CN212977377U - Automatic implantation device for precision nut - Google Patents

Abstract

The utility model discloses an automatic device of implanting of accurate nut, which comprises a worktable, pay-off structure and moving structure, board top surface one side horizontal installation has the pay-off structure, and the vertical removal structure of installing on the top surface rear end face of board, the pay-off structure includes the runner, material loading pore ring and motor, and the runner level sets up directly over the top surface of board, the fixed cover of outer circumference upper level of runner is equipped with material loading pore ring, and the bottom face of runner is vertical to be fixed with the motor, and the motor is fixed on the top surface of board, moving structure includes the support arm, elevation structure and material structure, and the vertical symmetrical welding of support arm has the top surface both sides of board, support arm horizontal sliding mounting has elevation structure, and elevation structure is last vertical to install and get the material structure. The utility model discloses can make things convenient for the pay-off to improve pay-off efficiency and convenience to be convenient for adjust flexibility and the suitability that promote the use in a flexible way.

Description

Automatic implantation device for precision nut

Technical Field

The utility model relates to a nut implanter technical field especially relates to an automatic device of implanting of accurate nut.

Background

The nut implanting machine is developed aiming at some bottleneck problems in the actual production of the mobile phone market. Electronic device's casing is in the course of working, and for making its follow-up equipment convenient, the nut is carried to discharging channel in proper order in by the vibration pay-off dish on, keeps off and establishes the mechanism and carry the nut to the discharging pipe in proper order, falls into the mounting hole by the discharge gate, and this type of nut implantation machine structure is comparatively loaded down with trivial details, and the pay-off is inconvenient to can not adjust the use to different mounted position, the flexibility of use is not good, and its suitability is not wide.

Therefore, there is a need for an automatic precise nut implanting device, which can facilitate feeding, improve feeding efficiency and convenience, and facilitate flexible adjustment and use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic device of implanting of accurate nut aims at improving that current nut implanter structure is comparatively loaded down with trivial details, and the pay-off is inconvenient to can not adjust the use to the mounted position of difference, the flexibility of use is not good, the not wide problem of its suitability.

The utility model discloses a realize like this:

the utility model provides an automatic implantation device of accurate nut, which comprises a worktable, pay-off structure and removal structure, board top surface one side horizontal mounting has the pay-off structure, and the vertical removal structure of installing on the top surface rear end face of board, the pay-off structure includes the runner, material loading pore ring and motor, and the runner level sets up directly over the top surface of board, the fixed cover of outer circumference upper level of runner is equipped with material loading pore ring, and the bottom face of runner is vertical to be fixed with the motor, and the motor is fixed on the top surface of board, the removal structure includes the support arm, elevation structure and material taking structure, and the vertical symmetrical welding of support arm has the top surface both sides of board, support arm horizontal sliding installs elevation structure, and elevation structure is last vertical to install.

Further, the vertical welding of one side of runner has the support on the top surface of board, and the welding of the one end of support has the spacing orifice plate of U type, just material orifice ring joint in between the spacing orifice plate, the spacing hole of spacing orifice plate is just right with the spacing hole on the material loading orifice ring.

Further, an ejection cylinder is vertically fixed under the limiting pore plate on the top surface of the machine table, the ejection cylinder is located below the feeding pore ring, and an ejection rod is connected to the output end of the ejection cylinder.

Furthermore, the lifting structure comprises a first sliding barrel, a second guide rod and a second cylinder, the first sliding barrel is horizontally welded on the upper side and the lower side of the rear end face of the vertical plate of the lifting structure, the second guide rod is symmetrically welded on the two sides of the front end face of the vertical plate of the lifting structure, and the second cylinder is vertically fixed on the top of the front end face of the vertical plate of the lifting structure.

Furthermore, a first guide rod is horizontally welded on the opposite end face of the support arm, a first air cylinder is horizontally welded on one side of the opposite end face of the support arm, the first guide rod is in sliding fit with a first sliding barrel on a vertical plate of the lifting structure, and the other end of the first air cylinder is welded on the side end face of the vertical plate of the lifting structure.

Further, the material taking structure comprises a support frame, a second sliding barrel and a third air cylinder, the support frame is U-shaped, the second sliding barrel in sliding fit with the second guide rod is vertically welded on the rear end face of the support frame, and the third air cylinder is vertically fixed on the front end face of the support frame.

Further, the bottom of the third cylinder is welded with a nut sleeve, and the nut sleeve is vertically connected with a material taking rod through threads.

Furthermore, a connecting stud matched with the nut sleeve in a threaded mode is welded at the top end of the material taking rod, and elastic pieces are evenly and vertically welded at the top end of the material taking rod.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model is characterized in that the nut is pre-arranged in the limit hole of the feeding hole ring, the rotating wheel is driven by the motor to horizontally rotate on the machine platform, thereby driving the feeding hole ring to rotate to the position of the limiting hole plate, jacking the nut upwards and directionally jacking the feeding through the jacking rod on the jacking cylinder, then the material taking rod of the material taking structure of the moving structure is driven by the first cylinder, the second cylinder and the third cylinder to move to the position of the limiting pore plate, the material taking rod extends into the screw hole of the nut, the top end of the nut is evenly and vertically welded with an elastic sheet to clamp the nut, so that the nut is taken away by the elastic compression nut, then the lifting structure moves the first cylinder to the third cylinder on the support arm to move the support arm to an object to be provided with a nut, the mounting position is adjusted to finish mounting, through the structure, feeding efficiency and convenience can be improved conveniently, and flexibility and applicability of use can be improved conveniently and flexibly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic exploded view of the present invention;

fig. 2 is a schematic structural diagram of a machine table in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a moving structure in an embodiment of the present invention;

fig. 4 is a schematic structural view of a feeding structure in an embodiment of the present invention;

fig. 5 is a schematic structural view of a material taking structure in the embodiment of the present invention.

In the figure: 1. a machine platform; 2. a feeding structure; 21. a rotating wheel; 22. a feeding orifice plate; 23. a motor; 24. a support; 25. a limiting ring; 26. a material ejection cylinder; 3. a moving structure; 31. a support arm; 32. a first guide bar; 33. a first cylinder; 34. a lifting structure; 341. a first slide drum; 342. a second guide bar; 343. a second cylinder; 35. a material taking structure; 351. supporting a frame; 352. a second slide drum; 353. a third cylinder; 354. a nut sleeve; 355. taking a material rod; 356. connecting a stud; 357. an elastic sheet.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, 2, 3, 4 and 5, an automatic precise nut implanting device includes a machine table 1, a feeding structure 2 and a moving structure 3, the feeding structure 2 is horizontally installed on one side of the top surface of the machine table 1, and the rear end surface of the top surface of the machine table 1 is vertically provided with a moving structure 3, the feeding structure 2 comprises a rotating wheel 21, a feeding hole ring 22 and a motor 23, the rotating wheel 21 is horizontally arranged right above the top surface of the machine table 1, a feeding hole ring 22 is horizontally and fixedly sleeved on the outer circumference of the rotating wheel 21, and the bottom end face of the rotating wheel 21 is vertically fixed with a motor 23, and the motor 23 is fixed on the top face of the machine table 1, the moving structure 3 comprises a support arm 31, a lifting structure 34 and a material taking structure 35, and the vertical symmetrical welding of support arm 31 has the top surface both sides of board 1, and support arm 31 horizontal slidable mounting has elevation structure 34, and vertical installation has the material structure 35 of getting on elevation structure 34.

It should be noted that the inner diameter of the limiting hole of the feeding hole ring is slightly larger than the inner diameter of the nut, the nut is just clamped in the limiting hole of the feeding hole ring, and in order to prevent the nut from falling down, a layer of baffle ring is arranged at the lower end of the feeding hole ring, and the inner diameter of the baffle ring is slightly smaller than the inner diameter of the limiting hole of the feeding hole ring, so as not to influence the use of the material ejecting cylinder.

Referring to fig. 2, a bracket 24 is vertically welded to one side of the rotating wheel 21 on the top surface of the machine table 1, a U-shaped limiting pore plate 25 is welded to one end of the bracket 24, the material pore ring 22 is clamped between the limiting pore plates 25, and the limiting pore of the limiting pore plate 25 is opposite to the limiting pore of the material loading pore ring 22.

Further, an ejection cylinder 26 is vertically fixed under the limiting pore plate 25 on the top surface of the machine table 1, the ejection cylinder 26 is located below the feeding pore ring 22, and an output end of the ejection cylinder 26 is connected with an ejection rod.

And then through utilizing on the top surface of board 1 the spacing orifice plate 25 under vertically be fixed with liftout cylinder 26, and the vertical ejector pin that runs through spacing orifice plate 25 that is connected with of output of liftout cylinder 26, when the spacing hole on the material loading orifice ring 22 and the through-hole centre of a circle on the spacing orifice plate 25 are on same vertical line, through the ejector pin on the liftout cylinder 26 with the directional jack-up material loading of nut upwards.

Referring to fig. 3, the lifting structure 34 includes a first sliding barrel 341, a second guiding rod 342 and a second cylinder 343, the first sliding barrel 341 is horizontally welded on both upper and lower sides of the rear end surface of the vertical plate of the lifting structure 34, the second guiding rods 342 are vertically and symmetrically welded on both sides of the front end surface of the vertical plate of the lifting structure 34, and the second cylinder 343 is vertically fixed on the top of the front end surface of the vertical plate of the lifting structure 34.

And then through the equal level welding first slide drum 341 in both sides about the riser rear end face of elevation structure 34, the vertical symmetrical welding in end face both sides has second guide bar 342 before the riser of elevation structure 34, and the vertical second cylinder 343 that is fixed with in end face top before the riser of elevation structure 34 to be convenient for carry out horizontal migration between the first guide bar 32 of support arm 31, then utilize the vertical second cylinder 343 that is fixed with in end face top before the riser of elevation structure 34, the material operation is got in the drive 35 of getting goes up and down.

Referring to fig. 3, a first guide rod 32 is horizontally welded on the opposite end surface of the support arm 31, a first cylinder 33 is horizontally welded on one side of the opposite end surface of the support arm 31, the first guide rod 32 is in sliding fit with a first sliding cylinder 341 on a vertical plate of the lifting structure 34, and the other end of the first cylinder 33 is welded on the side end surface of the vertical plate of the lifting structure 34.

And then horizontally weld through on the relative terminal surface of support arm 31 has first guide bar 32, and the relative terminal surface of support arm 31 one side horizontally weld has first cylinder 33, first guide bar 32 and the first slide drum 341 on the riser of elevation structure 34 sliding fit, the other end welding of first cylinder 33 is on the riser side end face of elevation structure 34 to be convenient for elevation structure 34 to carry out horizontal migration, the adjustment mounted position.

Referring to fig. 5, the material taking structure 35 includes a support frame 351, a second sliding cylinder 352 and a third cylinder 353, the support frame 351 is U-shaped, the second sliding cylinder 352 slidably fitted with the second guide rod 342 is vertically welded to the rear end surface of the support frame 351, and the third cylinder 353 is vertically fixed to the front end surface of the support frame 351.

And then be the U-shaped through the shape of propping up frame 351, prop up vertical welding on the rear end face of frame 351 and have the second slide cartridge 352 with second guide bar 342 sliding fit, and prop up the vertical third cylinder 353 that is fixed with on the preceding terminal surface of frame 351 to be convenient for vertical direction is got material structure 35 and is gone up and down, and the stability and the convenience of getting the material are promoted from what.

Referring to fig. 5, a nut sleeve 354 is welded to the bottom end of the third cylinder 353, and a material taking rod 355 is vertically and threadedly connected to the nut sleeve 354.

And then the bottom welding through third cylinder 353 has nut cover 354, and vertical threaded connection has the pole 355 of getting material on the nut cover 354, is convenient for disassemble the change fast according to the demand and gets the pole 355, promotes the flexibility of using.

Referring to fig. 5, a connecting stud 356 threadedly engaged with the nut sleeve 354 is welded to the top end of the take-out lever 355, and an elastic piece 357 is vertically welded to the top end of the take-out lever 355.

And then the top welding through getting material pole 355 has with nut cover 354 screw-thread fit's connecting stud 356, and get the even vertical welding in top of material pole 355 and have elastic force piece 357 to inside taking away the nut of elasticity gland nut, disassembling fast simultaneously according to the demand and changing and getting material pole 355, promote the flexibility of using.

The working principle is as follows: when the nut feeding mechanism is used, nuts are placed in limiting holes of a feeding hole ring 22 in advance, a motor 23 drives a rotating wheel 21 to horizontally rotate on a machine table 1, the feeding hole ring 22 is further driven to rotate to a limiting hole plate 25, the nuts are upwards and directionally jacked up for feeding through a jacking rod on a jacking cylinder 26, then a material taking rod 355 of a material taking structure 35 of a moving structure 3 is driven by a first cylinder, a second cylinder and a third cylinder to move to the limiting hole plate 25, the material taking rod 355 extends into a screw hole of the nut, the nut is clamped under the action of an elastic sheet 357 uniformly and vertically welded at the top end, so that the nut is taken away from the interior of an elastic compression nut, then the nut is moved to an object to be provided with the nut through the movement of the first cylinder to the third cylinder on a support arm 31 through a lifting structure 34, installation position adjustment is carried out, installation is completed, feeding is facilitated, and feeding efficiency and convenience are improved through the structure, and the flexibility and the applicability of use are convenient to flexibly adjust and improve.

The device obtained through the design can basically meet the requirements of using the automatic precise nut implanting device which can conveniently feed materials, improve the feeding efficiency and convenience, flexibly adjust and improve the flexibility and the applicability of use, but the designer further improves the device based on the purpose of further perfecting the functions of the device.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The automatic precise nut implanting device is characterized by comprising a machine table (1), a feeding structure (2) and a moving structure (3), wherein the feeding structure (2) is horizontally arranged on one side of the top surface of the machine table (1), the moving structure (3) is vertically arranged on the rear end face of the top surface of the machine table (1), the feeding structure (2) comprises a rotating wheel (21), a feeding hole ring (22) and a motor (23), the rotating wheel (21) is horizontally arranged right above the top surface of the machine table (1), the feeding hole ring (22) is horizontally and fixedly sleeved on the outer circumference of the rotating wheel (21), the motor (23) is vertically fixed on the bottom end face of the rotating wheel (21), the motor (23) is fixed on the top surface of the machine table (1), the moving structure (3) comprises a support arm (31), a lifting structure (34) and a material taking structure (35), and the two sides of the top surface of the support arm (31) are vertically and symmetrically welded with the material, support arm (31) horizontal sliding installs elevation structure (34), and vertical installation has material taking structure (35) on elevation structure (34).

2. The automatic precise nut implanting device according to claim 1, wherein a support (24) is vertically welded to one side of the rotating wheel (21) on the top surface of the machine table (1), a U-shaped limiting pore plate (25) is welded to one end of the support (24), the material pore ring (22) is clamped between the limiting pore plates (25), and a limiting hole of the limiting pore plate (25) is opposite to a limiting hole of the material loading pore ring (22).

3. The automatic precise nut implanting device according to claim 2, wherein an ejecting cylinder (26) is vertically fixed right below the limiting pore plate (25) on the top surface of the machine table (1), the ejecting cylinder (26) is located below the feeding pore ring (22), and an ejecting rod is connected to an output end of the ejecting cylinder (26).

4. The automatic precise nut implanting device according to claim 3, wherein the lifting structure (34) comprises a first sliding barrel (341), a second guiding rod (342) and a second air cylinder (343), the first sliding barrel (341) is horizontally welded on the upper side and the lower side of the rear end face of the vertical plate of the lifting structure (34), the second guiding rod (342) is vertically and symmetrically welded on the two sides of the front end face of the vertical plate of the lifting structure (34), and the second air cylinder (343) is vertically fixed on the top of the front end face of the vertical plate of the lifting structure (34).

5. The automatic precise nut implanting device according to claim 4, wherein a first guiding rod (32) is horizontally welded on the opposite end face of the supporting arm (31), and a first cylinder (33) is horizontally welded on one side of the opposite end face of the supporting arm (31), the first guiding rod (32) is in sliding fit with a first sliding barrel (341) on a vertical plate of the lifting structure (34), and the other end of the first cylinder (33) is welded on a side end face of the vertical plate of the lifting structure (34).

6. The automatic precise nut implanting device according to claim 5, wherein the material taking structure (35) comprises a support frame (351), a second sliding cylinder (352) and a third air cylinder (353), the support frame (351) is U-shaped, the second sliding cylinder (352) which is in sliding fit with the second guide rod (342) is vertically welded on the rear end face of the support frame (351), and the third air cylinder (353) is vertically fixed on the front end face of the support frame (351).

7. The automatic precise nut implanting device according to claim 6, wherein a nut sleeve (354) is welded at the bottom end of the third cylinder (353), and a material taking rod (355) is vertically and threadedly connected to the nut sleeve (354).

8. The automatic implantation device of precise nut as claimed in claim 7, characterized in that the top end of the material taking rod (355) is welded with a connecting stud (356) which is in threaded fit with the nut sleeve (354), and the lower end of the material taking rod (355) is uniformly and vertically welded with an elastic sheet (357).

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