CN216729917U - Tapping device for copper screw machining - Google Patents

Abstract

The utility model discloses a tapping device for processing copper screws, which comprises a frame assembly, a tapping assembly, a protective assembly and a cleaning assembly, wherein the frame assembly comprises a base plate, a guide post fixed on the top surface of the base plate, a mounting plate sleeved with the guide post, a through hole formed in the surface of the mounting plate, a top plate sheet fixed on the top surface of the mounting plate, and a hydraulic rod connected between the top plate sheet and the mounting plate. According to the utility model, through the mutual matching of the arranged tapping structure and the protective structure, the whole tapping process is protected, and the fragments are prevented from splashing, and through the arranged cleaning structure, the metal fragments are cleaned in real time in the whole screw tapping processing process, so that the fragments are convenient to recover, and the fragments are prevented from being accumulated more, and the accuracy of the screw tapping processing is prevented from being influenced.

Description

Tapping device for copper screw machining

Technical Field

The utility model relates to the technical field of screw tapping, in particular to a tapping device for processing copper screws.

Background

The screw need carry out the tapping in process of production and handles, and at the in-process of tapping processing, the screw atress is great, can produce more metal debris, and traditional chasing bar lacks protective structure at the in-process that uses, if the atress is uneven, and the piece splashes easily, for this reason, we propose a chasing bar for copper screw processing.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims to provide a tapping device for processing copper screws, which can protect the whole tapping process and prevent chips from splashing by matching the arranged tapping structure and the protective structure, and can clean metal chips in real time in the whole screw tapping processing process by the arranged cleaning structure, so that the chips can be conveniently recovered, and the chips can be prevented from being accumulated more to influence the accuracy of the screw tapping processing.

To solve the above technical problem, according to an aspect of the present invention, the present invention provides the following technical solutions:

a tapping device for copper screw machining includes:

the frame assembly comprises a base plate, a guide column fixed on the top surface of the base plate, a mounting plate sleeved with the guide column, a through hole formed in the surface of the mounting plate, a top plate sheet fixed on the top surface of the mounting plate and a hydraulic rod connected between the top plate sheet and the mounting plate;

the tapping component comprises a rotating motor arranged on the bottom surface of the mounting piece, a screw tap connected to the tail end of the rotating motor, a rectangular groove formed in the bottom surface of the base plate, a screw limiting frame arranged in the rectangular groove, a screw body clamped in the screw limiting frame, a fixing piece fixed on the side wall of the screw limiting frame, a hole position formed in the surface of the fixing piece and a circular rod penetrating through the hole position;

the protection assembly comprises a first protection side plate fixed on the top surface of the base plate, a second protection side plate fixed right opposite to the first protection side plate, a long groove formed in the inner side of the first protection side plate, a baffle clamped in the long groove and a semi-arc groove formed in the top end of the baffle;

the cleaning assembly comprises an electromagnet sheet attached to the bottom surface of the baffle, an annular ventilation frame installed on the inner side wall of the rectangular groove, and an air blowing hole formed in the side wall of the annular ventilation frame and an air inlet hole formed in the top surface of the annular ventilation frame and communicated with the air blowing hole.

As a preferable scheme of the tapping device for processing the copper screw, four guide columns are arranged, and the four guide columns correspond to the through holes one by one.

In a preferred embodiment of the tapping device for copper screw machining according to the present invention, the screw stopper frame is located directly below the screw tap.

The utility model further discloses a tapping device for processing copper screws, which comprises a leakage-proof assembly, wherein the leakage-proof assembly comprises an arc-shaped ventilation frame, a dust suction head and a first pipeline, the arc-shaped ventilation frame is arranged on the bottom surface of the baffle and is positioned at the semi-arc-shaped groove, the dust suction head is communicated with the side wall of the arc-shaped ventilation frame, and the first pipeline is communicated with the bottom surface of the arc-shaped ventilation frame.

As a preferable scheme of the tapping device for processing the copper screw, the number of the protection assemblies is two, and the two protection assemblies are symmetrically arranged with respect to the center line of the rectangular groove.

The tapping device for processing the copper screw further comprises a storage component, wherein the storage component comprises a storage plate located below the baffle, a groove formed in the top surface of the storage plate and a handle fixed to the top end of the storage plate.

As a preferable scheme of the tapping device for processing copper screws, the storage assemblies correspond to the protection assemblies one to one.

The tapping device for processing the copper screw is characterized by further comprising a limiting assembly, wherein the limiting assembly comprises an annular frame sleeved with the guide column, a threaded hole formed in the side wall of the annular frame and a threaded rod penetrating through the threaded hole.

As a preferred scheme of the tapping device for processing the copper screw, the number of the limiting assemblies is two, and the two limiting assemblies are distributed in a diagonal direction.

In a preferred embodiment of the tapping device for copper screw machining according to the present invention, the tap has a diameter smaller than that of the semi-arc groove.

Compared with the prior art, the utility model has the beneficial effects that: through the mutual cooperation of the arranged tapping structure and the protection structure, the whole tapping process is protected, the fragments are prevented from splashing, and through the arranged cleaning structure, in the whole screw tapping process, metal fragments are cleaned in real time, the fragments are convenient to recover, meanwhile, the fragments are prevented from being accumulated more, the precision of the screw tapping process is influenced, when the screw tapping machine is used specifically, a user places a screw body to be tapped in a screw limiting frame and pushes a baffle plate, the baffle plate slides in a strip groove until the two baffle plates are butted with each other, the two semi-arc grooves are butted to form a whole circle, the omnibearing protection is carried out, at the moment, a hydraulic rod drives an installation piece to move downwards stably, so that the screw tap penetrates through the circle formed by the two semi-arc grooves, a rotating motor rotates at a high speed, the screw tap is driven to rotate, the tapping is carried out, and in the tapping process, the fragments are directly shielded, can not splash to when the piece spatters the time-out, directly adsorbed by the electro-magnet piece, through inlet port input air, blow the piece, be convenient for like this blow the piece, guarantee the better absorption of electro-magnet piece, clear up in real time to the piece that taps the in-process and produce.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise. Wherein:

FIG. 1 is a perspective view of a tapping apparatus for copper screw processing according to the present invention;

FIG. 2 is an enlarged view of the tapping device for copper screw machining at A in FIG. 1;

FIG. 3 is an enlarged view of a first perspective of the tapping unit of FIG. 1 for copper screw processing according to the present invention;

FIG. 4 is an enlarged view of a second perspective of the tapping assembly of FIG. 1 of the tapping apparatus for copper screw machining according to the present invention;

FIG. 5 is a bottom view of the baffle of FIG. 2 illustrating the tapping apparatus for copper screw machining according to the present invention;

fig. 6 is a structural view of a cleaning assembly in fig. 1 of a tapping device for copper screw machining according to the present invention.

In the figure: 100. a frame assembly; 110. a base plate; 120. a guide post; 130. mounting a sheet; 140. a through hole; 150. a roof sheet; 160. a hydraulic lever; 200. a tapping assembly; 210. a rotating electric machine; 220. a screw tap; 230. a rectangular groove; 240. a screw limit frame; 250. a screw body; 260. a fixing sheet; 270. hole site; 280. a circular rod; 300. a guard assembly; 310. a first protective side plate; 320. a second protective side plate; 330. a long groove; 340. a baffle plate; 350. a semi-arc shaped groove; 400. cleaning the assembly; 410. an electromagnet piece; 420. an annular ventilation frame; 430. a gas blowing hole; 440. an air inlet; 500. a leak-proof assembly; 510. an arc-shaped ventilation frame; 520. a dust collection head; 530. a first conduit; 600. storing the components; 610. a storage plate; 620. a groove; 630. a handle; 700. a limiting component; 710. an annular frame; 720. a threaded hole; 730. a threaded rod.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced otherwise than as specifically described herein, and it will be appreciated by those skilled in the art that the present invention may be practiced without departing from the spirit and scope of the present invention and that the present invention is not limited by the specific details disclosed below.

Next, the present invention will be described in detail with reference to the drawings, and in the detailed description of the embodiments of the present invention, the cross-sectional view showing the structure of the device will not be partially enlarged by a half scale for convenience of explanation, and the drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The utility model provides a tapping device for processing copper screws, which is characterized in that the tapping structure and the protective structure are matched with each other, so that the whole tapping process is protected, and fragments are prevented from splashing.

Referring to fig. 1 to 6, which are schematic overall structural views illustrating an embodiment of a tapping device for copper screw machining according to the present invention, a main body of the tapping device for copper screw machining according to the present embodiment includes: a frame assembly 100, a tapping assembly 200, a guard assembly 300, and a cleaning assembly 400.

Frame set 100 is used for supporting installation tapping subassembly 200 and uses, it is specific, frame set 100 is including the bed plate 110 that sets up, fix the guide post 120 at the bed plate 110 top surface, the installation piece 130 of registrating with guide post 120, set up the through-hole 140 on installation piece 130 surface, fix the roof piece 150 and the hydraulic stem 160 of connection between roof piece 150 and installation piece 130 at the installation piece 130 top surface, when specifically using, hydraulic stem 160 drives installation piece 130 and steadily moves down, the design of guide post 120, guarantee the stability of installation piece 130 in the removal process, the condition of rocking prevents to appear.

The tapping component 200 is used for tapping screws, and in particular, the tapping component 200 comprises a rotating motor 210 installed on the bottom surface of an installation plate 130, a screw tap 220 connected to the tail end of the rotating motor 210, a rectangular groove 230 formed in the bottom surface of a base plate 110, a screw limiting frame 240 arranged in the rectangular groove 230, a screw body 250 clamped in the screw limiting frame 240, a fixing plate 260 fixed on the side wall of the screw limiting frame 240, a circular rod 280 arranged on the surface of the fixing plate 260 and a through hole position 270, when the tapping component is specifically used, a user places the screw body 250 needing tapping in the screw limiting frame 240, the rotating motor 210 rotates at a high speed, the screw tap 220 is driven to rotate, and tapping is performed.

The protection component 300 is used for carrying out the omnidirectional protection with the tapping process, prevent that the piece from splashing, it is specific, protection component 300 is including fixing the first protection curb plate 310 at the base plate 110 top surface, fix the second protection curb plate 320 in first protection curb plate 310 just opposite, set up at the inboard rectangular groove 330 of first protection curb plate 310, the block is at the baffle 340 in rectangular groove 330 and set up the semi-arc groove 350 on baffle 340 top, when specifically using, promote baffle 340, baffle 340 slides in rectangular groove 330, dock each other until two baffles 340, make two semi-arc grooves 350 dock, form a whole circle, carry out the omnidirectional protection.

The clearance subassembly 400 is used for the real-time clearance of piece, it is concrete, the clearance subassembly 400 is including the laminating electromagnet piece 410 in baffle 340 bottom surface, install the annular of rectangular channel 230 inside wall and ventilate frame 420, set up the air intake 440 of ventilating the air hole 430 and the intercommunication of frame 420 lateral wall at the annular of ventilating the top surface of frame 420, when the piece spatters, directly adsorbed by electromagnet piece 410, the one end of air intake 440 is connected with the blower, through air inlet 440 input, blow the piece, be convenient for like this blow the piece up, guarantee the better absorption of electromagnet piece 410, carry out real-time clearance to the piece that taps the in-process produced.

With reference to fig. 1-6, in the tapping device for processing copper screws of this embodiment, during specific use, a user places a screw body 250 to be tapped in a screw limiting frame 240 and pushes a baffle 340, the baffle 340 slides in a strip groove 330 until the two baffles 340 are butted with each other, so that two semi-arc grooves 350 are butted to form a whole circle, and omnidirectional protection is performed, at this time, a hydraulic rod 160 drives a mounting plate 130 to move down stably, so that a screw tap 220 penetrates through the circle formed by the two semi-arc grooves 350, a rotating motor 210 rotates at a high speed to drive the screw tap 220 to rotate and tap, so that in the tapping process, chips are directly shielded and do not splash, and when the chips splash, the chips are directly adsorbed by an electromagnet plate 410, air is input through an air inlet 440 to blow the chips, so that the chips are blown up, and the chips 410 are better adsorbed, and cleaning the scraps generated in the tapping process in real time.

Further, when the chips are cleaned, the chips are blown up, a gap exists between a circle formed by the two semi-arc grooves 350 and the screw tap 220, so that the situation that the chips burst out is possible, the leakage-proof assembly 500 is arranged for solving the problem, in particular, the leakage-proof assembly 500 is also included, the leakage-proof assembly 500 comprises an arc-shaped ventilation frame 510 arranged at the bottom surface of the baffle plate 340, a dust suction head 520 communicated with the side wall of the arc-shaped ventilation frame 510 and a first pipeline 530 communicated with the bottom surface of the arc-shaped ventilation frame 510, when the leakage-proof assembly 500 is specifically sent, one end of the first pipeline 530 is connected with a dust collector, the dust suction head 520 is arranged at the position of the semi-arc grooves 350, so that the dust suction head 520 directly sucks the chips blown to the position of the semi-arc grooves 350, and the chips are prevented from bursting.

Further, the storage assembly 600 is arranged to store scraps, specifically, the storage assembly 600 is further included, the storage assembly 600 comprises a storage plate 610 located below the baffle 340, a groove 620 formed in the top surface of the storage plate 610, and a handle 630 fixed to the top end of the storage plate 610, when the baffle 340 is unfolded in specific use, the electromagnet piece 410 is powered off, the scraps adsorbed on the surface of the electromagnet piece 410 directly fall into the groove 620, and the storage plate 610 is pulled out through the handle 630.

Further, the limiting assembly 700 is arranged to limit the moving position of the mounting plate 130, so that the problem that the screw tapping depth is deep when the hydraulic rod 160 has a displacement fault in the mounting plate 130 is prevented, specifically, the limiting assembly 700 is further included, the limiting assembly 700 comprises an annular frame 710 which is sleeved with the guide column 120, a threaded hole 720 which is formed in the side wall of the annular frame 710 and a threaded rod 730 which penetrates through the threaded hole 720, when the mounting plate is specifically used, a user moves the annular frame 710 to a required position, rotates the threaded rod 730, directly abuts against the guide column 120 with the bottom surface of the threaded rod 730, limits the annular frame 710, and when the mounting plate 130 moves to the tapping depth position, the mounting plate directly contacts with the annular frame 710 to prevent continuous downward movement and the problem that the tapping depth changes is prevented.

While the utility model has been described with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the various features of the disclosed embodiments of the utility model may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. The utility model provides a chasing bar for copper screw processing which characterized in that includes:

the frame component (100) comprises a base plate (110), a guide post (120) fixed on the top surface of the base plate (110), a mounting plate (130) sleeved with the guide post (120), a through hole (140) formed in the surface of the mounting plate (130), a top plate sheet (150) fixed on the top surface of the mounting plate (130) and a hydraulic rod (160) connected between the top plate sheet (150) and the mounting plate (130);

the tapping assembly (200) comprises a rotating motor (210) arranged on the bottom surface of the mounting plate (130), a screw tap (220) connected to the tail end of the rotating motor (210), a rectangular groove (230) formed in the bottom surface of the base plate (110), a screw limiting frame (240) arranged in the rectangular groove (230), a screw body (250) clamped in the screw limiting frame (240), a fixing plate (260) fixed on the side wall of the screw limiting frame (240), a hole position (270) formed in the surface of the fixing plate (260) and a circular rod (280) penetrating through the hole position (270);

the protective assembly (300) comprises a first protective side plate (310) fixed on the top surface of the base plate (110), a second protective side plate (320) fixed on the right opposite side of the first protective side plate (310), a long groove (330) formed in the inner side of the first protective side plate (310), a baffle plate (340) clamped in the long groove (330) and a semi-arc-shaped groove (350) formed in the top end of the baffle plate (340);

the cleaning assembly (400) comprises an electromagnet sheet (410) attached to the bottom surface of the baffle (340), an annular ventilation frame (420) arranged on the inner side wall of the rectangular groove (230), a blowing hole (430) formed in the side wall of the annular ventilation frame (420) and an air inlet hole (440) communicated with the top surface of the annular ventilation frame (420).

2. The tapping device for copper screw processing according to claim 1, wherein four guide posts (120) are provided, and the four guide posts (120) correspond to the through holes (140) one by one.

3. The tapping device for copper screw machining according to claim 2, wherein said screw stop frame (240) is located directly below said tap (220).

4. The tapping device for copper screw processing according to claim 3, further comprising a leakage preventing assembly (500), wherein said leakage preventing assembly (500) comprises an arc-shaped ventilation frame (510) disposed at the bottom surface of said baffle (340) and located at the semi-arc-shaped groove (350), a dust suction head (520) communicated with the side wall of said arc-shaped ventilation frame (510), and a first pipeline (530) communicated with the bottom surface of said arc-shaped ventilation frame (510).

5. The tapping device for copper screw processing according to claim 4, wherein there are two guard assemblies (300), and the two guard assemblies (300) are symmetrically arranged with respect to the center line of the rectangular groove (230).

6. The tapping device for copper screw processing according to claim 5, further comprising a storage assembly (600), wherein said storage assembly (600) comprises a storage plate (610) located below said baffle (340), a recessed groove (620) formed in a top surface of said storage plate (610), and a handle (630) fixed to a top end of said storage plate (610).

7. The tapping device for copper screw machining according to claim 6, wherein the storage assemblies (600) correspond to the shielding assemblies (300) one to one.

8. The tapping device for copper screw processing according to claim 7, further comprising a limiting assembly (700), wherein the limiting assembly (700) comprises an annular frame (710) sleeved with the guide post (120), a threaded hole (720) formed in the side wall of the annular frame (710), and a threaded rod (730) penetrating through the threaded hole (720).

9. The tapping device for copper screw processing according to claim 8, wherein there are two limiting assemblies (700), and the two limiting assemblies (700) are distributed in a diagonal direction.

10. The tapping device for copper screw machining according to claim 9 wherein said tap (220) has a diameter smaller than that of said semi-arc shaped groove (350).

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