CN212126043U

CN212126043U - Steel ball transfer device for precision instrument

Info

Publication number: CN212126043U
Application number: CN202020633740.XU
Authority: CN
Inventors: 阮家宏
Original assignee: Wuhu Hongchao Steel Ball Technology Co ltd
Current assignee: Wuhu Hongchao Steel Ball Technology Co ltd
Priority date: 2020-04-22
Filing date: 2020-04-22
Publication date: 2020-12-11
Anticipated expiration: 2030-04-22

Abstract

The utility model discloses a steel ball transfer device for precision instruments belongs to steel ball transportation equipment technical field, deposit subassembly, the spacing buffering subassembly of steel ball and the subassembly that jolts of preventing including fortune case, steel ball, the steel ball is deposited the subassembly and is all equipped with a plurality of spacing groove including last conveyer belt and lower conveyer belt, the surface of going up conveyer belt and conveyer belt down, and the left side of fortune case is equipped with two interim ball boxes of depositing, and the left side of every interim ball box of depositing all is equipped with deposits the ball groove. The beneficial effects of the utility model are that make the U type groove of limiting plate bottom be located the top of steel ball through the spacing buffering subassembly of steel ball, can carry on spacingly to the steel ball under the cooperation in spacing groove and U type groove, avoid colliding each other between the steel ball and make the steel ball take place wearing and tearing, buffer spring can cushion the steel ball and avoid the steel ball to produce great vibrations, and the sponge layer can further avoid the steel ball to take place the damage in the transportation.

Description

Steel ball transfer device for precision instrument

Technical Field

The utility model relates to a steel ball transportation equipment technical field specifically says a steel ball transfer device for precision instruments.

Background

The steel balls are classified into grinding steel balls and forging steel balls according to the production and processing technology, and classified into bearing steel balls, stainless steel balls, carbon steel balls, copper bearing steel ball alloy balls and the like according to the processing materials, and the steel balls are important basic parts, particularly the precise industrial steel balls play a great role in national economic development. Under some special conditions, steel balls made of special materials are often needed to complete the functions required under different environments. In particular, the steel balls in the precision industry are a big trend for future development, and the surfaces of the steel balls in the precision instruments have strict requirements of smoothness and cleanness, so that the steel balls cannot be stacked together in a mess, the surfaces of the steel balls are mutually abraded, the quality of the steel balls is seriously damaged, the misalignment of the precision industry in the later period is caused, and the normal use is influenced.

In the steel ball transfer device in the prior art, steel balls are stacked together, so that the steel balls collide with each other in the transportation process to cause the surface of the steel balls to be worn, and the quality of the steel balls is further influenced; and the traditional operation box can produce great vibrations in the process of passing through bumpy roads, and cannot buffer and absorb shock to the steel ball, so that the steel ball collides with the inner wall of the operation box, and the steel ball is damaged.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a steel ball transfer device for precision instruments to solve among the prior art steel ball pile and put and transport and take place wearing and tearing easily and can't cushion the absorbing technical problem to the steel ball.

The technical scheme of the utility model is that: subassembly, the spacing buffering subassembly of steel ball and the subassembly that prevents jolting of setting in the transportation bottom of the case portion are deposited including transportation case, steel ball, subassembly and the spacing buffering subassembly of steel ball are all set up at the transportation incasement to the steel ball, the subassembly is deposited including last conveyer belt and the lower conveyer belt that is located conveyer belt below, go up conveyer belt and the equal level setting of conveyer belt down at the transportation incasement, the surface of going up conveyer belt and lower conveyer belt all is equipped with a plurality of and is the spacing groove that the matrix distributes, the left side of transportation case is equipped with two temporary ball box, two the inner wall of temporary ball box all is equipped with the sponge board, two the temporary ball box sets up the left side at last conveyer belt and lower conveyer belt respectively, every the left side of temporary ball box all is equipped with the ball groove of depositing, the left side of transportation case is equipped with the blown down tank.

Further, the spacing buffering subassembly of steel ball is including altitude mixture control part and two steel ball spacing parts, every the steel ball spacing part all includes crane, mounting panel and the limiting plate of level setting in the mounting panel below, the bottom of limiting plate is equipped with the U type groove that a plurality of set up along the equidistant of last conveyer belt direction of transfer, the top of mounting panel is equipped with the fixing base, the fixing base passes through bolt and crane fixed connection.

Further, the top of limiting plate is equipped with four slide bars that are matrix distribution, every the slide bar all with mounting panel sliding fit, be equipped with four buffer spring that are matrix distribution between mounting panel and the limiting plate, every the top of slide bar all overlaps and is equipped with the stop collar.

Further, a sponge layer is arranged on the groove wall of the U-shaped groove.

Furthermore, the height adjusting part comprises a lifting motor, a vertically arranged lifting screw rod and two connecting seats arranged on the side wall of the operation box, the two ends of the lifting screw rod are respectively connected with the two connecting seats in a rotating manner, the output end of the lifting motor is coaxially connected with the bottom end of the lifting screw rod, and the two lifting frames are respectively provided with a thread sleeve in thread fit with the lifting screw rod.

Furthermore, the side wall of the operation box is provided with two sliding plates in sliding fit with the operation box, the sliding plates are transparent acrylic plates, each sliding plate is provided with a handle on the side wall, the right side of the operation box is provided with two storage tanks, and the two storage tanks correspond to the upper conveying belt and the lower conveying belt respectively.

Furthermore, the anti-bumping assembly comprises four running wheels distributed below the running box in a matrix mode, wherein a mounting block is arranged at the top of each running wheel, a supporting rod in sliding fit with the mounting block is arranged at the top of each mounting block, the running box is fixed to the top ends of the four supporting rods, damping springs are sleeved on the supporting rods, and two ends of each damping spring are connected to the bottom of the running box and the top of the mounting block respectively.

The utility model discloses an improve and provide a steel ball transfer device for precision instruments here, compare with prior art, have following improvement and advantage:

the steel ball is placed in the limiting groove manually by an operator, the operator can place a plurality of steel balls in each limiting groove one by one under the action of the upper conveying belt and the lower conveying belt, two limiting plates can lift simultaneously through the steel ball limiting buffer assembly, the U-shaped groove at the bottom of each limiting plate is located at the top end of each steel ball, the steel balls can be limited under the matching of the limiting grooves and the U-shaped grooves, and the steel balls are prevented from colliding with one another and are abraded.

And secondly, when the operation box is bumped, the buffer spring can buffer the steel ball to avoid the steel ball to generate large vibration, the damping spring is used for damping the box body, and the sponge layer is arranged on the groove wall of the U-shaped groove to further avoid the steel ball from being damaged in the transportation process.

Drawings

The invention is further explained below with reference to the figures and examples:

fig. 1 is a schematic view of a first-angle three-dimensional structure of the present invention;

fig. 2 is a schematic view of a second angle three-dimensional structure of the present invention;

fig. 3 is a first schematic cross-sectional view of the present invention;

fig. 4 is a schematic cross-sectional view of the present invention;

fig. 5 is an enlarged view of a portion a in fig. 4.

Description of reference numerals:

the steel ball temporary storage device comprises a running box 1, a steel ball storage assembly 2, an upper conveying belt 21, a lower conveying belt 22, a limiting groove 23, a temporary ball storage box 24, a sponge plate 25, a ball storage groove 26, a discharge groove 27, a steel ball limiting and buffering assembly 3, a steel ball limiting part 31, a lifting frame 32, a mounting plate 33, a fixing seat 34, a limiting plate 35, a U-shaped groove 36, a sliding rod 37, a buffering spring 38, a limiting sleeve 39, an anti-bumping assembly 4, a running wheel 41, a mounting block 42, a supporting rod 43, a damping spring 44, a height adjusting part 5, a lifting motor 51, a lifting screw 52, a connecting seat 53, a sliding plate 6, a lifting handle 61 and a storage groove 62.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a steel ball transfer device for precision instrument, as shown in figure 1-figure 5, including a transfer case 1, a steel ball storage component 2, a steel ball limiting buffer component 3 and an anti-bumping component 4 arranged at the bottom of the transfer case 1, the steel ball storage component 2 and the steel ball limiting buffer component 3 are both arranged in the transfer case 1, the steel ball storage component 2 comprises an upper conveyor belt 21 and a lower conveyor belt 22 arranged below the upper conveyor belt 21, the upper conveyor belt 21 and the lower conveyor belt 22 are both horizontally arranged in the transfer case 1, the surfaces of the upper conveyor belt 21 and the lower conveyor belt 22 are both provided with a plurality of limiting grooves 23 distributed in a matrix, the left side of the transfer case 1 is provided with two temporary ball storage boxes 24, the inner walls of the two temporary ball storage boxes 24 are both provided with sponge plates 25, the two temporary ball storage boxes 24 are respectively arranged at the left sides of the upper conveyor belt 21 and the lower conveyor belt 22, the left side of each temporary ball storage box 24 is provided with a ball storage groove 26, and the left side of the operation box 1 is provided with a discharge groove 27; the worker is manual to place the steel ball in spacing groove 23, can make the worker place a plurality of steel balls in every spacing groove 23 one by one under the effect of last conveyer belt 21 and lower conveyer belt 22, the worker is manual to promote operation case 1 to the purpose, can make under the effect of last conveyer belt 21 and lower conveyer belt 22 to be located one row of steel balls and get into to deposit the ball groove 26 of ball box 24 temporarily in, the worker of being convenient for takes out, can make two limiting plates 35 go up and down simultaneously through the spacing buffer unit 3 of steel ball, make the U type groove 36 of limiting plate 35 bottom be located the top of steel ball, can carry on spacingly to the steel ball under the cooperation of spacing groove 23 and U type groove 36, avoid between the steel ball collision each other and make the steel ball take place wearing and tearing.

Specifically, the steel ball limiting and buffering assembly 3 comprises a height adjusting component 5 and two steel ball limiting components 31, each steel ball limiting component 31 comprises a lifting frame 32, a mounting plate 33 and a limiting plate 35 horizontally arranged below the mounting plate 33, the bottom of the limiting plate 35 is provided with a plurality of U-shaped grooves 36 which are arranged at equal intervals along the conveying direction of the upper conveying belt 21, the top of the mounting plate 33 is provided with a fixed seat 34, and the fixed seat 34 is fixedly connected with the lifting frame 32 through bolts; the worker can be with fixing base 34 and crane 32 fixed connection through the bolt, and U type groove 36 is used for spacing to the steel ball top, makes the steel ball spacing in spacing groove 23.

Specifically, four sliding rods 37 distributed in a matrix are arranged at the top of the limiting plate 35, each sliding rod 37 is in sliding fit with the mounting plate 33, four buffer springs 38 distributed in a matrix are arranged between the mounting plate 33 and the limiting plate 35, and a limiting sleeve 39 is sleeved at the top end of each sliding rod 37; the slide rod 37 is used for guiding the movement of the limiting plate 35, the mounting plate 33 is driven to move by the limiting sleeve 39 in the moving process, when the U-shaped groove 36 at the bottom of the limiting plate 35 collides with the steel ball, the buffer spring 38 can play a role in buffering, and the steel ball can be buffered when vibrated.

Specifically, a sponge layer is arranged on the wall of the U-shaped groove 36; in the process of limiting the steel ball by the U-shaped groove 36, the sponge layer is abutted against the steel ball, and the steel ball is further prevented from being damaged in the transportation process.

Specifically, the height adjusting part 5 comprises a lifting motor 51, a vertically arranged lifting screw 52 and two connecting seats 53 arranged on the side wall of the operation box 1, two ends of the lifting screw 52 are respectively and rotatably connected with the two connecting seats 53, the output end of the lifting motor 51 is coaxially connected with the bottom end of the lifting screw 52, and two lifting frames 32 are respectively provided with a thread bush in thread fit with the lifting screw 52; the lifting motor 51 works to drive the lifting screw rod 52 to rotate, so that the lifting screw rod 52 drives the two lifting frames 32 to move simultaneously, the two lifting frames 32 can move in the up-down direction simultaneously, the two lifting frames 32 drive the two limiting plates 35 to move respectively, and the U-shaped grooves 36 at the bottoms of the two limiting plates 35 can limit steel balls on the upper conveying belt 21 and the lower conveying belt 22 respectively.

Specifically, two sliding plates 6 in sliding fit with the side walls of the operation box 1 are arranged on the side walls of the operation box 1, the sliding plates 6 are transparent acrylic plates, a handle 61 is arranged on the side wall of each sliding plate 6, two storage grooves 62 are arranged on the right side of the operation box 1, and the two storage grooves 62 correspond to the upper conveyor belt 21 and the lower conveyor belt 22 respectively; storage tank 62 can make the worker place the steel ball in spacing groove 23, makes every spacing groove 23 homoenergetic carry on spacingly to a steel ball, and transparent ya keli board is convenient for the worker to observe the state of depositing of steel ball, and the worker is manual to make slide 6 horizontal migration through handle 61, makes the worker clean slide 6 surface, avoids dirty being stained with and attaches the normal observation that influences the worker at slide 6 surface.

Specifically, the anti-bumping assembly 4 comprises four running wheels 41 distributed below the running box 1 in a matrix manner, the top of each running wheel 41 is provided with an installation block 42, the top of each installation block 42 is provided with a support rod 43 in sliding fit with the installation block, the running box 1 is fixed at the top ends of the four support rods 43, each support rod 43 is sleeved with a damping spring 44, and two ends of each damping spring 44 are respectively connected to the bottom of the running box 1 and the top of the installation block 42; the support rod 43 is used for supporting the running box 1, the support rod 43 is in sliding fit with the mounting block 42 to enable the damping spring 44 to extend and contract, and the damping spring 44 is used for damping when the box runs on a bumpy road.

The utility model discloses a theory of operation: the steel balls are manually placed in the limiting grooves 23 by workers, the workers can place a plurality of steel balls in each limiting groove 23 one by one under the action of the upper conveyor belt 21 and the lower conveyor belt 22, the two limit plates 35 can be lifted and lowered simultaneously through the steel ball limit buffer assembly 3, so that the U-shaped groove 36 at the bottom of the limit plate 35 can be positioned at the top end of the steel ball, the steel balls can be limited under the matching of the limiting grooves 23 and the U-shaped grooves 36, so that the steel balls are prevented from being abraded due to mutual collision, specifically, the lifting motor 51 works to drive the lifting screw rod 52 to rotate, the lifting screw rod 52 drives the two lifting frames 32 to move simultaneously, the two lifting frames 32 can move in the up-and-down direction simultaneously, the two lifting frames 32 respectively drive the two limiting plates 35 to move, and the U-shaped grooves 36 at the bottoms of the two limiting plates 35 can respectively limit the steel balls on the upper conveying belt 21 and the lower conveying belt 22;

when the operation box 1 passes through a bumpy road, the buffer spring 38 can buffer the steel ball to avoid the steel ball from generating large vibration, and the damping spring 44 is used for damping the box body;

the worker manually pushes the transport box 1 to the target, and under the action of the upper conveyor belt 21 and the lower conveyor belt 22, a row of steel balls on the left side can enter the ball storage groove 26 of the temporary ball storage box 24, so that the worker can conveniently take out the steel balls.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a steel ball transfer device for precision instruments which characterized in that: the steel ball storage device comprises a conveying box (1), a steel ball storage assembly (2), a steel ball limiting and buffering assembly (3) and an anti-bumping assembly (4) arranged at the bottom of the conveying box (1), wherein the steel ball storage assembly (2) and the steel ball limiting and buffering assembly (3) are arranged in the conveying box (1), the steel ball storage assembly (2) comprises an upper conveying belt (21) and a lower conveying belt (22) positioned below the upper conveying belt (21), the upper conveying belt (21) and the lower conveying belt (22) are horizontally arranged in the conveying box (1), a plurality of limiting grooves (23) distributed in a matrix form are arranged on the surfaces of the upper conveying belt (21) and the lower conveying belt (22), two temporary ball storage boxes (24) are arranged on the left side of the conveying box (1), sponge plates (25) are arranged on the inner walls of the two temporary ball storage boxes (24), and the two temporary ball storage boxes (24) are respectively arranged on the left sides of the upper conveying belt (21) and the lower conveying belt (22), every ball groove (26) are all deposited to the left side of depositing ball box (24) temporarily, the left side of operation case (1) is equipped with blown down tank (27).

2. The steel ball transfer device for precision instruments according to claim 1, characterized in that: spacing buffering subassembly of steel ball (3) is including altitude mixture control part (5) and two steel ball spacing parts (31), every steel ball spacing part (31) all includes limiting plate (35) of crane (32), mounting panel (33) and level setting in mounting panel (33) below, the bottom of limiting plate (35) is equipped with U type groove (36) that a plurality of edge went up conveyer belt (21) direction of transfer equidistant setting, the top of mounting panel (33) is equipped with fixing base (34), fixing base (34) are through bolt and crane (32) fixed connection.

3. The steel ball transfer device for precision instruments according to claim 2, characterized in that: the top of limiting plate (35) is equipped with four slide bars (37) that are the matrix distribution, every slide bar (37) all with mounting panel (33) sliding fit, be equipped with four buffer spring (38) that are the matrix distribution between mounting panel (33) and limiting plate (35), every the top of slide bar (37) all overlaps and is equipped with stop collar (39).

4. The steel ball transfer device for precision instruments according to claim 2, characterized in that: and a sponge layer is arranged on the wall of the U-shaped groove (36).

5. The steel ball transfer device for precision instruments according to claim 3, wherein: height adjusting part (5) including elevator motor (51), the lift lead screw (52) of vertical setting and two connecting seats (53) of setting on operation case (1) lateral wall, the both ends of lift lead screw (52) rotate with two connecting seats (53) respectively and are connected, the output of elevator motor (51) and the bottom coaxial coupling of lift lead screw (52), two all be equipped with on crane (32) with lift lead screw (52) screw-thread fit's thread bush.

6. The steel ball transfer device for precision instruments according to claim 1, characterized in that: be equipped with on the lateral wall of operation case (1) two rather than sliding fit's slide (6), slide (6) are transparent ya keli board, every be equipped with handle (61) on the lateral wall of slide (6), the right side of operation case (1) is equipped with two storing groove (62), and two storing groove (62) correspond respectively and go up conveyer belt (21) and lower conveyer belt (22).

7. The steel ball transfer device for precision instruments according to claim 1, characterized in that: prevent subassembly (4) of jolting including four wheels (41) that travel that are the matrix distribution in operation case (1) below, every the top of wheel (41) of traveling all is equipped with installation piece (42), the top of installation piece (42) is equipped with rather than sliding fit's bracing piece (43), operation case (1) is fixed on four bracing piece (43) tops, the cover is equipped with damping spring (44) on bracing piece (43), every damping spring (44)'s both ends are connected respectively in the bottom of operation case (1) and the top of installation piece (42).