CN209811895U - Forge sword mirror surface polishing equipment and production line - Google Patents

Abstract

The utility model discloses a forging knife mirror surface polishes equipment and production line relates to a grinding device, and it includes that burnishing machine constructs, buffing machine main part frame, buffing machine remove the frame and polish the frame, buffing machine main part frame has the buffing machine to remove the frame in vertical direction sliding fit, installs worm and worm gear pair on the buffing machine main part frame, and worm gear pair passes through hand wheel shaft drive by the hand wheel that sets up on buffing machine main part frame, and the inside worm wheel that is equipped with rather than forming the vice driven removal frame lead screw of spiral pair in the worm and worm gear pair, removes the frame lead screw and polishes and remove the frame and be connected, the beneficial effects of the utility model are that: the mirror surface polishes equipment itself and has a plurality of degrees of freedom, and realization that can be convenient is adjusted, polishes and has a plurality of mirror surfaces on the production line and polish equipment, polishes the abrasive band of equipment go up the installation different fineness at every mirror surface, can realize the multichannel and grind the process, can reach the mirror surface effect, realizes practicing thrift the manual work, improves product grinding quality, improves product production efficiency's purpose.

Description

Forge sword mirror surface polishing equipment and production line

Technical Field

The utility model relates to a grinding device specifically is a forge sword mirror surface and polish equipment and production line.

Background

Sanding, which is one of surface modification techniques, generally refers to a processing method for changing physical properties of a material surface by friction with the aid of a rough object (sand paper or the like containing particles of relatively high hardness) mainly for the purpose of obtaining a specific surface roughness. Grinding is a common technique used in machining processes.

For the existing grinding machine, the position of the grinding machine is generally fixed, grinding is realized by adjusting the position of a workpiece, and the efficiency is not high. In addition, when the existing workpiece is polished, abrasive paper with different fineness needs to be replaced for many times or a plurality of polishing machines need to be replaced directly, so that the operations such as coarse grinding, fine grinding and the like are realized, and the efficiency is low.

Based on this, this application has proposed a buffing machine and buffing production line.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a forging cutter mirror surface polishes equipment and production line to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a forged knife mirror surface polishing device comprises a polishing mechanism, a polishing machine main body frame, a polishing machine moving frame and a polishing machine frame, wherein the polishing machine main body frame is matched with the polishing machine moving frame in a sliding mode in the vertical direction, a worm and worm gear pair is installed on the polishing machine main body frame and driven by a hand wheel arranged on the polishing machine main body frame through a hand wheel shaft, a moving frame screw rod in spiral pair transmission with the worm and worm gear pair is arranged inside a worm wheel in the worm and worm gear pair, the moving frame screw rod is connected with the polishing machine moving frame, the polishing machine moving frame is installed on the polishing machine moving frame and is matched with the polishing machine frame in a sliding mode in the horizontal direction, and the polishing mechanism is installed on the polishing machine frame.

As a further aspect of the present invention: the polishing machine is characterized in that a movable frame motor is installed on a movable frame of the polishing machine, an eccentric sheave is installed at the output end of the movable frame motor, the eccentric sheave is matched with an eccentric sheave sleeve, and the eccentric sheave sleeve is matched with an eccentric sheave pin installed on a polishing machine frame.

As a further aspect of the present invention: the polishing mechanism comprises a polishing machine power-driven grinding roller motor, a polishing machine power-driven grinding roller support, a polishing machine auxiliary grinding roller, a polishing machine power-driven grinding roller and an abrasive belt, wherein the polishing machine power-driven grinding roller support and the polishing machine auxiliary grinding roller support are both arranged on the polishing machine frame, the polishing machine power-driven grinding roller support and the polishing machine auxiliary grinding roller support are respectively provided with the polishing machine power-driven grinding roller and the polishing machine auxiliary grinding roller, the polishing machine power-driven grinding roller is connected with the polishing machine auxiliary grinding roller through the abrasive belt, and the polishing machine power-driven grinding roller is driven to rotate by the.

As a further aspect of the present invention: the auxiliary grinding roller bracket of the polishing machine is in sliding fit with the movable grinding roller bracket of the polishing machine, the auxiliary grinding roller bracket adjusting cylinder of the polishing machine is arranged on the movable grinding roller bracket of the polishing machine, and the output end of the auxiliary grinding roller bracket adjusting cylinder of the polishing machine is connected with the auxiliary grinding roller bracket of the polishing machine.

A mirror polishing production line for a forging knife comprises a conveyor and a plurality of polishing machines which are arranged on the conveyor.

As a further aspect of the present invention: the outside of the polishing machine is provided with a protective cover, and the protective cover is provided with an opening at the position corresponding to the abrasive belt.

As a further aspect of the present invention: the conveyer includes conveyer belt, conveyer auxiliary drum, the motor-driven cylinder of conveyer, conveyer motor and conveyer frame, conveyer auxiliary drum and the motor-driven cylinder of conveyer are installed at the both ends of conveyer frame through conveyer auxiliary drum support and the motor-driven cylinder support of conveyer respectively, are connected through the conveyer belt between conveyer auxiliary drum and the motor-driven cylinder of conveyer, and the motor-driven cylinder of conveyer passes through the conveyer pulley pair and the hold-in range is connected with the conveyer motor, and the surface of conveyer belt is equipped with the conveyer belt arch, and the fixed surface of conveyer frame has the permanent magnet flat board.

As a further aspect of the present invention: the permanent magnet flat plate comprises permanent magnets and an iron substrate, and the permanent magnets are embedded in the iron substrate.

As a further aspect of the present invention: the auxiliary roller support of the conveyor is in sliding fit with the conveyor frame, the auxiliary roller support adjusting cylinder of the conveyor is further installed on the conveyor frame, and the output end of the auxiliary roller support adjusting cylinder of the conveyor is connected with the auxiliary roller support of the conveyor.

Compared with the prior art, the beneficial effects of the utility model are that: the mirror surface polishes equipment itself and has a plurality of degrees of freedom, and realization that can be convenient is adjusted, moreover, polishes and has a plurality of mirror surfaces on the production line and polish equipment, polishes the abrasive band of equipment through installing different fineness at every mirror surface, can realize the multichannel and grind the process, can reach the mirror surface effect, realizes practicing thrift the manual work, improves the product and grinds the quality, improves the purpose of product production efficiency to practice thrift product manufacturing cost, make the product more competitive on market.

Drawings

Figure 1 is a schematic view of a grinder.

Figure 2 is an exploded view (elevation) of a grinder.

Figure 3 is an exploded view (rear view) of a grinder.

Fig. 4 is a schematic view of a polishing line.

Fig. 5 is a schematic view showing the structure of a conveyor in a polishing line.

Fig. 6 is an exploded view of a conveyor in a finishing line.

Fig. 7 is a schematic view showing a structure of a permanent magnet plate in a polishing line.

Fig. 8 is a schematic view showing the structure of a conveyor belt in a polishing line.

In the figure: 1-a polishing mechanism, 2-a conveyor, 3-a protective cover, 4-a polishing machine main body frame, 5-a polishing machine moving frame, 6-a polishing machine frame, 7-a polishing machine grinding roller motor, 8-a polishing machine grinding roller bracket, 9-a polishing machine auxiliary grinding roller bracket, 10-a polishing machine auxiliary grinding roller bracket adjusting cylinder, 11-a polishing machine auxiliary grinding roller, 12-a polishing machine grinding roller, 13-a sand belt, 14-a hand wheel, 15-a polishing machine belt wheel pair, 16-a moving frame motor, 17-a permanent magnet, 18-an eccentric sheave, 19-an eccentric sheave sleeve, 20-a worm and worm wheel pair, 21-an eccentric sheave pin, 22-a hand wheel shaft, 23-a conveying belt, 24-a conveyor auxiliary roller bracket, 25-a conveyor auxiliary roller, 26-conveyor auxiliary roller bracket adjusting cylinder, 27-conveyor movable roller, 28-conveyor movable roller bracket, 29-conveyor motor, 30-conveyor belt pulley pair, 31-permanent magnet flat plate, 32-conveyor frame, 33-iron substrate, 34-conveyor belt protrusion and 35-workpiece.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

Example 1

Referring to fig. 1 to 3, in an embodiment of the present invention, a forging knife mirror polishing apparatus includes a polishing mechanism 1, a polishing machine main body frame 4, a polishing machine moving frame 5 and a polishing machine frame 6, wherein the polishing machine main body frame 4 is slidably fitted with the polishing machine moving frame 5 in a vertical direction, as is apparent from the figure, a rail in the vertical direction is formed on the polishing machine main body frame 4 to realize the fitting with the polishing machine moving frame 5, a worm-and-worm gear pair 20 is mounted on the polishing machine main body frame 4, the worm-and-worm gear pair 20 is driven by a hand wheel 14 disposed on the polishing machine main body frame 4 through a hand wheel shaft 22, a moving frame screw rod (not shown) forming a screw pair transmission with the worm-and-worm gear pair 20 is disposed inside a worm wheel, the moving frame screw rod is connected with the polishing machine moving frame 5, and when the worm-and-worm gear pair 20 is driven by the hand wheel 14, the polishing machine moving frame 5 can be, a polishing frame 6 is mounted on the polishing machine moving frame 5 and slidably engaged with the polishing machine moving frame in the horizontal direction, and as can be seen from the figure, a track (here, a dovetail groove) in the horizontal direction is formed on the polishing machine moving frame 5, and a polishing mechanism 1 is mounted on the polishing frame 6 and is used for polishing a workpiece 35.

Specifically, in order to realize the sliding fit of the polishing machine moving frame 5 and the polishing machine frame 6, a moving frame motor 16 is installed on the polishing machine moving frame 5, an eccentric grooved wheel 18 is installed at the output end of the moving frame motor 16, the eccentric grooved wheel 18 is matched with an eccentric grooved wheel sleeve 19, the eccentric grooved wheel sleeve 19 is matched with an eccentric grooved pin 21 installed on the polishing machine frame 6, and the relative movement of the polishing machine frame 6 and the polishing machine moving frame 5 can be realized through the matching of the eccentric grooved wheel 18 and the eccentric grooved wheel sleeve 19.

More specifically, the polishing mechanism 1 comprises a polishing machine grinding roller motor 7, a polishing machine grinding roller bracket 8, a polishing machine auxiliary grinding roller bracket 9, a polishing machine auxiliary grinding roller 11, a polishing machine grinding roller 12 and an abrasive belt 13, wherein the polishing machine grinding roller bracket 8 and the polishing machine auxiliary grinding roller bracket 9 are both arranged on a polishing machine frame 6, the polishing machine grinding roller bracket 8 and the polishing machine auxiliary grinding roller bracket 9 are respectively provided with the polishing machine grinding roller 12 and the polishing machine auxiliary grinding roller 11, the polishing machine grinding roller 12 and the polishing machine auxiliary grinding roller 11 are connected through the abrasive belt 13, the polishing machine grinding roller 12 is driven to rotate by the polishing machine grinding roller motor 7 through a polishing machine belt pulley pair 15 and a synchronous belt, when the grinder motor 7 is powered on, the grinder 12 rotates synchronously, and the abrasive belt 13 also drives the auxiliary grinder 11 to rotate, so that the rotating abrasive belt 13 can grind the workpiece 35.

Further, in order to ensure the tensioning of the abrasive belt 13, in the embodiment, the distance between the polisher secondary grinding roller 12 and the polisher secondary grinding roller 11 is set to be adjustable, specifically, the polisher secondary grinding roller bracket 9 is in sliding fit with the polisher secondary grinding roller bracket 8, as can be seen from the figure, a sliding groove (dovetail groove) in sliding fit with the polisher secondary grinding roller bracket 9 is arranged on the polisher secondary grinding roller bracket 8, a polisher secondary grinding roller bracket adjusting cylinder 10 is installed on the polisher secondary grinding roller bracket 8, the output end of the polisher secondary grinding roller bracket adjusting cylinder 10 is connected with the polisher secondary grinding roller bracket 9, and the extension and retraction of the piston of the polisher secondary grinding roller bracket adjusting cylinder 10 can push the polisher secondary grinding roller bracket 9 to move up and down.

The polishing machine auxiliary grinding roller adjusting cylinder 10 has the following functions: (1) facilitating the adjustment of the distance between the grinder motor grinding roller 12 and the grinder auxiliary grinding roller 11 when replacing the sanding belt 13; (2) when the abrasive belt 13 normally runs, the pressure of the cylinder 10 is adjusted by using the auxiliary grinding roller of the grinder, so that the abrasive belt 13 has constant supporting force, the problem that the abrasive belt 13 is lengthened due to long-term use of the abrasive belt 13, so that the slipping phenomenon occurs, and the grinding stability of the abrasive belt 13 is ensured.

Of course, in order to ensure safety in use, the grinder of embodiment 1 is externally provided with the protective cover 3, and is provided with an opening only at a position corresponding to the sanding belt 13, so as to facilitate the sanding of the workpiece 35.

Example 2

Referring to fig. 4 to 8, in an embodiment of the present invention, a forging knife mirror polishing production line is further provided, which includes a conveyor 2, and a plurality of mirror polishing apparatuses installed on the conveyor 2 as described in the above embodiments.

Specifically, the conveyor 2 comprises a conveyor belt 23, a conveyor auxiliary roller 25, a conveyor movable roller 27, a conveyor motor 29 and a conveyor frame 32, wherein the conveyor auxiliary roller 25 and the conveyor movable roller 27 are respectively mounted at two ends of the conveyor frame 32 through a conveyor auxiliary roller bracket 24 and a conveyor movable roller bracket 28, the conveyor auxiliary roller 25 and the conveyor movable roller 27 are connected through the conveyor belt 23, wherein the conveyor movable roller 27 is connected with the conveyor motor 29 through a conveyor pulley pair 30 and a synchronous belt, a conveyor belt protrusion 34 is arranged on the surface of the conveyor belt 23, the conveyor belt protrusion 34 is used for positioning a workpiece 35, it is only required to ensure that a surface to be polished of the workpiece 35 is horizontally upward, therefore, the shape of the conveyor belt protrusion 34 is determined by the workpiece 35, no specific limitation is made herein, a permanent magnet flat plate 31 is fixed on the surface of the conveyor frame 32, the magnetic force lines penetrate through the conveying belt 23 to tightly suck the workpiece 35 on the conveying belt 23, so that when the conveying belt 23 moves, the workpiece 35 also moves stably along with the conveying belt, and the workpiece 35 always keeps the upper surface of the workpiece 35 at a horizontal constant height under the supporting and blocking effects of the conveying belt protrusions 34 and is used for grinding the abrasive belt 13.

More specifically, the permanent magnet plate 31 includes a permanent magnet 17 and an iron base plate 33, and a plurality of permanent magnets 17 are embedded in the iron base plate 33.

More specifically, in order to facilitate the replacement of the conveyor belt 23 and maintain the tension of the conveyor belt 23, the conveyor secondary roller support 24 is slidably fitted to the conveyor frame 32, and the specific manner of the sliding fitting may be a sliding rail sliding groove type, or other manners, which are not limited herein, the conveyor frame 32 is further provided with a conveyor secondary roller support adjusting cylinder 26, the output end of the conveyor secondary roller support adjusting cylinder 26 is connected to the conveyor secondary roller support 24, the constant pressure of the gas in the conveyor secondary roller support adjusting cylinder 26 is utilized to push the piston to always prop against the conveyor secondary roller support 24 and outwardly support the conveyor secondary roller 25, so that the conveyor belt 23 always maintains a constant supporting force, the phenomenon that the conveyor belt 23 slips due to the increase in length caused by abrasion due to over-long use time can be overcome, another function of the conveyor secondary roller support adjusting cylinder 26 is to, when the conveyor belt 23 is replaced, the piston is retracted to move the conveyor sub-drum 25 toward the conveyor motorized drum 27 so that the conveyor belt 23 can be easily removed and loaded.

In practical application, an existing motor is started, a hand wheel 14 is rotated according to a workpiece 35, the heights of an abrasive belt 13 and the workpiece 35 are adjusted, one person puts the workpiece at one end of a conveying belt 23, one worker takes the workpiece at the other end of the conveying belt 23, the abrasive belt 13 grinds the upper surface of the workpiece 35 under the conditions of rotation and back and forth movement, and as one line is provided with a plurality of mirror surface polishing devices, the abrasive belt 13 of one mirror surface polishing device can use abrasive belts with different thicknesses, the principle of thickness first and thickness second is followed, coarse grinding, fine grinding and the like of the upper surface of the workpiece 35 can be realized, so that the purpose that one line is provided with a plurality of grinding processes, the labor is saved, the product grinding quality is improved, and the product production efficiency is improved, so that the product production cost is saved, and the product is more.

It should be particularly noted that, in the technical scheme, the mirror polishing device has multiple degrees of freedom, and can be conveniently adjusted, and the polishing production line has multiple mirror polishing devices, and multiple grinding processes can be realized by installing abrasive belts with different fineness on each mirror polishing device, so that the mirror effect can be achieved, the manpower can be saved, the product grinding quality can be improved, and the product production efficiency can be improved, thereby saving the production cost of the product and enabling the product to be more competitive in the market.

In addition, in order to simplify the technical scheme, it is easy to understand that the controller, the photoelectric switch, the power supply device, the voltage regulator and the like required in practical application are not disclosed, but those skilled in the art know or should know that the present embodiment needs to be used for the above devices in specific arrangement and application, and therefore, the completeness of the technical scheme is not affected.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (9)

1. The forging knife mirror surface polishing device comprises a polishing mechanism (1), a polishing machine main body frame (4), a polishing machine moving frame (5) and a polishing machine frame (6), and is characterized in that the polishing machine main body frame (4) is matched with the polishing machine moving frame (5) in a sliding mode in the vertical direction, a worm and worm gear pair (20) is installed on the polishing machine main body frame (4), the worm and worm gear pair (20) is driven by a hand wheel (14) arranged on the polishing machine main body frame (4) through a hand wheel shaft (22), a moving frame screw rod which forms spiral pair transmission with the worm and worm gear pair is arranged inside a worm wheel in the worm and worm gear pair (20), the moving frame screw rod is connected with the polishing machine moving frame (5), the polishing machine moving frame (5) is provided with the polishing machine frame (6) matched with the polishing machine moving frame in a sliding mode in the horizontal direction, and the polishing mechanism (1) is installed on the polishing machine frame (6).

2. The forging knife mirror polishing device according to claim 1, wherein the polishing machine moving frame (5) is provided with a moving frame motor (16), an output end of the moving frame motor (16) is provided with an eccentric sheave (18), the eccentric sheave (18) is matched with an eccentric sheave sleeve (19), and the eccentric sheave sleeve (19) is matched with an eccentric sheave pin (21) arranged on the polishing machine frame (6).

3. The forging-blade mirror-polishing apparatus according to claim 1 or 2, the polishing mechanism (1) comprises a polishing machine power grinding roller motor (7), a polishing machine power grinding roller support (8), a polishing machine auxiliary grinding roller support (9), a polishing machine auxiliary grinding roller (11), a polishing machine power grinding roller (12) and an abrasive belt (13), wherein the polishing machine power grinding roller support (8) and the polishing machine auxiliary grinding roller support (9) are both arranged on a polishing machine frame (6), the polishing machine power grinding roller support (8) and the polishing machine auxiliary grinding roller support (9) are respectively provided with the polishing machine power grinding roller (12) and the polishing machine auxiliary grinding roller (11), the polishing machine power grinding roller (12) and the polishing machine auxiliary grinding roller (11) are connected through the abrasive belt (13), and the polishing machine power grinding roller (12) is driven to rotate by the polishing machine power grinding roller motor (7) through a polishing machine belt pulley pair (15) and a synchronous belt.

4. A forging knife mirror polishing apparatus according to claim 3, wherein the grinder sub-grinding roller holder (9) is slidably fitted with the grinder motor-driven grinding roller holder (8), the grinder motor-driven grinding roller holder (8) is provided with a grinder sub-grinding roller holder adjusting cylinder (10), and an output end of the grinder sub-grinding roller holder adjusting cylinder (10) is connected with the grinder sub-grinding roller holder (9).

5. A mirror polishing production line of a forging knife, comprising a conveyor (2), and characterized by further comprising a plurality of mirror polishing devices installed on the conveyor (2) and according to any one of claims 1 to 4.

6. Forging knife mirror finishing line according to claim 5, characterized in that the grinder is externally mounted with a protective cover (3), the protective cover (3) being provided with openings at positions corresponding to the sanding belts (13).

7. The mirror finishing line for a forging knife according to claim 5, the conveyor (2) comprises a conveying belt (23), a conveyor auxiliary roller (25), a conveyor movable roller (27), a conveyor motor (29) and a conveyor frame (32), the roller pair conveyor is characterized in that the conveyor auxiliary roller (25) and the conveyor movable roller (27) are respectively arranged at two ends of a conveyor rack (32) through a conveyor auxiliary roller support (24) and a conveyor movable roller support (28), the conveyor auxiliary roller (25) and the conveyor movable roller (27) are connected through a conveying belt (23), the conveyor movable roller (27) is connected with a conveyor motor (29) through a conveyor belt pulley pair (30) and a synchronous belt, a conveying belt bulge (34) is arranged on the surface of the conveying belt (23), and a permanent magnet flat plate (31) is fixed on the surface of the conveyor rack (32).

8. The forging knife mirror polishing line according to claim 7, wherein the permanent magnet plate (31) comprises permanent magnets (17) and an iron base plate (33), and a plurality of permanent magnets (17) are embedded in and mounted on the iron base plate (33).

9. The forging knife mirror finishing production line according to claim 7 or 8, wherein the conveyor auxiliary roller bracket (24) is in sliding fit with a conveyor frame (32), a conveyor auxiliary roller bracket adjusting cylinder (26) is further mounted on the conveyor frame (32), and the output end of the conveyor auxiliary roller bracket adjusting cylinder (26) is connected with the conveyor auxiliary roller bracket (24).