CN212598175U - Automatic chamfering equipment for hammer - Google Patents

Abstract

The utility model provides an automatic chamfering equipment of drive hammer, including automatic chamfer frame, automatic chamfer erects on the base of punching machine, and automatic chamfer frame one side is equipped with shakes the charging tray, shakes the charging tray and passes through chute feeder and automatic chamfer frame intercommunication, and automatic chamfer frame structure is: including first rotary disk and second rotary disk, be equipped with a plurality of cell bodies on first rotary disk and the second rotary disk, first rotary disk and second rotary disk pass through the transfer line and are connected with the motor, are equipped with the fixation clamp between first rotary disk and the second rotary disk, and the fixation clamp top is equipped with the cell body, and the chamfer sword of punching machine is established between fixation clamp and second rotary disk, first rotary disk one side is equipped with the cylinder, adopts synchronous first rotary disk and second rotary disk, and wherein first rotary disk material loading, second rotary disk unloading, fixation clamp between first rotary disk and the second rotary disk are used for fixed hammering to through punching machine downward punching press chamfer, simple structure, convenient to use, and chamfer efficiency is higher, and chamfer speed is faster.

Description

Automatic chamfering equipment for hammer

Technical Field

The utility model belongs to the technical field of the tooth is attacked in the support and specifically relates to an automatic chamfering apparatus of drive hammer is related to.

Background

The gas stove is a kitchen appliance for heating and cooking food, when the gas stove works, gas enters the stove from the gas inlet pipe, enters the stove head under the regulation action of the regulating valve (a user regulates the gas through a knob), is mixed with a part of air at the same time, and is ignited by the ignition device and sprayed out from the fire hole to form flame after entering the distributor so as to heat a pot arranged on the pot support.

In the ignition process of a gas stove, a rotary handle switch is rotated to drive a hammer to rotate, the hammer impacts an electronic ignition switch, but when the hammer moves transversely, a piezoelectric cover plate is abraded, a valve body is clamped and does not rotate after long-time movement, so that the contact position between the hammer and the cover plate needs to be chamfered, the cover plate cannot be abraded, and the normal use of the gas stove is affected.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides an automatic chamfer equipment of hammering, solves the hammering and laps the frostbite, and long-time motion can cause the valve body card shell, and the problem of changeing motionless.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: the utility model provides an automatic chamfering equipment of drive hammer, includes automatic chamfer frame, and automatic chamfer erects on the base of punching machine, and automatic chamfer frame one side is equipped with shakes the charging tray, shakes the charging tray and passes through chute feeder and automatic chamfer frame intercommunication, and automatic chamfer frame structure is: including first rotary disk and second rotary disk, be equipped with a plurality of cell bodies on first rotary disk and the second rotary disk, first rotary disk and second rotary disk pass through the transfer line and are connected with the motor, are equipped with the fixation clamp between first rotary disk and the second rotary disk, and the fixation clamp top is equipped with the cell body, and the chamfer sword of punching machine is established between fixation clamp and second rotary disk, first rotary disk one side is equipped with the cylinder.

In a preferable scheme, a first outer cover is arranged outside the first rotating disc, a first baffle is arranged on one side of the first outer cover, and the feeding groove penetrates through the first baffle and abuts against the side face of the first rotating disc.

In the preferred scheme, an infrared sensor is arranged on the first rotating disc and arranged on one side of the feeding groove, and the infrared sensor is connected with one side of the fixing clamp through an infrared fixing block.

In the preferred scheme, the cylinder is flexible to be held and is passed first dustcoat and coaxial with the inside cell body of first rotary disk.

In the preferred scheme, the cylinder passes through the cylinder supporting seat and is connected with the base.

In the preferred scheme, the second rotating disk outside is equipped with the second dustcoat, and second dustcoat top is equipped with dodges the groove, and second dustcoat one side is equipped with the second baffle, is equipped with down the silo on the second baffle.

In a preferable scheme, the fixing clamp is provided with a discharging seat, a blowing hole is formed in the discharging seat, and the air pipe penetrates through the discharging seat and is communicated with the blowing hole.

In a preferable scheme, a discharge hole is formed in the second baffle, the blanking groove is communicated with the discharge hole, and the air blowing hole is coaxial with the groove body on the second rotating disc and coaxial with the discharge hole of the blanking groove.

In the preferred scheme, a pressing seat is arranged above the groove body of the fixing clamp.

In the preferred scheme, still be equipped with the workstation, the punching machine is established on the workstation with tremble the charging tray, tremble the charging tray top and be equipped with the feeding funnel, workstation one side is equipped with the finished product box.

The utility model provides an automatic chamfering equipment of drive hammer, adopt synchronous first rotary disk and second rotary disk, wherein first rotary disk material loading, the unloading of second rotary disk, fixation clamp between first rotary disk and the second rotary disk is used for fixed drive hammer, and through the downward punching press chamfer of punching machine, when the chute feeder carries the drive hammer on the first rotary disk, rotatory first rotary disk, utilize the cylinder to promote the drive hammer to the fixation clamp on, the chamfer sword punching press chamfer of punching machine, promote next drive hammer through the cylinder, the drive hammer of chamfer has been accomplished in the drive hammer promotion, to the second rotary disk, the second rotary disk rotates unloading position unloading to, moreover, the steam generator is simple in structure, high durability and convenient use, and chamfer efficiency is higher, chamfer speed is faster, and is suitable for being generalized to use.

Drawings

The invention will be further explained with reference to the following figures and examples:

FIG. 1 is a general block diagram of the present invention;

FIG. 2 is a structural view of the installation of the punching machine and the automatic chamfering frame of the present invention;

FIG. 3 is a structural diagram A of the automatic chamfering frame of the present invention;

FIG. 4 is a structural diagram B of the automatic chamfering frame of the present invention;

FIG. 5 is a structural view A of the installation structure of the rotating disk and the outer cover of the present invention;

FIG. 6 is a structural view B of the installation structure of the rotating disk and the outer cover of the present invention;

FIG. 7 is a structural view of a rotary disk of the present invention;

FIG. 8 is a front view of the rotary plate of the present invention;

FIG. 9 is a structural diagram of the chamfer cutter and the driving hammer chamfer of the present invention;

FIG. 10 is a view of the structure of the fixing clip of the present invention;

FIG. 11 is a structural view of the installation of the rotating disk and the motor of the present invention;

FIG. 12 is a view showing the mounting structure of the hammer seat and the cover plate;

in the figure: a work table 1; a punch 2; a chamfer cutter 201; a base 202; a motor 3; a transmission rod 301; an automatic chamfering frame 4; a first baffle 401; a first housing 402; a retaining clip 403; a second housing 404; a second baffle 405; a first rotating disk 406; a second rotating disk 407; a compression seat 408; an avoidance slot 409; a finished product box 5; a feeding trough 6; a feeding hopper 7; shaking the material tray 8; a feed chute 9; a cylinder 10; a hammer 11; chamfering 1101; an infrared sensor 12; an infrared fixed block 1201; a cylinder support base 13; a discharge seat 14; an air blowing hole 1401; an air pipe 15; a hammer seat 16; a cover plate 17; and scoring 18.

Detailed Description

As shown in fig. 1-12, an automatic chamfering device for a hammer comprises an automatic chamfering frame 4, wherein the automatic chamfering frame 4 is arranged on a base 202 of a punch 2, a material shaking plate 8 is arranged on one side of the automatic chamfering frame 4, the material shaking plate 8 is communicated with the automatic chamfering frame 4 through a feeding groove 9, and the automatic chamfering frame 4 is structurally characterized in that: the chamfering device comprises a first rotating disk 406 and a second rotating disk 407, a plurality of groove bodies are arranged on the first rotating disk 406 and the second rotating disk 407, the first rotating disk 406 and the second rotating disk 407 are connected with a motor 3 through a transmission rod 301, a fixing clamp 403 is arranged between the first rotating disk 406 and the second rotating disk 407, the top of the fixing clamp 403 is provided with the groove bodies, a chamfering knife 201 of a punching machine 2 is arranged between the fixing clamp 403 and the second rotating disk 407, and an air cylinder 10 is arranged on one side of the first rotating disk 406. With this structure, the first rotating disk 406 and the second rotating disk 407 rotate in synchronization, and when the chute 9 feeds the hammer 11 to the first rotating disk 406, the first rotating disk 406 is rotated, the hammer 11 is pushed to the stationary holder 403 by the cylinder 10, the chamfering blade 201 of the punch 2 punches a chamfer, and when the next hammer 11 is pushed by the cylinder 10, the hammer 11 pushes the hammer 11 that has completed the chamfer to the second rotating disk 407, the second rotating disk 407 rotates to the blanking position for blanking,

preferably, a first outer cover 402 is arranged outside the first rotating disc 406, a first baffle 401 is arranged on one side of the first outer cover 402, and the feed chute 9 passes through the first baffle 401 and abuts against the side surface of the first rotating disc 406. With this structure, the first housing 402 serves to prevent the hammer 11 from falling down during rotation, and the chute 9 passes through the first baffle 401 coaxially with the body of the first rotating disk 406, facilitating the conveyance of the hammer 11.

In a preferable scheme, an infrared sensor 12 is arranged on the first rotating disc 406, the infrared sensor 12 is arranged on one side of the feeding chute 9, and the infrared sensor 12 is connected with one side of the fixing clamp 403 through an infrared fixing block 1201. With this structure, the infrared sensor 12 is used to detect whether or not there is a hammer 11 on the first rotating disk 406, and if there is a hammer 11, the first rotating disk 406 and the second rotating disk 407 rotate.

Preferably, the telescopic end of the cylinder 10 passes through the first outer cover 402 and is coaxial with the inner groove of the first rotating disk 406. With this structure, the cylinder 10 is used to push the hammer 11 to chamfer on the fixing clip 403, and pushing again pushes the completed hammer 11 on the fixing clip 403 onto the second rotating disk 407.

In a preferred scheme, the air cylinder 10 is connected with the base 202 through an air cylinder supporting seat 13. With this structure, the cylinder support base 13 is used for mounting the cylinder 10.

In a preferable scheme, a second outer cover 404 is arranged outside the second rotating disc 407, an avoiding groove 409 is arranged above the second outer cover 404, a second baffle 405 is arranged on one side of the second outer cover 404, and a discharging groove 6 is arranged on the second baffle 405. With this structure, escape groove 409 serves as an escape function to prevent chamfer 201 from hitting second housing 404, and second housing 404 serves to prevent hammer 11 from falling during rotation.

In a preferable scheme, the fixing clamp 403 is provided with a discharging seat 14, a blowing hole 1401 is arranged inside the discharging seat 14, and the air pipe 15 penetrates through the discharging seat 14 and is communicated with the blowing hole 1401. With this structure, when the second rotary disk 407 rotates at an angle, the air tube 15 blows air to blow the hammers 11 on the second rotary disk 407 to the discharge port positions in the second shutter 405 by air pressure.

In a preferable scheme, a discharge hole is formed in the second baffle 405, the blanking slot 6 is communicated with the discharge hole, and the air blowing hole 1401 is coaxial with a slot body on the second rotating disc 407 and coaxial with the discharge hole of the blanking slot 6. With this structure, when the pipe 15 is blown so that the hammers 11 on the second rotating disk 407 are blown by air pressure to the discharge port positions in the second shutter 405, the hammers 11 are discharged through the chute 6.

In a preferable scheme, a pressing seat 408 is arranged above the groove body of the fixing clamp 403. With this structure, the pressing seat 408 prevents the occurrence of a head warping during chamfering.

In the preferred scheme, still be equipped with workstation 1, punching machine 2 with tremble the charging tray 8 and establish on workstation 1, tremble the charging tray 8 top and be equipped with feeding funnel 7, 1 one side of workstation is equipped with finished product box 5. With this structure, the table 1 is used to mount the punch 2 and the shake-out tray 8.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and should not be considered as limitations of the present invention, and the protection scope of the present invention should be defined by the technical solutions described in the claims, and includes equivalent alternatives of technical features in the technical solutions described in the claims. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.

Claims (10)

1. An automatic chamfering device of a hammer is characterized in that: including automatic chamfer frame (4), establish on base (202) of punching machine (2) automatic chamfer frame (4), automatic chamfer frame (4) one side is equipped with and trembles charging tray (8), trembles charging tray (8) and feeds through with automatic chamfer frame (4) through chute feeder (9), and automatic chamfer frame (4) structure is: the punching machine comprises a first rotating disk (406) and a second rotating disk (407), a plurality of grooves are formed in the first rotating disk (406) and the second rotating disk (407), the first rotating disk (406) and the second rotating disk (407) are connected with a motor (3) through a transmission rod (301), a fixing clamp (403) is arranged between the first rotating disk (406) and the second rotating disk (407), the grooves are formed in the top of the fixing clamp (403), a chamfering knife (201) of a punching machine (2) is arranged between the fixing clamp (403) and the second rotating disk (407), and an air cylinder (10) is arranged on one side of the first rotating disk (406).

2. The automatic chamfering apparatus for a hammer according to claim 1, wherein: the outer part of the first rotating disc (406) is provided with a first outer cover (402), one side of the first outer cover (402) is provided with a first baffle (401), and the feeding chute (9) penetrates through the first baffle (401) and abuts against the side face of the first rotating disc (406).

3. The automatic chamfering apparatus for hammers according to claim 2, wherein: the first rotating disc (406) is provided with an infrared sensor (12), the infrared sensor (12) is arranged on one side of the feeding groove (9), and the infrared sensor (12) is connected with one side of the fixing clamp (403) through an infrared fixing block (1201).

4. The automatic chamfering apparatus for a hammer according to claim 1, wherein: the telescopic end of the air cylinder (10) passes through the first outer cover (402) and is coaxial with the inner groove body of the first rotating disc (406).

5. The automatic chamfering apparatus for hammers according to claim 4, wherein: the cylinder (10) is connected with the base (202) through a cylinder support seat (13).

6. The automatic chamfering apparatus for a hammer according to claim 1, wherein: a second outer cover (404) is arranged outside the second rotating disk (407), an avoiding groove (409) is arranged above the second outer cover (404), a second baffle (405) is arranged on one side of the second outer cover (404), and a discharging groove (6) is arranged on the second baffle (405).

7. The automatic chamfering apparatus for hammers according to claim 6, wherein: the fixing clamp (403) is provided with a discharging seat (14), a blowing hole (1401) is formed in the discharging seat (14), and an air pipe (15) penetrates through the discharging seat (14) and is communicated with the blowing hole (1401).

8. The automatic chamfering apparatus for hammers according to claim 7, wherein: a discharge hole is formed in the second baffle (405), the blanking groove (6) is communicated with the discharge hole, and the air blowing hole (1401) is coaxial with the groove body on the second rotating disc (407) and coaxial with the discharge hole of the blanking groove (6).

9. The automatic chamfering apparatus for hammers according to claim 7, wherein: a pressing seat (408) is arranged above the groove body of the fixing clamp (403).

10. The automatic chamfering apparatus for a hammer according to claim 1, wherein: still be equipped with workstation (1), punching machine (2) are established on workstation (1) with tremble charging tray (8), tremble charging tray (8) top and be equipped with feeding funnel (7), workstation (1) one side is equipped with finished product box (5).

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