CN213591583U - Full-automatic pipe reducing machine - Google Patents

Abstract

The utility model provides a full-automatic draw machine, include: a rack; a pipe contracting device mounted on the rack; the pipe contracting device comprises a positioning and clamping device body and a pipe contracting device body, wherein the positioning and clamping device body is arranged at the front end of the pipe contracting device body, the positioning and clamping device body comprises a positioning supporting seat, a positioning and clamping oil cylinder is arranged on the top of the positioning supporting seat in a vertical and downward mode, an upper clamp is arranged on a telescopic shaft of the positioning and clamping oil cylinder, and a lower clamp is fixed to the bottom of the positioning supporting seat and located under the upper clamp. The full-automatic pipe shrinking machine is compact in structure, reasonable in design, high in automation degree, high in machining efficiency and high in machining quality, can shrink twice simultaneously by means of double-station configuration, and is free of abrasion in operation, high in stability and stable in product quality by means of a linear guide rail carrier.

Description

Full-automatic pipe reducing machine

Technical Field

The utility model relates to a pipe processing equipment technical field, concretely relates to full-automatic draw machine.

Background

The pipe reducing machine is a hydraulic full-automatic pipe end processing machine which reduces the pipe of the end face of a pipe in a normal state and is controlled by an integrated control touch display screen, pipe end processing forming such as pipe expanding, pipe reducing, bulging, rib upsetting and the like can be carried out on the pipe by replacing a die, and the pipe reducing machine is ideal pipe end forming processing equipment.

Chinese patent publication No. CN207746314U discloses a full-automatic pipe shrinking machine, wherein a first cylinder and a second cylinder are respectively installed at the front end and the rear end of the middle part of a workbench, a material channel is arranged at the middle part of the workbench and connected with the front of a first clamp, material supporting wheels are respectively arranged on the front of the first clamp and the front of the second clamp, a blanking head and a rear molding adjusting block are arranged at one side of the material channel, the rear molding adjusting block is connected with one end of a lead screw, the other end of the lead screw is fixed on a lead screw fixing member, linear bearing lower backing plates are respectively installed at two sides of the middle part of the workbench, linear bearing seats are respectively arranged at two ends of the linear bearing lower backing plates, and a linear bearing and an optical axis are installed between the two linear. This full-automatic draw machine easy operation, convenient to use improves all processes of back and is independently accomplished by the machine, has not only improved production efficiency greatly, has promoted the quality, has practiced thrift the labour moreover. However, the full-automatic pipe reducing machine can only perform single-head operation, has low processing efficiency and a complex structure, and therefore needs to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a full-automatic draw machine, the configuration of duplex position can contract twice simultaneously, and machining efficiency is high, and processingquality is high.

In order to realize the technical scheme, the utility model provides a full-automatic draw machine, include: a rack; the pipe reducing device is installed on the rack and comprises a longitudinal guide rail which is longitudinally arranged along the rack, a longitudinal sliding seat is installed on the longitudinal guide rail through a sliding block, a pushing oil cylinder installation seat is fixed on the rack and located behind the longitudinal sliding seat, a longitudinal pushing oil cylinder is installed on the pushing oil cylinder installation seat and arranged in parallel with the longitudinal guide rail, a sliding table is installed at the front end of the longitudinal sliding seat, a transverse sliding rail is installed on the sliding table, a transverse moving seat is installed on the transverse sliding rail, the transverse pushing oil cylinder is fixed on the side end of the sliding table through a transverse oil cylinder installation seat, a telescopic shaft of the transverse pushing oil cylinder is fixedly connected with the transverse moving seat, and at least two machining heads are installed on the end face of the; the pipe contracting device comprises a positioning and clamping device body and a pipe contracting device body, wherein the positioning and clamping device body is arranged at the front end of the pipe contracting device body, the positioning and clamping device body comprises a positioning supporting seat, a positioning and clamping oil cylinder is arranged on the top of the positioning supporting seat in a vertical and downward mode, an upper clamp is arranged on a telescopic shaft of the positioning and clamping oil cylinder, and a lower clamp is fixed to the bottom of the positioning supporting seat and located under the upper clamp.

In the technical scheme, a pipe fitting to be subjected to pipe reducing processing is placed in a lower clamp of a positioning and clamping device, then the upper clamp is driven to press downwards by a positioning and clamping oil cylinder, the pipe fitting is clamped between the upper clamp and the lower clamp, then a longitudinal pushing oil cylinder in a pipe reducing device drives a longitudinal sliding seat to move forwards, one pipe reducing processing head is pressed onto the pipe fitting clamped in the positioning and clamping device to realize primary pipe reducing processing, then the longitudinal pushing oil cylinder drives the longitudinal sliding seat to reset, a transverse pushing oil cylinder pushes a transverse moving seat to move so that the other pipe reducing processing head is aligned with the pipe fitting clamped in the positioning and clamping device, then the longitudinal pushing oil cylinder drives the longitudinal sliding seat to move forwards again, a second processing head is pressed onto the pipe fitting clamped in the positioning and clamping device to realize secondary pipe reducing processing, and then the longitudinal pushing oil cylinder drives the longitudinal sliding seat to reset, the transverse pushing oil cylinder pushes the transverse moving seat to reset, and next circular processing is realized. Through the configuration of double stations, the device can be contracted twice at the same time, and has high processing efficiency and high processing quality.

Preferably, the back of the positioning support seat is further provided with a positioning sleeve rod which is obliquely arranged, the positioning oil cylinder is arranged at the top of the positioning sleeve rod, the positioning telescopic rod is arranged in the positioning sleeve rod and is fixedly connected with a telescopic shaft of the positioning oil cylinder, and the bottom end of the positioning telescopic rod is obliquely arranged relative to the pipe contracting machining head. In the actual working process, when the pipe shrinking device normally works, the positioning oil cylinder drives the positioning telescopic rod to shrink, when the pipe shrinking processing head needs to be replaced to process a pipe, the positioning telescopic rod is driven to extend downwards through the positioning oil cylinder to ensure that the transverse pushing oil cylinder pushes the transverse moving seat to move in place, and the pipe shrinking processing and the pipe clamped in the positioning and clamping device are aligned accurately.

Preferably, the push oil cylinder mounting seat is connected with the positioning support seat through an ejector rod.

Preferably, two pipe reducing machining heads which are transversely arranged side by side are installed on the end face of the front side of the transverse moving seat.

The utility model provides a pair of full-automatic draw machine's beneficial effect lies in: the full-automatic pipe reducing machine is compact in structure, reasonable in design and high in automation degree, when in actual work, a pipe needing to be subjected to pipe reducing processing is placed in a lower clamp of a positioning and clamping device, then an upper clamp is driven to press downwards through a positioning and clamping oil cylinder, the pipe is clamped between the upper clamp and the lower clamp, then a longitudinal pushing oil cylinder in the pipe reducing device drives a longitudinal sliding seat to move forwards, one processing head is pressed to the pipe clamped in the positioning and clamping device to realize one-time pipe reducing processing, then the longitudinal pushing oil cylinder drives the longitudinal sliding seat to reset, a transverse pushing oil cylinder pushes a transverse moving seat to move so that the other processing head is aligned with the pipe clamped in the positioning and clamping device, then the longitudinal pushing oil cylinder drives the longitudinal sliding seat to move forwards again, and a second pipe reducing processing head is pressed to the pipe clamped in the positioning and clamping device to realize second pipe reducing processing, then the longitudinal pushing oil cylinder drives the longitudinal sliding seat to reset, and the transverse pushing oil cylinder pushes the transverse moving seat to reset, so that next cycle machining is realized. Through the configuration of double stations, the device can be contracted twice at the same time, has high processing efficiency and high processing quality, and operates without abrasion by using a linear guide rail carrier, and has strong stability and stable product quality.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the assembly structure of the middle pipe shrinking device and the positioning and clamping device of the present invention.

Fig. 3 is a schematic perspective view of the middle pipe shrinking device of the present invention.

Fig. 4 is a partially enlarged schematic view of the assembly structure of the middle pipe shrinking device and the positioning and clamping device of the present invention.

Fig. 5 is a schematic perspective view of the middle positioning and clamping device of the present invention.

In the figure: 1. a rack; 2. a pipe contracting device; 21. a longitudinal guide rail; 22. pushing the oil cylinder mounting seat; 23. a longitudinal sliding seat; 24. a slider; 25. a sliding table; 26. longitudinally pushing the oil cylinder; 27. a transverse moving seat; 28. a transverse slide rail; 29. a transverse oil cylinder mounting seat; 210. transversely pushing the oil cylinder; 211. pipe contracting machining head; 212. a top rod; 3. positioning and clamping devices; 31. positioning a supporting seat; 32. positioning and clamping the oil cylinder; 33. an upper clamp; 34. a lower clamp; 35. positioning the oil cylinder; 36. positioning the loop bar; 37. and (5) positioning the telescopic rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments obtained by a person skilled in the art without any inventive step are within the scope of the present invention.

Example (b): a full-automatic pipe reducing machine.

Referring to fig. 1 to 5, a fully automatic pipe reducing machine includes:

a gantry 1;

the pipe reducing device 2 is installed on a rack 1, the pipe reducing device 2 comprises a longitudinal guide rail 21 longitudinally arranged along the rack 1, a longitudinal sliding seat 23 is installed on the longitudinal guide rail 21 through a sliding block 24, a pushing cylinder installation seat 22 is fixed on the rack 1 and located behind the longitudinal sliding seat 23, a longitudinal pushing cylinder 26 is installed on the pushing cylinder installation seat 22 and is arranged in parallel with the longitudinal guide rail 21, a sliding table 25 is installed at the front end of the longitudinal sliding seat 23, a transverse sliding rail 28 is installed on the sliding table 25, a transverse moving seat 27 is installed on the transverse sliding rail 28, a transverse pushing cylinder 210 is fixed on the side end of the sliding table 25 through the transverse cylinder installation seat 29, a telescopic shaft of the transverse pushing cylinder 210 is fixedly connected with the transverse moving seat 27, and two pipe reducing processing heads 211 are installed on the front side end face of the;

the positioning and clamping device 3 is arranged at the front end of the pipe reducing device 2, the positioning and clamping device 3 comprises a positioning support seat 31, a pushing cylinder mounting seat 22 is connected with the positioning support seat 31 through a push rod 212, a positioning and clamping cylinder 32 is arranged at the top of the positioning support seat 31 in a vertical and downward mode, an upper clamp 33 is arranged on a telescopic shaft of the positioning and clamping cylinder 32, a lower clamp 34 is fixed at the bottom of the positioning support seat 31 and located under the upper clamp 33, a positioning sleeve rod 36 is further arranged on the back of the positioning support seat 31 in an inclined mode, a positioning cylinder 35 is arranged at the top of the positioning sleeve rod 36, a positioning telescopic rod 37 is arranged in the positioning sleeve rod 36 and fixedly connected with the telescopic shaft of the positioning cylinder 35, the bottom end of the positioning telescopic rod 37 is obliquely arranged on a pipe reducing processing head 211, and in the actual working process, the positioning cylinder 35 drives the positioning, when the pipe reducing machining head 211 needs to be replaced to machine a pipe fitting, the positioning oil cylinder 35 drives the positioning telescopic rod 37 to extend downwards, so that the transverse pushing oil cylinder 210 is ensured to push the transverse moving seat 27 to move in place, and the pipe reducing machining head 211 and the pipe fitting clamped in the positioning and clamping device 3 are aligned accurately.

The full-automatic pipe reducing machine is compact in structure, reasonable in design and high in automation degree, during actual work, a pipe needing to be subjected to pipe reducing processing is placed in a lower clamp 34 of a positioning and clamping device 3, then an upper clamp 33 is driven to be pressed downwards through a positioning and clamping oil cylinder 32, the pipe is clamped between the upper clamp 33 and the lower clamp 34, then a longitudinal pushing oil cylinder 26 in a pipe reducing device 2 drives a longitudinal sliding seat 23 to move forwards, a first pipe reducing processing head 211 is pressed into the pipe clamped in the positioning and clamping device 3 to achieve first pipe reducing processing, then the longitudinal pushing oil cylinder 26 drives the longitudinal sliding seat 23 to reset, a transverse pushing oil cylinder 210 pushes a transverse moving seat 27 to move so that a second processing head 211 is aligned with the pipe clamped in the positioning and clamping device 3, then the longitudinal pushing oil cylinder 26 drives the longitudinal sliding seat 23 to move forwards again, and a second pipe reducing 211 is pressed into the pipe clamped in the positioning and clamping device 3 to achieve second pipe adding Then, the longitudinal pushing oil cylinder 26 drives the longitudinal sliding seat 23 to reset, and the transverse pushing oil cylinder 210 pushes the transverse moving seat 27 to reset, so that the next cycle machining is realized. The full-automatic pipe reducing machine can reduce twice through double-station configuration, has high processing efficiency and high processing quality, and operates without abrasion by using a linear guide rail carrier, and has strong stability and stable product quality.

The above description is a preferred embodiment of the present invention, but the present invention should not be limited to the disclosure of the embodiment and the accompanying drawings, and therefore, all equivalents and modifications that can be accomplished without departing from the spirit of the present invention are within the protection scope of the present invention.

Claims (4)

1. A full-automatic pipe reducing machine is characterized by comprising:

a rack;

the pipe reducing device is installed on the rack and comprises a longitudinal guide rail which is longitudinally arranged along the rack, a longitudinal sliding seat is installed on the longitudinal guide rail through a sliding block, a pushing oil cylinder installation seat is fixed on the rack and located behind the longitudinal sliding seat, a longitudinal pushing oil cylinder is installed on the pushing oil cylinder installation seat and arranged in parallel with the longitudinal guide rail, a sliding table is installed at the front end of the longitudinal sliding seat, a transverse sliding rail is installed on the sliding table, a transverse moving seat is installed on the transverse sliding rail, the transverse pushing oil cylinder is fixed on the side end of the sliding table through a transverse oil cylinder installation seat, a telescopic shaft of the transverse pushing oil cylinder is fixedly connected with the transverse moving seat, and at least two machining heads are installed on the end face of the;

the pipe contracting device comprises a positioning and clamping device body and a pipe contracting device body, wherein the positioning and clamping device body is arranged at the front end of the pipe contracting device body, the positioning and clamping device body comprises a positioning supporting seat, a positioning and clamping oil cylinder is arranged on the top of the positioning supporting seat in a vertical and downward mode, an upper clamp is arranged on a telescopic shaft of the positioning and clamping oil cylinder, and a lower clamp is fixed to the bottom of the positioning supporting seat and located under the upper clamp.

2. The full-automatic pipe reduction machine according to claim 1, wherein: still install the location loop bar that the slope set up on the back of location supporting seat, the top at the location loop bar is installed to the location hydro-cylinder, the location telescopic link install in the location loop bar and with the telescopic shaft fixed connection of location hydro-cylinder, the bottom of location telescopic link is to the setting of draw processing head to one side.

3. The full-automatic pipe reduction machine according to claim 1, wherein: the push oil cylinder mounting seat is connected with the positioning support seat through an ejector rod.

4. The full-automatic pipe reduction machine according to claim 1, wherein: and two pipe reducing machining heads which are transversely arranged side by side are arranged on the end face of the front side of the transverse moving seat.

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