3, the glue spreader comprises an installation shell 1, a glue spreader 3, a gear adjusting device 5 and an isolation inclined plate 8, wherein as shown in fig. 5, the lower end of the installation shell 1 is provided with a square opening 13 which is through inside and outside, the lower end surface of the inner side of the installation shell 1 is an inclined surface 10, and one end of the inclined surface 10 close to the square opening 13 is a pressing inclined surface 30; as shown in fig. 3 and 4, the glue spreader 3 is rotatably mounted in the mounting housing 1 through the supporting rotating shaft 7, and the glue spreader 3 is close to the square opening 13 on the mounting housing 1; the glue spreader 3 and the supporting rotating shaft 7 are fixedly arranged; as shown in fig. 4, the rubber ring 4 and the plush ring 6 are sequentially arranged on the outer circular surface of the glue spreader 3 from inside to outside, and the plush ring 6 is matched with the pressing inclined surface 30 in the mounting shell 1; the larger the down ring 6 is pressed by the pressing inclined plane 30, the less glue is adsorbed and taken out by the down ring 6, so that the amount of the glue which can be taken out in the unit perimeter of the down ring 6 can be controlled by controlling the degree of the down ring 6 pressed by the pressing inclined plane 30, that is, the density of the glue coated on the edge sealing strip when the edge sealing strip corresponding to the unit perimeter of the down ring 6 is coated can be controlled; two ends of the isolation inclined plate 8 are fixedly arranged on two side surfaces in the installation shell 1, a gap is formed between the upper end of the isolation inclined plate 8 and the upper end surface of the inner side of the installation shell 1, and the lower end of the isolation inclined plate 8 is in press contact fit with the rubber ring 4 arranged on the glue spreader 3; the installation shell 1 is divided into a left area and a right area by an isolation inclined plate 8, and glue solution is positioned in the area of one side of the isolation inclined plate, which is provided with an inclined surface 10; and a gear adjusting device 5 for adjusting the extrusion degree between the outer circular surface of the plush ring 6 and the pressing inclined surface 30 in the mounting shell 1 is arranged on the outer side of the mounting shell 1.

In the invention, because the glue spreader 3 rotates due to the friction of the edge banding in the relative movement process of the glue spreader 3 and the edge banding, the plush ring 6 can be driven to move relative to the edge banding by the rotation of the glue spreader 3, the adsorbed glue solution can be smeared on the edge banding in the relative movement process of the plush ring 6 and the edge banding, the amount of the glue solution smeared in the unit length of the edge banding is determined by the contact stroke of the plush ring 6 and the edge banding, the distance smeared on the edge banding by the plush ring 6 rotating for one circle is the perimeter of the plush ring 6, namely the glue amount of the edge banding of the unit length smeared by the plush ring 6 has no relation with the rotation speed of the plush ring 6, the plush ring 6 rotates fast, the length of the contacted edge banding is relatively long, the plush ring 6 rotates slow, the length of the contacted edge banding is relatively short, and the amount of the glue solution in the unit perimeter of the plush ring 6 is controlled by the gear adjusting device 5, the uniformity of glue smearing on the edge sealing strip is ensured.

In the invention, the lower end of the isolating inclined plate 8 is in press contact with and matched with the rubber ring 4 arranged on the glue spreader 3, when the plush ring 6 is in the gluing process, if glue solution is remained in the area of the plush ring 6 away from the unsealing edge strip, the lower end of the isolating inclined plate 8 can extrude the section of plush ring 6 after the section of area is contacted with the lower end of the isolating inclined plate 8, the glue solution on the plush ring 6 is extruded and left at one side of the isolating inclined plate 8, and the plush ring 6 extruded with the glue solution rotates to the area for storing the glue solution again, namely, the glue solution on the plush ring 6 is in a basically cleaned state when the plush ring 6 is contacted with the glue solution again, the amount of the glue solution adsorbed by the plush ring 6 again is basically kept unchanged, namely, the glue solution amount of the plush ring 6 coated on the unsealing edge strip is basically unchanged each time; the glue solution on the edge banding strip is ensured to be evenly smeared.

As shown in fig. 6, the gear adjusting device 5 includes a protective cover 14, a swing plate 15, an arc-shaped rack 20, an adjusting rack 24, a shifting block 25, and a gear latch 27, wherein as shown in fig. 5, two arc-shaped guide slots 11 penetrating inside and outside are symmetrically formed on two sides of the mounting housing 1, and two ends of the supporting rotating shaft 7 for mounting the glue roller 3 correspondingly penetrate through the two arc-shaped guide slots 11 and are located outside the mounting housing 1; the two fixed shafts 12 are symmetrically arranged on two side surfaces of the mounting shell 1, and the axes of the two fixed shafts 12, the lower end of the isolation inclined plate 8 and a contact line formed by the contact of the rubber ring 4 are collinear; as shown in fig. 6, one end of each of the two swing plates 15 is mounted on the two ends of the supporting shaft 7 by a rotation fit, and the other end of each of the two swing plates 15 is mounted on the two fixed shafts 12 by a rotation fit; the arc-shaped rack 20 is installed on one side of the installation shell 1 through the support guide rail 19, one end of the arc-shaped rack 20 is fixedly connected to one swing plate 15 which is located on the same side of the arc-shaped rack 20 in the two swing plates 15, and one end of the arc-shaped rack 20 connected with the corresponding swing plate 15 is close to the support rotating shaft 7; as shown in fig. 8, a sliding groove 26 is formed on the protective cover 14, gear teeth are installed in the sliding groove 26, and the protective cover 14 is fixedly installed on one side of the installation shell 1; as shown in fig. 7 and 8, the adjusting rack 24 is mounted on the protective cover 14 through the U-shaped guide plate 23, and the adjusting rack 24 and the arc-shaped rack 20 are in gear transmission; a shifting block 25 is arranged on the adjusting rack 24, one end of the shifting block 25, which is far away from the adjusting rack 24, penetrates through a sliding groove 26 on the protective cover 14 and is positioned outside the protective cover 14, and the shifting block 25 is matched with gear teeth on the protective cover 14; the reason why the axes of the two fixed shafts 12 and the contact lines formed by the contact of the lower ends of the isolating inclined plates 8 and the rubber ring 4 are arranged to be collinear is that when the glue outlet amount is adjusted by the gear adjusting device 5, the lower ends of the isolating inclined plates 8 are always in contact with the rubber ring 4 in the process that the glue spreader 3 swings around the fixed shafts 12, and glue brought on the plush rings 6 is squeezed and left on the front sides of the isolating inclined plates 8.

As shown in fig. 7, the adjusting rack 24 and the arc-shaped rack 20 are driven by the first gear 17 and the second gear 18, the gear rotating shaft 28 is mounted on the side surface of the mounting housing 1 through a bearing, the first gear 17 and the second gear 18 are fixedly mounted on the gear rotating shaft 28, the first gear 17 is meshed with the arc-shaped rack 20, and the second gear 18 is meshed with the adjusting rack 24; the radius of the second gear 18 is larger than the radius of the first gear 17.

The radius of the second gear 18 is 5 times the radius of the first gear 17.

As shown in fig. 7 and 8, in the present invention, gear teeth are installed in a sliding slot 26 formed on the protective cover 14, and the movement of the shift block 25 is divided into three gears by the gear teeth, wherein the three gears correspond to three different intervals respectively; the more the gear is, the larger the distance between the plush ring 6 and the pressing inclined plane 30 in the mounting shell 1 is, the more the glue outlet amount is, and the more the glue solution is adhered out when the glue spreader 3 rotates for one circle.

The reason why the radius of the second gear 18 is larger than that of the first gear 17 in the invention is that in order to ensure that the distance between the plush ring 6 and the pressing inclined surface 30 in the mounting shell 1 is not too large, which causes the glue to flow out, the adjusting variable of the distance between the plush ring 6 and the pressing inclined surface 30 in the mounting shell 1 cannot be too large, but when people adjust the shifting block 25, in order to better determine the adjusting degree, the distance between the shifting block 25 and the shifting movement needs to be ensured within a certain range, and people can better observe the shifting condition; through the change of the transmission ratio of the first gear 17 and the second gear 18, the moving distance of the shifting block 25 in the gear shifting process is ensured, the observation requirement of people can be met, and meanwhile, the adjustment variable of the distance between the plush ring 6 and the pressing inclined plane 30 in the mounting shell 1 cannot cause the glue solution to flow out by itself because of overlarge distance.

As shown in fig. 5, a handle 9 for facilitating manual operation is mounted on one end of the mounting case 1, which is not provided with the square opening 13.

As shown in fig. 6, a one-way clutch 22 is installed between one of the two swing plates 15, which is far away from the gear adjusting device 5, and the outer circular surface of the corresponding end of the supporting rotating shaft 7; the one-way clutch 22 is used for only allowing the glue spreader 3 to rotate in one direction and driving the glue solution to rotate in the direction of discharging; because when the glue spreader 3 drives the glue solution to flow out, the rotating direction of the glue spreader 3 is set due to the structural design, if people use the glue spreader for the first time, if the rotating direction of the glue spreader 3 is reversed, the glue spreader 3 can not rotate, and people can recognize that the glue spreader is used wrongly and then correct the glue spreader.

As shown in fig. 6, a rocker 21 is mounted on an end of the support shaft 7 away from the arc-shaped rack 20.

As shown in fig. 4, a glue adding hole 29 for adding a glue solution is formed in the upper end surface of the mounting case 1, and the glue adding hole 29 is sealed by the plunger 2.

The swing plate 15 is connected with the fixed shaft 12 through a bearing.

The two ends of the isolation inclined plate 8 are fixedly installed in the installation shell 1 in a welding mode.

The specific working process is as follows: when the gluing device designed by the invention is used, as shown in b in fig. 9, glue solution is firstly added, the glue spreading roller 3 is upward, when the glue solution is added, the glue spreading roller 3 is placed upward, and then the glue solution is injected into the installation shell 1 through the glue adding hole 29 and is positioned in the area at the rear side of the isolation inclined plate 8; when the glue solution is horizontally aligned with the lowest point of the glue adding hole 29, the glue solution adding is stopped, then the glue licking hole is sealed by the plunger 2, as shown in a in fig. 9, when the device is used, the device is lifted, and the glue solution in the installation shell 1 falls.

According to the characteristics of the edge sealing strip and the wood board, the amount of glue solution to be adsorbed in the unit circumference of the plush ring 6 is determined, then a proper gear is selected, when the gear is selected, the dial block 25 is manually dialed to enable the dial block 25 to slide in a sliding groove 26 formed in the protective cover 14, the dial block 25 slides to drive the adjusting rack 24 to move, the adjusting rack 24 moves to drive the second gear 18 to rotate, the second gear 18 rotates to drive the gear rotating shaft 28 to rotate, the gear rotating shaft 28 rotates to drive the first gear 17 to rotate, the first gear 17 rotates to drive the arc-shaped rack 20 to rotate, the arc-shaped rack 20 rotates to drive the swinging plate 15 fixedly connected with the arc-shaped rack 20 to swing around the fixed shaft 12, the swinging plate 15 swings to drive the supporting rotating shaft 7 to swing around the arc-shaped guide groove 11 formed in the mounting shell 1, the supporting rotating shaft 7 swings to drive the glue coating roller 3 to swing around the axis of the fixed shaft 12, the glue coating, so that the gap between the plush ring 6 and the pressing inclined plane 30 in the mounting shell 1 is enlarged or reduced, and the glue output is further adjusted; after the adjustment is finished, the glue spreader 3 is placed on the edge sealing strip, the gluing equipment is pulled to move, in the moving process of the gluing equipment, the glue spreader 3, the plush rings 6 and the rubber rings 4 rotate under the friction of the edge sealing strip, the plush rings 6 rotate to absorb glue in the mounting shell 1, and after the plush rings 6 absorbing the glue are contacted with the edge sealing strip, the plush rings 6 adhere the glue to the edge sealing strip; after the plush ring 6 absorbing the glue is contacted with and separated from the edge sealing strip, some glue can be remained on the plush ring 6, when the plush ring 6 rotates continuously and is contacted with the lower end of the isolating inclined plate 8, the lower end of the isolating inclined plate 8 can extrude the plush ring 6, the glue remained on the plush ring 6 is extruded and is left at the front side of the isolating inclined plate 8, and the plush ring 6 extruded with the glue solution rotates to the area for storing the glue solution again, namely, the glue solution on the plush ring 6 is in a basically cleaned state when the plush ring 6 is contacted with the glue solution again each time; when the device is placed after the work is finished, the glue coating roller 3 faces upwards, in this state, the glue solution extruded by the isolation inclined plate 8 and positioned on the front side of the isolation inclined plate 8 flows into the rear side area of the isolation inclined plate 8 along the isolation inclined plate 8 under the action of gravity from the gap between the upper end of the isolation inclined plate 8 and the upper end surface in the installation shell 1, namely the device also has a certain recovery function, and the glue solution extruded by the isolation inclined plate 8 and positioned on the front side of the isolation inclined plate 8 is recovered into the rear side area of the isolation inclined plate 8 for recycling, so that the device designed by the invention is suitable for clean places.

As shown in b in fig. 9, when people wash the gluing device, cleaning water is added to the area, where the glue solution is originally stored, in the installation shell 1 through the glue adding hole 29, then the support rotating shaft 7 is rotated manually through the rocker 21, the support rotating shaft 7 rotates to drive the glue coating roller 3 to rotate, the glue coating roller 3 rotates to drive the rubber ring 4 and the plush ring 6 mounted thereon to rotate, the plush ring 6 absorbs the cleaning water in the installation shell 1 during the rotation of the plush ring 6, after the plush ring 6 is contacted with the lower end of the isolation inclined plate 8, the lower end of the isolation inclined plate 8 presses the plush ring 6 to squeeze the cleaning water on the plush ring 6, the plush ring 6 is washed, and simultaneously the squeezed cleaning water flows into the area, where the glue solution flows along the isolation inclined plate 8, and the water cleans the isolation inclined plate 8 during the flow storage; meanwhile, the cleaning water in the mounting shell 1 is stirred by the rotation of the plush ring 6, so that the cleaning water rolls to clean an area originally storing glue solution, and after cleaning, the cleaned sewage is discharged through the glue adding hole 29.

Claims (10)

1. The utility model provides a manual rubber coating equipment of banding strip which characterized in that: the method is characterized in that: the method is characterized in that: the glue spreading device comprises a mounting shell, a glue spreading roller, a gear adjusting device and an isolating inclined plate, wherein the lower end of the mounting shell is provided with a square opening which is communicated with the inside and the outside, the lower end surface of the inner side of the mounting shell is an inclined surface, and one end of the inclined surface, which is close to the square opening, is a pressing inclined surface; the glue spreader is rotatably arranged in the mounting shell through a supporting rotating shaft and is close to a square opening on the mounting shell; the glue spreading roller is fixedly arranged with the supporting rotating shaft; the outer circular surface of the glue spreader is sequentially provided with a rubber ring and a plush ring from inside to outside, and the plush ring is matched with a pressing inclined surface in the mounting shell; two ends of the isolation inclined plate are fixedly arranged on two side surfaces in the installation shell, a gap is formed between the upper end of the isolation inclined plate and the upper end surface of the inner side of the installation shell, and the lower end of the isolation inclined plate is in press contact fit with a rubber ring arranged on the glue spreader; the installation shell is divided into a left area and a right area by the isolation inclined plate, and the glue solution is positioned in the area of one side of the separation inclined plate with the inclined surface; and a gear adjusting device for adjusting the extrusion degree between the outer circular surface of the plush ring and the pressing inclined surface in the mounting shell is arranged on the outer side of the mounting shell.

2. The manual gluing device of claim 1, wherein: the gear adjusting device comprises a protective cover, a swinging plate, an arc-shaped rack, an adjusting rack, a shifting block and gear clamping teeth, wherein two arc-shaped guide grooves which are communicated from inside to outside are symmetrically formed in two sides of the mounting shell; the two fixed shafts are symmetrically arranged on the two side surfaces of the mounting shell, and the axes of the two fixed shafts, the lower ends of the isolation inclined plates and contact lines formed by the contact of the rubber rings are collinear; one ends of the two swing plates are respectively arranged at two ends of the supporting rotating shaft in a rotating fit manner, and the other ends of the two swing plates are respectively arranged on the two fixed shafts in a rotating fit manner; the arc-shaped rack is installed on one side of the installation shell through the supporting guide rail, one end of the arc-shaped rack is fixedly connected to one of the two swinging plates which is located on the same side as the arc-shaped rack, and one end of the arc-shaped rack, which is connected with the corresponding swinging plate, is close to the supporting rotating shaft; a sliding groove is formed in the protective cover, gear teeth are mounted in the sliding groove, and the protective cover is fixedly mounted on one side of the mounting shell; the adjusting rack is arranged on the protective cover through the U-shaped guide plate, and the adjusting rack and the arc-shaped rack are in transmission through the gear; the adjusting rack is provided with a shifting block, one end of the shifting block, which is far away from the adjusting rack, penetrates through a chute in the protective cover to be positioned outside the protective cover, and the shifting block is matched with gear teeth on the protective cover.

3. The manual gluing device of claim 2, wherein: the adjusting rack and the arc-shaped rack are in transmission through a first gear and a second gear, a gear rotating shaft is arranged on the side surface of the mounting shell through a bearing, the first gear and the second gear are fixedly arranged on the gear rotating shaft, the first gear is meshed with the arc-shaped rack, and the second gear is meshed with the adjusting rack; the radius of the second gear is larger than the radius of the first gear.

4. The manual gluing device of claim 3, wherein: the radius of the second gear is 5 times of the radius of the first gear.

5. The manual gluing device of claim 1, wherein: the end of the mounting shell, which is not provided with the square opening, is provided with a handle which is convenient for people to operate by hands.

6. The manual gluing device of claim 1, wherein: and a one-way clutch is arranged between one of the two swing plates far away from the gear adjusting device and the outer circular surface of the corresponding end of the supporting rotating shaft.

7. The manual gluing device of claim 1, wherein: the rocker is installed to the one end that arc rack was kept away from to above-mentioned support pivot.

8. The manual gluing device of claim 1, wherein: and the upper end surface of the mounting shell is provided with a glue adding hole for adding glue solution, and the glue adding hole is sealed by a plunger.

9. The manual gluing device of claim 1, wherein: the swing plate is connected with the fixed shaft through a bearing.

10. The manual gluing device of claim 1, wherein: the two ends of the isolation inclined plate are fixedly arranged in the installation shell in a welding mode.

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