CN203738364U - Screw-driving machine - Google Patents

Abstract

The utility model discloses a screw-driving machine. The screw-driving machine is characterized by comprising a machine frame, a screwdriver and an objective table; the machine frame comprises a base and a bracket, and the bracket protrudes out of the base; the screwdriver is rotatably and movably arranged on the bracket; the objective table is movably arranged on the base; the screwdriver and the objective table are arranged in a relatively movable mode. According to the screw-driving machine, screw-driving efficiency is greatly enhanced, and therefore labor is saved; meanwhile, operation stability is improved, so that the average quality level of finished products is improved.

Description

Screw-driving machine

Technical field

The utility model relates to a kind of screw-driving machine.

Background technology

In recent years, along with making rapid progress of electronic technology, coming out one after another of high-tech electronic industry, constantly weeds out the old and bring forth the new electronic product more humane, with better function, and towards light, thin, short, little trend design.In these electronic products, conventionally can configure for installing electronic elements wiring board thereon.In addition the wiring board that, electronic component is installed is installed in general conventional electronic equipment.For instance, conventionally can be by screw through the screw hole in wiring board, in order to electronic component is installed on wiring board or by wiring board and is fixedly arranged in mobile phone, computer.

In traditional handicraft, adopt the hand-held normal screws cutter of staff screw to be screwed in the screwed hole of wiring board more, consume manpower larger, and efficiency is too low, operational stability is poor, causes product quality also because operating personnel's difference exists larger difference.

Utility model content

The purpose of this utility model is in order to overcome deficiency of the prior art, and a kind of screw-driving machine of increasing work efficiency is provided.

For realizing above object, the utility model is achieved through the following technical solutions:

Screw-driving machine, is characterized in that, comprising:

Frame, described frame comprises base and support; Described support protrudes from described base and arranges;

Screwdriver, described screwdriver is rotating to be arranged on described support, and is arranged on movably on described support;

Objective table, described objective table is arranged on described base movably;

Described screwdriver and described objective table can relatively move and arrange.

Preferably, also comprise servomotor; Described screwdriver is connected with the output shaft of described servomotor; Screwdriver rotation described in described driven by servomotor.

Preferably, also comprise at least one drive unit; Described drive unit drives described screwdriver or described objective table to move.

Preferably, described drive unit is linear electric motors; Described linear electric motors comprise magnet axis and coil; Described magnet axis is arranged in described frame; Magnet axis and can moving along magnet axis described in described coil encircling, described coil is connected with described screwdriver or described objective table; Described coil drives described screwdriver or described objective table to move while movement.

Preferably, also comprise at least one guider; Described guider is arranged in described frame, guides to arrange for described screwdriver or described objective table provide.

Preferably, described guider comprises the guide rail and the slide block that cooperatively interact; Described slide block is arranged on described guide rail and can moves along described guide rail; Described guide rail is arranged in described frame; Described slide block is connected with described screwdriver or described objective table.

Preferably, described drive unit comprises the first drive unit; Described the first drive unit is the first linear electric motors; Described the first linear electric motors comprise the first magnet axis and the first coil; Described the first magnet axis is arranged on described support; The first magnet axis and can moving along described the first magnet axis described in described the first coil encircling; Described the first coil drives described screwdriver to move along the direction parallel with described objective table while movement.

Preferably, also comprise the first guider that is used to described screwdriver guiding.

Preferably, described the first guider comprises the first guide rail and the first slide block that cooperatively interact; Described the first slide block is arranged on described the first guide rail and can moves along the first guide rail; Described the first guide rail is arranged on described support; Described screwdriver is arranged on described the first slide block.The number of described the first guide rail is two, and each the first guide rail is provided with first slide block; Described two the first guide rails are separately positioned on the both sides of described the first magnet axis, and parallel with described the first magnet axis.

Preferably, described drive unit also comprises the second drive unit; Described the second drive unit is the second linear electric motors; Described the second linear electric motors comprise the second magnet axis and the second coil; Described the second magnet axis is arranged on described support; The second magnet axis and can moving along described the second magnet axis described in described the second coil encircling; Described screwdriver is connected with described the second coil; Described the second coil in the time that described the second magnet axis moves, drive described screwdriver towards described objective table or dorsad described objective table move.

Preferably, also comprise the second guider for guiding is provided.

Preferably, described the second guider comprises the second guide rail and the second slide block that cooperatively interact; Described the second slide block is arranged on described the second guide rail and can moves along the second guide rail; Described screwdriver is connected with the second slide block; The number of described the second guide rail is two, and each the second guide rail is provided with second slide block; Described two the second guide rails are separately positioned on the both sides of described the second magnet axis, and parallel with described the second magnet axis.

Preferably, described the second drive unit is arranged on fixed head; Described fixed head is connected with described the first coil.

Preferably, described drive unit also comprises the 3rd drive unit, and described the 3rd drive unit drives described objective table to move on described base.

Preferably, described the 3rd drive unit is the 3rd linear electric motors; Described the 3rd linear electric motors comprise the 3rd magnet axis and tertiary coil; Described the 3rd magnet axis is arranged on described base; Described tertiary coil is around described the 3rd magnet axis and can move along the 3rd magnet axis; Described objective table is connected with described tertiary coil, and described tertiary coil drives described objective table to move while movement.

Preferably, also comprise the 3rd guider for guiding is provided.

Preferably, described the 3rd guider comprises the 3rd guide rail and the 3rd slide block that cooperatively interact; Described the 3rd slide block is arranged on described the 3rd guide rail and can moves along the 3rd guide rail; Described the 3rd guide rail is arranged on described base; Described slide block is connected with described objective table; The number of described the 3rd guide rail is two, and each the 3rd guide rail is provided with the 3rd slide block; Described two the 3rd guide rails are separately positioned on the both sides of described the 3rd magnet axis, and parallel with described the 3rd magnet axis.

Preferably, also comprise displacement transducer; Described displacement transducer is for determining described screwdriver or the residing position of described objective table.

Preferably, described displacement transducer is magnetic grid or grating.

Described magnetic grid comprises magnetic railings ruler and magnetic head, and both match.Described grating comprises grating scale and read head, and both match.

More preferably, grating or magnetic grid are provided with three, are respectively used to determine that screwdriver is in the position of both direction and the position of objective table.

The screw-driving machine that the utility model provides, has improved the efficiency of the turn of the screw greatly, has saved manpower, has improved operational stability simultaneously, has improved the average quality level of finished product.

Screwdriver and objective table relatively-movable design, has shortened screwdriver and has arrived time of assigned address on objective table, has saved the working time, has improved operating efficiency.

Adopt drive unit to drive screwdriver and objective table to move, drive screwdriver to rotate by drive motors, and further by PC control drive unit and drive motors work, improved automaticity and operating efficiency, saved manpower.

The advantage that adopts linear electric motors to drive is as follows: the one, and simple in structure, because linear electric motors do not need, the be in line attachment device of motion of rotation motion, thereby the structure of screw-driving machine greatly to be simplified, weight and volume declines widely; The 2nd, positioning precision is high, linear electric motors can be realized direct-drive, thereby can eliminate the various position errors that intermediate link is brought, and can make after screwdriver and objective table relative motion, cutter head accurately drops on the position that needs the turn of the screw, has greatly improved operational stability and product quality; The 3rd, reaction speed is fast, highly sensitive, servo-actuated property is good, between coil in linear electric motors and magnet axis, hesitate and exist magnetic force make the two remain certain the air gap and do not contact, this has just eliminated the contact frictional resistance between the two, thereby improved widely sensitivity, rapidity and the servo-actuated property of screwdriver and objective table, further increase work efficiency; The 4th, safe and reliable, the life-span is long, linear electric motors can be realized non-contact type and transmit power, and mechanical friction loss is almost nil, so fault is few, freedom from repairs, make screw-driving machine safe and reliable, the life-span is long.

Set up guide rail, the slide block that can move on guide rail is connected with screwdriver or objective table, in screwdriver or objective table moving process, plays guide effect.The structure that adopts the both sides of magnet axis respectively to establish a guide rail, supports the both sides of screwdriver or objective table, avoids shaking in mobile screwdriver or objective table moving process, and stability is provided.

Adopt fixture clamping screwdriver housing, realized removably connecting of screwdriver and frame, can change the screwdriver adapting, the flexibility that has improved screw-driving machine according to the model for the treatment of the turn of the screw.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model;

Fig. 2 is front view of the present utility model;

Fig. 3 is the A-A Local map in Fig. 2;

Fig. 4 is the utility model right view;

Fig. 5 is the B-B Local map in Fig. 4;

Fig. 6 is the utility model top view.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in detail:

As shown in Figure 1, screw-driving machine, comprises frame 1, screwdriver 31 and objective table 2.Frame 1 comprises support 11 and base 12.Support 11 is arranged on base 12, and protrudes from base 12.Support 11 is planer-type support.Objective table 2 is arranged on base 12 movably.Screwdriver 31 is arranged on support 11 movably.Screwdriver 31 both can move along support 11, also can towards objective table 2 move or dorsad objective table 2 move.In example as shown in the figure, screwdriver 31 is arranged on objective table 2 tops.Screwdriver 31 can move left and right (shown in Fig. 2) along support 11, also can towards objective table 2 or dorsad objective table 2 move, i.e. above-below direction in Fig. 2.

Screwdriver 31 is rotatably installed on screwdriver housing 32.Servomotor (not shown) is installed in screwdriver housing 32.Screwdriver 31 is connected with the output shaft of servomotor.Driven by servomotor screwdriver 31 rotates.Screwdriver housing 32 is arranged on fixed head 63 by fixture 34.

As shown in Figures 2 to 6, also comprise three drive units, be respectively the first drive unit, the second drive unit and the 3rd drive unit, the mobile driving force that provides in frame 1 for screwdriver 31 and objective table 2 is provided.

The 3rd drive unit is the 3rd linear electric motors.The 3rd linear electric motors comprise the 3rd magnet axis 81 and tertiary coil 82.The 3rd magnet axis 81 is arranged on base 12.Tertiary coil 82 arranges around the 3rd magnet axis 81, and can move along the 3rd magnet axis 81.Tertiary coil 82 is connected with objective table 2.When tertiary coil 82 moves, driving objective table 2 moves horizontally.On base 12, be provided with the 3rd guider.The 3rd guider comprises the 3rd guide rail 91 and the 3rd slide block 92 that cooperatively interact.The 3rd slide block 92 is arranged on the 3rd guide rail 91 and can moves along the 3rd guide rail 91.The 3rd guide rail 91 is arranged on base 12, and the 3rd slide block 92 is connected with objective table 2.The number of the 3rd guide rail 91 is two, and each the 3rd guide rail 91 is provided with 92, two the 3rd guide rails 91 of the 3rd slide block and is separately positioned on the both sides of the 3rd magnet axis 81, and parallel with the 3rd magnet axis 81.In the present embodiment (as shown in Figure 3), the 3rd magnetic grid is also set.The 3rd magnetic grid comprises the 3rd magnetic railings ruler 83 and the 3rd magnetic head 84.The 3rd magnetic railings ruler 83 is arranged on base 12.The 3rd magnetic head is arranged on objective table 2, and is oppositely arranged with the 3rd magnetic railings ruler 83.When the 3rd magnetic head 84 moves with objective table 2, the 3rd magnetic head 84 moves along the 3rd magnetic railings ruler 83.The 3rd magnetic head 84 matches with the 3rd magnetic railings ruler 83, can determine the position of objective table 2.

The first drive unit is the first linear electric motors.The first linear electric motors comprise the first magnet axis 41 and the first coil 42.The first magnet axis 41 is arranged on support 11.The first coil 42 is around the first magnet axis 41 and can move along the first magnet axis 41.Fixed head 63 is fixedly connected with the first coil 42.The first coil 42 drives fixed head 63 to move while movement.In example as shown in the figure, the first coil 42 matches with the first magnet axis 41, drives fixed head 63 to drive screwdriver 31 to move along support 11.In example as shown in the figure, the first drive unit drives screwdriver 31 left and right (in front view as shown in Figure 2) above objective table 2 mobile.Its stroke can cover the width of whole objective table 2 left and right directions.

On support 11, be provided with the first guider, the first guider comprises the first guide rail 51 and the first slide block 52 that cooperatively interact.The first slide block 52 is arranged on the first guide rail 51 and can moves along the first guide rail 51.The first guide rail 51 is arranged on support 11.The first slide block 1 is fixedly connected with fixed head 63.The number of the first guide rail 51 is two, and each the first guide rail 51 is provided with first slide block 52.Two the first guide rails 51 are separately positioned on the both sides up and down of the first magnet axis 41, and parallel with the first magnet axis 41.When the first coil 42 drives fixed head 63 to move, the first slide block 52 and the first guide rail 51 match and are combined into fixed head 63 and lead.In the present embodiment (as shown in Figure 2), be also provided with the first magnetic grid.The first magnetic grid comprises the first magnetic railings ruler 44 and the first magnetic head 45.The first magnetic railings ruler 44 is arranged on support 11.The first magnetic head 45 is arranged on fixed head 63, and is oppositely arranged with the first magnetic railings ruler 44.When the first magnetic head 45 moves with fixed head 63, the first magnetic head 45 moves along the first magnetic railings ruler 44.The first magnetic head 45 matches with the first magnetic railings ruler 44, can determine the position of fixed head 63 along support 11, i.e. the position of screwdriver 31.

The second drive unit is the second linear electric motors.The second linear electric motors comprise the second magnet axis 61 and the second coil 62.The second magnet axis 61 is arranged on fixed head 63.The second coil 62 arranges around the second magnet axis 61, and can move along the second magnet axis 61.Screwdriver housing 32 is connected with the second coil 62 by installing plate 33.On fixed head 63, be also provided with the second guider.The second guider comprises the second guide rail 71 and the second slide block 72 that cooperatively interact.The second guide rail 71 is arranged on fixed head 63.The second slide block 72 is arranged on the second guide rail 71 and can moves up and down along the second guide rail 71.The number of the second guide rail 71 is two, and each the second guide rail 71 is provided with second slide block 72; Two the second guide rails 71 are separately positioned on the both sides of the second magnet axis 61, and parallel with the second magnet axis 61.Two the second slide blocks 72 are all connected with installing plate 33.In the present embodiment, the second magnetic grid is also set.The second magnetic grid comprises the second magnetic railings ruler 64 and the second magnetic head 65.The second magnetic railings ruler 64 is arranged on fixed head 63.The second magnetic head 65 is arranged on installing plate 33, and is oppositely arranged with the second magnetic railings ruler 64.When the second magnetic head 65 moves with installing plate 33, the second magnetic head 65 moves along the second magnetic railings ruler 64.The second magnetic head 65 matches with the second magnetic railings ruler 64, can determine the position of installing plate 33 at above-below direction (shown in Fig. 3), and screwdriver 31 and objective table 2 relative distances.

Magnetic grid in the utility model can replace with grating.

The using method of the screw-driving machine that the utility model provides is as follows: as shown in Figure 1, the first drive unit can drive screwdriver 31 to move left and right in state shown in Fig. 2; The second drive unit can drive screwdriver 31 to move up and down in state shown in Fig. 2; The 3rd drive unit can move left and right by driving objective table 2 in the state shown in Fig. 3.By three drive units, can make screwdriver 31 and objective table 2 all can relatively move on three-dimensional.When the product that need to process is placed on objective table, screwdriver 31 can arrive each position of product, screws the screw of each position.Utilize three magnetic grids, can determine the position of screwdriver 31 and objective table 2, for screwdriver 31 and objective table 2 are accurately located.

Embodiment in the utility model, only for the utility model is described, does not form the restriction to claim scope, those skilled in that art can expect other be equal in fact substitute, all in the utility model protection domain.

Claims (20)

1. screw-driving machine, is characterized in that, comprising:

Frame, described frame comprises base and support; Described support protrudes from described base and arranges;

Screwdriver, described screwdriver is rotating to be arranged on described support, and is arranged on movably on described support;

Objective table, described objective table is arranged on described base movably;

Described screwdriver and described objective table can relatively move and arrange.

2. screw-driving machine according to claim 1, is characterized in that, also comprises servomotor; Described screwdriver is connected with the output shaft of described servomotor; Screwdriver rotation described in described driven by servomotor.

3. screw-driving machine according to claim 1, is characterized in that, also comprises at least one drive unit; Described drive unit drives described screwdriver or described objective table to move.

4. screw-driving machine according to claim 3, is characterized in that, described drive unit is linear electric motors; Described linear electric motors comprise magnet axis and coil; Described magnet axis is arranged in described frame; Magnet axis and can moving along magnet axis described in described coil encircling, described coil is connected with described screwdriver or described objective table; Described coil drives described screwdriver or described objective table to move while movement.

5. according to the screw-driving machine described in claim 3 or 4, it is characterized in that, also comprise at least one guider; Described guider is arranged in described frame, guides to arrange for described screwdriver or described objective table provide.

6. screw-driving machine according to claim 5, is characterized in that, described guider comprises the guide rail and the slide block that cooperatively interact; Described slide block is arranged on described guide rail and can moves along described guide rail; Described guide rail is arranged in described frame; Described slide block is connected with described screwdriver or described objective table.

7. screw-driving machine according to claim 3, is characterized in that, described drive unit comprises the first drive unit; Described the first drive unit is the first linear electric motors; Described the first linear electric motors comprise the first magnet axis and the first coil; Described the first magnet axis is arranged on described support; The first magnet axis and can moving along described the first magnet axis described in described the first coil encircling; Described the first coil drives described screwdriver to move along the direction parallel with described objective table while movement.

8. screw-driving machine according to claim 7, is characterized in that, also comprises the first guider that is used to described screwdriver guiding.

9. screw-driving machine according to claim 8, is characterized in that, described the first guider comprises the first guide rail and the first slide block that cooperatively interact; Described the first slide block is arranged on described the first guide rail and can moves along the first guide rail; Described the first guide rail is arranged on described support; Described screwdriver is arranged on described the first slide block; The number of described the first guide rail is two, and each the first guide rail is provided with first slide block; Described two the first guide rails are separately positioned on the both sides of described the first magnet axis, and parallel with described the first magnet axis.

10. according to the screw-driving machine described in claim 3,8 or 9 arbitrary claims, it is characterized in that, described drive unit also comprises the second drive unit; Described the second drive unit is the second linear electric motors; Described the second linear electric motors comprise the second magnet axis and the second coil; Described the second magnet axis is arranged on described support; The second magnet axis and can moving along described the second magnet axis described in described the second coil encircling; Described screwdriver is connected with described the second coil; Described the second coil in the time that described the second magnet axis moves, drive described screwdriver towards described objective table or dorsad described objective table move.

11. screw-driving machines according to claim 10, is characterized in that, also comprise the second guider for guiding is provided.

12. screw-driving machines according to claim 11, is characterized in that, described the second guider comprises the second guide rail and the second slide block that cooperatively interact; Described the second slide block is arranged on described the second guide rail and can moves along the second guide rail; Described screwdriver is connected with the second slide block; The number of described the second guide rail is two, and each the second guide rail is provided with second slide block; Described two the second guide rails are separately positioned on the both sides of described the second magnet axis, and parallel with described the second magnet axis.

13. screw-driving machines according to claim 7, is characterized in that, described drive unit also comprises the second drive unit; Described the second drive unit is the second linear electric motors; Described the second linear electric motors comprise the second magnet axis and the second coil; Described the second magnet axis is arranged on described support; The second magnet axis and can moving along described the second magnet axis described in described the second coil encircling; Described screwdriver is connected with described the second coil; Described the second coil in the time that described the second magnet axis moves, drive described screwdriver towards described objective table or dorsad described objective table move.

14. screw-driving machines according to claim 13, is characterized in that, described the second drive unit is arranged on fixed head; Described fixed head is connected with described the first coil.

15. according to the screw-driving machine described in claim 3,7 to 9 arbitrary claims, it is characterized in that, described drive unit also comprises the 3rd drive unit, and described the 3rd drive unit drives described objective table to move on described base.

16. screw-driving machines according to claim 15, is characterized in that, described the 3rd drive unit is the 3rd linear electric motors; Described the 3rd linear electric motors comprise the 3rd magnet axis and tertiary coil; Described the 3rd magnet axis is arranged on described base; Described tertiary coil is around described the 3rd magnet axis and can move along the 3rd magnet axis; Described objective table is connected with described tertiary coil, and described tertiary coil drives described objective table to move while movement.

17. screw-driving machines according to claim 16, is characterized in that, also comprise the 3rd guider for guiding is provided.

18. screw-driving machines according to claim 17, is characterized in that, described the 3rd guider comprises the 3rd guide rail and the 3rd slide block that cooperatively interact; Described the 3rd slide block is arranged on described the 3rd guide rail and can moves along the 3rd guide rail; Described the 3rd guide rail is arranged on described base; Described slide block is connected with described objective table; The number of described the 3rd guide rail is two, and each the 3rd guide rail is provided with the 3rd slide block; Described two the 3rd guide rails are separately positioned on the both sides of described the 3rd magnet axis, and parallel with described the 3rd magnet axis.

19. screw-driving machines according to claim 1, is characterized in that, also comprise displacement transducer; Described displacement transducer is for determining described screwdriver or the residing position of described objective table.

20. screw-driving machines according to claim 19, is characterized in that, described displacement transducer is grating or magnetic grid.