CN217702299U - Gear type stainless steel product edge processing equipment - Google Patents

Abstract

The utility model discloses a gear type stainless steel product edge processing device, which comprises a frame, a pressing mechanism, a pushing mechanism, a mounting seat, a processing device, a positioning rotary table for placing the stainless steel product, and a rotary driving mechanism capable of driving the positioning rotary table to rotate, wherein the pushing mechanism comprises a first guide rail, a first slider and a gear type driving mechanism, the gear type driving mechanism comprises a pushing motor, a gear, a pipe positive seat and a rack, the pushing motor and the pipe positive seat are both arranged on the frame, and the gear is arranged on a power output shaft of the pushing motor; the rack is slidably mounted on the tube positive seat, parallel to the first guide rail, meshed with the gear, and the mounting seat is connected with the rack. The gear type stainless steel product edge processing equipment is simpler to control, and when the size of a stainless steel product is changed too much, the gear type driving mechanism does not need to be replaced due to the size change of the stainless steel product, and can be suitable for processing more stainless steel products with different sizes.

Description

Gear type stainless steel product edge processing equipment

Technical Field

The utility model relates to a stainless steel product processing equipment, in particular to gear formula stainless steel product edge machining equipment.

Background

The stainless steel product is made of stainless steel material, and has the characteristics of smooth and firm surface, difficult accumulation of dirt and convenient cleaning, so the stainless steel product is widely applied to the fields of building material decoration, food processing, catering, brewing, chemical engineering and the like.

In order to make the edge of the stainless steel product smooth and round and prevent the hand from being cut, the edge of the stainless steel product needs to be trimmed, turned, trimmed, curled, rolled, pressed or pushed. At present, the edges of stainless steel products are processed, most workers use an edge cutting device, an edge turning device, an edge trimming device, a curling device, a binding device, an edge pressing device or an edge pushing device to perform different processing on the stainless steel products, manual processing cannot well position the stainless steel products, the stainless steel products are easily deformed in the processing process, and the working efficiency is low.

Therefore, the applicant designs a stainless steel product edge processing device which comprises a rack, a pressing mechanism, a pushing mechanism, a mounting seat, a processing tool, a positioning rotary table and a rotary driving mechanism, wherein the positioning rotary table can be used for placing the stainless steel product, the rotary driving mechanism can drive the positioning rotary table to rotate, the pressing mechanism, the pushing mechanism and the rotary driving mechanism are all mounted on the rack, and the positioning rotary table is rotatably arranged on the rack and is in transmission connection with a power output end of the rotary driving mechanism; the pressing mechanism is arranged right above the positioning rotary table, the mounting seat is arranged on the rack, and the processing device is detachably mounted on the mounting seat and correspondingly matched with the positioning rotary table. The stainless steel product edge processing equipment pushes the mounting seat and the processing device on the mounting seat to move to one side of the positioning rotary table through the pushing mechanism, so that the processing device corresponds to the position of the stainless steel product on the positioning rotary table, and the rotating stainless steel product is processed through different processing devices.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem that a gear formula stainless steel goods edge machining equipment is provided, this kind of gear formula stainless steel goods edge machining equipment's control is simpler, can be adapted to more not unidimensional stainless steel goods and process.

In order to solve the technical problem, the utility model discloses a technical scheme as follows:

a gear type stainless steel product edge processing device comprises a rack, a pressing mechanism, a pushing mechanism, a mounting seat, a processing tool, a positioning rotary table and a rotary driving mechanism, wherein the positioning rotary table can be used for placing a stainless steel product, the rotary driving mechanism can drive the positioning rotary table to rotate; pressing means is directly over the location revolving stage, and the mount pad setting is in the frame, and processing utensil demountable installation corresponds cooperation, its characterized in that on the mount pad and with the location revolving stage: the pushing mechanism comprises a first guide rail, a first sliding block and a gear type driving mechanism, the first guide rail and the gear type driving mechanism are both arranged on the rack, the first sliding block is positioned on the first guide rail and can move along the first guide rail, and the mounting seat is arranged on the first sliding block; the gear type driving mechanism comprises a pushing motor, a gear, a pipe positive seat and a rack, wherein the pushing motor and the pipe positive seat are both arranged on the rack, and the gear is arranged on a power output shaft of the pushing motor; the rack is slidably mounted on the tube positive seat, parallel to the first guide rail, meshed with the gear, and the mounting seat is connected with the rack.

The processing device can be an edge cutting device, an edge turning device, an edge trimming device, a curling device, a binding device, an edge pressing device or an edge pushing device. The edge cutting device, the edge turning device, the edge trimming device, the edge curling device, the edge rolling device, the edge pressing device or the edge pushing device all adopt the existing processing equipment.

When the device works, a stainless steel product to be processed is placed on the positioning rotary table, and the top surface of the stainless steel product is pressed downwards through the pressing mechanism; then, the positioning rotary table is driven to rotate by the rotation driving mechanism, and the stainless steel product is driven to rotate along with the rotation of the positioning rotary table; and then, according to the width of different stainless steel products, the gear is driven to rotate by a pushing motor, the gear drives the rack to perform reciprocating translation on the pipe front seat when rotating, so that the mounting seat is driven to perform reciprocating motion on the first guide rail, the distance between a processing tool on the mounting seat and the stainless steel product on the positioning turntable is adjusted, the processing tool corresponds to the position of the stainless steel product to be processed, and the rotating stainless steel product is subjected to edge cutting, edge turning, trimming, edge curling, edge rolling, edge pressing or edge pushing treatment by different processing tools.

The translation distance of the rack on the pipe positive seat is controlled by controlling the number of rotation turns of the gear on the power output shaft of the pushing motor, and when the size of the stainless steel product is changed too much, the rack can drive the mounting seat to translate properly without replacing the pushing mechanism due to the size change of the stainless steel product.

Generally, the rotation driving mechanism includes a first driving motor, a first driving wheel, a first synchronizing wheel and a first synchronizing belt, the first driving motor, the first driving wheel and the first synchronizing wheel are all mounted on the frame, the first driving wheel and the first synchronizing wheel tension the first synchronizing belt together, the first driving wheel is in transmission connection with an output shaft of the first driving motor, and the positioning rotary table is coaxially arranged with the first synchronizing wheel. The first driving wheel is driven to rotate by the first driving motor, and the positioning rotary table is driven to rotate under the common cooperation of the first driving wheel, the first synchronous wheel and the first synchronous belt.

In a preferable scheme, the tube positive seat is provided with a base and a side retaining seat, the lower long edge of the side retaining seat is arranged on the long edge of one side of the base and forms the tube positive seat with the L-shaped section, the lower surface of the rack is in sliding fit with the upper surface of the base, and the tooth-free surface of the rack is in sliding fit with the side retaining seat. The pipe aligning seat is designed into an L shape, and the upper surface of the base aligns the pipe of the rack on the lower surface of the rack and the side baffle seat.

In a further preferred scheme, the gear type driving mechanism further comprises a wear-resistant strip, the wear-resistant strip is mounted on the side retaining seat, the wear-resistant strip is located between the tooth-free surface of the rack and the side retaining seat, and the tooth-free surface of the rack is in contact fit with the wear-resistant strip. The wear-resistant strip is arranged between the toothless surface of the rack and the side retaining seat, so that abrasion between the toothless surface of the rack and the side retaining seat due to long-term sliding can be avoided, and the service life of the rack is prolonged.

In a preferable scheme, the gear type driving mechanism further comprises a pushing speed reducer, the pushing speed reducer is installed on the rack, a power output shaft of the pushing motor is connected with a power input shaft of the pushing speed reducer, the power output shaft of the pushing speed reducer is arranged downwards, and the gear is installed on the power output shaft of the pushing speed reducer. Through the arrangement, the pushing motor can drive the power output shaft of the speed reducer to rotate after the speed reducer is pushed to reduce the rotating speed, and then the gear is driven to rotate.

In a preferred scheme, the gear is a helical gear, and the rack is a helical rack. The tooth number tightness of the helical gear is high, the tooth pitch gap is small, only one part of each tooth surface participates in the meshing process, and large vibration cannot be generated, so that the helical gear and the helical rack are free of noise in the meshing process, stable in operation and good in bearing capacity.

As a preferred scheme of the present invention, a second guide rail, a second slider, an adjusting nut, a lead screw, a positioning sleeve, an adjusting threaded sleeve and a translation seat are arranged on the frame, the second guide rail is mounted on the frame, the second slider is located on the second guide rail and can move along the second guide rail, the adjusting nut is mounted on the second slider, the translation seat is connected with the adjusting nut, and the pressing mechanism, the pushing mechanism, the mounting seat and the processing device are all arranged on the translation seat; the inner section of the screw rod is positioned in the adjusting nut, the positioning sleeve is arranged on the rack, the middle section of the screw rod is positioned in the positioning sleeve, the outer section of the screw rod extends out of the positioning sleeve, and the middle section of the screw rod is provided with a limiting ring which is in clamping fit with the inner end of the positioning sleeve; the outer section of the screw rod is provided with an external thread, the adjusting thread bush is internally provided with an internal thread matched with the external thread, and the adjusting thread bush is sleeved on the outer section of the screw rod. The adjusting thread sleeve is manually screwed by a wrench, so that the screw rod rotates in the positioning sleeve, the second sliding block on the adjusting nut is driven to move along the second guide rail through the rotation of the screw rod, the translation seat and the pressing mechanism, the pushing mechanism, the mounting seat and the processing device on the translation seat horizontally move, the distance between the processing device on the mounting seat and the stainless steel product on the positioning rotary table is finely adjusted, and the processing device can be better matched with the positioning boss.

Compared with the prior art, the utility model, have following advantage:

the gear type stainless steel product edge processing equipment is simpler to control, and when the size of a stainless steel product is changed too much, the gear type driving mechanism does not need to be replaced due to the size change of the stainless steel product, and can be suitable for processing more stainless steel products with different sizes.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 isbase:Sub>A cross-sectional view A-A of FIG. 1;

FIG. 3 is a schematic structural view of the pushing mechanism and the mounting seat according to an embodiment of the present invention;

FIG. 4 is a schematic view of the structure of FIG. 3 in the direction B;

fig. 5 is a schematic structural view illustrating the movement of the translation stage according to the embodiment of the present invention.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-5, the gear type edge processing apparatus for stainless steel products in this embodiment includes a frame 1, a pressing mechanism 2, a pushing mechanism 3, a mounting seat 4, a processing device 8, a positioning turntable 5 capable of placing the stainless steel products, and a rotation driving mechanism (not shown in the figure) capable of driving the positioning turntable 5 to rotate, wherein the pressing mechanism 2, the pushing mechanism 3, and the rotation driving mechanism are all mounted on the frame 1, and the positioning turntable 5 is rotatably disposed on the frame 1 and is in transmission connection with a power output end of the rotation driving mechanism; the pressing mechanism 2 is positioned right above the positioning rotary table 5, the mounting seat 4 is arranged on the rack 1, and the processing device 8 is detachably mounted on the mounting seat 4 and is correspondingly matched with the positioning rotary table 5; the pushing mechanism 3 comprises a first guide rail 31, a first sliding block 32 and a gear type driving mechanism 33, the first guide rail 31 and the gear type driving mechanism 33 are both installed on the rack 1, the first sliding block 32 is located on the first guide rail 31 and can move along the first guide rail 31, and the installation base 4 is installed on the first sliding block 32; the gear type driving mechanism 33 comprises a pushing motor 331, a gear 332, a tube positive seat 333 and a rack 334, wherein the pushing motor 331 and the tube positive seat 333 are both arranged on the frame 1, and the gear 332 is arranged on a power output shaft of the pushing motor 331; the rack 334 is slidably mounted on the tube front seat 333, and the rack 334 is parallel to the first guide rail 31, the rack 334 is engaged with the gear 332, and the mounting seat 4 is connected with the rack 334.

The processing tool 8 may be a trimming device, an edging device, a curling device, a binding device, a pressing device, or a pushing device. The edge cutting device, the edge turning device, the edge trimming device, the edge curling device, the edge rolling device, the edge pressing device or the edge pushing device all adopt the existing processing equipment.

When the device works, a stainless steel product to be processed is placed on the positioning rotary table 5, and the top surface of the stainless steel product is pressed downwards by the pressing mechanism 2; then, the positioning turntable 5 is driven to rotate by the rotation driving mechanism, and the stainless steel product is driven to rotate along with the rotation of the positioning turntable 5; then, according to the width of different stainless steel products, the gear 332 is driven to rotate by the pushing motor 331, when the gear 332 rotates, the rack 334 is driven to perform reciprocating translation on the tube positive seat 333, so that the mounting seat 4 is driven to perform reciprocating motion on the first guide rail 31, the distance between the processing tool 8 on the mounting seat 4 and the stainless steel product on the positioning turntable 5 is adjusted, the processing tool 8 corresponds to the position of the stainless steel product to be processed, and the rotating stainless steel product is subjected to edge cutting, edge turning, edge trimming, edge curling, edge rolling, edge pressing or edge pushing processing by different processing tools 8.

The translation distance of the rack 334 on the tube positive seat 333 is controlled by controlling the number of rotation turns of the gear 332 on the power output shaft of the pushing motor 331, and when the size of the stainless steel product is changed too much, the rack 334 can drive the mounting seat 4 to translate properly without replacing the pushing mechanism 3 due to the size change of the stainless steel product.

Generally, the rotation driving mechanism includes a first driving motor, a first driving wheel, a first synchronous wheel and a first synchronous belt, the first driving motor, the first driving wheel and the first synchronous wheel are all installed on the frame 1, the first driving wheel and the first synchronous wheel tension the first synchronous belt together, the first driving wheel is in transmission connection with an output shaft of the first driving motor, and the positioning rotary table 5 and the first synchronous wheel are coaxially arranged. The first driving motor drives the first driving wheel to rotate, and the first driving wheel, the first synchronous wheel and the first synchronous belt are matched together to drive the positioning rotary table 5 to rotate.

The tube front seat 333 is provided with a base 3331 and a side baffle seat 3332, the lower long edge of the side baffle seat 3332 is arranged on the long edge of one side of the base 3331 and forms the tube front seat 333 with the L-shaped cross section, the lower surface of the rack 334 is in sliding fit with the upper surface of the base 3331, and the toothless surface of the rack 334 is in sliding fit with the side baffle seat 3332. The centering seat 333 is formed in an L-shape, and the rack 334 is centered by the upper surface of the base 3331 facing the lower surface of the rack 334 and the side stopper 3332.

The gear type driving mechanism 33 further comprises a wear-resistant strip 335, the wear-resistant strip 335 is mounted on the side stop seat 3332, the wear-resistant strip 335 is positioned between the non-toothed surface of the rack 334 and the side stop seat 3332, and the non-toothed surface of the rack 334 is in contact fit with the wear-resistant strip 335. The wear-resistant strip 335 is arranged between the non-tooth surface of the rack 334 and the side retainer 3332, so that abrasion between the non-tooth surface of the rack 334 and the side retainer 3332 due to long-term sliding can be avoided, and the service life of the rack 334 is prolonged.

The gear type driving mechanism 33 further comprises a pushing speed reducer 336, the pushing speed reducer 336 is mounted on the frame 1, a power output shaft of the pushing motor 331 is coupled with a power input shaft of the pushing speed reducer 336, a power output shaft 3361 of the pushing speed reducer 336 is arranged downward, and the gear 332 is mounted on the power output shaft 3361 of the pushing speed reducer 336. With this arrangement, the pushing motor 331 can rotate the power output shaft 3361 of the speed reducer after pushing the speed reducer 336 to reduce the rotation speed, and then drive the gear 332 to rotate.

The gear 332 is a helical gear, and the rack 334 is a helical rack. The tooth number tightness of the helical gear is high, the tooth pitch gap is small, only one part of each tooth surface participates in the meshing process, and large vibration cannot be generated, so that the helical gear and the helical rack are free of noise in the meshing process, stable in operation and good in bearing capacity.

A second guide rail 11, a second sliding block 12, an adjusting nut 13, a screw rod 14, a positioning sleeve 15, an adjusting threaded sleeve 16 and a translation seat 17 are arranged on the rack 1, the second guide rail 11 is mounted on the rack 1, the second sliding block 12 is positioned on the second guide rail 11 and can move along the second guide rail 11, the adjusting nut 13 is mounted on the second sliding block 12, the translation seat 17 is connected with the adjusting nut 13, and the pressing mechanism 2, the pushing mechanism 3, the mounting seat 4 and the processing tool 8 are all arranged on the translation seat 17; the inner section of the screw rod 14 is positioned in the adjusting nut 13, the positioning sleeve 15 is installed on the rack 1, the middle section of the screw rod 14 is positioned in the positioning sleeve 15, the outer section of the screw rod 14 extends out of the positioning sleeve 15, and the middle section of the screw rod 14 is provided with a limiting ring 141 which is in clamping fit with the inner end of the positioning sleeve 15; an external thread is arranged on the outer section of the screw rod 14, an internal thread matched with the external thread is arranged in the adjusting thread bush 16, and the adjusting thread bush 16 is sleeved on the outer section of the screw rod 14. The adjusting thread bush 16 is manually screwed by a wrench, so that the screw rod 14 rotates in the positioning bush 15, the second slide block 12 on the adjusting nut 13 is driven to move along the second guide rail 11 through the rotation of the screw rod 14, the translation seat 17 and the pressing mechanism 2, the pushing mechanism 3, the mounting seat 4 and the processing tool 8 on the translation seat perform horizontal movement, the distance between the processing tool 8 on the mounting seat 4 and the stainless steel product on the positioning rotary table 5 is finely adjusted, and the processing tool 8 can be better matched with the positioning boss.

Generally, the pressing mechanism 2 includes a pressing cylinder 21, a pressing rod 22 and a pressing head 23, the piston rod of the pressing cylinder 21 is disposed downward, the pressing rod 22 is connected to the end of the piston rod of the pressing cylinder 21, the pressing head 23 is rotatably mounted on the lower end of the pressing rod 22, and the pressing head 23 is correspondingly engaged with the positioning turntable 5. When the piston rod of the pressing cylinder 21 extends downwards, the pressing rod 22 and the pressing head 23 thereon also extend downwards, the pressing head 23 is pressed on the top surface of the stainless steel product, and since the pressing head 23 is rotatably mounted on the lower end of the pressing rod 22, only the pressing head 23 can rotate along with the rotation of the stainless steel product on the positioning rotary table 5, and the pressing cylinder 21 and the pressing rod 22 are kept still.

The present embodiment further includes a fine pressing mechanism 6, the fine pressing mechanism 6 includes a hollow screw 61 and a nut seat 62, the nut seat 62 is mounted on the frame 1, the hollow screw 61 is located in a screw hole of the nut seat 62 and extends up and down, the pressing cylinder 21 is mounted on an upper end of the hollow screw 61, a piston rod end of the pressing cylinder 21 and the pressing rod 22 are both located in the hollow screw 61, and the pressing head 23 is located below the hollow screw 61. According to the specification and size of different stainless steel products, a tool can be manually used to enable the hollow screw 61 to rotate in the screw hole of the nut seat 62, and the pressing mechanism 2 is driven to perform fine adjustment up and down along with the movement of the hollow screw 61, so that the pressing mechanism 2 can better press the stainless steel products.

Generally, an appliance height fine adjustment mechanism 7 is arranged on the mounting seat 4, the appliance height fine adjustment mechanism 7 comprises a fine adjustment seat 71, a first screw 72, an adjusting block 75, a third slider 73 and a connecting block 74, the fine adjustment seat 71 is mounted on the mounting seat 4, a first guide groove 711 in the vertical direction is arranged on the fine adjustment seat 71, and the third slider 73 is positioned in the first guide groove 711 and can move along the first guide groove 711; the adjusting block 75 is installed on the upper end of the fine adjustment seat 71, a first screw hole 751 moving up and down is arranged on the adjusting block 75, a second screw hole 731 corresponding to the first screw hole 751 is arranged on the third sliding block 73, the first screw 72 is located in the first screw hole 751 and the second screw hole 731, the connecting block 74 is installed on the third sliding block 73, and the processing tool 8 is installed on the connecting block 74. The first screw 72 is rotated in the first screw hole 751 and the second screw hole 731 by a hand tool, and the third slider 73 is driven to move up and down in the first guide groove 711, so that the positions of the connecting block 74 and the processing tool 8 thereon can be finely adjusted up and down along with the movement of the third slider 73.

In addition, it should be noted that the names of the various parts of the embodiments described in the present specification may be different, and all the equivalent or simple changes made according to the structures, characteristics and principles of the present invention are included in the protection scope of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (7)

1. A gear type stainless steel product edge processing device comprises a rack, a pressing mechanism, a pushing mechanism, a mounting seat, a processing tool, a positioning rotary table and a rotary driving mechanism, wherein the positioning rotary table can be used for placing a stainless steel product, the rotary driving mechanism can drive the positioning rotary table to rotate; pressing means is directly over the location revolving stage, and the mount pad setting is in the frame, and processing utensil demountable installation corresponds cooperation, its characterized in that on the mount pad and with the location revolving stage: the pushing mechanism comprises a first guide rail, a first sliding block and a gear type driving mechanism, the first guide rail and the gear type driving mechanism are both arranged on the rack, the first sliding block is positioned on the first guide rail and can move along the first guide rail, and the mounting seat is arranged on the first sliding block; the gear type driving mechanism comprises a pushing motor, a gear, a pipe positive seat and a rack, wherein the pushing motor and the pipe positive seat are both arranged on the rack, and the gear is arranged on a power output shaft of the pushing motor; the rack is slidably mounted on the tube positive seat, parallel to the first guide rail, meshed with the gear, and the mounting seat is connected with the rack.

2. The gear type stainless steel product edge processing apparatus according to claim 1, wherein: the pipe positive seat is provided with a base and a side retaining seat, the lower long edge of the side retaining seat is installed on the long edge of one side of the base and forms the pipe positive seat with the L-shaped section, the lower surface of the rack is in sliding fit with the upper surface of the base, and the tooth-free surface of the rack is in sliding fit with the side retaining seat.

3. The gear type stainless steel product edge processing apparatus according to claim 2, wherein: the gear type driving mechanism further comprises a wear-resistant strip, the wear-resistant strip is installed on the side retaining seat, the wear-resistant strip is located between the tooth-free surface of the rack and the side retaining seat, and the tooth-free surface of the rack is in contact fit with the wear-resistant strip.

4. The geared stainless steel product edge working apparatus according to claim 1, wherein: the gear type driving mechanism further comprises a pushing speed reducer, the pushing speed reducer is installed on the rack, a power output shaft of the pushing motor is connected with a power input shaft of the pushing speed reducer, the power output shaft of the pushing speed reducer is arranged downwards, and the gear is installed on the power output shaft of the pushing speed reducer.

5. The gear type stainless steel product edge processing apparatus according to claim 1, wherein: the gear is a helical gear, and the rack is a helical rack.

6. The geared stainless steel product edge working apparatus according to claim 1, wherein: the pressing mechanism is arranged in the hollow screw rod, and the power output end of the pressing mechanism is positioned below the hollow screw rod.

7. The gear type stainless steel product edge processing apparatus according to claim 1, wherein: the rack is provided with a second guide rail, a second sliding block, an adjusting nut, a screw rod, a positioning sleeve, an adjusting threaded sleeve and a translation seat, the second guide rail is installed on the rack, the second sliding block is positioned on the second guide rail and can move along the second guide rail, the adjusting nut is installed on the second sliding block, the translation seat is connected with the adjusting nut, and the pressing mechanism, the pushing mechanism, the installation seat and the processing tool are all arranged on the translation seat; the inner section of the screw rod is positioned in the adjusting nut, the positioning sleeve is arranged on the rack, the middle section of the screw rod is positioned in the positioning sleeve, the outer section of the screw rod extends out of the positioning sleeve, and the middle section of the screw rod is provided with a limiting ring which is in clamping fit with the inner end of the positioning sleeve; the outer section of the screw rod is provided with an external thread, the adjusting thread bush is internally provided with an internal thread matched with the external thread, and the adjusting thread bush is sleeved on the outer section of the screw rod.

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