CN212286172U - Automatic tapping machine for feeding through vibrating disc - Google Patents

Abstract

The utility model discloses an automatic tooth machine of attacking of vibration dish pay-off, including support (1), attack the dental bench, hydraulic pump (2), controller (4), vibration dish (16) attack tooth machine (3), first inductor (9), coolant liquid collection device to and coolant liquid injection apparatus. The utility model discloses a vibration dish is as feeder equipment, very big reduction to artificial demand, controls the opening and close of attacking the tooth machine through the inductor simultaneously, fine has ensured the accuracy of automatic attack tooth, sets up brand-new coolant liquid injection apparatus on attacking the tooth machine, and this coolant liquid injection apparatus cooperatees through the splash guard that sets up with the spring, has ensured that the coolant liquid of spraying can not splash everywhere when spraying, thereby the utility model discloses present full-automatic production has reduced the input of manpower and efficiency promotes greatly, fine solution the problem that the coolant liquid splashes everywhere when spraying, reduces the defective rate simultaneously, final reduction in production cost.

Description

Automatic tapping machine for feeding through vibrating disc

Technical Field

The utility model relates to a tooth processing technology field is attacked to the part, specifically is an automatic tooth machine of attacking of vibration dish pay-off.

Background

The tapping machine is a machining device for machining internal threads, screws or tooth buttons on the inner side surfaces of holes of parts with through holes or blind holes of different specifications, such as a part shell, an equipment end surface, a nut, a flange plate and the like; tapping machines are also called tapping machines, thread tapping machines, automatic tapping machines and the like.

At present, the processing production of like products in the industry generally adopts the operation modes of manual feeding, semi-automatic processing of a tapping machine and manual material taking to complete tapping processing through a simple jig positioning part, the mode has low efficiency, and cooling liquid splashes around during processing, and even the phenomenon of processing leakage can occur.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome among the above-mentioned background art current manual tapping machine not only have inefficiency, add the defect that coolant liquid splashes everywhere in addition, provide a vibration dish pay-off and attack tooth machine automatically.

A vibrating disk feeding automatic tapping machine comprises a support, a tapping platform arranged on the support, a hydraulic pump, a controller and a vibrating disk which are respectively arranged on the support, a tapping machine arranged on a hydraulic rod of the hydraulic pump, a material pushing device and a first inductor which are arranged on the tapping platform, a cooling liquid collecting device arranged below the tapping platform and a cooling liquid spraying device movably arranged on the tapping machine; the vibration disc is connected with the connecting material pushing device through a feeding groove; the controller is respectively connected with the first inductor, the second inductor, the tapping machine, the material pushing device and the hydraulic pump.

Furthermore, the cooling liquid injection device comprises a sleeve sleeved on a rotating rod of the tapping machine, a splash guard movably arranged on the sleeve, a spray head with one end penetrating through the splash guard, and a spring sleeved on the sleeve.

Furthermore, the material pushing device comprises a first material pushing cylinder, a second material pushing cylinder, a third material pushing cylinder and a positioning groove connected with the feeding groove; the controller is respectively connected with the first material pushing cylinder, the second material pushing cylinder and the third material pushing cylinder; and a second inductor is also arranged on the second material pushing cylinder.

Furthermore, the cooling liquid collecting device comprises a liquid collecting tank and a liquid storage cavity connected with the liquid collecting tank through a pipeline; the flexible arm that the second pushed away the material cylinder runs through the collecting tank and is connected with the collecting tank through the sealing washer.

In order to better lock the cooling liquid, a rubber ring is arranged on the cover opening of the splash guard.

The support still is provided with the receiving hopper, and this receiving hopper is the slope setting. A filter screen is arranged in the liquid storage cavity. The sensor is a pressure sensor.

Compared with the prior art, the utility model, have following advantage and beneficial effect:

the utility model discloses a vibration dish is as feeder equipment, very big reduction to artificial demand, controls the opening and close of attacking the tooth machine through the inductor simultaneously, fine has ensured the accuracy of automatic attack tooth, sets up brand-new coolant liquid injection apparatus on attacking the tooth machine, and this coolant liquid injection apparatus cooperatees through the splash guard that sets up with the spring, has ensured that the coolant liquid of spraying can not splash everywhere when spraying, thereby the utility model discloses present full-automatic production has reduced the input of manpower and efficiency promotes greatly, fine solution the problem that the coolant liquid splashes everywhere when spraying, reduces the defective rate simultaneously, final reduction in production cost.

Drawings

Fig. 1 is a block diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the tapping table of the present invention.

Figure 3 is the structural schematic diagram of the liquid collecting tank of the utility model.

In the drawings, the names of the parts corresponding to the reference numerals are as follows:

the automatic tapping machine comprises a support 1, a hydraulic pump 2, a tapping machine 3, a controller 4, a sleeve 5, a splash guard 6, a spray head 7, a spring 8, a first inductor 9, a first material pushing cylinder 10, a second material pushing cylinder 11, a third material pushing cylinder 12, a liquid collecting tank 13, a liquid storage cavity 14, a material receiving hopper 15, a vibration disc 16, a feeding tank 17, a rubber ring 18, a positioning groove 19, a filter screen 20 and a second inductor 21.

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but the present invention is not limited to these examples.

Examples

As shown in fig. 1 to 3, the automatic tapping machine with a vibrating disk feeding function of the present embodiment includes a bracket 1, a tapping table, a hydraulic pump 2, a controller 4, a vibrating disk 16, a tapping machine 3, a material pushing device, a first sensor 9, a coolant collecting device, and a coolant spraying device.

During the implementation, support 1 is as the supporting body of whole equipment for each part of installation pump utility model, this support 1 is the steel construction. Tapping platform sets up on support 1, should attack the tooth platform and fix on support 1 through the mode of screw or welding machine, should attack the installing port that has preset material pusher on the tooth platform. The hydraulic pump 2 and the controller 4 are respectively provided with a source vibration disc 16 on the bracket 1, and are fixed through screws. The hydraulic pump 2 can drive the tapping machine 3 and the cooling liquid injection device to move up and down. The tapping machine 3 is arranged on a hydraulic rod of the hydraulic pump 2. The material pushing device and the first inductor 9 are arranged on the tapping table. The cooling liquid collecting device is arranged below the tapping platform. The first inductor 9 is a pressure inductor, and the first inductor 9 is of a steel structure and is also used as a fixing part of the material. The cooling liquid injection device is movably arranged on the tapping machine 3. The vibration disc 16 is connected with a connecting material pushing device through a feeding groove 17. The controller 4 is respectively connected with the first inductor 9, the tapping machine 3, the material pushing device and the hydraulic pump 2. The controller 4 is a conventional controller that senses multiple control outputs.

In order to facilitate the collection of the tapped materials, a receiving hopper 15 is further arranged on the bracket 1, the receiving hopper 15 is obliquely arranged on the bracket 1, and the inclination of the receiving hopper 15 is determined according to actual conditions. The receiving hopper 15 can convey the tapped materials to a material frame preset on the bracket 1 during use, so that the full automation of feeding and receiving is realized.

Further, the cooling liquid injection device includes a sleeve 5, a splash guard 6, a nozzle 7, and a spring 8. The sleeve 5 is sleeved on the rotating rod of the tapping machine 3. One end of the sleeve 5 is mounted on the collective front end of the tapping machine 3, and the diameter of the sleeve 5 is larger than that of the rotating rod of the tapping machine 3, so as to ensure that the sleeve 5 does not affect the normal operation of the tapping machine 3. The splash guard 6 is movably arranged on the sleeve 5, and the splash guard 6 can well lock the cooling liquid to prevent the cooling liquid from splashing everywhere. In order to better lock the cooling liquid, a rubber ring 18 is arranged on the cover opening of the splash guard 6, the rubber ring 18 is connected with the splash guard 6 in a buckling way, and the rubber ring 18 can be in close contact with the tapping platform when the splash guard 6 falls down. One end of the spray head 7 penetrates through the splash guard 6, the other end of the spray head is communicated with an external cooling liquid pipe, the spray head 7 can effectively spray cooling liquid on materials when the splash guard 6 is in contact with the tapping platform, the materials are prevented from being discolored due to overhigh tapping temperature, and the tapping head can be prevented from being broken due to high-temperature annealing. The spring 8 is sleeved on the sleeve 5, when the spring 8 is installed, one end of the spring is in contact with the splash guard 6, the other end of the spring is in contact with the front end wall of the tapping machine 3, the spring 8 can ensure that the splash guard 6 is in closer contact with the tapping platform, and the tapping machine 3 can automatically bounce when lifted.

Still further, the material pushing device comprises a first material pushing cylinder 10, a second material pushing cylinder 11, a third material pushing cylinder 12 and a positioning groove 19. The second material pushing cylinder 11 is used for pushing the material entering through the positioning groove 19 to the tapping table. A second inductor 21 is further arranged on the push rod of the second material pushing cylinder 11, the second inductor 21 is a pressure inductor, and the second inductor 21 is of a steel structure at the same time. The first material pushing cylinder 10 is matched with the first inductor 9 to form a clamp used for fixing materials on the tapping table. The third material pushing cylinder 12 is used for pushing the materials which are subjected to tapping into the receiving hopper 15. The positioning groove 19 is connected with the feeding groove 17, and the positioning groove 19 can orderly discharge the materials sent out by the feeding groove 17. The controller 4 controls the on and off of the first material pushing cylinder 10, the second material pushing cylinder 11 and the third material pushing cylinder 12 respectively, and improves the required layer working voltage for the three material pushing cylinders.

In order to carry out fine collection to the coolant liquid after using to recycle, the utility model discloses coolant liquid collection device has been set up. The cooling liquid collecting device comprises a liquid collecting groove 13 and a liquid storing cavity 14.

The liquid collecting groove 13 is arranged below the tapping table, and the telescopic arm of the second material pushing cylinder 11 penetrates through the liquid collecting groove 13 and is connected with the liquid collecting groove 13 through a sealing ring. The reservoir chamber 14 is connected to the sump 13 by a pipe. In order to make the used cooling liquid reach the requirement of recycling better, a filter screen 20 is arranged in the liquid storage cavity 14. Filter screen 20 has preferentially adopted the net footpath to realize for 1 mm's round hole steel mesh, and this filter screen 20 can be effectual with the iron fillings filtering in the coolant liquid, the effectual purity of ensureing the coolant liquid.

In operation, the first sensor 9 and the second sensor 21 are activated by the controller 4, and the first sensor 9 is activated to start sensing operation, and then operated. Open vibration dish 16 simultaneously, vibration dish 16 can begin vibrations work, and when the material entered into vibration dish 16 from the discharge gate department of production material, vibration dish 16 can drive the material vibrations, makes the material arrange in proper order and enters into feed trough 17. At this time, the vibration plate 16 continues to vibrate, the vibration plate 16 pushes the material piece to enter the positioning groove 19 from the feeding groove 17, and the fixing groove 19 discharges the material in order.

When the material in the fixing groove 19 reaches the second pushing cylinder 11, the second sensor 21 is triggered, the controller 4 controls the second pushing cylinder 11 to work, the second pushing cylinder 11 extends to a position parallel to the tapping platform, at the moment, the controller 4 controls the first pushing cylinder to work, and the first pushing cylinder pushes the material to the first sensor 9, so that the material is fixed between the first pushing cylinder and the first sensor 9. At the moment, the first sensor 9 is triggered to enable the controller 4 to control the telescopic rod of the hydraulic pump 2 to extend downwards, the controller 4 simultaneously controls the tapping machine 3 to rotate, the splash guard 6 is in contact with the tapping table, and the tapping machine 3 is in contact with the material and conducts tapping and work on the material. The spray head 7 sprays the cooling liquid at the material.

After the tapping of the material is completed, the telescopic rod of the hydraulic pump 2 is retracted, the third material pushing cylinder 12 works to push the material into the material receiving hopper 15, and the material enters the material frame after passing through the material receiving hopper 15. The tapping work on batch materials can be finished by repeating the operation. Explaining through this theory of operation the utility model discloses a vibration dish 16 is as material feeding unit, very big reduction to artificial demand, come control to attack the opening and closing of tooth machine 3 through the inductor simultaneously, fine assurance automatic accuracy of attacking tooth 3, set up brand-new coolant liquid injection apparatus on attacking tooth machine 3, this coolant liquid injection apparatus cooperatees through splash guard 6 that sets up with spring 8, has ensured that the coolant liquid of spraying can not splash everywhere when spraying, thereby the utility model discloses present full-automatic production has reduced the input of manpower and efficiency promotes greatly, fine solution the problem that the coolant liquid splashes everywhere when spraying, reduces the defective rate simultaneously, final reduction in production cost.

As described above, the utility model discloses alright fine realization.

Claims (8)

1. A vibration disk feeding automatic tapping machine is characterized by comprising a support (1), a tapping table arranged on the support (1), a hydraulic pump (2), a controller (4) and a vibration disk (16) which are respectively arranged on the support (1), a tapping machine (3) arranged on a hydraulic rod of the hydraulic pump (2), a material pushing device and a first inductor (9) which are arranged on the tapping table, a cooling liquid collecting device arranged below the tapping table and a cooling liquid spraying device movably arranged on the tapping machine (3); the vibration disc (16) is connected with the connecting material pushing device through a feeding groove (17); the controller (4) is respectively connected with the first inductor (9), the second inductor (21), the tapping machine (3), the material pushing device and the hydraulic pump (2).

2. The automatic tapping machine with the vibrating disk feeding function according to claim 1, wherein the coolant spraying device comprises a sleeve (5) sleeved on a rotating rod of the tapping machine (3), a splash guard (6) movably arranged on the sleeve (5), a spray head (7) with one end penetrating through the splash guard (6), and a spring (8) sleeved on the sleeve (5).

3. The automatic tapping machine with vibrating disk feeding according to claim 2, characterized in that the material pushing device comprises a first material pushing cylinder (10), a second material pushing cylinder (11), a third material pushing cylinder (12), and a positioning slot (19) connected with the feeding slot (17); the controller (4) is respectively connected with the first material pushing cylinder (10), the second material pushing cylinder (11) and the third material pushing cylinder (12); and a second inductor (21) is also arranged on the second material pushing cylinder (11).

4. A vibrating disk-fed automatic tapping machine as claimed in claim 3, characterized in that said coolant collection means comprise a sump (13), and a reservoir (14) connected to the sump (13) by means of a pipe; the telescopic arm of the second material pushing cylinder (11) penetrates through the liquid collecting groove (13) and is connected with the liquid collecting groove (13) through a sealing ring.

5. A vibrating disk-fed tapping machine as claimed in claim 4, characterized in that the mouth of the splash guard (6) is provided with a rubber ring (18).

6. A vibrating disk-fed automatic tapping machine as claimed in claim 5, characterized in that said frame (1) is further provided with a receiving hopper (15), said receiving hopper (15) being arranged obliquely.

7. A vibrating disk-fed automatic tapping machine as claimed in claim 6, characterized in that a filter screen (20) is provided in said reservoir (14).

8. A vibrating disk-fed tapping machine as claimed in claim 7, characterized in that said first inductor (9) and said second inductor (21) are pressure inductors.

Images