CN219617346U

CN219617346U - Polishing device for metal power rod piece

Info

Publication number: CN219617346U
Application number: CN202320738820.5U
Authority: CN
Inventors: 胡哲玮
Original assignee: Ningbo Global Power Transmission Equipment Co ltd
Current assignee: Ningbo Global Power Transmission Equipment Co ltd
Priority date: 2023-04-06
Filing date: 2023-04-06
Publication date: 2023-09-01
Anticipated expiration: 2033-04-06

Abstract

The utility model relates to a polishing device for a metal power rod piece, which comprises a bottom plate and a main body arranged on the bottom plate, wherein the main body comprises a door-shaped frame fixed at the top of the bottom plate, two symmetrically arranged feeding cylinders respectively fixed at the left side and the right side of the door-shaped frame, two polishing motors respectively fixed at the telescopic ends of the two feeding cylinders and positioned in the door-shaped frame, and two polishing heads respectively concentrically fixed on the rotating shafts of the two polishing motors; the main body further comprises a supporting block fixed on the top of the bottom plate and positioned below the door-shaped frame, a compression cylinder fixed on the top of the door-shaped frame, a traction block transversely arranged above the supporting block and positioned below the top of the door-shaped frame, a pressing block transversely fixed on the bottom of the traction block, and a first seat block fixed on the top of the supporting block; the utility model greatly simplifies the operation steps to achieve the effect of time and labor saving, thereby improving the processing efficiency and reducing the labor intensity.

Description

Polishing device for metal power rod piece

Technical Field

The utility model relates to a polishing device for a metal power rod piece.

Background

The power grid, electric equipment, a generator, a transformer and the like in the power system are called power equipment, the power equipment mainly comprises two major types of power generation equipment and power supply equipment, the power generation equipment mainly comprises a power station boiler, a steam turbine, a gas turbine, a water turbine, a generator, a transformer and the like, and the power supply equipment mainly comprises power transmission lines, transformers, contactors and the like with various voltage levels; in the electric power equipment, more or less metal rods with supporting, protecting or conducting functions are needed, and the production of the metal rods needs a plurality of processing procedures, wherein the polishing of the two ends of the metal rods is carried out; at present, polishing of two ends of a metal rod piece can be finished by means of a handheld polishing machine, but before each polishing, the metal rod piece must be manually installed on a matched clamp by an operator, and after polishing is finished, the metal rod piece is manually taken out, namely, automatic feeding and discharging cannot be performed, so that the operation steps are complex, time and labor are wasted, the machining efficiency is low, the labor intensity is high, and further improvement is needed.

Disclosure of Invention

Aiming at the current state of the art, the technical problem to be solved by the utility model is to provide the polishing device for the metal power rod piece, which greatly simplifies the operation steps to achieve the effect of time and labor saving, thereby improving the processing efficiency and reducing the labor intensity.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a grinding device of metal electric power member, includes the bottom plate and locates the main part on the bottom plate, and the main part includes the door type frame that fixes at the bottom plate top, two respectively fix in the left and right sides of door type frame and symmetry set up feed cylinder, two respectively fix in two feed cylinder flexible ends and all be located the inside grinding motor of door type frame, and two respectively concentric fixed in two grinding motor axis of rotation grinding head, two flexible ends of feed cylinder and two grinding motor axis of rotation all transversely set up, characterized in that, the main part still includes the supporting shoe that is fixed at the bottom plate top and is located door type frame below, fixes the compression cylinder at door type frame top, transversely locates the supporting shoe top and is located the traction block below the door type frame top, transversely fix in the briquetting of traction block bottom, fix in the first seat piece at the supporting shoe top, and two fix in the supporting shoe top and locate the second seat piece of first seat piece left and right sides respectively symmetry; the telescopic ends of the compression cylinders vertically penetrate through the top of the door-shaped frame downwards and are fixed on the traction blocks, a hidden groove is formed between the two second seat blocks and the first seat block, first arc-shaped grooves which are transversely distributed are formed in the bottoms of the pressing blocks, second arc-shaped grooves which are transversely distributed are formed in the tops of the first seat blocks, third arc-shaped grooves which are transversely distributed are formed in the tops of the two second seat blocks, the two third arc-shaped grooves are concentrically arranged with the second arc-shaped grooves, and the second arc-shaped grooves and the two third arc-shaped grooves are all arranged under the first arc-shaped grooves; the feeding assembly comprises a feed bin arranged behind a supporting block and a conversion mechanism arranged between the feed bin and the supporting block, wherein the feed bin comprises a first supporting frame fixed at the top of a bottom plate, a feed plate obliquely fixed at the top of the first supporting frame and arranged at the front lower part and the rear higher part, and two first side baffles obliquely fixed on the first supporting frame at the front lower part and the rear higher part and respectively symmetrically arranged at the left side and the right side of the feed plate, and the conversion mechanism comprises a transfer block transversely fixed at the rear sides of the first seat block and the two second seat blocks, a conversion cylinder fixed at the rear sides of the bottom of the supporting block, a lifting block transversely fixed at the telescopic end of the conversion cylinder, at least two first lifting blocks fixed at the top of the lifting block and sequentially arranged at the front side edge of the feed plate in a penetrating way from left to right and respectively arranged at the rear of the transfer block, and two second lifting blocks respectively movably arranged in two hiding grooves and respectively fixed on the lifting blocks; the telescopic end of the conversion cylinder is vertically upwards arranged, a first inclined plane which is arranged in a front low mode and a rear high mode is formed at the top of the conversion block, a second inclined plane which is arranged in a front low mode and a rear high mode is formed at the top of each first lifting block, a third inclined plane which is arranged in a front low mode and a rear high mode is formed at the top of each second lifting block, and the front side edge of the feeding plate is lower than the first inclined plane.

Preferably, the top rear side of first support frame still is fixed with the backplate of vertical setting, two still be fixed with the preceding baffle of vertical setting between the top of first side baffle, every still all be fixed with two stay on the outer wall of first side baffle at least, every the stay is all located between preceding baffle and the backplate, still be equipped with the baffle box of two upper and lower distributions between preceding baffle and the backplate, every the left side of baffle box is all fixed on every stay of left side, every the right side of baffle box is all fixed on every stay of right side.

Preferably, the upper one the baffle box front-low back-high setting, the upper one the trailing edge laminating of baffle box is on the front side outer wall of backplate, and the upper one the leading edge of baffle box is at a distance with the preceding baffle, and the lower one the baffle box front-high back-low setting, the lower one the trailing edge of baffle box is at a distance with the backplate, the upper one the leading edge laminating of baffle box is on the trailing side outer wall of preceding baffle.

Preferably, the place ahead of supporting shoe still is equipped with the second support frame, the top at the bottom plate is fixed to the second support frame, the top of second support frame still is fixed with the discharge plate that low back set up before, the rear side edge of discharge plate all mutually support with the top of first seat piece and two second seat pieces, still be fixed with the second side shield that low back set up before two on the second support frame, two the second side shield symmetry respectively locates the left and right sides of discharge plate.

Preferably, at least two first open slots are formed in the front side edge of the feeding plate, the number of the first open slots is equal to that of the first lifting blocks, and each first open slot is arranged above a corresponding first lifting block.

Preferably, two second open slots are formed in the rear side edge of the discharging plate, and the two second open slots are respectively arranged above the two second lifting blocks.

Preferably, the top of the door-shaped frame is also provided with two guide posts which are vertically distributed in a penetrating way, and the lower ends of the two guide posts are fixed on the traction block.

Preferably, the front side of the first supporting frame is also fixed with an inclined supporting frame, and the bottom front side of the feeding plate is fixed at the top of the inclined supporting frame.

Compared with the prior art, the utility model has the advantages that: the utility model can automatically complete feeding, positioning, polishing and discharging of the metal rod, and no intervention of operators is needed in the whole process except that the metal rod is put on the material rack, so that the operation steps are greatly simplified to achieve the effects of time and labor saving, thereby improving the processing efficiency and reducing the labor intensity.

Drawings

FIG. 1 is a left front side block diagram of the present utility model;

FIG. 2 is a right rear side block diagram of the present utility model;

fig. 3 is a right rear side structural view of the feed assembly of the present utility model.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model belongs. The terms "first," "second," and the like, as used herein, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

In order to keep the following description of the embodiments of the present utility model clear and concise, the detailed description of known functions and known components thereof have been omitted.

As shown in fig. 1 to 3, a polishing device for a metal power rod comprises a bottom plate 1 and a main body 2 arranged on the bottom plate 1, wherein the main body 2 comprises a door-shaped frame 21 fixed at the top of the bottom plate 1, two symmetrically arranged feeding air cylinders 22 respectively fixed at the left side and the right side of the door-shaped frame 21, two polishing motors 29 respectively fixed at the telescopic ends of the two feeding air cylinders 22 and positioned in the door-shaped frame 21, and two polishing heads 23 respectively concentrically fixed on the rotating shafts of the two polishing motors 29, and the telescopic ends of the two feeding air cylinders 22 and the rotating shafts of the two polishing motors 29 are transversely arranged; the main body 2 further comprises a supporting block 27 fixed on the top of the bottom plate 1 and positioned below the door frame 21, a compression cylinder 24 fixed on the top of the door frame 21, a traction block 25 transversely arranged above the supporting block 27 and positioned below the top of the door frame 21, a pressing block 26 transversely fixed on the bottom of the traction block 25, a first seat block 29 fixed on the top of the supporting block 27, and two second seat blocks 210 fixed on the top of the supporting block 27 and symmetrically arranged on the left side and the right side of the first seat block 29 respectively; the telescopic ends of the compression cylinders 24 vertically penetrate through the top of the door-shaped frame 21 downwards and are fixed on the traction block 25, a hidden groove 211 is formed between the two second seat blocks 210 and the first seat block 29, a first arc-shaped groove 261 which is transversely distributed is formed at the bottom of the pressing block 26, a second arc-shaped groove 291 which is transversely distributed is formed at the top of the first seat block 29, a third arc-shaped groove 2101 which is transversely distributed is formed at the top of the two second seat blocks 210, the two third arc-shaped grooves 2101 are arranged concentrically with the second arc-shaped groove 291, and the second arc-shaped groove 291 and the two third arc-shaped grooves 2101 are arranged right below the first arc-shaped groove 261; the feeding assembly 3 further comprises a feeding assembly 3, wherein the feeding assembly 3 comprises a feed bin arranged behind the supporting block 27 and a conversion mechanism arranged between the feed rack and the supporting block 27, the feed bin comprises a first supporting frame 31 fixed at the top of the bottom plate 1, a feeding plate 32 obliquely fixed at the top of the first supporting frame 31 and arranged at the front lower part and the rear higher part, two first side baffles 33 obliquely fixed on the first supporting frame 31 and respectively symmetrically arranged at the left side and the right side of the feeding plate 32, and the conversion mechanism comprises a transfer block 38 transversely fixed at the rear sides of the first seat block 29 and the two second seat blocks 210, a conversion cylinder 34 fixed at the bottom rear side of the supporting block 27, a lifting block 35 transversely fixed at the telescopic end of the conversion cylinder 34, at least two first lifting blocks 36 fixed at the top of the lifting block 35 and sequentially movably inserted at the front side edge of the feeding plate 32 from left to right and respectively arranged at the rear side of the transfer block 38, and two second lifting blocks 37 respectively movably arranged in the two hiding grooves 211 and respectively fixed on the lifting block 35; the telescopic ends of the conversion cylinders 34 are vertically arranged upwards, the top of the conversion block 38 is provided with a first inclined surface 381 with a lower front and a higher rear, the top of each first lifting block 36 is provided with a second inclined surface 361 with a lower front and a higher rear, the top of each second lifting block 37 is provided with a third inclined surface 371 with a lower front and a higher rear, and the front side edge of the feeding plate 32 is lower than the first inclined surface 381.

The top rear side of first support frame 31 still is fixed with the backplate 39 of vertical setting, still be fixed with the preceding baffle 310 of vertical setting between the top of two first side baffles 33, still all be fixed with two stay 311 at least on the outer wall of every first side baffle 33, between preceding baffle 310 and backplate 39 all are located to every stay 311, still be equipped with the baffle box 312 of two upper and lower distributions between preceding baffle 310 and the backplate 39, the left side of every baffle box 312 is all fixed on every stay 311 of left side, the right side of every baffle box 312 is all fixed on every stay 311 of right side.

The upper one of the guide grooves 312 is arranged at a front low and a rear high, the rear side edge of the upper one of the guide grooves 312 is attached to the front outer wall of the rear baffle plate 39, the front side edge of the upper one of the guide grooves 312 is spaced a certain distance from the front baffle plate 310, the lower one of the guide grooves 312 is arranged at a front high and a rear low, the rear side edge of the lower one of the guide grooves 312 is spaced a certain distance from the rear baffle plate 39, and the front side edge of the upper one of the guide grooves 312 is attached to the rear outer wall of the front baffle plate 310.

The place ahead of supporting shoe 27 still is equipped with second support frame 4, and second support frame 4 is fixed at the top of bottom plate 1, and the top of second support frame 4 still is fixed with the high ejection of compact board 5 that sets up in front and back, and the rear side edge of ejection of compact board 5 all mutually support with the top of first seat piece 29 and two second seat pieces 210, still is fixed with the second side shield 6 that two front and back were high to set up on the second support frame 4, and the left and right sides of ejection of compact board 5 is located respectively to two second side shields 6 symmetry.

At least two first open grooves 321 are formed in the front side edge of the feeding plate 32, the number of the first open grooves 321 is equal to that of the first lifting blocks 36, and each first open groove 321 is arranged above a corresponding first lifting block 36.

Two second open grooves 51 are formed in the rear side edge of the discharging plate 5, and the two second open grooves 51 are respectively formed above the two second lifting blocks 37.

The top of the door-shaped frame 21 is also provided with two guide posts 28 which are vertically distributed in a penetrating way, and the lower ends of the two guide posts 28 are fixed on the traction block 25.

The front side of the first supporting frame 31 is also fixed with an inclined bracket 313, and the bottom front side of the feeding plate 32 is fixed at the top of the inclined bracket 313.

The using method comprises the following steps:

the plurality of metal rods 7 are transversely placed in the upper one of the guide grooves 312, and the metal rods 7 roll forward along the slope of the upper one of the guide grooves 312, roll down into the lower one of the guide grooves 312 via the gap between the upper one of the guide grooves 312 and the front baffle plate 310, roll down to the top of the feed plate 32 between the two first side baffle plates 33 via the gap between the lower one of the guide grooves 312 and the rear baffle plate 39, and continue to roll forward by the slope of the feed plate 32 until the foremost one of the metal rods 7 is blocked by the transfer block 38 and cannot continue to roll.

The telescopic end of the conversion cylinder 34 is driven to extend outwards to drive the lifting block 35 to move upwards, and then the telescopic end of each first lifting block 36 is driven to move upwards until the top of each first lifting block 36 passes through a corresponding first opening groove 321 and extends to the upper side of the feeding plate 32, and then the forefront metal rod 7 is lifted upwards, when the front side edge of the second inclined surface 361 on each first lifting block 36 is level with the rear side edge of the first inclined surface 381, the metal rod 7 rolls onto the first inclined surface 381, then continues to roll into the second arc-shaped groove 291 and the two third arc-shaped grooves 2101 by inertia, then the telescopic end of the conversion cylinder 34 is driven to shrink inwards to drive each first lifting block 36 to move downwards in a similar way, the forefront second metal rod 7 is blocked by each first lifting block 36 when each first lifting block 36 moves upwards, and when the top of each first lifting block 36 is lower than the feeding plate 32, the forefront second metal rod 7 is blocked by the forward rolling rod 38, and the forward metal rod 38 is also continued to be blocked.

The telescopic ends of the driving pressing cylinders 24 extend outwards to drive the pressing blocks 26 to move downwards by means of the traction blocks 25 until the first arc grooves 261 on the pressing blocks 26 are pressed on the metal rods 7, fixing of the metal rods 7 is completed, then, the telescopic ends of the two feeding cylinders 22 are simultaneously driven to extend outwards to drive the two polishing motors 29 to move towards the two ends of the metal rods 7 respectively, the two polishing motors 29 are simultaneously started to enable rotation shafts of the two polishing motors 29 to rotate, the two polishing heads 23 are driven to rotate, and when the end portions of the two polishing heads 23 contact the two ends of the metal rods 7, automatic polishing is conducted on the two ends of the metal rods 7.

After polishing, the telescopic ends of the conversion cylinders 34 are driven to extend outwards to drive the lifting blocks 35 to move upwards, so that the two second lifting blocks 37 can be driven to move upwards on the premise of driving each first lifting block 36 to move upwards, when the tops of the two second lifting blocks 37 respectively pass through the two second opening grooves 51 and extend above the two hidden grooves 211, the two second lifting blocks 37 jack up the metal rod 7 upwards to leave the second arc groove 291 and the two third arc grooves 2101, when the front side edge of the third inclined surface 371 is level with the rear side edge of the discharge plate 5, the metal rod 7 rolls onto the discharge plate 5 along the third inclined surface 371 on each second lifting block 37 and is arranged between the two second side baffles 6, and finally rolls outwards automatically to collect automatically, and in the process, each first lifting block 36 sends the next metal rod 7 into the second arc groove 291 and the two third arc grooves 2101 according to the same principle, so that one polishing cycle is formed.

According to the utility model, feeding, positioning, polishing and discharging of the metal rod 7 can be automatically completed, and besides the metal rod 7 is put on a material rack, no intervention of operators is needed in the whole process, so that the operation steps are greatly simplified to achieve the effects of time and labor saving, and the processing efficiency is improved, and the labor intensity is reduced.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; while the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art will appreciate that modifications may be made to the techniques described in the foregoing embodiments, or that certain features may be substituted for those illustrated therein; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims

1. The utility model provides a grinding device of metal electric power member, includes the bottom plate and locates the main part on the bottom plate, and the main part includes the door type frame that fixes at the bottom plate top, two respectively fix in the left and right sides of door type frame and symmetry set up feed cylinder, two respectively fix in two feed cylinder flexible ends and all be located the inside grinding motor of door type frame, and two respectively concentric fixed in two grinding motor axis of rotation grinding head, two flexible ends of feed cylinder and two grinding motor axis of rotation all transversely set up, characterized in that, the main part still includes the supporting shoe that is fixed at the bottom plate top and is located door type frame below, fixes the compression cylinder at door type frame top, transversely locates the supporting shoe top and is located the traction block below the door type frame top, transversely fix in the briquetting of traction block bottom, fix in the first seat piece at the supporting shoe top, and two fix in the supporting shoe top and locate the second seat piece of first seat piece left and right sides respectively symmetry; the telescopic ends of the compression cylinders vertically penetrate through the top of the door-shaped frame downwards and are fixed on the traction blocks, a hidden groove is formed between the two second seat blocks and the first seat block, first arc-shaped grooves which are transversely distributed are formed in the bottoms of the pressing blocks, second arc-shaped grooves which are transversely distributed are formed in the tops of the first seat blocks, third arc-shaped grooves which are transversely distributed are formed in the tops of the two second seat blocks, the two third arc-shaped grooves are concentrically arranged with the second arc-shaped grooves, and the second arc-shaped grooves and the two third arc-shaped grooves are all arranged under the first arc-shaped grooves; the feeding assembly comprises a feed bin arranged behind a supporting block and a conversion mechanism arranged between the feed bin and the supporting block, wherein the feed bin comprises a first supporting frame fixed at the top of a bottom plate, a feed plate obliquely fixed at the top of the first supporting frame and arranged at the front lower part and the rear higher part, and two first side baffles obliquely fixed on the first supporting frame at the front lower part and the rear higher part and respectively symmetrically arranged at the left side and the right side of the feed plate, and the conversion mechanism comprises a transfer block transversely fixed at the rear sides of the first seat block and the two second seat blocks, a conversion cylinder fixed at the rear sides of the bottom of the supporting block, a lifting block transversely fixed at the telescopic end of the conversion cylinder, at least two first lifting blocks fixed at the top of the lifting block and sequentially arranged at the front side edge of the feed plate in a penetrating way from left to right and respectively arranged at the rear of the transfer block, and two second lifting blocks respectively movably arranged in two hiding grooves and respectively fixed on the lifting blocks; the telescopic end of the conversion cylinder is vertically upwards arranged, a first inclined plane which is arranged in a front low mode and a rear high mode is formed at the top of the conversion block, a second inclined plane which is arranged in a front low mode and a rear high mode is formed at the top of each first lifting block, a third inclined plane which is arranged in a front low mode and a rear high mode is formed at the top of each second lifting block, and the front side edge of the feeding plate is lower than the first inclined plane.

2. The polishing device for the metal power rod piece according to claim 1, wherein a rear baffle plate which is vertically arranged is further fixed on the rear side of the top of the first supporting frame, a front baffle plate which is vertically arranged is further fixed between the tops of the two first side baffle plates, at least two supporting bars are further fixed on the outer wall of each first side baffle plate, each supporting bar is arranged between the front baffle plate and the rear baffle plate, two guide grooves which are vertically distributed are further arranged between the front baffle plate and the rear baffle plate, the left side of each guide groove is fixed on each supporting bar on the left side, and the right side of each guide groove is fixed on each supporting bar on the right side.

3. A grinding apparatus for a metal power rod according to claim 2, wherein an upper one of said guide grooves is provided at a front low and rear high, a rear side edge of an upper one of said guide grooves is fitted on a front side outer wall of the rear baffle plate, a front side edge of an upper one of said guide grooves is spaced apart from the front baffle plate by a certain distance, a lower one of said guide grooves is provided at a front high and rear low, a rear side edge of a lower one of said guide grooves is spaced apart from the rear baffle plate by a certain distance, and a front side edge of an upper one of said guide grooves is fitted on a rear side outer wall of the front baffle plate.

4. The polishing device for the metal power rod piece according to claim 3, wherein a second supporting frame is further arranged in front of the supporting block, the second supporting frame is fixed to the top of the bottom plate, a discharging plate with a lower front and a higher rear is further fixed to the top of the second supporting frame, the rear side edge of the discharging plate is matched with the tops of the first seat block and the two second seat blocks, two second side baffles with a lower front and a higher rear are further fixed to the second supporting frame, and the two second side baffles are symmetrically arranged on the left side and the right side of the discharging plate respectively.

5. The polishing device for a metal power rod according to claim 4, wherein at least two first open grooves are formed in the front side edge of the feeding plate, the number of the first open grooves is equal to that of the first lifting blocks, and each first open groove is arranged above a corresponding one of the first lifting blocks.

6. The polishing device for the metal power rod piece according to claim 5, wherein two second open grooves are formed in the rear side edge of the discharging plate, and the two second open grooves are respectively formed above the two second lifting blocks.

7. The polishing device for the metal power rod piece according to claim 6, wherein two guide posts which are vertically distributed are further arranged on the top of the door-shaped frame in a penetrating mode, and the lower ends of the two guide posts are fixed on the traction block.

8. The polishing device for a metal power rod according to claim 7, wherein the front side of the first supporting frame is further fixed with an inclined bracket, and the bottom front side of the feeding plate is fixed to the top of the inclined bracket.