CN115971582A - Burr polishing equipment for switch panel production - Google Patents

Abstract

The invention belongs to the field of switch panel polishing, and particularly relates to burr polishing equipment for switch panel production, which comprises a shell, a transmission roller A, a motor A, a polishing belt mechanism, a transmission roller B, a motor B, a transmission belt mechanism, a cleaning mechanism, a pressing plate and an electric push rod, wherein three hexagonal transmission rollers B which are distributed in an inverted triangle shape are installed in the shell which is installed in a suspension way through a support, and two transmission rollers B which are horizontally distributed are driven by the two motors B in a one-to-one correspondence manner. According to the invention, batch switch panels conveyed by the conveying belt mechanism are effectively polished by matching the polishing belt and the conveying belt mechanism, so that mechanical automation improvement of a traditional manual polishing mode is realized, the polishing cost of the switch panels is effectively reduced, and the polishing efficiency of the switch panels is effectively improved.

Description

Burr polishing equipment for switch panel production

Technical Field

The invention belongs to the field of switch panel polishing, and particularly relates to rough edge polishing equipment for switch panel production.

Background

The production technology and the use principle of a common household electrical element of a lamp socket switch are mature, and the working appearance and the production quality of the socket switch are mainly improved continuously at present.

In electric light socket switch production, the outward appearance of switch has directly been decided as switch housing's flush mounting plate of switch, and flush mounting plate need carry out deckle edge to its surface or limit arris after its production and polish, and the efficiency of polishing of the equipment that current was polished the flush mounting plate deckle edge is lower, and the full-automatic polishing of low-cost high efficiency of difficult realization to the flush mounting plate of switch.

The invention designs a burr polishing device for switch panel production to solve the problems.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention discloses a burr polishing device for producing a switch panel, which is realized by adopting the following technical scheme.

A burr polishing device for switch panel production comprises a shell, a transmission roller A, a motor A, a polishing belt mechanism, a transmission roller B, a motor B, a transmission belt mechanism, a cleaning mechanism, a pressing plate and an electric push rod, wherein three hexagonal transmission rollers B which are distributed in an inverted triangle shape are installed in the shell which is installed in a suspension mode through a support, and two transmission rollers B which are horizontally distributed are driven by the two motors B in a one-to-one correspondence mode; the three conveying rollers B are provided with conveying belt mechanisms which are used for conveying the switch panels in batches and are formed by hinging section plates matched with the conveying rollers B, and the section plates of the conveying belt mechanisms are provided with structures for preventing the switch panels with different sizes; a pressing plate which is driven by two electric push rods to press and fix the batch switch panels on the conveying belt mechanism is vertically moved above the conveying belt mechanism; two transmission rollers A which are driven by two motors A in a one-to-one correspondence manner are arranged in the shell and positioned between two transmission rollers B which are horizontally distributed, and a polishing belt mechanism for polishing the lower ends of batch switch panels on the transmission belt mechanism is arranged on the two transmission rollers A; and a cleaning mechanism for brushing and cleaning the polishing debris attached to the polishing belt mechanism is arranged below the polishing belt mechanism.

The belt polishing mechanism comprises a belt, supporting blocks and a scraping cutter group, wherein the supporting blocks for hanging and supporting the switch panel on the belt of the two transmission rollers A and the scraping cutter group for polishing burrs at the lower end of the switch panel are arranged on the belt of the two transmission rollers A in a staggered and dense mode, the part, matched with the switch panel, on the belt is horizontally supported by a plurality of supporting rollers horizontally and uniformly arranged in the shell, and the part, matched with the switch panel, on the belt is in a horizontal structure.

The scraping knife group comprises an elastic rod, side knives and positive knives, wherein six downward-bent arc-shaped side knives and four positive knives with the height larger than that of the supporting block are arranged at the tail end of the elastic rod arranged on the belt; six arc-shaped side cutters are symmetrically distributed at two side positions in the moving direction of the belt, and four positive cutters are symmetrically distributed at the front side position and the rear side position in the moving direction of the belt; the cutting edges of the side cutter and the positive cutter are positioned on the same spherical surface.

As a further improvement of the technology, two roll shafts B where the two horizontally distributed transmission rollers B are located are in transmission connection with output shafts of corresponding motors B respectively; two roll shafts A where the two transmission rollers A are located are in transmission connection with output shafts of corresponding motors A respectively.

As a further improvement of the technology, L blocks which are matched with the guide rails on the corresponding side wall in the shell and horizontally support the part, on which the switch panel is arranged, of the transmission belt mechanism are densely arranged on two sides of the belt along the length direction of the belt respectively.

As a further improvement of the technology, the conveying belt mechanism comprises a plurality of sections, an adjusting plate, a guide rod and a bolt, wherein the sections which are sequentially hinged end to end are provided with three square grooves which are distributed at intervals along the width of the belt and used for placing the switch panel; guide rods are arranged in the sliding grooves on the four walls of each square groove in a sliding mode, and each guide rod is provided with an adjusting plate matched with the side wall of the switch panel placed in the square groove; and a bolt matched with the corresponding guide rod is screwed in the threaded hole on the wall surface of each sliding groove.

As a further improvement of the technology, the adjusting plate is provided with a guide inclined plate which guides the switch panel to enter and is in clamping convex fit with the side wall of the switch panel.

As a further improvement of the technology, the cleaning mechanism comprises a cleaning roller, bristles, a roller shaft C, a motor C, a collecting box A and an air suction pump, wherein the bristles for cleaning the belt, supporting blocks and polishing scraps attached to a scraping cutter group are densely distributed on the cleaning roller arranged below the belt in the shell through the roller shaft C, and the roller shaft C is in transmission connection with an output shaft of the motor C on the shell; the side wall of the bottom plate of the collecting box A which is arranged in the shell and is positioned below the cleaning roller is communicated with an air suction pump fixed outside the shell through a hose.

As a further improvement of the present technology, a collection box B that collects the switch panels dropped from the conveyor mechanism is installed below the conveyor mechanism.

Compared with the traditional switch panel polishing equipment, the switch panel polishing equipment has the advantages that batch switch panels conveyed by the conveying belt mechanism are effectively polished through the matching of the polishing belt and the conveying belt mechanism, so that the mechanical automation improvement of the traditional manual polishing mode is realized, the polishing cost of the switch panel is effectively reduced, and the polishing efficiency of the switch panel is effectively improved. The structure of the scraping knife group can scrape and polish the burrs at the lower end of the switch panel in an all-dimensional manner, so that the burrs on the lower end edge of each side wall of the switch panel are efficiently polished, and the polishing efficiency is improved. The invention has simple structure and better use effect.

Drawings

Fig. 1 is an overall schematic of the present invention.

Fig. 2 is a schematic cross-sectional view from two viewing angles of the present invention.

Figure 3 is a schematic cross-sectional view of a cleaning structure for a sanding belt.

FIG. 4 is a longitudinal cross-sectional view of the press plate, switch panel, conveyor mechanism and polishing belt.

FIG. 5 is a schematic cross-sectional view of the gear A, the pressing plate, the switch panel, the transmission belt mechanism and the polishing belt.

FIG. 6 is a schematic diagram of the structure of the conveyor belt mechanism and the segment plate.

Fig. 7 is a schematic illustration of a segment plate.

Figure 8 is a schematic of the structure on the sanding belt.

Fig. 9 is a schematic view of the scraper assembly from two perspectives.

Number designation in the figures: 1. a support; 2. a housing; 3. a transfer roller A; 4. a roll shaft A; 5. a motor A; 6. a belt; 7. l blocks; 8. a supporting block; 9. a scraping cutter set; 10. an elastic rod; 12. side cutting; 13. correcting the cutter; 14. a guide rail; 15. a support roller; 16. a transfer roller B; 17. a roll shaft B; 18. a motor B; 19. a conveyor belt mechanism; 21. a panel is saved; 23. a square groove; 24. a chute; 25. an adjusting plate; 26. a guide bar; 27. a bolt; 29. cleaning the roller; 30. brushing; 31. a roll shaft C; 32. a motor C; 33. a collecting box A; 34. a getter pump; 35. a collecting box B; 36. pressing a plate; 37. an electric push rod; 38. a switch panel; 39. clamping convex; 40. a belt polishing mechanism; 41. a cleaning mechanism.

Detailed description of the preferred embodiments

The drawings are schematic illustrations of the implementation of the present invention to facilitate understanding of the principles of structural operation. The specific product structure and the proportional size are determined according to the use environment and the conventional technology.

As shown in fig. 1 and 2, the grinding machine comprises a shell 2, a transmission roller A3, a motor A5, a grinding belt mechanism 40, a transmission roller B16, a motor B18, a transmission belt mechanism 19, a cleaning mechanism 41, a pressing plate 36 and an electric push rod 37, wherein as shown in fig. 2, 4 and 6, three hexagonal transmission rollers B16 which are distributed in an inverted triangle shape are installed in the shell 2 which is installed in a suspension way through a support 1, and the two transmission rollers B16 which are horizontally distributed are correspondingly driven by the two motors B18 one by one; the three conveying rollers B16 are provided with a conveying belt mechanism 19 which is used for conveying the switch panels 38 in batches and is formed by hinging node plates 21 matched with the conveying rollers B16, and the node plates 21 of the conveying belt mechanism 19 are provided with structures for preventing the switch panels 38 with different sizes; a pressing plate 36 which is driven by two electric push rods 37 to press and fix the batch switch panel 38 on the transmission belt mechanism 19 is vertically moved above the transmission belt mechanism 19; two transmission rollers A3 which are driven by two motors A5 in a one-to-one correspondence manner are arranged in the shell 2 and are positioned between two transmission rollers B16 which are horizontally distributed, and a polishing belt mechanism 40 for polishing the lower ends of batch switch panels 38 on the transmission belt mechanism 19 is arranged on the two transmission rollers A3; a cleaning mechanism 41 for cleaning the grinding debris adhered to the grinding belt mechanism 40 by brushing is arranged below the grinding belt mechanism 40.

As shown in fig. 2 and 3, the polishing belt mechanism 40 includes a belt 6, support blocks 8, and a scraping knife group 9, wherein the support blocks 8 for suspending and supporting the switch panel 38 of the conveying belt mechanism 19 and the scraping knife group 9 for performing burr polishing on the lower end of the switch panel 38 are alternately and densely distributed on the belt 6 mounted on the two conveying rollers A3, a part of the belt 6 cooperating with the switch panel 38 is horizontally supported by a plurality of support rollers 15 uniformly mounted horizontally in the housing 2, and the belt 6 has a structure that the part cooperating with the switch panel 38 thereon is horizontal.

As shown in fig. 9, the scraping knife group 9 comprises an elastic rod 10, side knives 12 and positive knives 13, wherein six downward bent arc-shaped side knives 12 and four positive knives 13 with the height greater than that of the supporting block 8 are installed at the tail end of the elastic rod 10 installed on the belt 6; six arc-shaped side cutters 12 are symmetrically distributed at two side positions in the moving direction of the belt 6, and four positive cutters 13 are symmetrically distributed at the front side position and the rear side position in the moving direction of the belt 6; the cutting edges of the side cutters 12 and the front cutters 13 are positioned on the same spherical surface.

As shown in fig. 2, two roller shafts B17 where the two horizontally distributed transmission rollers B16 are located are in transmission connection with output shafts of corresponding motors B18, respectively; two roll shafts A4 where the two transmission rollers A3 are located are in transmission connection with output shafts of corresponding motors A5 respectively.

As shown in fig. 5 and 8, L blocks 7, which are engaged with the guide rails 14 on the corresponding side walls in the housing 2 and horizontally support the portion of the belt conveying mechanism 19 where the switch panel 38 is installed, are densely installed on both sides of the belt 6 along the longitudinal direction thereof.

As shown in fig. 6, the conveyor belt mechanism 19 includes a plurality of segments 21, an adjusting plate 2521, a guide rod 26, and a bolt 27, wherein as shown in fig. 4, 6, and 7, the segments 21, which are sequentially hinged end to end, each have three square grooves 23 spaced apart along the width of the belt 6 and used for placing the switch panel 38; guide rods 26 are arranged in the sliding grooves 24 on the four walls of each square groove 23 in a sliding manner, and each guide rod 26 is provided with an adjusting plate 2521 matched with the side wall of the switch panel 38 placed in the square groove 23; a bolt 27 is screwed into the threaded hole in the wall of each runner 24 to engage with the corresponding guide bar 26.

As shown in fig. 5, the adjusting plate 2521 has a slant guiding plate for guiding the switch panel 38 to enter and engage with the lateral protrusions 39 of the switch panel 38.

As shown in fig. 2 and 3, the cleaning mechanism 41 includes a cleaning roller 29, bristles 30, a roller shaft C31, a motor C32, a collecting box a33, and a suction pump 34, wherein as shown in fig. 2 and 3, the cleaning roller 29 mounted below the belt 6 through the roller shaft C31 in the housing 2 is densely distributed with the bristles 30 for cleaning the belt 6, the supporting block 8, and the grinding chips attached to the scraper group 9, and the roller shaft C31 is in transmission connection with an output shaft of the motor C32 on the housing 2; the side wall of the bottom plate of the collection tank A33 which is installed in the housing 2 and is positioned below the cleaning roller 29 is communicated with a suction pump 34 fixed outside the housing 2 through a hose.

As shown in fig. 1 and 2, a collection box B35 for collecting the switch panel 38 dropped from the conveyor mechanism 19 is installed below the conveyor mechanism 19.

The working process of the invention is as follows:

when the switch panel 38 needs to be batch-polished by using the invention, the adjusting plate 2521 in the groove 23 above each segment plate 21 on the transmission belt mechanism 19 is adjusted according to the size of the switch panel 38, and the adjusting steps are as follows: the bolt 27 corresponding to each adjustment plate 2521 is rotated to unlock the corresponding guide rod 26, and the four adjustment plates 2521 in each square groove 23 are fixed, so that the space between the four adjustment plates 2521 in each square groove 23 matches the size of the switch panel 38 to be processed. After the position of the adjusting plate 2521 is adjusted, the bolt 27 is tightened again to fix the position of the adjusting plate 2521. During adjustment of the adjustment plates 2521 in the slots 23 above each of the segments 21, activation of the two motors B18 at multiple times moves the belt mechanism 19 so that the adjustment plates 2521 in the slots 23 above all of the segments 21 thereon are fully adjusted.

After the adjustment of the adjusting plate 2521 in the belt conveying mechanism 19 is finished, the two motors B18 are started, and the two motors B18 simultaneously drive the belt conveying mechanism 19 to move slowly through the corresponding conveying rollers B16. Meanwhile, the two electric push rods 37 drive the pressing plate 36 to move downwards by a certain range, so that the distance between the pressing plate 36 and the supporting block 8 in the belt polishing mechanism 40 is equal to the height of the switch panel 38.

Then, the starting motor C32 and the air pump run and synchronously start the two motors A5 to run in a reciprocating manner, the motor C32 drives the cleaning roller 29 to rotate, and the cleaning roller 29 drives the bristles 30 on the cleaning roller to brush and clean the belt 6 of the polishing belt mechanism 40, the supporting block 8 on the belt 6 and the scraper group 9. The two motors A5 simultaneously drive the belt polishing mechanism 40 to reciprocate in units of the entire length of the belt polishing mechanism 40 through the respective transfer rollers A3.

Then, the switch panel 38 is manually placed into the groove 23 above each segment plate 21 of the conveyor mechanism 19 from above one of the conveyor rollers B16 through the opening at the upper end of the housing 2, and the catch 39 on the side of the switch panel 38 interacts with the inclined guide plates of the four adjustment plates 2521 in the corresponding square groove 23 to prevent the switch panel 38 from falling from the square groove 23 in the suspended state of the conveyor mechanism 19.

The switch panel 38 placed in the square groove 23 moves towards the polishing belt mechanism 40 along with the transmission of the transmission belt mechanism 19, when the switch panel 38 reaches the polishing belt mechanism 40 along with the transmission belt mechanism 19, the switch panel reaches the lower part of the pressing plate 36 through the flaring end at one end of the pressing plate 36 and is pressed and fixed on the square groove 23 by the pressing plate 36, the lower end of the switch panel 38 pressed by the pressing plate 36 is in a suspended state under the support of the supporting blocks 8 densely distributed on the polishing belt mechanism 40, so that the scraping knife group 9 densely distributed on the polishing belt mechanism 40 can effectively scrape and polish the burrs at the lower end edge of the switch panel 38.

The lower edge burr of the switch panel 38 entering below the pressing plate 36 is effectively ground by the scraper group 9 of the reciprocating grinding belt mechanism 40. The grinding chips scraped off from the switch panel 38 adhere to the support block 8 of the belt mechanism 19, the scraping cutter group 9 and the belt 6 due to electrostatic action and move synchronously with the grinding belt mechanism 40. When the grinding chips adhered to the grinding belt mechanism 40 reach the cleaning roller 29, the grinding chips adhered to the grinding belt mechanism 40 are brushed down by the bristles 30 on the cleaning roller 29 and fall into the collection tank a33 below and are discharged under the negative pressure generated by the air pump.

The switch panel 38 located below the pressing plate 36 is effectively polished by the scraping knife set 9 densely distributed on the polishing belt mechanism 40 which reciprocates in the process that the switch panel 38 moves along with the conveying belt mechanism 19, and the polished switch panel 38 finally breaks away from the square groove 23 on the conveying belt mechanism 19 under the action of self weight along with the movement of the conveying belt mechanism 19 and falls into the collecting box B35 below.

In conclusion, the beneficial effects of the invention are as follows: according to the invention, the batch-time switch panel 38 conveyed by the conveying belt mechanism 19 is effectively polished through the matching of the polishing belt and the conveying belt mechanism 19, so that the mechanical automation improvement of the traditional manual polishing mode is realized, the polishing cost of the switch panel 38 is effectively reduced, and the polishing efficiency of the switch panel 38 is effectively improved. The structure of the scraping knife group 9 in the invention can scrape and polish the burrs at the lower end of the switch panel 38 in all directions, so that the burrs on the lower end edge of each side wall of the switch panel 38 are efficiently polished, and the polishing efficiency is improved.

Claims (7)

1. The utility model provides a deckle edge equipment of polishing of flush mounting plate production usefulness which characterized in that: the grinding belt cleaning device comprises a shell, a transmission roller A, a motor A, a grinding belt mechanism, a transmission roller B, a motor B, a transmission belt mechanism, a cleaning mechanism, a pressing plate and an electric push rod, wherein three hexagonal transmission rollers B which are distributed in an inverted triangle manner are installed in the shell which is installed in a suspension manner through a support, and the two transmission rollers B which are horizontally distributed are correspondingly driven by the two motors B one by one; the three conveying rollers B are provided with a conveying belt mechanism which is used for conveying the switch panels in batches and is formed by hinging section plates matched with the conveying rollers B, and the section plates of the conveying belt mechanism are provided with structures for preventing the switch panels with different sizes; a pressing plate which is driven by two electric push rods to press and fix the batch switch panels on the conveying belt mechanism is vertically moved above the conveying belt mechanism; two transmission rollers A which are driven by two motors A in a one-to-one correspondence manner are arranged in the shell and positioned between two transmission rollers B which are horizontally distributed, and a polishing belt mechanism for polishing the lower ends of batch switch panels on the transmission belt mechanism is arranged on the two transmission rollers A; a cleaning mechanism for brushing and cleaning the polishing debris attached to the polishing belt mechanism is arranged below the polishing belt mechanism;

the belt polishing mechanism comprises belts, supporting blocks and scraping cutter sets, wherein the supporting blocks for hanging and supporting a switch panel on the belt conveying mechanism and the scraping cutter sets for polishing burrs at the lower end of the switch panel are arranged on the belts of the two conveying rollers A in a staggered and dense mode, the part, matched with the switch panel, on each belt is horizontally supported by a plurality of supporting rollers horizontally and uniformly arranged in the shell, and the belt is provided with a structure for enabling the part, matched with the switch panel, on each belt to be horizontal;

the scraping cutter group comprises an elastic rod, side cutters and positive cutters, wherein the tail end of the elastic rod arranged on the belt is provided with six downward-bent arc-shaped side cutters and four positive cutters, and the heights of the six downward-bent arc-shaped side cutters and the four positive cutters are larger than that of the supporting block; six arc-shaped side cutters are symmetrically distributed at two side positions in the moving direction of the belt, and four positive cutters are symmetrically distributed at the front side position and the rear side position in the moving direction of the belt; the cutting edges of the side cutter and the positive cutter are positioned on the same spherical surface.

2. The burr grinding device for the production of switch panels according to claim 1, wherein: two roll shafts B where the two horizontally distributed transmission rollers B are located are in transmission connection with output shafts of corresponding motors B respectively; two roll shafts A where the two transmission rollers A are located are in transmission connection with output shafts of corresponding motors A respectively.

3. The burr grinding device for the production of switch panels according to claim 1, wherein: and L blocks which are matched with the guide rails on the corresponding side wall in the shell and horizontally support the part, on which the switch panel is arranged, of the transmission belt mechanism are densely arranged on two sides of the belt along the length direction of the belt.

4. The burr grinding device for the production of switch panels according to claim 1, wherein: the conveying belt mechanism comprises a plurality of joint plates, an adjusting plate, a guide rod and a bolt, wherein three square grooves which are distributed at intervals along the width of the belt and used for placing the switch panel are formed in the joint plates which are sequentially hinged end to end; guide rods are arranged in the sliding grooves on the four walls of each square groove in a sliding mode, and each guide rod is provided with an adjusting plate matched with the side wall of the switch panel placed in the square groove; and a bolt matched with the corresponding guide rod is screwed in the threaded hole on the wall surface of each sliding groove.

5. The burr grinding device for the production of switch panels according to claim 4, wherein: the adjusting plate is provided with a guide inclined plate which guides the switch panel to enter and is in clamping convex fit with the side wall of the switch panel.

6. The burr grinding device for the production of switch panels according to claim 1, wherein: the cleaning mechanism comprises a cleaning roller, bristles, a roller shaft C, a motor C, a collecting box A and an air suction pump, wherein the bristles for cleaning polishing scraps attached to a belt, a supporting block and a scraping cutter group are densely distributed on the cleaning roller arranged below the belt in the shell through the roller shaft C, and the roller shaft C is in transmission connection with an output shaft of the motor C on the shell; the side wall of the bottom plate of the collecting box A which is arranged in the shell and is positioned below the cleaning roller is communicated with an air suction pump fixed outside the shell through a hose.

7. The burr grinding device for the production of switch panels according to claim 1, wherein: and a collecting box B for collecting the switch panel falling from the conveying belt mechanism is arranged below the conveying belt mechanism.

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