CN211564754U - Thread forming machine - Google Patents

Abstract

The utility model discloses a thread forming machine, a serial communication port, include: the thread forming mechanism and the control device are fixedly arranged on the rack, and the control device is electrically connected with the thread forming mechanism, so that the control device controls the thread forming mechanism to move; the thread forming mechanism comprises a driving mechanism, a working table and a push rod, wherein the driving mechanism is fixedly arranged on the working table and is fixedly connected to the working table in a screw mode; the push rod is connected with the driving mechanism so as to drive the push rod to reciprocate when the driving mechanism reciprocates. The utility model provides a this thread forming machine simple structure, production efficiency is high, and thread forming is pleasing to the eye.

Description

Thread forming machine

Technical Field

The utility model relates to an automation equipment especially relates to a thread forming machine.

Background

The connection mode of the glass lampshade of the oven bulb lamp holder and the lamp holder is threaded connection, and the lamp holder is made of stainless steel. In the prior art, the thread on the lamp cap is generally formed by dotting by a punch press and needs dotting three times. The thread forming mode has at least three defects and shortcomings, and firstly, the manual operation of punch dotting personnel is unsafe; secondly, dotting is needed for three times, the positions before and after the three times are different, different molds are used, and the production efficiency is extremely low; and thirdly, the appearance of the dotted thread is poor.

Disclosure of Invention

In view of the above, in order to solve the above problem, the present invention provides a thread forming machine, which includes: the thread forming mechanism and the control device are fixedly arranged on the rack, and the control device is electrically connected with the thread forming mechanism, so that the control device controls the thread forming mechanism to move.

Further, the thread forming mechanism comprises a driving mechanism and a working table, wherein the driving mechanism is fixedly installed on the working table, and the driving mechanism is fixedly connected to the working table in a screw mode.

Further, the thread forming mechanism further comprises a push rod, and the push rod is connected with the driving mechanism so as to drive the push rod to reciprocate when the driving mechanism reciprocates.

Further, the push rod and the drive mechanism are pivotally connected, i.e. the push rod is pivoted within a predetermined angular range with respect to the drive mechanism.

Further, the driving mechanism is a cylinder.

Further, the thread forming mechanism further comprises a thread processing mechanism, wherein the thread processing mechanism is fixedly connected with the push rod, so that the driving mechanism is driven to do reciprocating motion when the driving mechanism does reciprocating motion, then the push rod is driven to do reciprocating motion, and then the thread processing mechanism is driven to do reciprocating motion in a preset direction and within a preset angle range.

Further, the thread machining mechanism is fixed with the push rod in a screw mode.

Further, the thread machining mechanism comprises a bottom plate, a cam block and a pressing plate, wherein the bottom plate is fixedly connected to the working table top in a screw mode, the cam block and the pressing plate are sequentially superposed on the bottom plate in sequence, a first channel which is axially communicated is arranged in the middle area of the cam block, a second channel which is axially communicated is arranged in the middle area of the pressing plate, and when the cam block and the pressing plate are sequentially superposed on the bottom plate, the geometric centers of the first channel of the cam block and the second channel of the pressing plate are located on the same vertical line.

Further, the thread machining mechanism further comprises an outer die and an inner die, wherein the inner die is arranged inside the outer die.

Furthermore, the middle area of the outer die is provided with an outer die cavity which axially penetrates through the outer die, the inner wall profile of the outer die cavity is matched with that of the inner die, and the inner die is inserted into the outer die cavity along the outer die cavity to form an assembly; the middle area of the inner die is provided with an inner die cavity which axially penetrates through the inner die and is used for placing a lamp holder, so that the diameter and the contour of the inner wall of the inner die cavity are matched with the lamp holder.

Further, the components of the outer die and the inner die are placed in a channel formed by the first channel and the second channel, wherein the bottom of the outer die and the cam block are fixed together, so that when the driving mechanism drives the cam block to reciprocate, the outer die is driven to move on a preset track, and then the components of the outer die and the inner die are driven to move on the preset track.

Further, the pressing plate is provided with at least three cutter grooves which are respectively a first cutter groove, a second cutter groove and a third cutter groove, and the first cutter groove, the second cutter groove and the third cutter groove are axially arranged on the pressing plate and have preset depths.

Further, the thread machining mechanism further comprises a cutting blade fixedly arranged in the cutter groove.

Further, the cutting blades include a first cutting blade, a second cutting blade, and a third cutting blade, wherein the first cutting blade is fixedly mounted in the first blade slot, the second cutting blade is fixedly mounted in the second blade slot, and the third cutting blade is fixedly mounted in the third blade slot.

Furthermore, the cutting blade and the cutter groove are respectively provided with a threaded hole corresponding to each other, and the cutting blade is fixedly arranged on the cutter groove through a screw, so that the cutting blade is not easy to separate from the cutter groove when the thread processing mechanism has high speed and high vibration frequency.

Further, the thread machining mechanism further comprises at least one limiting plate, and the limiting plate is fixedly installed on the workbench surface in a screw connection mode.

The utility model provides a technical problem who exists has been solved well to this thread forming machine in the background art, and this equipment structure is simple, and production efficiency is high, and thread forming is pleasing to the eye.

Drawings

Fig. 1 is a schematic perspective view of a thread forming machine according to an embodiment of the present invention.

Fig. 2 is a perspective view of a thread forming mechanism of the thread forming machine shown in fig. 1.

Fig. 3 is an enlarged view of a portion of the thread forming mechanism of fig. 2.

Detailed Description

The technical solution in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

It is to be understood that the described embodiments are merely some embodiments and not all embodiments of the present application, and that the following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the present application and its applications.

In the present invention, the terms "first", "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly and include, for example, fixed connections, detachable connections, or all manner of connections; "coupled" may be direct or indirect through an intermediary. The terms "upper", "lower", and the like indicate orientations or positional relationships based on the manner or positional relationships shown in the drawings, and are merely for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred devices or units must have a specific orientation, be constructed and operated in a specific orientation. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As shown in fig. 1, 2 and 3, a schematic perspective view of a thread forming machine according to an embodiment of the present invention is shown.

The thread forming machine comprises a thread forming mechanism 100, a control device 200 and a frame 300, wherein the thread forming mechanism 100 and the control device 200 are fixedly arranged on the frame 300, the control device 200 is electrically connected with the thread forming mechanism 100, and the control device 200 controls the movement of the thread forming mechanism 100 (the control device 200 is commercially available and is conventional, as long as the control device can control the movement of the thread forming mechanism 100).

The thread forming mechanism 100 comprises a driving mechanism 102 and a work table 101, wherein the driving mechanism 102 is fixedly mounted on the work table 101. The driving mechanism 102 and the work table 101 may be fixed by a threaded screw connection, or the driving mechanism 102 may be fixed to the work table 101 by welding.

The thread forming mechanism 100 further comprises a push rod 103, and the push rod 103 is connected with the driving mechanism 102 so as to drive the push rod 103 to reciprocate when the driving mechanism 102 reciprocates.

Further, the push rod 103 and the driving mechanism 102 are pivotally connected, i.e. the push rod 103 pivots within a predetermined angular range with respect to the driving mechanism 102.

Further, the driving mechanism 102 is a cylinder.

The thread forming mechanism 100 further comprises a thread processing mechanism, wherein the thread processing mechanism is fixedly connected with the push rod 103, so that the drive mechanism 102 is driven to reciprocate when the drive mechanism 102 reciprocates, the push rod 103 is driven to reciprocate, and the thread processing mechanism is driven to reciprocate in a preset direction and an angle range.

It is noted that the above mentioned preset directions and angular ranges can be set and adjusted by the control device 200.

The thread machining mechanism and the push rod 103 may be fixed by a thread screw, or may be fixed by welding, and preferably, the thread machining mechanism and the push rod 103 are fixed by a thread screw.

The thread machining mechanism comprises a bottom plate 104, a cam block 105 and a pressing plate 106, wherein the bottom plate 104 is fixedly connected to the workbench surface 101 through screws, the cam block 105 and the pressing plate 106 are sequentially superposed on the bottom plate 104 in sequence, the middle area of the cam block 105 is provided with a first axial through channel 1051, the middle area of the pressing plate 106 is provided with a second axial through channel 1061, and when the cam block 105 and the pressing plate 106 are sequentially superposed on the bottom plate 104, the geometric centers of the first axial through channel 1051 of the cam block 105 and the second axial through channel 1061 of the pressing plate 106 are located on the same vertical line.

The thread forming mechanism further comprises an outer die 109 and an inner die 108, wherein the inner die 108 is disposed inside the outer die 109.

Specifically, the middle area of the outer mold 109 is provided with an outer mold cavity 1091, the outer mold cavity 1091 axially penetrates through the outer mold 109, the inner wall profile of the outer mold cavity 1091 and the inner mold 108 are matched, and the inner mold 108 is inserted into the outer mold cavity 1091 to form a component; the middle region of the inner mold 108 has an inner mold cavity 1081, the inner mold cavity 1081 axially penetrates through the inner mold 108, and the inner mold cavity 1081 is used for placing the lamp head 10, so that the diameter and the contour of the inner wall of the inner mold cavity 1081 are matched with the lamp head 10.

The components of the outer mold 109 and the inner mold 108 are placed in the channel formed by the first channel 1051 and the second channel 1061, wherein the bottom of the outer mold 109 and the cam block 105 are fixed together, so that when the driving mechanism 102 drives the cam block 105 to reciprocate, the outer mold 109 is driven to move on a preset track, and then the components of the outer mold 109 and the inner mold 108 are driven to move on a preset track.

The pressing plate 106 is provided with at least three cutter grooves, namely a first cutter groove 1062, a second cutter groove 1063 and a third cutter groove 1064, wherein the first cutter groove 1062, the second cutter groove 1063 and the third cutter groove 1064 are axially arranged on the pressing plate 106 and have preset depths.

The thread machining mechanism further includes a cutting blade 110, and the cutting blade 110 is fixedly disposed in the cutter groove. Specifically, the cutting blade 110 includes a first cutting blade 1101, a second cutting blade 1102, and a third cutting blade 1103, wherein the first cutting blade 1101 is fixedly mounted in the first pocket 1062, the second cutting blade 1102 is fixedly mounted in the second pocket 1063, and the third cutting blade 1103 is fixedly mounted in the third pocket 1064.

More specifically, the cutting blade 110 and the tool groove are respectively provided with threaded holes corresponding to each other, and the cutting blade 110 is fixedly mounted on the tool groove by a screw, so that the cutting blade 110 is not easily separated from the tool groove when the thread processing mechanism has a high speed and a high vibration frequency.

The thread machining mechanism further comprises at least one limiting plate 1010, wherein the limiting plate 1010 is fixedly mounted on the working table 101, can be fixed on the working table 101 in a screw mode, and can also be fixed on the working table in a welding mode.

The limit plate 1010 is used for limiting the push rod 103 pivotally connected with the driving mechanism 102 to move continuously, so as to prevent the push rod 103 from being disengaged from a preset stroke and track.

The preset direction, stroke, track and track can be set and adjusted by the control device 200.

The utility model provides a technical problem who exists has been solved well to this thread forming machine in the background art, and this equipment structure is simple, and production efficiency is high, and thread forming is pleasing to the eye.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A thread forming machine, comprising: the thread forming mechanism and the control device are fixedly arranged on the rack, and the control device is electrically connected with the thread forming mechanism, so that the control device controls the thread forming mechanism to move; the thread forming mechanism comprises a driving mechanism, a working table and a push rod, wherein the driving mechanism is fixedly arranged on the working table and is fixedly connected to the working table in a screw mode; the push rod is connected with the driving mechanism so as to drive the push rod to reciprocate when the driving mechanism reciprocates.

2. The thread forming machine according to claim 1, wherein the thread forming mechanism further comprises a thread forming mechanism, wherein the thread forming mechanism and the push rod are fixedly connected together, so that the drive mechanism is driven to reciprocate by the reciprocating motion of the drive mechanism, and then the push rod is driven to reciprocate, and then the thread forming mechanism is driven to reciprocate in a preset direction and an angle range.

3. The thread forming machine according to claim 2, wherein the thread forming mechanism is fixed to the push rod by a screw connection; the thread machining mechanism comprises a bottom plate, a cam block and a pressing plate, wherein the bottom plate is fixedly connected to the working table top through a screw, the cam block and the pressing plate are sequentially superposed on the bottom plate, an axial through first channel is formed in the middle area of the cam block, an axial through second channel is formed in the middle area of the pressing plate, and when the cam block and the pressing plate are sequentially superposed on the bottom plate, the geometric centers of the first channel of the cam block and the second channel of the pressing plate are located on the same vertical line.

4. The thread forming machine according to claim 3, wherein the thread forming mechanism further comprises an outer die and an inner die, wherein the inner die is disposed inside the outer die.

5. A thread forming machine according to claim 4, characterized in that the outer die has an outer die cavity in its middle area, said outer die cavity axially extending through said outer die and having an inner wall profile adapted to said inner die, said inner die being inserted into said outer die cavity along said outer die cavity to form a component; the middle area of the inner die is provided with an inner die cavity which axially penetrates through the inner die and is used for placing a lamp holder, so that the diameter and the contour of the inner wall of the inner die cavity are matched with the lamp holder.

6. The thread forming machine according to claim 5, wherein the assembly of the outer die and the inner die is placed in a channel formed by the first channel and the second channel, wherein the bottom of the outer die and the cam block are fixed together so that when the driving mechanism drives the cam block to reciprocate, the outer die is driven to move on a preset track, and the assembly of the outer die and the inner die is driven to move on a preset track.

7. The thread forming machine of claim 3 wherein said pressure plate has at least three pockets, a first pocket, a second pocket and a third pocket, said first pocket, said second pocket and said third pocket being axially disposed on said pressure plate and having a predetermined depth.

8. The thread forming machine of claim 7 wherein said thread forming mechanism further comprises a cutting blade fixedly disposed in said cutter slot; the cutting blades include a first cutting blade fixedly mounted in the first pocket, a second cutting blade fixedly mounted in the second pocket, and a third cutting blade fixedly mounted in the third pocket; the thread cutting mechanism is characterized in that the cutting knife and the knife groove are respectively provided with a threaded hole corresponding to each other, and the cutting knife is fixedly arranged on the knife groove through a screw, so that the cutting knife is not easy to separate from the knife groove when the thread processing mechanism is in high-speed and high-vibration frequency.

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