CN108312001B - Multilayer independent hammer handle processing and polishing equipment - Google Patents

Abstract

The invention relates to the technical field of hammer processing, in particular to double-profiling hammer handle processing and polishing equipment.

Description

Multilayer independent hammer handle processing and polishing equipment

Technical Field

The invention relates to the technical field of hammer processing, in particular to a multilayer independent hammer handle processing and polishing device.

Background

A hammer is a tool that strikes an object to move or deform it. Most commonly used for nailing, straightening or knocking out objects.

Hammers come in a variety of forms, the common form being a handle and a top. One side of the top is flat for striking and the other side is a hammer head. The hammer is a main striking tool and comprises a hammer head and a hammer handle, and the hammer is divided into a derusting hammer, a nipple hammer, a machine, a claw hammer, a test hammer, a flat tail test hammer, an octagonal hammer, a German octagonal hammer, a claw hammer and the like according to functions.

At present, the hammer handle is mainly turned manually, operation and machining are greatly required to be carried out by the experience of a master worker, machining and cutting are not accurate, the cutting workload is large, the efficiency is extremely low, and the production efficiency is greatly influenced.

Disclosure of Invention

In order to overcome the defects, the invention aims to provide a double-profiling hammer handle processing and polishing device, materials on the double-profiling hammer handle enter through a discharging mechanism, a clamping mechanism is pushed by a feeding mechanism and then is clamped by the clamping mechanism, so that the materials are pushed to the processing mechanism for processing, polishing and polishing, and after the processing and polishing are finished, the materials fall to a discharging position for guiding and conveying.

The technical scheme for solving the technical problem is as follows: a multilayer independent hammer handle processing and polishing device is characterized by comprising a rack and multilayer independent processing devices arranged on the rack, wherein the independent processing devices on each layer are different but do not influence each other; the independent processing equipment comprises a feeding mechanism, a clamping mechanism, a processing mechanism and a control electronic box which are arranged on the rack; the feeding mechanism, the clamping mechanism and the processing mechanism are respectively electrically connected with the control electric box and sequentially and longitudinally arranged on the upper surface of each layer of the rack; the feeding mechanism is connected with the rack in a sliding mode through a feeding guide rail, the clamping mechanism is arranged on the mounting plate and is connected with the rack in a sliding mode through a profiling slide rail, and the machining mechanism is connected with the rack in a sliding mode through a machining guide rail;

the feeding mechanism comprises a blanking device and a feeding device; the feeding device comprises a feeding plate, one end of the feeding plate is fixedly connected with a feeding cylinder, the feeding cylinder is electrically connected with the control electric box, a supporting plate is fixedly arranged at the lower part of the other end of the feeding plate, the other end of the supporting plate is hinged with a baffle, the baffle and the supporting plate form an included angle of 90 degrees, a reset torsion spring is arranged at the hinged position, and the feeding plate, the supporting plate and the baffle jointly enclose an accommodating cavity for feeding; the blanking device is located above the containing cavity, the hammer handle to be processed is located in the blanking device, and the width of the containing cavity is slightly larger than the diameter of the hammer handle to be processed.

As an improvement, the clamping mechanism is positioned in front of the accommodating cavity and comprises sleeves arranged at two sides of a processing position, a through hole is formed in the middle of each sleeve, and a clamping cylinder is fixedly connected to one side, close to the outer side, of each sleeve; centre gripping cylinder and control electronic box electric connection, the sleeve leans on interior one side to be provided with the correction guide hole, it becomes the round platform shape to rectify the guide hole, rectify the guide hole and lean on outer one side diameter to be greater than and lean on interior one side, rectify the guide hole with the through-hole is coaxial, rectify the guide hole and lean on outer one side diameter slightly to be greater than and wait to process hammer handle diameter, rectify the guide hole and lean on interior one side diameter slightly to be less than and wait to process hammer handle diameter.

Furthermore, the blanking device comprises a blanking groove, the height of the blanking groove is slightly larger than the diameter of the hammer handle to be processed, and the width of the blanking groove is slightly larger than the length of the hammer handle to be processed; the blanking device comprises a blanking groove, a feeding plate and a material guide guardrail, wherein the blanking groove and the feeding plate form an angle of 30-45 degrees, the lower end of the blanking groove is flush with the end surface of the feeding plate, the material guide guardrail is arranged above the blanking groove, and the distance between the material guide guardrail and the bottom of the blanking groove is slightly larger than the diameter of a hammer handle to be processed; the distance between the material guide guardrail and the upper end of the blanking groove is slightly larger than the distance between the material guide guardrail and the lower end of the blanking groove; the tail end of the material guide guardrail is of an arc-shaped structure bent downwards, and the tail end of the arc-shaped structure is located above the baffle.

As an improvement, the processing mechanism comprises a profiling module and a processing device; the profiling component is used for providing model support for the hammer handle to be processed, and the processing mechanism is used for processing the shape of the hammer handle to be processed according to the model and polishing and grinding the shape.

Further, wherein the profiling component comprises a profiling roller arranged on the mounting plate, a profiling model fixedly arranged on the frame and corresponding to the profiling roller, and a profiling cylinder with one end fixedly connected with the mounting plate and the other end fixedly connected with the frame, wherein the profiling cylinder is electrically connected with the control electric box.

Further, the master model includes a ring model and a line model.

As a further improvement, the device also comprises an annular model profiling roller matched with the annular model and a linear model roller matched with the linear model; the annular model profiling roller comprises a first supporting piece fixedly arranged on the mounting plate and a first roller which is rotatably arranged on the first supporting piece; the linear model profiling roller comprises a second supporting piece fixedly arranged on the mounting plate and a second roller which is rotatably arranged on the second supporting piece.

As an improvement, the annular model comprises a third supporting piece fixedly arranged on the surface of the rack, a third roller is rotatably arranged at the tail end of the third supporting piece, an annular explorator is detachably arranged on the outer edge of the third roller, and the annular model further comprises a speed reduction motor for driving the third roller to rotate.

Furthermore, the linear model comprises two fourth supporting pieces fixedly arranged on the surface of the rack, and a linear explorator is detachably arranged between the two fourth supporting pieces.

Further, the processing device comprises a processing motor and a rotating shaft, the processing motor and the rotating shaft are in transmission through a gear or a belt, a processing cutter and a polishing device are fixedly arranged on the rotating shaft, and the polishing device is positioned behind the processing cutter; the machining mechanism further comprises a machining air cylinder, one end of the machining air cylinder is fixedly connected with the rack, the other end of the machining air cylinder drives the machining cutter and the grinding device to move forwards, and the hammer handle to be machined is cut and polished.

According to the double-profile-die hammer handle processing and polishing equipment, feeding, clamping, processing and polishing are controlled in a unified mode through the control electronic box, the feeding device automatically feeds materials to the feeding device under the action of gravity, the materials are automatically fed, clamped and corrected, the hammer handle to be processed is conveyed to the processing cutter through the profile-die air cylinder for processing, the processing distance or depth is limited through the profile die, the grinding device which coaxially rotates after cutting processing is finished immediately grinds, manual operation is not needed in the whole process, the processing efficiency is greatly improved, the labor cost is saved, the processing precision is accurate and consistent, and the double-profile-die hammer handle processing and polishing equipment is suitable for large-scale popularization and use.

Drawings

For ease of illustration, the present invention is described in detail by the following preferred embodiments and the accompanying drawings.

FIG. 1 is a left side view of a multi-layer independent hammer shank machining and polishing apparatus of the present invention;

FIG. 2 is a top view of a multi-layer independent hammer shank machining and polishing apparatus of the present invention;

FIG. 3 is a perspective view of an angle of a multi-layer independent hammer shank processing and polishing apparatus of the present invention;

FIG. 4 is a schematic view of another angle structure of the multi-layer independent hammer shank processing and polishing apparatus according to the present invention;

FIG. 5 is a schematic view of another angle structure of the multi-layer independent hammer shank processing and polishing apparatus according to the present invention;

FIG. 6 is a schematic drawing of a rectilinear model shape according to the present invention;

fig. 7 is a schematic structural view of the toroidal model of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present 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 should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; 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.

As shown in fig. 1-7, the multi-layer independent hammer handle processing and polishing device of the present invention is characterized by comprising a frame 15 and a plurality of layers of independent processing devices arranged on the frame, wherein the independent processing devices of each layer are different but not mutually influenced; the independent processing equipment comprises a feeding mechanism, a clamping mechanism, a processing mechanism and a control electronic box which are arranged on the rack 15; the feeding mechanism, the clamping mechanism and the processing mechanism are respectively electrically connected with the control electric box and sequentially and longitudinally arranged on the upper surface of each layer of the rack 15; the feeding mechanism is connected with the rack 15 in a sliding mode through a feeding guide rail 6, the clamping mechanism is arranged on the mounting plate 28 and is connected with the rack 15 in a sliding mode through a profiling guide rail 29, and the machining mechanism is connected with the rack 15 in a sliding mode through a machining guide rail 32;

the feeding mechanism comprises a blanking device and a feeding device; the feeding device comprises a feeding plate 1, one end of the feeding plate 1 is fixedly connected with a feeding cylinder 5, a supporting plate is fixedly arranged at the lower part of the other end of the feeding plate 1, a baffle 2 is hinged to the other end of the supporting plate, the baffle 2 and the supporting plate form an included angle of 90 degrees, a reset torsion spring 10 is arranged at the hinged position, and the feeding plate 1, the supporting plate and the baffle 2 jointly enclose a containing cavity for feeding; the blanking device is located above the containing cavity, the hammer handle to be processed is located in the blanking device, and the clamping device is located in front of the containing cavity. The feeding plate is connected with the rack in a sliding mode through a feeding guide rail 6, and the feeding air cylinder 5 is fixedly connected with the rack.

Further, the width of the accommodating cavity is slightly larger than the diameter of the hammer handle to be processed. As a preferred mode of the present invention, a discharge chute 7 is further disposed below the position to be processed, a plurality of through holes are uniformly arranged on the discharge chute 7, the discharge chute 7 is disposed in an inclined manner, and an upper end of the discharge chute 7 is close to the position to be processed.

Furthermore, the blanking device comprises a blanking groove 3, the height of the blanking groove 3 is slightly larger than the diameter of the hammer handle to be processed, and the width of the blanking groove 3 is slightly larger than the length of the hammer handle to be processed.

As an improvement, the blanking groove 3 and the feeding plate 1 form an angle of 30-45 degrees, and the lower end of the blanking groove 3 is flush with the end face of the feeding plate 1.

Specifically, unloader still includes guide guardrail 4, guide guardrail 4 sets up the top of feed chute 3, the distance of guide guardrail 4 and 3 bottoms of feed chute slightly is greater than the diameter of waiting to process the hammer handle.

As an improvement, the distance between the material guide guardrail 4 and the upper end of the feed chute 3 is slightly larger than the distance between the material guide guardrail and the lower end of the feed chute 3.

As a further improvement, the tail end of the material guiding guardrail 4 is in a downward bent arc structure, and the tail end of the arc structure is positioned above the baffle 2.

Further, clamping device is including setting up sleeve 9 on processing position both sides, sleeve 9 middle through-hole 8 has, sleeve 9 leans on outer one side fixedly connected with centre gripping cylinder 13. The clamping device is connected with the frame through a clamping guide rail 12, and the clamping cylinder 13 is fixedly connected with the frame.

Furthermore, the sleeve 9 is provided with a correction guide hole 14 on one side close to the inside, the correction guide hole 14 is in a circular truncated cone shape, the diameter of the outer side of the correction guide hole 14 is larger than that of the inner side, the correction guide hole 14 is coaxial with the through hole 8, the diameter of the outer side of the correction guide hole 14 is slightly larger than that of the hammer handle to be processed, and the diameter of the inner side of the correction guide hole 14 is slightly smaller than that of the hammer handle to be processed.

The processing mechanism comprises a profiling module and a processing device; the profiling component is used for providing model support for the hammer handle to be processed, and the processing mechanism is used for processing the shape of the hammer handle to be processed according to the model and polishing and grinding the shape.

Further, the profiling assembly comprises a profiling roller arranged on the mounting plate 28, a profiling model fixedly arranged on the frame 15 and corresponding to the profiling roller, and a profiling cylinder 27 with one end fixedly connected with the mounting plate 28 and the other end fixedly connected with the frame 15, wherein the profiling cylinder 27 is electrically connected with the control electronic box.

As a refinement, the master model includes a ring model 25 and a line model 22.

Further, the device also comprises an annular model profiling roller matched with the annular model 25 and a linear model roller matched with the linear model 22; the ring-shaped model explorator roller comprises a first supporting piece 30 fixedly arranged on the mounting plate 28 and a first roller 26 rotatably arranged on the first supporting piece 30; the master roller of the rectilinear model 22 includes a second support 35 fixedly provided on the mounting plate 28 and a second roller 24 rotatably provided on the second support 35.

Furthermore, the ring model 25 includes a third supporting member 30 fixedly disposed on the surface of the frame 15, a third roller 34 rotatably disposed at the end of the third supporting member 31, a ring-shaped profile 33 detachably disposed at the outer edge of the third roller 34, and a speed reduction motor for driving the third roller 34 to rotate.

Further, the rectilinear model 22 comprises two fourth supporting members 21 fixedly arranged on the surface of the frame 15, and a rectilinear profile 22 is detachably arranged between the two fourth supporting members 21.

Furthermore, the processing device comprises a processing motor 16 and a rotating shaft 18, the processing motor 16 and the rotating shaft 18 are in transmission through a gear or a belt, a processing cutter 20 and a polishing device 19 are fixedly arranged on the rotating shaft 18, and the polishing device 19 is positioned behind the processing cutter 20; the machining mechanism further comprises a machining air cylinder 17, one end of the machining air cylinder 17 is fixedly connected with the rack 15, and the other end of the machining air cylinder drives the machining cutter 20 and the grinding device 19 to move forwards to cut and polish the hammer handle to be machined.

The specific working process is as follows:

unloading, at first the manual work will wait to process the hammer handle and go up the feed chute one by one in, because feed chute and delivery sheet are close to, consequently the hammer handle in the feed chute can not fall down, contracts when the pay-off cylinder and contracts, and the delivery sheet contracts thereupon, holds the below that the chamber removed the feed chute, owing to lack stopping of delivery sheet, the hammer handle of waiting to process in the feed chute can fall into along with the guide of guide guardrail and hold the chamber. And then the electric box is controlled to drive the feeding air cylinder to push forwards, and the hammer handle to be processed in the accommodating cavity is conveyed to a position to be processed.

The centre gripping, control electronic box drive die clamping cylinder promotes forward after reaching and taking the processing position, and the sleeve draws close from both sides, presss from both sides tightly the hammer handle and fixes a position to because the design has the correction guide hole on the sleeve, the hammer handle can be guided into preset position and fixed under the effect of the extrusion force.

Processing and polishing, control electronic box drive profiling cylinder, the profiling cylinder is marchd forward, and until the profiling gyro wheel withstands the profiling and no longer marchd forward, under the processing motor drive this moment, the pivot is rotatory to be driven and is processed cutter and grinding device rotatory, and control electronic box control processing cylinder is marchd forward, and the processing cutter is processed and is polished hammer handle according to the profiling shape. The two different profiling models, namely the annular model and the linear model, are detachable, the corresponding profiling model can be selected according to specific conditions for processing, when the linear model is selected, the linear model is well installed, the annular profiling is vacant, the roller of the linear model abuts against the linear profiling, the distance exists between the roller of the annular model and the first roller, and a processing tool can process according to the linear profiling. On the contrary, the annular model is the same principle, so that the switching between different explorators can be realized, and the method is convenient and practical.

After the processing is finished, the electric box is controlled to drive the feeding cylinder to retract again, due to the design of the torsion spring and the baffle, resistance is formed on the baffle by the hammer handle clamped and fixed by the sleeve in the retraction process, and the baffle is hinged with the supporting plate, so that the baffle rotates along a hinged point under the resistance until the baffle is parallel, the hammer handle to be processed is released from the accommodating cavity, after the hammer handle is separated, due to the elasticity of the reset torsion spring, the baffle can be restored to the vertical state of the supporting plate again, the accommodating cavity is formed and then is moved to the position below the discharging groove, and the next feeding and processing are carried out.

According to the double-profile-die hammer handle processing and polishing equipment, feeding, clamping, processing and polishing are controlled in a unified mode through the control electronic box, the feeding device automatically feeds materials to the feeding device under the action of gravity, the materials are automatically fed, clamped and corrected, the hammer handle to be processed is conveyed to the processing cutter through the profile-die air cylinder for processing, the processing distance or depth is limited through the profile die, the grinding device which coaxially rotates after cutting processing is finished immediately grinds, manual operation is not needed in the whole process, the processing efficiency is greatly improved, the labor cost is saved, the processing precision is accurate and consistent, and the double-profile-die hammer handle processing and polishing equipment is suitable for large-scale popularization and use.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (4)

1. A multilayer independent hammer handle processing and polishing device is characterized by comprising a rack and multilayer independent processing devices arranged on the rack, wherein the independent processing devices on each layer are different but do not influence each other; the independent processing equipment comprises a feeding mechanism, a clamping mechanism, a processing mechanism and a control electronic box which are arranged on the rack; the feeding mechanism, the clamping mechanism and the processing mechanism are respectively electrically connected with the control electric box and sequentially and longitudinally arranged on the upper surface of each layer of the rack; the feeding mechanism is connected with the rack in a sliding mode through a feeding guide rail, the clamping mechanism is arranged on the mounting plate and is connected with the rack in a sliding mode through a profiling slide rail, and the machining mechanism is connected with the rack in a sliding mode through a machining guide rail;

the feeding mechanism comprises a blanking device and a feeding device; the feeding device comprises a feeding plate, one end of the feeding plate is fixedly connected with a feeding cylinder, the feeding cylinder is electrically connected with the control electric box, a supporting plate is fixedly arranged at the lower part of the other end of the feeding plate, the other end of the supporting plate is hinged with a baffle, the baffle and the supporting plate form an included angle of 90 degrees, a reset torsion spring is arranged at the hinged position, and the feeding plate, the supporting plate and the baffle jointly enclose an accommodating cavity for feeding; the blanking device is positioned above the containing cavity, the hammer handle to be processed is positioned in the blanking device, and the width of the containing cavity is slightly larger than the diameter of the hammer handle to be processed;

the processing mechanism comprises a profiling module and a processing device; the profiling assembly is used for providing model support for the hammer handle to be processed, and the processing mechanism is used for processing the shape of the hammer handle to be processed according to the model and polishing;

the profiling assembly comprises a profiling roller arranged on the mounting plate, a profiling model fixedly arranged on the rack and corresponding to the profiling roller, and a profiling cylinder, one end of the profiling cylinder is fixedly connected with the mounting plate, and the other end of the profiling cylinder is fixedly connected with the rack;

the profiling model comprises an annular model and a linear model; the device also comprises an annular model profiling roller matched and corresponding to the annular model and a linear model profiling roller matched and corresponding to the linear model; the annular model profiling roller comprises a first supporting piece fixedly arranged on the mounting plate and a first roller which is rotatably arranged on the first supporting piece; the linear model profiling roller comprises a second supporting piece fixedly arranged on the mounting plate and a second roller which is rotatably arranged on the second supporting piece;

the annular model comprises a third supporting piece fixedly arranged on the surface of the rack, a third roller is rotatably arranged at the tail end of the third supporting piece, an annular explorator is detachably arranged on the outer edge of the third roller, and the annular model further comprises a speed reducing motor for driving the third roller to rotate;

the linear model comprises two fourth supporting pieces fixedly arranged on the surface of the rack, and a linear explorator is detachably arranged between the two fourth supporting pieces.

2. The multi-layer independent hammer shank machining and polishing device as claimed in claim 1, wherein the clamping mechanism is located in front of the accommodating cavity, the clamping mechanism comprises sleeves arranged at two sides of a machining position, a through hole is formed in the middle of each sleeve, and a clamping cylinder is fixedly connected to one outer side of each sleeve; centre gripping cylinder and control electronic box electric connection, the sleeve leans on interior one side to be provided with the correction guide hole, it becomes the round platform shape to rectify the guide hole, rectify the guide hole and lean on outer one side diameter to be greater than and lean on interior one side, rectify the guide hole with the through-hole is coaxial, rectify the guide hole and lean on outer one side diameter slightly to be greater than and wait to process hammer handle diameter, rectify the guide hole and lean on interior one side diameter slightly to be less than and wait to process hammer handle diameter.

3. The multi-layer independent hammer shank machining and polishing apparatus of claim 2, wherein the blanking device comprises a blanking channel having a height slightly greater than a diameter of the hammer shank to be machined and a width slightly greater than a length of the hammer shank to be machined; the blanking device comprises a blanking groove, a feeding plate and a material guide guardrail, wherein the blanking groove and the feeding plate form an angle of 30-45 degrees, the lower end of the blanking groove is flush with the end surface of the feeding plate, the material guide guardrail is arranged above the blanking groove, and the distance between the material guide guardrail and the bottom of the blanking groove is slightly larger than the diameter of a hammer handle to be processed; the distance between the material guide guardrail and the upper end of the blanking groove is slightly larger than the distance between the material guide guardrail and the lower end of the blanking groove; the tail end of the material guide guardrail is of an arc-shaped structure bent downwards, and the tail end of the arc-shaped structure is located above the baffle.

4. The multi-layer independent hammer handle machining and polishing device as claimed in claim 1, wherein the machining mechanism comprises a machining motor and a rotating shaft, the machining motor and the rotating shaft are driven by a gear or a belt, a machining cutter and a polishing device are fixedly arranged on the rotating shaft, and the polishing device is positioned behind the machining cutter; the machining mechanism further comprises a machining air cylinder, one end of the machining air cylinder is fixedly connected with the rack, the other end of the machining air cylinder drives the machining cutter and the grinding device to move forwards, and the hammer handle to be machined is cut and polished.

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