CN221247199U - Flat head chamfering machine - Google Patents

Abstract

The utility model provides a flat head chamfering machine which is used for chamfering two ends of a pipe fitting and comprises a machine body, wherein a feeding mechanism is arranged on one side of the machine body, and a discharging mechanism is arranged on the other side of the machine body; the feeding mechanism comprises a feeding supporting component and a feeding power component, wherein the feeding supporting component is used for supporting a plurality of pipe fittings, and the feeding power component is used for conveying the pipe fittings on the feeding supporting component to the machine body one by one and simultaneously conveying the pipe fittings processed by the machine body to the discharging mechanism; the machine body comprises a base, two machining components and a main driving mechanism, wherein the two machining components are oppositely arranged, the two machining components can realize axial relative movement along the base under the driving of the main driving mechanism, the machining components comprise an axial adjusting mechanism, a power tool bit and a clamping mechanism, the axial adjusting mechanism is used for adjusting the position of the power tool bit in the axial direction, and the clamping mechanism is used for clamping and fixing during pipe fitting machining. The device has the advantages of high automation degree, good universality and convenient adjustment.

Description

Flat head chamfering machine

Technical Field

The utility model mainly relates to the technical field related to machining equipment, in particular to a flat head chamfering machine.

Background

The flat head chamfering machine is mainly used for chamfering two end faces of a pipe. In the prior art, the types of flat head chamfering machines are mainly divided into two types, one type is used for chamfering the end face of a pipe fitting in a mode of rotating the pipe fitting and fixing cutter heads at two ends, and the other type is used for chamfering the end face of the pipe fitting in a mode of fixing the pipe fitting and rotating the cutter heads.

In the prior art, the chamfering machine mainly has the following problems: 1. the chamfering machine mostly adopts a manual feeding mode, the pipe fitting is manually installed in the clamp and then processed, the efficiency is low, and the chamfering machine only can realize feeding and can not synchronously discharge, so that the chamfering machine is only semi-automatic; 2. the existing chamfering machine is poor in universality, the applicable length range of the pipe fitting is smaller, and complicated adjustment or replacement of part parts are required for different pipe fitting lengths, so that the use limitation is larger; 3. when the existing chamfering machine is used for processing pipe fittings with different pipe diameters, the whole set of clamp needs to be replaced, so that the center of the pipe fitting can be guaranteed to correspond to the position of the tool bit, and time and labor are wasted. In summary, the structure of the existing chamfering machine still needs to be further optimized, so that the automation degree and the universality of the equipment are improved.

Disclosure of utility model

In order to solve the defects of the prior art, the utility model combines the prior art, and provides the flat head chamfering machine which has the advantages of high automation degree, good universality and convenient adjustment from the practical application.

The technical scheme of the utility model is as follows:

A flat head chamfering machine is used for chamfering two ends of a pipe fitting and comprises a machine body, wherein a feeding mechanism is arranged on one side of the machine body, and a discharging mechanism is arranged on the other side of the machine body;

The feeding mechanism comprises a feeding supporting component and a feeding power component, wherein the feeding supporting component is used for supporting a plurality of pipe fittings, and the feeding power component is used for conveying the pipe fittings on the feeding supporting component to the machine body one by one and simultaneously conveying the pipe fittings processed by the machine body to the discharging mechanism;

The machine body comprises a base, two machining components and a main driving mechanism, wherein the two machining components are oppositely arranged, the two machining components can realize axial relative movement along the base under the drive of the main driving mechanism, the machining components comprise an axial adjusting mechanism, a power tool bit and a clamping mechanism, the axial adjusting mechanism is used for adjusting the position of the power tool bit in the axial direction, and the clamping mechanism is used for clamping and fixing during pipe fitting machining.

Further, feed mechanism still includes centering and beats the mechanism, centering is patted the mechanism and is included two relative settings and is located the flap plate at pipe fitting both ends respectively, flap plate is connected with centering driving piece, and two flap plate relative movement make the pipe fitting adjust to intermediate position in axial direction under the centering driving piece effect.

Further, the material loading supporting component includes two material loading support frames that set up side by side, have a plurality of pipe fitting constant head tank on the material loading support frame, the pipe fitting both ends are supported by the material loading support frame that corresponds, are fixed a position by the constant head tank that corresponds.

Further, the bottom of the outer side of the feeding support frame is provided with rollers, the inner side of the feeding support frame is fixedly arranged on the machining assembly through a fastener, and the centering beating mechanism is arranged on the machining assembly.

Further, the material loading power component sets up two sets side by side, and the material loading power component includes material loading elevating system, material loading sideslip mechanism and material loading work or material rest, the material loading work or material rest can be realized going up and down under the elevating system drive, can be near or keep away from the organism direction motion towards under the drive of material loading sideslip mechanism, sets up a plurality of constant head tank side by side on the material loading work or material rest, lifts up a plurality of pipe fittings that will be supported by the material loading support frame when the material loading work or material rest rises, when facing the organism sideslip, makes pipe fitting towards an organism direction sideslip station, makes the pipe fitting that is in processing station remove to discharge mechanism simultaneously.

Further, the feeding frames of the two sets of feeding power components are connected into a whole through a bracket.

Further, the discharging mechanism comprises two discharging support frames which are arranged in parallel, and the upper surfaces of the discharging support frames are obliquely arranged;

the bottom outside the discharge support frame is provided with rollers, and the inner side of the discharge support frame is fixedly connected to the machining assembly through a fastener.

Further, the fixture comprises a lower fixture body, an upper fixture body and a fixture driving piece, wherein the lower fixture body is fixedly arranged, and the upper fixture body can be lifted under the action of the fixture driving piece.

Further, the upper clamping body and the lower clamping body are internally provided with clamping dies, and the clamping dies are arc-shaped.

Further, the upper clamping body lower surface and the lower clamping body upper surface are both provided with arc-shaped grooves, and the clamping dies are embedded in the corresponding arc-shaped grooves.

The utility model has the beneficial effects that:

1. According to the chamfering machine, chamfering processing of two ends of the pipe fitting is achieved through the mode of fixing the pipe fitting and rotating the power tool bit, the pipe fitting can be automatically conveyed to a processing position through the arranged feeding mechanism, and the processed pipe fitting can be synchronously conveyed to the discharging mechanism, so that the whole automation degree of the chamfering machine is high.

2. The machining assemblies at the two ends of the utility model can be automatically adjusted in the axial position, so that the utility model is suitable for pipe fittings with different lengths, and simultaneously, when the machining assemblies are adjusted, the feeding mechanism and the discharging mechanism can be synchronously driven to be adjusted, so that the utility model is synchronously suitable for the pipe fittings with different lengths.

3. According to the feeding mechanism disclosed by the utility model, a plurality of pipe fittings can be preassembled at one time, the centering beating mechanism is arranged at the feeding mechanism, and the pipe fittings can be pre-positioned before entering a station, so that the processing precision and the processing efficiency are ensured, and the feeding frames of the two sets of feeding power components are connected into a whole to ensure synchronous movement.

4. When the machining assembly is used for machining pipes with different pipe diameters, only one arc-shaped clamping die inside the machining assembly is needed to be replaced, and the clamping die is easy and convenient to replace, and is time-saving and labor-saving.

Drawings

Fig. 1 is a schematic side view of the present utility model.

Fig. 2 is a schematic perspective view of the present utility model.

Fig. 3 is a schematic diagram of a three-dimensional structure of the present utility model.

Fig. 4 is a schematic diagram of a three-dimensional structure of the present utility model.

Fig. 5 is an enlarged view of the structure of the portion I in fig. 4.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and specific embodiments. It is to be understood that these examples are illustrative of the present utility model and are not intended to limit the scope of the present utility model. Further, it will be understood that various changes and modifications may be made by those skilled in the art after reading the teachings of the utility model, and equivalents thereof fall within the scope of the utility model as defined by the claims.

The embodiment provides a flat head chamfering machine which is mainly used for chamfering two ends of a pipe fitting.

Referring to fig. 1-5, the flat head chamfering machine of the present embodiment mainly includes a machine body 1, a feeding mechanism 2 and a discharging mechanism 3, wherein the feeding mechanism 2 and the discharging mechanism 3 are respectively located at two sides of the machine body 1, the feeding mechanism 2 can realize preassembly of the pipe fitting 4, and can convey the pipe fitting 4 to a processing position at the machine body 1, and the discharging mechanism 3 is used for placing the processed pipe fitting 4.

In this embodiment, the feeding mechanism 2 can realize temporary storage and conveying of a plurality of pipe fittings 4, and comprises two parts, namely a feeding support assembly and a feeding power assembly. Wherein, the material loading supporting component is used for supporting many pipe fittings 4 and uses. Specifically, the material loading supporting component includes two material loading support frames 5 that set up side by side, sets up material loading power component between two material loading support frames 5. The upper surface at last material loading support frame 5 has a plurality of pipe fitting constant head tank, can fix a position a plurality of pipe fittings 4 through the pipe fitting constant head tank. In the use process, the pipe fittings 4 to be processed are preassembled on the feeding support frames 5 one by one through butt joint of other production lines or manual work or a crane, and the two ends of the pipe fittings 4 are supported through the feeding support frames 5 at the moment. When the feeding is required, the pipe fitting 4 placed at the feeding support frame 5 is conveyed to the processing position through the feeding power assembly.

In a preferred embodiment provided by the present embodiment, two sets of machining assemblies 6 of the machine body 1 are capable of axial position adjustment in order to be able to meet the machining of pipes 4 of different lengths. In order to accommodate the pipe elements 4 of different lengths, in this embodiment, the loading support assembly is also designed to be a self-adaptively adjustable structure. Specifically, in this embodiment, rollers are disposed at the bottom of the outer side of the feeding support frame 5, and corresponding rails are configured, and the inner side of the feeding support frame 5 is fixedly mounted on the machining assembly 6 through fasteners. When processing to the pipe fitting 4 of different length, the self-adaptation axial adjustment in-process of machining subassembly 6 can drive material loading support frame 5 synchronous motion, and when carrying out the processing of longer pipe fitting 4, two material loading support frames 5 keep away from the motion relatively, and when comparing pipe fitting 4, two material loading support frames 5 are close to the motion relatively to can guarantee that pipe fitting 4 both ends can be supported by material loading support frame 5.

In this embodiment, the feeding power assembly mainly has two functions, one is to sequentially move the plurality of pipe fittings 4 on the feeding support assembly to a position close to the machine body 1, and the other is to synchronously move the pipe fittings 4 processed by the machine body 1 processing position to the position of the discharging mechanism 3. The feeding power components are arranged in parallel, and mainly comprise a feeding lifting mechanism 7, a feeding traversing mechanism 8 and a feeding frame 9. The feeding frame 9 can be lifted under the driving of the feeding lifting mechanism 7, and can move towards the direction approaching or far away from the machine body 1 under the driving of the feeding traversing mechanism 8. The feeding lifting mechanism 7 and the feeding traversing mechanism 8 can be driven by a linear unit driven by an oil cylinder, an air cylinder or a motor. A plurality of positioning grooves are arranged on the upper material rack 9 in parallel for positioning the pipe fitting 4. After the processing of the last pipe fitting 4 is completed, the pipe fitting 4 is required to be fed, in the feeding process, the feeding frame 9 is driven by the feeding lifting mechanism 7 to move upwards, at this time, a plurality of pipe fittings 4 which are arranged in parallel on the feeding supporting frame 5 and are positioned at the processing stations are lifted, then the feeding traversing mechanism 8 acts, the feeding frame 9 moves to one station, in the moving process, the pipe fitting 4 which is processed is moved to the position of the discharging mechanism 3, the pipe fitting 4 which is close to the machine body 1 is sent to the processing position, the rest pipe fittings 4 are all moved forwards to one station, at this time, the feeding frame 9 falls down, each pipe fitting 4 enters the preset position, and the feeding frame 9 traverses again to enter the next working period. The feeding and discharging control can be realized once through the action of the feeding frame 9, and the automatic control is adopted, so that the efficiency is high, and the time and the labor are saved.

In a preferred scheme provided in this embodiment, the feeding frames 9 of the two sets of feeding power assemblies are connected together through a bracket, so that synchronous movement of the two feeding frames 9 is ensured.

In order to ensure that the pipe fitting 4 can enter a preset station in the feeding process, the centering and beating mechanism is further arranged, the centering and beating mechanism comprises two beating plates 10 which are oppositely arranged and respectively located at two ends of the pipe fitting 4, the beating plates 10 are connected with a centering driving piece, the centering driving piece can push the beating plates 10 to act, and under the action of the centering driving piece, the two beating plates 10 move relatively to push the pipe fitting 4 to adjust to a middle position in the axial direction, so that the pipe fitting 4 can be located at the axial middle position when being sent to a processing position.

In this embodiment, the discharging mechanism 3 includes two discharging support frames 11 arranged in parallel, the upper surface of the discharging support frames 11 is obliquely arranged, and when the processed pipe fitting 4 is sent to the discharging position by the feeding power assembly, the pipe fitting 4 is obliquely rolled down and sequentially and parallelly stagnates on the discharging support frames 11. Further, in order to ensure that the discharging mechanism 3 can adapt to the pipe fittings 4 with different lengths, rollers are arranged at the bottom of the outer side of the discharging support frame 11 and are provided with rails, the inner side of the discharging support frame 11 is fixedly connected to the machining assembly 6 through a fastener, and the axial position of the discharging support frame 11 is adjusted in a synchronous mode in the axial adjustment process of the machining assembly 6.

The machine body 1 of the embodiment is mainly used for chamfering two ends of the pipe fitting 4. The device comprises a base 12, two machining components 6 which are oppositely arranged and a main driving mechanism 13, wherein the two machining components 6 can be driven by the main driving mechanism 13 to realize axial relative movement along the base 12, so that the device is suitable for machining and using the pipe fittings 4 with different lengths. The base 12 adopts an integrated casting structure, the main driving mechanism 13 adopts a motor screw structure, and a corresponding guide rail sliding block structure is configured, so that the stability of movement is ensured.

The machining assembly 6 comprises an axial adjustment mechanism 14, a power bit 15 and a clamping mechanism. The axial adjusting mechanism 14 is used for adjusting the position of the power tool bit 15 in the axial direction so as to ensure feeding of the power tool bit 15 during processing, the axial adjusting mechanism 14 adopts a motor screw structure, a corresponding guide rail sliding block structure is configured, stability of movement is ensured, and the clamping mechanism is used for clamping and fixing during processing of the pipe fitting 4.

As a preferred scheme of the embodiment, the clamping mechanism adopts a unique structural design, can be suitable for processing and using the pipe fittings 4 with different pipe diameters, and is convenient and quick to adjust. Specifically, the clamping mechanism includes a lower clamping body 16, an upper clamping body 17, and a clamping driving member 18, where the lower clamping body 16 is fixedly disposed, the upper clamping body 17 can lift under the action of the clamping driving member 18, and the clamping driving member 18 can adopt an oil cylinder or an air cylinder or other linear driving units. Further, all set up the centre gripping mould 19 in last clamping body 17 and the lower clamping body 16, centre gripping mould 16 is the arc, and simultaneously at last clamping body 17 lower surface and lower clamping body 16 upper surface all are provided with the arc fluting, and centre gripping mould 16 imbeds in corresponding arc fluting and accessible fastener locking, when carrying out the pipe fitting processing of different pipe diameters, advance need change the centre gripping mould 16 of different radius sizes can, and centre gripping mould 16 imbeds in the arc fluting, easy dismounting, and have fine stability in the course of working.

Claims (10)

1. The flat head chamfering machine is used for chamfering two ends of a pipe fitting and comprises a machine body, and is characterized in that a feeding mechanism is arranged on one side of the machine body, and a discharging mechanism is arranged on the other side of the machine body;

The feeding mechanism comprises a feeding supporting component and a feeding power component, wherein the feeding supporting component is used for supporting a plurality of pipe fittings, and the feeding power component is used for conveying the pipe fittings on the feeding supporting component to the machine body one by one and simultaneously conveying the pipe fittings processed by the machine body to the discharging mechanism;

The machine body comprises a base, two machining components and a main driving mechanism, wherein the two machining components are oppositely arranged, the two machining components can realize axial relative movement along the base under the drive of the main driving mechanism, the machining components comprise an axial adjusting mechanism, a power tool bit and a clamping mechanism, the axial adjusting mechanism is used for adjusting the position of the power tool bit in the axial direction, and the clamping mechanism is used for clamping and fixing during pipe fitting machining.

2. The flat head chamfering machine according to claim 1, wherein the feeding mechanism further comprises a centering beating mechanism, the centering beating mechanism comprises two beating plates which are oppositely arranged and are respectively positioned at two ends of the pipe fitting, the beating plates are connected with a centering driving piece, and the two beating plates move relatively under the action of the centering driving piece to enable the pipe fitting to be adjusted to a middle position in the axial direction.

3. The flat head chamfering machine according to claim 2, wherein the feeding support assembly comprises two feeding support frames arranged in parallel, the feeding support frames are provided with a plurality of pipe fitting positioning grooves, two ends of each pipe fitting are supported by the corresponding feeding support frames and positioned by the corresponding positioning grooves.

4. The flat head chamfering machine according to claim 3, wherein rollers are arranged at the bottom of the outer side of the feeding support frame, the inner side of the feeding support frame is fixedly mounted on the machining assembly through a fastener, and the centering beating mechanism is mounted on the machining assembly.

5. The flat head chamfering machine according to claim 1, wherein the feeding power assembly is provided with two sets in parallel, the feeding power assembly comprises a feeding lifting mechanism, a feeding traversing mechanism and a feeding frame, the feeding frame can be lifted under the driving of the feeding lifting mechanism and can move towards a direction close to or far away from a machine body under the driving of the feeding traversing mechanism, a plurality of positioning grooves are provided on the feeding frame in parallel, a plurality of pipe fittings supported by the feeding supporting frame are lifted when the feeding frame ascends, and when the feeding frame transversely moves towards the machine body, the pipe fittings transversely move towards the machine body for one station, and meanwhile the pipe fittings at the processing station move to the discharging mechanism.

6. The flat head chamfering machine according to claim 5, wherein the feeding frames of the two sets of feeding power components are connected together by a bracket.

7. The flat head chamfering machine according to claim 1, wherein the discharging mechanism comprises two discharging support frames arranged in parallel, and the upper surfaces of the discharging support frames are obliquely arranged;

the bottom outside the discharge support frame is provided with rollers, and the inner side of the discharge support frame is fixedly connected to the machining assembly through a fastener.

8. The flat head chamfering machine according to claim 1, wherein the clamping mechanism comprises a lower clamping body, an upper clamping body and a clamping driving member, the lower clamping body is fixedly arranged, and the upper clamping body can be lifted under the action of the clamping driving member.

9. The flat head chamfering machine according to claim 8, wherein the upper clamping body and the lower clamping body are each provided with a clamping die, and the clamping dies are arc-shaped.

10. The flat head chamfering machine according to claim 9, wherein the upper clamping body lower surface and the lower clamping body upper surface are each provided with an arc-shaped slot, and the clamping mold is embedded in the corresponding arc-shaped slot.