CN211915833U - Scoring machine for valve production - Google Patents

Abstract

The utility model discloses a nicking machine is used in valve production, including nicking machine base, valve transport mechanism, conveyer belt magnet control box, suction box, nick mechanism, nicking machine base inboard is provided with valve transport mechanism, valve transport mechanism front portion is provided with conveyer belt magnet control box, valve transport mechanism rear portion is provided with the suction box, valve transport mechanism upper portion is provided with nick mechanism. Has the advantages that: improve valve nick efficiency through valve transport mechanism, improved the nick quality through nick mechanism, reduced the emission of smoke and dust through the suction box, protected the workman healthy.

Description

Scoring machine for valve production

Technical Field

The utility model relates to a machinery nick equipment design field especially relates to nick machine is used in valve production.

Background

Valves are mechanical devices that control the flow, direction, pressure, temperature, etc. of a flowing fluid medium, and are essential components in piping systems. The nicking machine can often be used in present valve processing, but present nicking machine adjusts inconveniently when using, and the nicking quality is relatively poor, can not satisfy the needs of processing to it is also inconvenient to the change of burin, reduced the efficiency of processing, metal iron fillings and smoke and dust splash during nicking processing, harm workman's healthy. Therefore, the scoring machine for valve machining is provided to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provide a scoring machine for valve production.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the scoring machine for valve production comprises a scoring machine base, a valve conveying mechanism, a conveyor belt magnet control box, a dust suction box and a scoring mechanism, wherein the valve conveying mechanism is arranged on the inner side of the scoring machine base, the conveyor belt magnet control box is arranged on the front portion of the valve conveying mechanism, the dust suction box is arranged on the rear portion of the valve conveying mechanism, the scoring mechanism is arranged on the upper portion of the valve conveying mechanism,

preferably, the scoring machine base comprises a scoring machine support, a conveyor belt support is arranged on the upper portion of the scoring machine support, a track support is arranged on the upper portion of the conveyor belt support, the scoring machine support is connected with the conveyor belt support in a welding mode, and the conveyor belt support is connected with the track support in a welding mode.

Preferably, valve transport mechanism includes the conveyer belt motor, conveyer belt motor one side is provided with conveyer belt motor reduction gear, conveyer belt motor reduction gear rear portion connects the conveyer belt, the conveyer belt motor passes through gear connection the conveyer belt motor reduction gear, the conveyer belt motor reduction gear passes through the roller connection the conveyer belt.

Preferably, the nicking mechanism comprises a longitudinal rail, a longitudinal rail stepping motor is arranged on the upper portion of the longitudinal rail, the lower portion of the longitudinal rail stepping motor is connected with a transverse rail, the front portion of the transverse rail is connected with a transverse slider, a laser position detector is arranged on the front portion of the transverse slider, a transverse rail stepping motor is connected on the upper portion of the transverse slider, a nicking machine motor is arranged on the lower portion of the transverse slider, the lower portion of the nicking machine motor is connected with a nicking machine drill bit, the longitudinal rail is connected with the longitudinal rail stepping motor through a gear rack, the longitudinal rail stepping motor is connected with the transverse rail through a bolt, the transverse rail is connected with the transverse slider through a sliding chute, the transverse slider is connected with the laser position detector through a bolt, the transverse rail stepping motor is connected with the transverse slider through a bolt, the scoring machine drill bit is connected with the scoring machine motor through a claw disc.

Preferably, the scoring mechanism comprises a longitudinal rail, a longitudinal rail stepping motor is arranged at the upper part of the longitudinal rail, the lower part of the longitudinal track stepping motor is connected with a transverse track, the front part of the transverse track is connected with a transverse sliding block, the front part of the transverse sliding block is provided with a laser position detector, the upper part of the transverse sliding block is connected with a transverse track stepping motor, the lower part of the transverse sliding block is provided with a laser scoring machine, the longitudinal track is connected with the longitudinal track stepping motor through a gear rack, the longitudinal track stepping motor is connected with the transverse track through a bolt, the transverse track is connected with the transverse sliding block through a sliding groove, the transverse sliding block is connected with the laser position detector through a bolt, the transverse track stepping motor is connected with the transverse sliding block through a bolt, and the laser scoring machine is connected with the transverse sliding block through a bolt.

Has the advantages that: improve valve nick efficiency through valve transport mechanism, improved the nick quality through nick mechanism, reduced the emission of smoke and dust through the suction box, protected the workman healthy.

Drawings

Fig. 1 is a perspective view of the scoring machine for valve production according to the present invention;

FIG. 2 is a front view of the scoring machine for manufacturing the valve of the present invention;

FIG. 3 is a detailed view of the scoring mechanism of embodiment 1 of the scoring machine for valve production according to the present invention;

fig. 4 is a detailed view of the scoring mechanism of embodiment 2 of the scoring machine for valve production according to the present invention.

The reference numerals are explained below: 1. a scoring machine base; 2. a valve delivery mechanism; 3. a conveyor belt magnet control box; 4. a dust collection box; 5. a scoring mechanism; 101. a scoring machine support; 102. a conveyor belt support; 103. a rail bracket; 201. a conveyor belt motor; 202. a conveyor belt motor reducer; 203. a conveyor belt; 501. a longitudinal rail; 502. a longitudinal track stepper motor; 503. a transverse rail; 504. a transverse slide block; 505. a laser position detector; 506. a transverse track stepper motor; 507. a scoring machine motor; 508. a scoring machine drill bit; 509. a laser scoring machine.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

in the description of the present invention, it is to be understood that the terms "central", "longitudinal", "transverse" and "longitudinal" are used,

Upper, lower, front, rear, left, right, vertical, horizontal, top, bottom,

The directional or positional relationships indicated as "inner", "outer", etc. are those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Example 1

As shown in fig. 1, 2 and 3, the scoring machine for valve production comprises a scoring machine base 1, a valve conveying mechanism 2, a conveyor belt magnet control box 3, a dust suction box 4 and a scoring mechanism 5, wherein the valve conveying mechanism 2 is arranged on the inner side of the scoring machine base 1, the conveyor belt magnet control box 3 is arranged on the front portion of the valve conveying mechanism 2, the dust suction box 4 is arranged on the rear portion of the valve conveying mechanism 2, and the scoring mechanism 5 is arranged on the upper portion of the valve conveying mechanism 2.

Preferably, the scoring machine base 1 comprises a scoring machine support 101, a conveyor belt support 102 is arranged at the upper part of the scoring machine support 101, a track support 103 is arranged at the upper part of the conveyor belt support 102, the scoring machine support 101 is connected with the conveyor belt support 102 through welding, and the conveyor belt support 102 is connected with the track support 103 through welding; the valve transmission mechanism 2 comprises a transmission belt motor 201, a transmission belt motor reducer 202 is arranged on one side of the transmission belt motor 201, the rear part of the transmission belt motor reducer 202 is connected with a transmission belt 203, the transmission belt motor 201 is connected with the transmission belt motor reducer 202 through a gear, and the transmission belt motor reducer 202 is connected with the transmission belt 203 through a roller; the scoring mechanism 5 comprises a longitudinal track 501, a longitudinal track stepping motor 502 is arranged on the upper portion of the longitudinal track 501, the lower portion of the longitudinal track stepping motor 502 is connected with a transverse track 503, the front portion of the transverse track 503 is connected with a transverse slider 504, a laser position detector 505 is arranged on the front portion of the transverse slider 504, the upper portion of the transverse slider 504 is connected with a transverse track stepping motor 506, a scoring machine motor 507 is arranged on the lower portion of the transverse slider 504, and a scoring machine drill 508 is connected on the lower portion of the scoring machine motor 507. The longitudinal track 501 is connected with a longitudinal track stepping motor 502 through a gear rack, the longitudinal track stepping motor 502 is connected with a transverse track 503 through a bolt, the transverse track 503 is connected with a transverse slider 504 through a sliding chute, the transverse slider 504 is connected with a laser position detector 505 through a bolt, the transverse track stepping motor 506 is connected with the transverse slider 504 through a bolt, a scoring machine motor 507 is connected with the transverse slider 504 through a bolt, and a scoring machine drill 508 is connected with a scoring machine motor 507 through a claw disk.

In the structure, the conveyor belt motor 201 transmits power to the conveyor belt motor reducer 202, the conveyor belt motor reducer 202 drives the conveyor belt 203 to convey the valve, the conveyor belt magnet control box 3 adsorbs the processing valve on the conveyor belt 203, the longitudinal track stepping motor 502 controls the transverse track 503 to move on the longitudinal track 501, the transverse track stepping motor 506 controls the transverse slider 504 to move on the transverse track 503, the laser position detector 505 detects the position of the valve, and the scoring machine motor 507 drives the scoring machine drill 508 to complete scoring.

Example 2

As shown in fig. 1, 2 and 4, the scoring machine for valve production comprises a scoring machine base 1, a valve conveying mechanism 2, a conveyor belt magnet control box 3, a dust suction box 4 and a scoring mechanism 5, wherein the valve conveying mechanism 2 is arranged on the inner side of the scoring machine base 1, the conveyor belt magnet control box 3 is arranged on the front portion of the valve conveying mechanism 2, the dust suction box 4 is arranged on the rear portion of the valve conveying mechanism 2, and the scoring mechanism 5 is arranged on the upper portion of the valve conveying mechanism 2.

Preferably, the scoring machine base 1 comprises a scoring machine support 101, a conveyor belt support 102 is arranged at the upper part of the scoring machine support 101, a track support 103 is arranged at the upper part of the conveyor belt support 102, the scoring machine support 101 is connected with the conveyor belt support 102 through welding, and the conveyor belt support 102 is connected with the track support 103 through welding; the valve transmission mechanism 2 comprises a transmission belt motor 201, a transmission belt motor reducer 202 is arranged on one side of the transmission belt motor 201, the rear part of the transmission belt motor reducer 202 is connected with a transmission belt 203, the transmission belt motor 201 is connected with the transmission belt motor reducer 202 through a gear, and the transmission belt motor reducer 202 is connected with the transmission belt 203 through a roller; the scoring mechanism 5 comprises a longitudinal track 501, a longitudinal track stepping motor 502 is arranged on the upper portion of the longitudinal track 501, the lower portion of the longitudinal track stepping motor 502 is connected with a transverse track 503, the front portion of the transverse track 503 is connected with a transverse slider 504, a laser position detector 505 is arranged on the front portion of the transverse slider 504, the upper portion of the transverse slider 504 is connected with a transverse track stepping motor 506, a scoring machine motor 507 is arranged on the lower portion of the transverse slider 504, and a scoring machine drill 508 is connected on the lower portion of the scoring machine motor 507. The longitudinal track 501 is connected with a longitudinal track stepping motor 502 through a gear rack, the longitudinal track stepping motor 502 is connected with a transverse track 503 through a bolt, the transverse track 503 is connected with a transverse slider 504 through a sliding groove, the transverse slider 504 is connected with a laser position detector 505 through a bolt, the transverse track stepping motor 506 is connected with the transverse slider 504 through a bolt, a laser scoring machine 509 is arranged at the lower part of the transverse slider 504, and the laser scoring machine 509 is connected with the transverse slider 504 through a bolt.

In the structure, the conveyor belt motor 201 transmits power to the conveyor belt motor reducer 202, the conveyor belt motor reducer 202 drives the conveyor belt 203 to convey the valve, the conveyor belt magnet control box 3 adsorbs the processing valve on the conveyor belt 203, the longitudinal track stepping motor 502 controls the transverse track 503 to move on the longitudinal track 501, the transverse track stepping motor 506 controls the transverse slider 504 to move on the transverse track 503, the laser position detector 505 detects the position of the valve, and the laser scoring machine 509 finishes scoring.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. Nicking machine is used in valve production, its characterized in that: including nicking machine base (1), valve transport mechanism (2), conveyer belt magnet control box (3), suction box (4), nick mechanism (5), nicking machine base (1) inboard is provided with valve transport mechanism (2), valve transport mechanism (2) front portion is provided with conveyer belt magnet control box (3), valve transport mechanism (2) rear portion is provided with suction box (4), valve transport mechanism (2) upper portion is provided with nick mechanism (5).

2. The scoring machine for producing the valve as claimed in claim 1, wherein: the scoring machine base (1) comprises a scoring machine support (101), a conveyor belt support (102) is arranged on the upper portion of the scoring machine support (101), a track support (103) is arranged on the upper portion of the conveyor belt support (102), the scoring machine support (101) is connected with the conveyor belt support (102) in a welding mode, and the conveyor belt support (102) is connected with the track support (103) in a welding mode.

3. The scoring machine for producing the valve as claimed in claim 1, wherein: valve transport mechanism (2) are including conveyer belt motor (201), conveyer belt motor (201) one side is provided with conveyer belt motor reduction gear (202), conveyer belt (203) are connected to conveyer belt motor reduction gear (202) rear portion, conveyer belt motor (201) pass through gear connection conveyer belt motor reduction gear (202), conveyer belt motor reduction gear (202) pass through the roller connection conveyer belt (203).

4. The scoring machine for producing the valve as claimed in claim 1, wherein: the scoring mechanism (5) comprises a longitudinal track (501), a longitudinal track stepping motor (502) is arranged on the upper portion of the longitudinal track (501), a transverse track (503) is connected to the lower portion of the longitudinal track stepping motor (502), a transverse slider (504) is connected to the front portion of the transverse track (503), a laser position detector (505) is arranged on the front portion of the transverse slider (504), a transverse track stepping motor (506) is connected to the upper portion of the transverse slider (504), a scoring machine motor (507) is arranged on the lower portion of the transverse slider (504), a scoring machine drill bit (508) is connected to the lower portion of the scoring machine motor (507), the longitudinal track (501) is connected with the longitudinal track stepping motor (502) through a gear rack, the longitudinal track stepping motor (502) is connected with the transverse track (503) through a bolt, and the transverse track (503) is connected with the transverse slider (, the transverse slider (504) is connected with the laser position detector (505) through a bolt, the transverse track stepping motor (506) is connected with the transverse slider (504) through a bolt, the scoring machine motor (507) is connected with the transverse slider (504) through a bolt, and the scoring machine drill bit (508) is connected with the scoring machine motor (507) through a claw disk.

5. The scoring machine for producing the valve as claimed in claim 1, wherein: the scoring mechanism (5) comprises a longitudinal track (501), a longitudinal track stepping motor (502) is arranged on the upper portion of the longitudinal track (501), a transverse track (503) is connected to the lower portion of the longitudinal track stepping motor (502), a transverse slider (504) is connected to the front portion of the transverse track (503), a laser position detector (505) is arranged on the front portion of the transverse slider (504), a transverse track stepping motor (506) is connected to the upper portion of the transverse slider (504), a laser scoring machine (509) is arranged on the lower portion of the transverse slider (504), the longitudinal track (501) is connected with the longitudinal track stepping motor (502) through a gear rack, the longitudinal track stepping motor (502) is connected with the transverse track (503) through bolts, the transverse track (503) is connected with the transverse slider (504) through a sliding groove, and the transverse slider (504) is connected with the laser position detector (505) through, the transverse track stepping motor (506) is connected with the transverse sliding block (504) through bolts, and the laser scoring machine (509) is connected with the transverse sliding block (504) through bolts.

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