CN215941750U - Tapping equipment - Google Patents

Abstract

The utility model provides tapping equipment which is used for tapping materials to form tapping materials. The tapping equipment comprises a tapping machine component, a material preparing component and a material guiding component. The tapping machine assembly and the material preparing assembly are respectively arranged above the material guiding assembly. The material preparation component is used for containing materials. The material guide assembly is used for receiving the materials from the material preparation assembly and conveying the materials to a tapping position of the tapping machine assembly. The tapping machine component is used for tapping materials. The material guiding assembly comprises a material pushing cylinder and a material guiding plate. The material pushing cylinder is connected with the material guide plate and arranged on one side of the material preparation assembly and used for pushing materials in the material preparation assembly to the material guide plate. The stock guide is used for conveying the material to the tapping position of the tapping machine component. According to the tapping equipment provided by the utility model, the material is pushed to the tapping position through the material pushing cylinder, and tapping machines in different directions simultaneously tap the material, so that automation is realized, and the safety and the production efficiency are improved.

Description

Tapping equipment

Technical Field

The utility model relates to the technical field of automation equipment, in particular to tapping equipment.

Background

The tapping machine is a machining device for machining internal threads on the inner side surface of a preset through hole or blind hole of a workpiece. The traditional tapping machine has low automation degree and needs manual cooperation for completion, for example, tapping steps are usually operated by the tapping machine, but feeding and discharging, workpiece positioning and the like need manual operation. The potential safety hazard exists in staff and mechanical equipment contact, and the work piece precision of artifical pendulum position is not high, and the product quality after the tooth is attacked also produces the error easily. And the existing tapping machine cannot tap teeth simultaneously in different directions of the workpiece. If the workpiece needs to be tapped from multiple surfaces, after tapping is finished on one surface, the workpiece is manually turned over and is tapped continuously by the tapping machine, so that the working efficiency is low, and the productivity is influenced.

Disclosure of Invention

In view of the above, the present invention is directed to a tapping apparatus, which can automatically load and unload materials and simultaneously complete tapping in different directions.

In order to achieve the purpose of the utility model, the tapping equipment is used for tapping materials to form tapping materials. The tapping equipment comprises a tapping machine assembly, a material preparing assembly and a material guiding assembly. The tapping machine assembly and the material preparing assembly are respectively arranged above the material guide assembly. The material preparation assembly is used for containing the materials. The material guide assembly is used for receiving the material from the material preparation assembly and conveying the material to a tapping position of the tapping machine assembly. And the tapping machine component is used for tapping the material. The material guide assembly comprises a material pushing cylinder and a material guide plate. The material pushing cylinder is connected with the guide plate, arranged on one side of the material preparation assembly and used for pushing the materials in the material preparation assembly to the guide plate. The guide plate is used for conveying the materials to the tapping position of the tapping machine component.

Optionally, the stock preparation assembly comprises an upright silo. The upright storage bin is vertically arranged above the material guide assembly. The upright storage bin comprises a storage channel. The material certainly the entering is accomodate to storage channel upper end the storage channel to the landing extremely the lower extreme of storage channel. The lower end of the material storage channel is fixedly connected to the material guide assembly, and the material storage channel is provided with a material feeding hole in the horizontal direction. The material feeding holes are correspondingly communicated with the material guide plate and are arranged corresponding to the material pushing cylinders.

Optionally, the material guiding assembly further includes two side limiting plates disposed oppositely. The two side limiting plates are respectively clamped on two opposite sides of the material guide plate so as to surround the material outlet channel together with the material guide plate to convey the material.

Optionally, the two side limiting plates are detachably and fixedly mounted on two sides of the material guide plate, and the distance between the two side limiting plates is adjustable.

Optionally, the tapping device further comprises a sensing element. The sensing element is arranged on one side of the material guide plate and is close to the tapping position so as to sense whether the material reaches the tapping position.

Optionally, the tapping machine assembly comprises a first tapping machine, a second tapping machine and a third tapping machine. The first tapping machine is arranged above the tapping position. The second tapping machine is arranged on the left side of the tapping position. The third tapping machine is arranged on the right side of the tapping position. The first tapping machine comprises a first tapping tap. The second tapping machine comprises a second tapping screw tap. The third tapping machine comprises a third tapping screw tap.

Optionally, the tapping device further comprises a carrier assembly. The bearing assembly is used for fixedly bearing the tapping machine assembly, the material preparing assembly and the material guiding assembly.

Optionally, the tapping apparatus further comprises a water circulation assembly. The water circulation assembly is used for cooling the first tapping screw tap, the second tapping screw tap and the third tapping screw tap, and flushing the tapping material and the tapping position.

Optionally, the water circulation assembly comprises a water storage part, a water pumping part, a water drainage groove and a water spraying pipe. The water storage part is arranged on one side of the bearing component and used for storing water. The water pumping part is arranged in the water storage part and used for conveying water in the water storage part to the water spraying pipe. The water spray pipe is arranged on the bearing surface of the bearing assembly and is used for spraying water flow to the tapping materials and the tapping position. The drainage channel is arranged around the bearing surface, communicated with the water storage part and used for collecting the water flow and discharging the water flow into the water storage part.

Optionally, the tapping apparatus further comprises a control box assembly. The control box assembly is arranged on the bearing surface. The control box component comprises a touch screen and a mechanical control key. The touch screen is arranged above the mechanical control key. The mechanical control keys comprise a start key, a stop key and an emergency stop key.

According to the tapping equipment provided by the utility model, the material is pushed to the tapping position through the material pushing cylinder, and three tapping machines in different directions simultaneously tap the material, so that automatic tapping processing is realized, the contact between personnel and mechanical equipment is reduced, and the safety and the production efficiency are improved. In addition, the water circulation assembly is used for cooling the tapping screw tap and flushing the tapping position, so that the service life of the tapping screw tap can be prolonged, and meanwhile, the phenomenon that chips generated by machining influence the normal operation of equipment can be avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below, and it is apparent that the drawings in the following description only relate to some embodiments of the present invention and are not limiting on the present invention.

Fig. 1 is a schematic structural diagram of a tapping apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of the tapping device from another view angle.

Fig. 3 is a schematic structural view of a material preparing assembly and a material guiding assembly of the tapping apparatus.

Fig. 4 is a schematic structural view of a control box assembly of the tapping apparatus.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. Based on the described embodiments of the utility model, other embodiments obtained by persons of ordinary skill in the art without creative efforts belong to the protection scope of the utility model.

Referring to fig. 1 and 2, a tapping apparatus 900 according to an embodiment of the present invention includes a material preparing assembly 100, a material guiding assembly 200, a tapping machine assembly 300, a carrying assembly 400, a sensing element 500, a water circulating assembly 600, and a control box assembly 700. The carrier assembly 400 is used for fixing the carrier stock assembly 100, the stock guide assembly 200, the tapping machine assembly 300 and the control box assembly 700. The tapping machine assembly 300 and the material preparing assembly 100 are respectively disposed above the material guiding assembly 200. The stock preparation assembly 100 is used to hold materials. The guide assembly 200 is configured to receive material from the material preparation assembly 100 and deliver the material to the tapping position 301 of the tapping machine assembly 300. The tapping machine assembly 300 performs tapping processing on the material. The sensing element 500 is disposed at one side of the material guiding assembly 200 and close to the tapping position 301 to sense whether the material reaches the tapping position 301. The water circulation assembly 600 is partially disposed on the carrier assembly 400 for cooling the tapping machine assembly 300 and flushing the tapping material and tapping location 301. The control box assembly 700 is used to control the starting, running and stopping of the tapping apparatus 900.

Referring to fig. 1 and 3, the preparation assembly 100 includes an upright bin 110. The vertical bin 110 is vertically disposed above the material guide assembly 200. The upright storage bin 110 includes a storage channel 120. The material is received into the storage channel 120 from the upper end 121 of the storage channel 120 and slides down to the lower end 122 of the storage channel 120. The lower end 122 of the storage channel 120 is fixedly connected to the material guiding assembly 200, and the lower end 122 of the storage channel 120 is provided with a material feeding hole 123 in the horizontal direction. The feeding hole 123 is correspondingly communicated with the material guiding assembly 200. The material is placed in the vertical bin 110, the material slides from the upper end 121 to the lower end 122 of the storage channel 120 to enter the material guiding assembly 200, and the material guiding assembly 200 conveys the material to the tapping position 301 through the material conveying hole 123 so that the tapping machine assembly 300 performs tapping processing on the material.

Referring to fig. 1 and 3, the material guiding assembly 200 includes a material pushing cylinder 210, a material guiding plate 220, two side limiting plates 230, a feeding channel 240 and a material receiving box 250. The material pushing cylinder 210 is connected to the material guiding plate 220, is disposed on one side of the material preparing assembly 100, and is disposed corresponding to the material feeding hole 123, and is configured to push the material in the material preparing assembly 100 to the material guiding plate 220 through the material feeding hole 123. The guide plate 220 is used to convey material to the tapping position 301 of the tapping machine assembly 300. The two side limiting plates 230 are respectively clamped on two opposite sides of the material guiding plate 220 to surround the material outlet channel 240 together with the material guiding plate 220 to convey the material. The two side limiting plates 230 are detachably and fixedly mounted at two sides of the material guiding plate 220. The two side limiting plates 230 include positioning pins 231 and positioning pin holes 232, and the positioning pins 231 can be switched among different positioning pin holes 232, so that the distance between the two side limiting plates 230 can be adjusted. By adjusting the distance between the two side limiting plates 230 and the size of the changed stock bin, the materials with different widths can be adapted. The material receiving box 250 is arranged below the material guide plate 220 and is positioned on the opposite side of the material pushing cylinder 210, and is used for receiving processed tapping materials. The sensing element 500 is disposed at one side of the material guiding plate and close to the tapping position 301 to sense whether the material is close to the tapping position 301. When the sensing element 500 senses the material, the material pushing cylinder 210 is controlled to push the material to the tapping position 301. When the tapping machine assembly 300 taps the material to form tapping material, the pushing cylinder 210 continues to push the next material to the tapping position 301, the tapping material is pushed by the material, and the tapping material is sequentially pushed to the receiving box 250 on the feeding channel 240.

Referring to fig. 1 and 2, the tapping machine assembly 300 includes a first tapping machine 310, a second tapping machine, and 320 a third tapping machine 330. The first tapping machine 310 is arranged above the tapping position 301. The second tapping machine 320 is disposed on the left side of the tapping position 301. The third tapping machine 330 is disposed to the right of the tapping position 301. The first tapping machine 310 comprises a first tapping tap 311. A first tapping tap 311 is mounted at the tapping end 312 of the first tapping machine 310 for tapping the top surface of the material. The second tapping machine 320 includes a second tapping tap 321. The second tapping screw tap 321 is installed at the tapping end 322 of the first tapping machine 320, and is used for tapping the left surface of the material. The third tapping machine 330 includes a third tapping tap 331. The third tapping screw tap is mounted at the tapping end 332 of the third tapping machine 330 for tapping the right side of the material. When the material reaches the tapping position 301, the first tapping machine 310, the second tapping machine 320, and the third tapping machine 330 move from the initial positions to approach the tapping position 301, and simultaneously tap three sides of the material to form a tapping material. After the tapping process is completed, the three tapping machines respectively return to the initial positions.

Referring to fig. 1 and 2, the carriage assembly 400 includes a carriage bracket 410 and a carriage platform 420. The load-bearing platform 420 is mounted on the load-bearing support 410. The carrier platform 420 includes a carrier surface 421. The carrying surface 421 is the upper surface of the carrying platform 420. The carrying surface 421 is used for fixing the material preparing assembly 100, the material guiding assembly 200, the tapping machine assembly 300, the control box assembly 700 and the part of the water circulating assembly 600.

Referring to fig. 1 and 2, the water circulation assembly 600 includes a bracket 610, a water storage 620, a pumping member 630, a drain tank 640, and two water spray pipes 650. The bracket 610 is disposed at one side of the bearing assembly 400 and is used for supporting the water storage 620. The water storage member 620 serves to store water. The material receiving box 250 is disposed in the water storage part 620 and is adjacent to the material guiding assembly 200. The water pumping member 630 is disposed in the water storage member 620 to deliver the water in the water storage member 620 to the water spray pipe 650. The two water spraying pipes 650 are disposed on the bearing surface 421 of the bearing assembly 400, and located at two sides of the material guiding assembly 200, respectively, for spraying water to the first tapping screw tap 311, the second tapping screw tap 321, the third tapping screw tap 331, and the tapping position 301, so as to cool the first tapping screw tap 311, the second tapping screw tap 321, and the third tapping screw tap 331, and flush the tapping material and the tapping position 301. Through to attacking tooth screw tap water jet, make and attack the timely cooling of tooth screw tap, the life of tooth screw tap is attacked in the extension, and rivers spout simultaneously to attacking the tooth material and attacking tooth position 301, to attacking the tooth material and attacking tooth position 301 and wash the operation, and the piece that attacks the tooth operation and produce is discharged along with rivers to avoid the piece to influence equipment operation. The drainage groove 640 is disposed around the bearing surface 421 of the bearing assembly 400, and is communicated with the water storage member 620 for collecting water flow for flushing the tapping position 301 of the tapping material and draining the water flow back to the water storage member 620. In this embodiment, the water storage part 620 is a water tank; the water pumping member 630 is a water pump; the spray pipe 650 is a universal joint spray pipe, and the water spray angle of the spray pipe can be flexibly adjusted.

Referring to fig. 1 and 4, the control box assembly 700 includes a control box body 710, a touch screen 720, and mechanical control buttons 730. The pod body 710 is mounted on the carrying surface 421 of the carrier assembly 400. The touch screen 720 and the mechanical control keys 730 are arranged on the control box body 710. The touch screen 720 is disposed above the mechanical control buttons 730. The touch screen 720 is used for displaying the materials to be tapped and the number of the tapping materials. The mechanical control keys 730 include a start key 731, a stop key 732, and an emergency stop key 733. The activation key 731 may control the activation of the tapping device 900. The stop key 732 may control the tapping apparatus 900 to stop. The scram key 733 may control emergency braking of the tapping apparatus 900.

According to the tapping equipment provided by the utility model, the material is pushed to the tapping position through the material pushing cylinder, and three tapping machines in different directions simultaneously tap the material, so that automatic tapping processing is realized, the contact between personnel and mechanical equipment is reduced, and the safety and the production efficiency are improved. In addition, the water circulation assembly is used for cooling the tapping screw tap and flushing the tapping position, so that the service life of the tapping screw tap can be prolonged, and meanwhile, the phenomenon that chips generated by machining influence the normal operation of equipment can be avoided.

While the utility model has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that the present invention is not limited to the details of construction and various changes in form and details may be made therein without departing from the spirit and scope of the utility model. Therefore, the scope of the present disclosure should be determined not by the embodiments described above but by the appended claims and their equivalents.

Claims (10)

1. A tapping device is used for tapping materials to form tapping materials and is characterized in that, the tapping device comprises a tapping machine component, a material preparing component and a material guiding component, wherein the tapping machine component and the material preparing component are respectively arranged above the material guiding component, the material preparing assembly is used for containing the materials, the material guiding assembly is used for receiving the materials from the material preparing assembly, and conveys the material to the tapping position of the tapping machine component, the tapping machine component performs tapping treatment on the material, the material guide assembly comprises a material pushing cylinder and a material guide plate, the material pushing cylinder is connected with the material guide plate and is arranged on one side of the material preparation assembly, the guide plate is used for conveying the materials to the tapping position of the tapping machine component.

2. The tapping device as claimed in claim 1, wherein the stock preparation assembly comprises an upright stock bin vertically disposed above the stock guide assembly, the upright stock bin comprises a stock channel, the material is received from the upper end of the stock channel and enters the stock channel, and slides to the lower end of the stock channel, the lower end of the stock channel is fixedly connected to the stock guide assembly, the stock channel is provided with a horizontal material feeding hole, and the material feeding hole is correspondingly communicated with the stock guide plate and is correspondingly disposed with the material pushing cylinder.

3. The tapping device as claimed in claim 2, wherein said guiding assembly further comprises two opposite side limiting plates, said two side limiting plates being respectively clamped to opposite sides of said guiding plate to surround said guiding plate with said guiding plate to convey said material.

4. The tapping device as claimed in claim 3, wherein said two side limiting plates are detachably and fixedly mounted on both sides of said guiding plate, and the distance between said two side limiting plates is adjustable.

5. The tapping device as claimed in claim 4, further comprising a sensing element disposed at one side of said guide plate and adjacent to said tapping position for sensing whether said material reaches said tapping position.

6. The tapping device as claimed in claim 5, wherein said tapping assembly comprises a first tapping machine, a second tapping machine and a third tapping machine, said first tapping machine being disposed above said tapping position, said second tapping machine being disposed on the left side of said tapping position, said third tapping machine being disposed on the right side of said tapping position, said first tapping machine comprising a first tapping screw tap, said second tapping machine comprising a second tapping screw tap, said third tapping machine comprising a third tapping screw tap.

7. The tapping apparatus as claimed in claim 6, further comprising a carrier assembly for fixedly carrying said tapping machine assembly, said stock material assembly and said material guiding assembly.

8. The tapping apparatus as claimed in claim 7, wherein said tapping apparatus further comprises a water circulation assembly for performing a cooling operation on said first, second and third tapping taps and a flushing operation on said tapping material and said tapping location.

9. The tapping apparatus as claimed in claim 8, wherein said water circulation assembly comprises a water storage member, a water pumping member, a water discharge channel and a water spray pipe, said water storage member is disposed at one side of said bearing assembly for storing water, said water pumping member is disposed in said water storage member for delivering water in said water storage member to said water spray pipe, said water spray pipe is disposed on the bearing surface of said bearing assembly for spraying water to said tapping material and said tapping location, said water discharge channel is disposed around said bearing surface and is in communication with said water storage member for collecting said water flow and discharging said water flow into said water storage member.

10. The tapping device as claimed in claim 9, further comprising a control box assembly disposed on said carrying surface, said control box assembly comprising a touch screen and mechanical control keys, said touch screen being disposed above said mechanical control keys, said mechanical control keys comprising a start key, a stop key and an emergency stop key.

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