CN215788113U - Gun head processing equipment - Google Patents

Abstract

The utility model discloses a gun head processing device, which comprises: a punch press base; the circumference along the punch press base on the punch press base is equipped with in proper order: the device comprises a vibration feeding disc, a reverse side burr punching assembly, a rotary disc feeding assembly, a first milling disc assembly, a thread expanding and tapping assembly, a second milling disc assembly, a third milling disc assembly, a conversion disc assembly, a middle groove rough milling, a fourth milling disc assembly, a rotary disc blanking assembly, a middle groove burr removing assembly and a front side groove punching assembly; the automatic gun head conveying device comprises a vibration feeding disc, a reverse side burr punching assembly, a rotary disc feeding assembly, a first milling disc assembly, a tapping expansion assembly, a second milling disc assembly, a third milling disc assembly, a conversion disc assembly, a fourth milling disc assembly, a rotary disc discharging assembly, a middle groove deburring assembly and a front side groove punching assembly which are connected through a conveying belt at one time so as to realize one-time conveying and operation of a gun head. Has the following beneficial effects: the labor cost is saved, the precision is high, the error is small, the speed is high, the stability is high, and the production efficiency is greatly improved.

Description

Gun head processing equipment

Technical Field

The utility model relates to the technical field of gun head processing, in particular to gun head processing equipment.

Background

In the prior art, each processing step of processing the air gun head needs to be separately performed, the number of operation workers to be equipped is large, and the processing efficiency is low.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved by the utility model

To each processing step that carries out processing to the air gun rifle head among the above prior art all need separately go on, the artifical quantity of operation that needs to be equipped with is more, the lower problem of machining efficiency moreover, this application provides a rifle head processing equipment.

2. Technical scheme

In order to solve the problems, the technical scheme provided by the utility model is as follows:

a gun-head machining apparatus comprising: a punch press base; the circumference along the punch press base on the punch press base is equipped with in proper order: the device comprises a vibration feeding disc for performing vibration feeding on the gun head, a reverse side burr punching assembly for performing burr punching on the reverse side of the gun head, a turntable feeding assembly for feeding the gun head, a first milling cutter disc assembly for performing plane milling on the gun head, a reaming and tapping assembly for performing reaming and tapping on the gun head, a second milling cutter disc assembly for performing tail end face milling on the gun head, a third milling cutter disc assembly for performing tail groove milling on the gun head, a conversion disc assembly for turning the gun head, a rough milling assembly for performing rough milling on an intermediate groove of the gun head, a fourth milling cutter disc assembly for performing finish milling and groove chamfering on the gun head, a turntable blanking assembly for blanking the gun head, an intermediate groove deburring assembly for performing deburring on the intermediate groove of the gun head and a front side groove punching assembly for performing groove punching on the front side of the gun head; the vibrating feeding disc is connected to the reverse side burr punching component through the conveying belt; the rotary table feeding assembly, the first milling cutter disc assembly, the thread expanding and tapping assembly, the second milling cutter disc assembly, the third milling cutter disc assembly, the conversion disc assembly and the fourth milling cutter disc assembly realize grabbing of the gun heads to respective stations through a mechanical arm to perform machining operation; the rotary table blanking assembly, the middle groove deburring assembly and the front face notching assembly are connected at one time through the conveying belt so as to realize the transmission of the gun heads.

Further, the switching disk assembly is provided with an 8-position turntable and a 5-position turntable.

Furthermore, a cover body used for containing and installing the vibration feeding disc, the reverse side burr punching assembly, the rotary disc feeding assembly, the first milling disc assembly, the thread expanding and tapping assembly, the second milling disc assembly, the third milling disc assembly, the conversion disc assembly, the fourth milling disc assembly, the rotary disc blanking assembly, the middle groove deburring assembly and the front side groove punching assembly is arranged on the punch base.

Further, the cover body is formed with an observation window for observing the internal processing condition.

Furthermore, the periphery of the cover body, which is positioned on the observation window, is also provided with a sound insulation cabinet for insulating noise generated by processing in the cover body.

Furthermore, the punch press base is also provided with a control cabinet for controlling the vibration feeding disc, the reverse side burr punching assembly, the turntable feeding assembly, the first milling cutter disc assembly, the thread expanding and tapping assembly, the second milling cutter disc assembly, the third milling cutter disc assembly, the conversion disc assembly, the fourth milling cutter disc assembly, the turntable blanking assembly, the middle groove deburring assembly, the front side groove punching assembly and the conveying belt to operate.

Further, the punch press base is also provided with a hydraulic station for providing hydraulic pressure for the turntable feeding assembly.

3. Advantageous effects

Compared with the prior art, the technical scheme provided by the utility model has the following beneficial effects:

(1) the rifle head processing equipment that this application embodiment provided sets gradually a plurality of subassemblies that are used for carrying out processing to the rifle head in the circumference of punch press base, carries processing through the conveyer belt, has realized that processing is automatic, has replaced manual operation, has reduced artifical manual work. Simultaneously, every rifle head is once only processed according to the flow in proper order and is accomplished in this processing equipment, has avoided the operation that artifical was put, and the precision is high, and the error is little, and is fast, and stability is high, and production efficiency increases substantially.

Drawings

Fig. 1 is a schematic structural diagram of a gun head processing device according to an embodiment of the present invention;

fig. 2 is a schematic view of the internal structure of the lance tip processing apparatus according to the embodiment of the present invention.

The gun head machining device comprises a gun head machining device 10, a vibration feeding disc 11, a reverse burr punching assembly 12, a rotary disc feeding assembly 13, a first milling disc assembly 14, a thread expanding and tapping assembly 15, a second milling disc assembly 16, a third milling disc assembly 17, a converting disc assembly 18, a fourth milling disc assembly 19, a rotary disc discharging assembly 20, a middle groove deburring assembly 21, a front notching assembly 22, a conveying belt 23, a cover body 24, an observation window 241, a sound insulation cabinet 25, a control cabinet 26, a hydraulic station 27, a punch press base 28 and a discharging box 29.

Detailed Description

For a further understanding of the present invention, reference will now be made in detail to the embodiments illustrated in the drawings.

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and are not limiting of the utility model. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings. The terms first, second, and the like in the present invention are provided for convenience of describing the technical solution of the present invention, and have no specific limiting effect, but are all generic terms, and do not limit the technical solution of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The technical solutions in the same embodiment and the technical solutions in different embodiments can be arranged and combined to form a new technical solution without contradiction or conflict, and the technical solutions are within the scope of the present invention.

Example 1

As shown in fig. 1 to 2, a lance tip processing apparatus 10 according to the present invention includes: a punch press mount 28. The circumference along punch press base 28 on punch press base 28 is equipped with in proper order: the rotary table deburring device comprises a vibration feeding disc 11, a reverse side deburring component 12, a rotary table feeding component 13, a first milling disc component 14, a tapping and expanding component 15, a second milling disc component 16, a third milling disc component 17, a conversion disc component 18, a fourth milling disc component 19, a rotary table blanking component 20, a middle groove deburring component 21 and a front side notching component 22. The vibration feeding disc 11 is used for performing vibration feeding on the gun head, the reverse side burr punching assembly 12 is used for punching burrs on the reverse side of the gun head, the turntable feeding assembly 13 is used for feeding the gun head, the first milling disc assembly 14 is used for milling the plane of the gun head, the expanding and tapping assembly 15 is used for expanding and tapping the gun head, the second milling disc assembly 16 is used for milling the tail end face of the gun head, the third milling disc assembly 17 is used for milling the tail groove of the gun head, the conversion disc assembly 18 is used for turning over the gun head, the fourth milling disc assembly 19 is used for performing rough milling, finish milling and groove chamfering on the middle groove of the gun head, the turntable blanking assembly 20 is used for blanking the gun head, the middle groove assembly 21 is used for deburring the middle groove of the gun head, and the front side groove punching assembly 22 is used for punching the front side of the gun head. The vibrating feeding tray 11 is connected to the reverse side burr punching component 12 through a conveying belt 23; the rotary table feeding assembly 13, the first milling cutter disc assembly 14, the expanding and tapping assembly 15, the second milling cutter disc assembly 16, the third milling cutter disc assembly 17, the conversion disc assembly 18 and the fourth milling cutter disc assembly 19 realize grabbing of the gun heads to respective stations through a manipulator for processing operation; the turntable blanking assembly 20, the middle groove deburring assembly 21 and the front face notching assembly 22 are connected at a time through a conveying belt 23 to realize the conveying of the gun heads.

According to the gun head processing equipment 10, the plurality of assemblies for processing the gun heads are sequentially arranged in the circumferential direction of the punch press base 28 and are conveyed and processed through the conveying belt 23, so that processing automation is realized, manual operation is replaced, and manual labor is reduced. Simultaneously, every rifle head is once only processed according to the flow in proper order and is accomplished in this processing equipment, has avoided the operation that artifical was put, and the precision is high, and the error is little, and is fast, and stability is high, and production efficiency increases substantially. As a specific structure:

the vibrating feeding plate 11 adopts a vibrating plate to vibrate and feed the gun heads.

The reverse side burr punching component 12 realizes the driving burr punching by a 10T single-arm hydraulic press.

Carousel material loading subassembly 13 adopts tooth-type hydraulic pressure high accuracy to cut apart the revolving stage and rotates the material loading to acquire hydraulic power through hydraulic pressure station 27, the material loading is stable high-efficient.

The first milling cutter disc assembly 14 adopts 2 sets of servo motors, 1 set of high-precision linear rails with stand columns, 1 set of cross high-precision linear rails for Y-axis mechanical adjustment and 1 set of power head, and the power head is provided with a support and a motor.

The expanding tapping assembly 15 consists of a 74-bit tapping machine, a vertical support, 2 sets of servo motors, 1 cylinder and 1 set of cross high-precision linear rail for Y-axis mechanical adjustment. The tap assembly 15 contains two sets of such assemblies for reaming and tapping, respectively. The two sets of components of the tap reaming assembly 15 are located on either side of a second cutterhead assembly 16.

The second milling cutter disc assembly 16 consists of 3 sets of servo motors, 1 set of high-precision linear rails with stand columns, 1 set of cross high-precision linear rails and 1 set of power head, and the power head is provided with a support and a motor.

The third milling cutter disc assembly 17 consists of 2 sets of servo motors, 1 set of high-precision linear rails with stand columns, 1 set of cross high-precision linear rails for Y-axis mechanical adjustment and 1 set of power head, and the power head is provided with a support and a motor.

The fourth cutterhead assembly 19 is processed by a mechanism consisting of 2 sets of servo motors, 1 set of high-precision linear rails with columns, 1 set of cross high-precision linear rails for Y-axis mechanical adjustment and 1 set of power head provided with a support and a motor respectively when rough milling, finish milling and groove chamfering are carried out. That is, the fourth cutterhead assembly 19 includes three sets of assemblies, each set of assemblies consisting of 2 sets of servo motors, 1 set of high-precision linear rails with columns, 1 set of cross high-precision linear rails for Y-axis mechanical adjustment, and 1 set of power heads.

The front face notching assembly 22 uses a 10T single arm hydraulic press for deburring.

Specifically, a worker pours the gun heads into a vibration disc, and the vibration disc automatically feeds and sorts the gun heads to wait at a pre-feeding position. Be equipped with heliciform material loading track in the vibration dish, the track stroke is longer, can vibrate the material loading to a plurality of rifle heads once. The gun heads at the pre-feeding position on the vibration disc are conveyed to the reverse side burr punching component 12 through the conveying of the conveying belt 23 to perform reverse side burr punching, and the central groove is punched from the reverse side. The gun heads which are subjected to reverse side burr punching are conveyed to the rotary table feeding assembly 13 through the conveying belt 23, and a manipulator of the rotary table feeding assembly 13 grabs, positions and moves the gun heads to feed so as to grab the gun heads on the conveying belt 23 onto the first milling cutter disc assembly 14. The turntable feeding assembly 13 blows air before feeding and detects whether impurities exist on a station, and then detects whether the gun head feeds the material to the station or not during feeding. The first cutterhead assembly 14 mills the plane of the gun head, the cutterhead mills the plane of the tail, and the first cutterhead assembly mills during feeding and removes burrs during retracting. The reaming and tapping assembly 15 reams and taps the gun head through the first cutterhead assembly 14. The second milling cutter disc assembly 16 is used for milling the end face of the tail part of the gun head processed by the expanding tapping assembly 15 by a cutter disc with a cutter of 45 degrees, and milling is carried out during cutter feeding and chamfering is carried out during cutter withdrawing. The third cutterhead assembly 17 is a spare step and is used to mill the end slots in the S-F32D tips. The transfer disc assembly 18 is used to turn the lance tip, which has been processed in the above steps, over for replacement of the lance tip for subsequent processing. The fourth cutterhead assembly 19 performs rough milling, finish milling and groove chamfering on the front face of the turned gun head, wherein three saw blades are adopted for rough milling and finish milling, and one saw blade is adopted for groove chamfering. The turntable blanking assembly 20 moves and rotates the gun head through the manipulator to carry out blanking on the gun head, and whether sundries exist on a station is detected after blanking. The conveyer belt 23 conveys the blanked gun heads to the intermediate tank deburring assembly 21 to remove burrs of the intermediate tank. The gun heads processed by the intermediate tank deburring component 21 are conveyed to the front notching component 22 through a conveying belt 23 to be subjected to front notching. A blanking box 29 for collecting the gun heads is arranged at one side of the front notching assembly 22.

In one embodiment, the transfer plate assembly 18 is provided with an 8-position turntable and a 5-position turntable. The 8-station turntable fixes the gun heads in an upward and downward mode, and the 5-station turntable fixes the gun heads in a downward and upward mode.

In one embodiment, the punch press base 28 is provided with the cover 24. The cover body 24 is used for containing and installing the vibrating feeding disc 11, the reverse side burr punching component 12, the rotary disc feeding component 13, the first milling cutter disc component 14, the expanding and tapping component 15, the second milling cutter disc component 16, the third milling cutter disc component 17, the conversion disc component 18, the fourth milling cutter disc component 19, the rotary disc discharging component 20, the middle groove deburring component 21 and the front side groove punching component 22, so that the stability of a machining environment is guaranteed, and dust and sundries are prevented from entering and the machining precision is not affected.

In a specific embodiment, the cover 24 is formed with an observation window 241. The observation window 241 is used for observing the internal processing.

In a specific embodiment, a sound insulation cabinet 25 is further provided on the outer periphery of the observation window 241 of the cover 24 to insulate noise generated by processing in the cover 24 and reduce noise pollution.

In one embodiment, the press base 28 is further provided with a control cabinet 26. The control cabinet 26 is used for controlling the operations of the vibrating feeding tray 11, the back side burr punching assembly 12, the rotary table feeding assembly 13, the first milling cutter disc assembly 14, the tapping expanding assembly 15, the second milling cutter disc assembly 16, the third milling cutter disc assembly 17, the conversion disc assembly 18, the fourth milling cutter disc assembly 19, the rotary table discharging assembly 20, the middle groove deburring assembly 21, the front side groove punching assembly 22 and the conveying belt 23.

As a specific embodiment, the press bed 28 is further provided with a hydraulic station 27. Hydraulic station 27 is used to provide hydraulic power to turntable loading assembly 13.

The vibrating feeding disc 11, the reverse deburring component 12, the rotary disc feeding component 13, the first milling cutter disc component 14, the expanding tapping component 15, the second milling cutter disc component 16, the third milling cutter disc component 17, the converting disc component 18, the fourth milling cutter disc component 19, the rotary disc discharging component 20, the middle groove deburring component 21 and the front notching component 22 in the embodiment are all component structures which are commonly used in the process of machining the gun head, the specific structures of the components are not explained in detail in the embodiment and are shown in the drawings, and workers in the field can clearly know how to operate the components.

Further, a cooling device is disposed in the cover 24. The cooling device is used for cooling the cutting part of the gun head. The cooling device cools the cutting part of the gun head through the cutting fluid. A cleaning device is also arranged in the cover body 24 for dust absorption and washing of cutting waste generated in the machining process. Cleaning device connects cooling device and filters the iron shavings in order to filter the cutting fluid of cooling device for cutting fluid can cyclic utilization, reduces environmental pollution, and reduces the processing cost. The cleaning device is provided with a scrap box for recovering cutting scraps and iron shavings. Through the mode, the cleaning difficulty of the machine can be reduced, the pollution to the environment is weakened, and the maintenance cost of the machine is reduced.

The present invention and its embodiments have been described above schematically, without limitation, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching, without departing from the spirit of the utility model, the person skilled in the art shall not inventively design the similar structural modes and embodiments to the technical solution, but shall fall within the scope of the utility model.

Claims (7)

1. A gun-head machining apparatus comprising: a punch press base; its characterized in that, follow on the punch press base the circumference of punch press base is equipped with in proper order: the device comprises a vibration feeding disc for performing vibration feeding on the gun head, a reverse side burr punching assembly for performing burr punching on the reverse side of the gun head, a turntable feeding assembly for feeding the gun head, a first milling cutter disc assembly for performing plane milling on the gun head, a reaming and tapping assembly for performing reaming and tapping on the gun head, a second milling cutter disc assembly for performing tail end face milling on the gun head, a third milling cutter disc assembly for performing tail groove milling on the gun head, a conversion disc assembly for turning the gun head, a rough milling assembly for performing rough milling on an intermediate groove of the gun head, a fourth milling cutter disc assembly for performing finish milling and groove chamfering on the gun head, a turntable blanking assembly for blanking the gun head, an intermediate groove deburring assembly for performing deburring on the intermediate groove of the gun head and a front side groove punching assembly for performing groove punching on the front side of the gun head; the vibrating feeding disc is connected to the reverse side burr punching assembly through a conveying belt; the rotary table feeding assembly, the first milling cutter disc assembly, the thread expanding and tapping assembly, the second milling cutter disc assembly, the third milling cutter disc assembly, the conversion disc assembly and the fourth milling cutter disc assembly realize grabbing of gun heads to respective stations through a mechanical arm to perform machining operation; the rotary table blanking assembly, the middle groove deburring assembly and the front face notching assembly are connected at one time through a conveying belt so as to convey the gun heads.

2. The lance tip processing apparatus according to claim 1,

the switching disc assembly is provided with an 8-station turntable and a 5-station turntable.

3. The lance tip processing apparatus according to claim 1,

the punch press base is provided with a cover body used for accommodating and installing the vibration feeding disc, the reverse side burr punching assembly, the rotary disc feeding assembly, the first milling disc assembly, the thread expanding and tapping assembly, the second milling disc assembly, the third milling disc assembly, the conversion disc assembly, the fourth milling disc assembly, the rotary disc blanking assembly, the middle groove deburring assembly and the front side groove punching assembly.

4. The lance tip processing apparatus according to claim 3,

the cover body is formed with an observation window for observing the internal processing condition.

5. The lance tip processing apparatus according to claim 4,

the cover body is located the periphery of observation window still is equipped with and is used for right the noise that produces because of processing in the cover body carries out syllable-dividing cabinet.

6. The lance tip processing apparatus according to claim 1,

the punch press base is further provided with a control cabinet for controlling the vibration feeding disc, the reverse side burr punching assembly, the turntable feeding assembly, the first milling cutter disc assembly, the expanding tapping assembly, the second milling cutter disc assembly, the third milling cutter disc assembly, the conversion disc assembly, the fourth milling cutter disc assembly, the turntable discharging assembly, the middle groove deburring assembly, the front side groove punching assembly and the conveying belt to operate.

7. The lance tip processing apparatus according to claim 1,

the punch press base is further provided with a hydraulic station for providing hydraulic pressure for the turntable feeding assembly.

Images