CN218139986U - Automatic equipment for compound scraping strip positioning, compound welding and cutting - Google Patents

Abstract

The utility model discloses a automation equipment that compound welding of compound strip location of scraping was tailor, including high frequency welding mould mechanism, still include conveying mechanism and arrange in proper order along conveying mechanism direction of delivery: around cloth wheelset, around cloth wheelset including main cloth wheel and subsides cloth wheel, be provided with knitting fabric dish on the main cloth wheel to through the subsides cloth wheel direction so that the main scraping strip surface laminating of weaving cloth and conveying mechanism transport, wherein: the high-frequency welding die mechanism is used for enabling the woven cloth to be attached to the surface of the main scraping strip; cutting assembly, cutting assembly include the master cylinder and install in the cutting knife of master cylinder output, and the cutting knife is driven in order to cut by the main strip of scraping that has woven cloth to depending on by the master cylinder. The utility model discloses an automation equipment who provides, scrape a surface laminating through knitting cloth dish and main, the high frequency welding mould mechanism welds, and the cutting knife is received the master cylinder drive and is cut with scraping the strip to depending on the main of having woven cloth to realize automated production.

Description

Automatic equipment for cutting composite scraping strip positioning composite welding

Technical Field

The utility model relates to an automation equipment technical field relates to a automation equipment that compound scraping strip location hybrid welding tailors particularly.

Background

In the production of the scraper bar, fiber woven cloth and the like are assembled and welded on the scraper bar to form the composite scraper bar, so that the cleaning effect of the scraper bar is enhanced, and meanwhile, the scraper bar can be cut into the length of a manufacturing standard according to the requirement.

Can see out in the production of the scraper bar among the above-mentioned scraper bar and can't realize scraping the strip location, hybrid welding and tailor integration production to can cause and need the workman to link up and operate between each process, this has just caused the increase of manufacturing cost, and is inefficient simultaneously, slow scheduling problem of production speed, the urgent need to solve in order to improve production to above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a compound automation equipment of scraping strip location hybrid welding and tailorring can realize the location of scraping the strip, hybrid welding and tailor automated production to accelerate production speed, reduce the consumption of the manpower and materials between each process simultaneously.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides an automation equipment that compound scraping strip location hybrid welding was tailor, includes high frequency welding mould mechanism, still includes conveying mechanism and follows conveying mechanism direction of delivery arranges in proper order:

around cloth wheelset, including main cloth wheel and subsides cloth wheel around cloth wheelset, be provided with knitting fabric cloth dish on the main cloth wheel to through the direction of subsides cloth wheel so that weave cloth with the laminating of the main scraping strip surface that conveying mechanism carried, wherein:

the high-frequency welding die mechanism is used for enabling the woven cloth to be attached to the surface of the main scraping strip;

the cutting assembly comprises a main cylinder and a cutting knife arranged at the output end of the main cylinder, and the cutting knife is driven by the main cylinder to cut the main scraping strip attached to the woven cloth.

Preferably, the high-frequency welding die mechanism comprises a high-frequency welding machine and a main board positioned at the top of the high-frequency welding machine, wherein a pressing base is fixedly installed on the main board, and a high-frequency welding die body movably arranged on the pressing base is driven to be pressed on a main scraping strip adhered with woven cloth on the pressing base.

As preferred, fixed mounting has the mounting panel on the mainboard, still including rotating first auxiliary wheel, second auxiliary wheel, first spacing round and the spacing round of second that sets up on the mounting panel respectively around cloth wheel group, the cloth of weaving on the main cloth wheel passes respectively between first auxiliary wheel and the second auxiliary wheel to reverse winding in the cloth wheel of subsides through the below of second auxiliary wheel, main scraping strip pass respectively between first spacing round and the spacing round of second and pass through the below conveying of cloth wheel in on the pressure base station.

Preferably, conveying mechanism is including being located the top of mainboard and being located the main platform and the supplementary platform of founding of pressing base station one side, the activity is provided with servo motor on the main platform of founding, and servo motor's output end fixed mounting has the drive wheel, and the main platform of founding and supplementary and found between the platform axial rotation be provided with the drive wheel each other roll with the supplementary driving wheel of drive main scraping strip.

Preferably, the cutting assembly further comprises a cutting table which is located between the main vertical table and the auxiliary vertical table and located on one side of the driving wheel, the main scraping strip is movably arranged on the cutting table, a cutter joint is fixedly arranged at the output end of the main cylinder, the cutter is fixedly arranged on the cutter joint, and the cutter is arranged on the cutting table in a sliding mode.

Preferably, a guide frame is arranged on one side of the cutting table, a blanking hole is formed in the position, below the guide frame, of the main board, and a detection unit is fixedly mounted on one side of the guide frame.

In the technical scheme, the utility model provides a pair of automation equipment that compound scraping strip fixed position hybrid welding tailed possesses following beneficial effect: through conveying mechanism and edge conveying mechanism direction of delivery arranges in proper order around cloth wheelset, high frequency welds mould mechanism and cutting assembly, through conveying mechanism drive around the cloth wheelset with the knitting cloth dish on the main cloth wheel through cloth wheel and main scraping strip surface laminating to make the knitting cloth depend on main scraping strip through high frequency welds mould mechanism on the surface, conveying mechanism continues the transmission simultaneously and is located cutting assembly with main scraping strip that makes after the cloth is woven in the laminating, cutting knife among the cutting assembly is driven by the master cylinder and is cut with main scraping strip that depends on to have the knitting cloth, thereby the realization is tailor to the automatic welding of main scraping strip.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic view of an overall structure provided by an embodiment of the present invention;

fig. 2 is a schematic structural view of a conveying mechanism provided in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a cutting assembly according to an embodiment of the present invention;

fig. 4 is an enlarged schematic structural diagram of a position a provided by the embodiment of the present invention.

Description of reference numerals:

1. a main scraping strip; 2. a high frequency welding die mechanism; 3. a main board; 4. a main stand; 5. a servo motor; 6. a master cylinder; 7. a detection unit; 8. a main cloth wheel; 21. a high frequency welder; 22. pressing a base table; 23. welding the die body by high frequency welding; 31. a guide frame; 32. a blanking hole; 33. mounting a plate; 41. a standing assisting platform; 51. a drive wheel; 52. an auxiliary wheel; 61. a cutting frame; 62. a cutter joint; 63. a cutting knife; 64. cutting the table; 81. a first auxiliary wheel; 82. a second auxiliary wheel; 83. a cloth pasting wheel; 84. a first limiting wheel; 85. a second limiting wheel.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-4, an automatic device for positioning, welding and cutting composite scraping strips comprises a high-frequency welding die mechanism 2, a conveying mechanism and a cutting mechanism sequentially arranged along the conveying direction of the conveying mechanism:

around cloth wheelset, include main cloth wheel 8 and cloth sticking wheel 83 around cloth wheelset, be provided with knitting cloth dish on the main cloth wheel 8 to through cloth sticking wheel 83 direction so that weave cloth and the laminating of the main scudding 1 surface that conveying mechanism carried, wherein:

the high-frequency welding die mechanism 2 is used for enabling the woven cloth to be attached to the surface of the main scraping strip 1;

cutting assembly, cutting assembly include the master cylinder 6 and install in the cutting knife 63 of the 6 output ends of master cylinder, and cutting knife 63 receives the drive of master cylinder 6 to scrape strip 1 and cut with the main of having the woven cloth of attaching to. Through conveying mechanism and edge conveying mechanism direction of delivery arranges in proper order around the cloth wheelset, high frequency welds mould mechanism 2 and cutting assembly, through conveying mechanism drive around the cloth wheelset in order to take turns 8 main braided fabric cloth dish through cloth wheel 83 with main scraping 1 surface laminating of scraping, and make through high frequency welds mould mechanism 2 and weave cloth and depend on main scraping 1 on the surface, conveying mechanism continues the transmission simultaneously so that the laminating weaves the main scraping 1 behind the cloth and is located cutting assembly, cutting knife 63 among the cutting assembly is driven by main cylinder 6 and scrapes 1 with the main scraping 1 that has the cloth of weaving in order to depending on, thereby realize scraping 1's automation welding of scraping 1 and tailorring main.

As shown in fig. 1, as the technical solution provided by the present invention, in order to weld the woven fabric on the main strip 1, the high-frequency welding mold mechanism 2 includes the high-frequency welder 21 and the main board 3 located at the top of the high-frequency welder 21, the pressing base 22 is fixedly installed on the main board 3, and the high-frequency welding mold body 23 movably installed on the pressing base 22 is driven to press the main strip 1 adhered with the woven fabric on the pressing base 22, so as to weld the woven fabric on the main strip 1, and meanwhile, for the woven fabric on the main strip 1, the woven fabric is woven by high-strength fiber, and the driven mode of the high-frequency welding mold body 23 can be the electric driving rod pushing, or the hydraulic rod is connected with the connecting rod, or the motor is connected with the gear and the rack, that is, or any known driving mode is applicable.

Further, in order to make the main cloth wheel 8 capable of pasting and weaving cloth to the main wiper strip 1, the main plate 3 is fixedly provided with the mounting plate 33, the cloth wheel group further comprises a first auxiliary wheel 81, a second auxiliary wheel 82, a first limit wheel 84 and a second limit wheel 85 which are respectively rotatably arranged on the mounting plate 33, the first auxiliary wheel 81 and the second auxiliary wheel 82 are arranged in an up-and-down symmetrical mode, the first auxiliary wheel 81 is positioned above the second auxiliary wheel 82, the main cloth wheel 8 is positioned on the right side of the first auxiliary wheel 81, the woven cloth on the main cloth wheel 8 respectively passes through the first auxiliary wheel 81 and the second auxiliary wheel 82 and is reversely wound on the cloth pasting wheel 83 through the lower portion of the second auxiliary wheel 82, so that the first auxiliary wheel 81 and the second auxiliary wheel 82 can enhance the pulling force applied to the main cloth wheel 8 to enable the main cloth wheel 8 to be tightened, and therefore when the cloth pasting wheel 83 is used for pasting the main wiper strip 1, the main wiper strip 1 and the main wiper strip 84 and the limit wheel 84 and the second auxiliary wheel 83 are respectively welded on the base station 22 and are pressed through the welding base station 22.

Further, in order to drive the main wiper strip 1 to move, the conveying mechanism comprises a main stand table 4 and an auxiliary stand table 41 which are located at the top of the main board 3 and located on one side of the pressing base table 22, a servo motor 5 is movably arranged on the main stand table 4, a driving wheel 51 is fixedly installed at the output end of the servo motor 5, an auxiliary wheel 52 which is mutually rolled with the driving wheel 51 to drive the main wiper strip 1 is axially and rotatably arranged between the main stand table 4 and the auxiliary stand table 41, the driving wheel 51 is driven by the servo motor 5, and the auxiliary wheel 52 is matched to mutually roll the main wiper strip 1, so that the main wiper strip 1 is driven to move, and meanwhile, when the main wiper strip 1 moves, a braided fabric cloth disc arranged on the main cloth wheel 8 rotates to place the cloth strip along with the movement of the braided cloth on the main wiper strip 1.

Furthermore, in order to cut the main bar scraper 1 which is adhered and welded with the woven fabric, the cutting assembly further comprises a cutting table 64 which is positioned between the main standing table 4 and the auxiliary standing table 41 and is positioned on one side of the driving wheel 51, the main bar scraper 1 is movably arranged on the cutting table 64, a cutter joint 62 is fixedly arranged at the output end of the main cylinder 6, a cutter 63 is fixedly arranged on the cutter joint 62, a cutting frame 61 is fixedly arranged at the top of the main plate 3, the main cylinder 6 is fixedly arranged on the cutting frame 61, and the cutter 63 is driven by the main cylinder 6 to slide on the cutting table 64, so that the main bar scraper 1 on the cutting table 64 is cut.

More specifically, in order to cut the main bar 1 after the woven cloth has been pasted and welded, a guide frame 31 is arranged on one side of the cutting table 64, the main bar 1 after the woven cloth has been pasted and welded slides on the guide frame 31, and the main board 3 is located below the guide frame 31 and is provided with a blanking hole 32, a detection unit 7 is fixedly mounted on one side of the guide frame 31, the detection unit 7 can be any detection device such as a touch switch and a pressure detector, a touch switch is selected here, and a touch switch matching control circuit board (at least comprising a programmable single chip and a controllable program) is electrically connected to the main cylinder 6, when the main bar 1 in the guide frame 31 moves along with the driving of the driving wheel 51 and is abutted against the touch switch, the control circuit board controls the main cylinder 6 to drive the cutting knife 63 to cut the main bar 1, and the cut main bar 1 is finished after falling from the blanking hole 32.

The working principle is as follows: the driving wheel 51 is driven by the servo motor 5 and cooperates with the auxiliary wheel 52 to roll the main scraping strip 1 with each other, thereby driving the main scraping strip 1 to move, meanwhile, when the main scraping strip 1 moves, the braided fabric cloth disc arranged on the main cloth wheel 8 rotates along with the movement of the braided fabric on the main scraping strip 1 to put the cloth, the braided fabric on the main cloth wheel 8 respectively passes through the first auxiliary wheel 81 and the second auxiliary wheel 82 and reversely winds on the cloth pasting wheel 83 through the lower part of the second auxiliary wheel 82, thereby using the cloth pasting wheel 83 to paste the braided fabric on the main scraping strip 1, the main scraping strip 1 passes through the first limiting wheel 84 and the second limiting wheel 85 and is transmitted on the pressing base 22 through the lower part of the cloth pasting wheel 83, and is driven to act on the main scraping bar 1 of pressing the base station 22 through the high-frequency welding die body 23, thereby weld the woven cloth on the main scraping bar 1, drive wheel 51 on the servo motor 5 cooperates with the auxiliary wheel 52 to make it move to the cutting bed 64 in order to roll main scraping bar 1 each other simultaneously, and slide in the guide frame 31, when main scraping bar 1 in the guide frame 31 moves and contradicts in touch switch along with drive wheel 51 drive, control circuit board control main cylinder 6 so that its drive cutting knife 63 cuts the main scraping bar 1 on the cutting bed 64, main scraping bar 1 after cutting this moment is accomplished from unloading hole 32 whereabouts.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (6)

1. The utility model provides an automation equipment that compound welding of compound strip location was tailor, includes high frequency welding mould mechanism (2), its characterized in that still includes conveying mechanism and follows conveying mechanism direction of delivery arranges in proper order:

around the cloth wheelset, around cloth wheelset including main cloth wheel (8) and cloth pasting wheel (83), be provided with knitting fabric dish on main cloth wheel (8) to lead through cloth pasting wheel (83) so that weave cloth with the laminating of main scraping strip (1) surface that conveying mechanism carried, wherein:

the high-frequency welding die mechanism (2) is used for enabling the woven cloth to be attached to the surface of the main scraping strip (1);

the cutting assembly comprises a main cylinder (6) and a cutting knife (63) installed at the output end of the main cylinder, and the cutting knife (63) is driven by the main cylinder (6) to cut the main scraping strip (1) attached with the woven cloth.

2. The automatic composite scraping strip positioning, composite welding and cutting equipment as claimed in claim 1, wherein the high-frequency welding die mechanism (2) comprises a high-frequency welding machine (21) and a main board (3) positioned at the top of the high-frequency welding machine (21), a pressing base (22) is fixedly mounted on the main board (3), and a high-frequency welding die body (23) movably arranged on the pressing base (22) is driven to be pressed on the main scraping strip (1) adhered with woven cloth on the pressing base (22).

3. The automation equipment that compound scraping list fixed position hybrid welding was tailor according to claim 2, characterized in that fixed mounting has mounting panel (33) on mainboard (3), it still includes first jockey pulley (81), second jockey pulley (82), first spacing wheel (84) and the spacing wheel of second (85) of rotation setting on mounting panel (33) respectively to wind round assembly of cloth, weave cloth on the main cloth wheel (8) and pass respectively between first jockey pulley (81) and second jockey pulley (82) to through the below of second jockey pulley (82) reverse winding on pasting cloth wheel (83), main scraping list (1) pass respectively between first spacing wheel (84) and the spacing wheel of second (85) and pass through the below of pasting cloth wheel (83) and convey in on pressing base platform (22).

4. The automatic equipment for the positioning, composite welding and cutting of the composite scraping strips according to claim 1 is characterized in that the conveying mechanism comprises a main stand (4) and an auxiliary stand (41) which are located at the top of the main board (3) and located on one side of the pressing base (22), a servo motor (5) is movably arranged on the main stand (4), a driving wheel (51) is fixedly mounted at the output end of the servo motor (5), and an auxiliary wheel (52) which is mutually rolled with the driving wheel (51) to drive the main scraping strips (1) is axially and rotatably arranged between the main stand (4) and the auxiliary stand (41).

5. The automatic equipment for the positioning, welding and cutting of the composite scraping strips according to claim 1 is characterized in that the cutting assembly further comprises a cutting table (64) which is located between the main vertical table (4) and the auxiliary vertical table (41) and located on one side of the driving wheel (51), the main scraping strips (1) are movably arranged on the cutting table (64), the output end of the main cylinder (6) is fixedly provided with a cutter joint (62), the cutting knife (63) is fixedly arranged on the cutter joint (62), and the cutting knife (63) is slidably arranged on the cutting table (64).

6. The automatic equipment for positioning, welding and cutting of composite scraping strips according to claim 5 is characterized in that a guide frame (31) is arranged on one side of the cutting table (64), a blanking hole (32) is formed in the position, below the guide frame (31), of the main board (3), and a detection unit (7) is fixedly mounted on one side of the guide frame (31).

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