CN112264898A

CN112264898A - Polishing device for stainless steel ice blocks

Info

Publication number: CN112264898A
Application number: CN202011223706.6A
Authority: CN
Inventors: 祝迎城; 钱敏珠
Original assignee: Suzhou Fulud Intelligent Technology Co ltd
Current assignee: Suzhou Fulud Intelligent Technology Co ltd
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2021-01-26
Anticipated expiration: 2040-11-05
Also published as: CN112264898B

Abstract

The invention relates to a polishing device for stainless steel ice blocks, wherein a transverse polishing device is positioned above a main conveyor belt, a plurality of vertical polishing devices are arranged on two sides of the main conveyor belt, a turnover device is arranged at the tail end of the main conveyor belt, the turnover device is connected with the inlet of the main conveyor belt through a transfer conveyor belt, the main conveyor belt is provided with a plurality of clamping grooves, and the clamping grooves clamp stainless steel blocks; two ends of a transverse polishing wheel of the transverse polishing device are respectively fixed on a transverse bearing, the transverse bearing vertically moves in a transverse restraint block, a transverse compression nut is arranged above the transverse bearing, the transverse compression nut is in threaded fit with the transverse restraint block, a transverse spring is arranged below the inner part of the transverse restraint block, the transverse restraint block is fixed on a transverse support, and the transverse bearing at one end of the transverse polishing wheel is connected with a transverse motor. The invention reduces manpower, reduces the workload of manpower, and has high working efficiency, large output and automation.

Description

Polishing device for stainless steel ice blocks

Technical Field

The invention relates to a polishing device for stainless steel ice blocks, which reduces manpower, reduces the workload of the manpower, has high working efficiency and large yield and is automatic.

Background

The stainless steel ice cubes are also called stainless steel ice particles, which are called steel ice for short. The novel stainless steel ice block replaces the traditional ice block, and the traditional ice block is made of water, so the taste of the drink is lightened after the stainless steel ice block is placed in the wine or the drink to be dissolved, and the mouthfeel is influenced. The surface of the novel stainless steel ice block is made of 304 stainless steel, and the novel stainless steel ice block cannot be dissolved into water to influence the taste. The special freezing liquid is filled in the ice block, and the freezing quantity is more durable than that of the traditional ice block. The physical cooling principle is adopted, the water-based paint can be recycled for unlimited times, and is easy to clean; the harm to human body caused by ice blocks made from unclean water source is completely avoided.

The inert metal block is favored by appreciators, not only can keep the taste of the beverage, but also can not dilute the beverage. The 51 year old designer, dave-lai, from massachusetts, usa, pointed out that my inspiration came from the previous use of a frozen ball bearing to ice the beverage. In my early design life, i listened to a story about the famous design of the teacher in the early 20 th century, which iced scotland whisky using frozen ball bearings. In addition, I also hear other people who are well known to use ball bearings as ice to be placed in the beverage. These ball bearings do not add moisture to the beverage like ice cubes, which would result in dilution of the beverage.

The production mode of the stainless steel ice block is that two half-cube stainless steel shells are welded in a splicing mode, the stainless steel shells are connected in a welding mode through a ring, and food-grade ethanol and purified water are filled into the stainless steel shells before welding. In actual production, need polish the stainless steel ice-cube surface, there are four weld joints on the four sides of stainless steel ice-cube, and the outside face of stainless steel ice-cube has the excessive face of arc of six planes and twelve plane junctions, and the stainless steel ice-cube is small moreover, is difficult to fix and presss from both sides tightly. The polishing method comprises the steps that stainless steel ice blocks are placed in clamping grooves, a plurality of stainless steel ice blocks which are arranged in a linear mode are clamped in the clamping grooves, polishing is conducted on polishing wheels through manual operation, the number of polishing surfaces of the stainless steel ice blocks is large, each surface needs to be polished one by one, the positions of the polishing wheels need to be adjusted after fixing and polishing, and the polishing surfaces of the reverse sides are polished, so that the polishing difficulty is large, the manual dependence degree is large, the workload is large, and mass production is not facilitated. There is a need for an automated stainless steel ice polishing apparatus with reduced labor, reduced labor load, and high productivity.

Disclosure of Invention

The invention aims to provide an automatic stainless steel ice block polishing device which reduces manpower and labor workload and has high working efficiency and large yield.

A polishing device for stainless steel ice cubes, comprising:

the polishing device comprises a transverse polishing device, a plurality of vertical polishing devices, a turnover device and a plurality of clamping grooves, wherein the transverse polishing device is positioned above a main conveyor belt, the two sides of the main conveyor belt are provided with the plurality of vertical polishing devices, the tail end of the main conveyor belt is provided with the turnover device, the turnover device is connected with the inlet of the main conveyor belt through a transfer conveyor belt, the main conveyor belt is provided with the plurality of clamping grooves, and the clamping grooves clamp a stainless steel block;

two ends of a transverse polishing wheel of the transverse polishing device are respectively fixed on a transverse bearing, the transverse bearing vertically moves in a transverse restraining block, a transverse compression nut is arranged above the transverse bearing, the transverse compression nut is in threaded fit with the transverse restraining block, a transverse spring is arranged below the inner part of the transverse restraining block, the transverse restraining block is fixed on a transverse support, and the transverse bearing at one end of the transverse polishing wheel is connected with a transverse motor;

two ends of a vertical polishing wheel of the vertical polishing device are respectively fixed on vertical bearings, the vertical bearings transversely move in vertical restraint blocks, vertical compression nuts are arranged on the side surfaces of the vertical bearings, the vertical bearings are in threaded fit with the vertical restraint blocks, vertical springs are arranged on the other sides of the interior of the vertical restraint blocks, the vertical restraint blocks are fixed on vertical supports, and the vertical bearings at one ends of the vertical polishing wheels are connected with vertical motors;

turning device's upset dish fixed connection upset motor, the upset motor is fixed on the upset supporting disk, first telescopic cylinder and the telescopic cylinder of second are articulated respectively to upset supporting disk below, first telescopic cylinder and the telescopic cylinder of second are fixed on the upset supporting seat, set up a plurality of upset springs between upset supporting disk and the upset supporting seat.

The vertical polishing devices are distributed on two transverse sides of the main conveyor belt, and the interval of the vertical polishing devices is gradually narrowed along the conveying direction of the main conveyor belt.

The two clamping grooves are in a group, are arranged along the conveying direction of the main conveying belt and are smaller than the stainless steel blocks in height.

The width of the horizontal polishing wheel and the width of the vertical polishing wheel are larger than the length of the stainless steel block.

The horizontal bearing is attached to the inside of the horizontal restraint block, and the vertical bearing is attached to the inside of the vertical restraint block.

The number of the transverse springs and the number of the vertical springs are more than two respectively.

The turnover disc is circular, and the center of the turnover disc is fixed with a working rod of a turnover motor.

The turnover supporting disc is wedge-shaped.

The turnover springs are uniformly arranged around the turnover supporting disk respectively.

The transverse polishing device is positioned above a main conveyor belt, a plurality of vertical polishing devices are arranged on two sides of the main conveyor belt, a turnover device is arranged at the tail end of the main conveyor belt, the turnover device is connected with the inlet of the main conveyor belt through a transfer conveyor belt, the main conveyor belt is provided with a plurality of clamping grooves, and the clamping grooves clamp stainless steel blocks; two ends of a transverse polishing wheel of the transverse polishing device are respectively fixed on a transverse bearing, the transverse bearing vertically moves in a transverse restraining block, a transverse compression nut is arranged above the transverse bearing and is in threaded fit with the transverse restraining block, a transverse spring is arranged below the inner part of the transverse restraining block, the transverse restraining block is fixed on a transverse support, and the transverse bearing at one end of the transverse polishing wheel is connected with a transverse motor; two ends of a vertical polishing wheel of the vertical polishing device are respectively fixed on vertical bearings, the vertical bearings transversely move in vertical restraint blocks, vertical compression nuts are arranged on the side faces of the vertical bearings, the vertical bearings are in threaded fit with the vertical restraint blocks, vertical springs are arranged on the other sides in the vertical restraint blocks, the vertical restraint blocks are fixed on vertical supports, and the vertical bearings at one ends of the vertical polishing wheels are connected with vertical motors; turning device's upset dish fixed connection upset motor, the upset motor is fixed on the upset supporting disk, and first telescopic cylinder and the telescopic cylinder of second are articulated respectively to upset supporting disk below, and first telescopic cylinder and the telescopic cylinder of second are fixed on the upset supporting seat, set up a plurality of upset springs between upset supporting disk and the upset supporting seat. The invention reduces manpower, reduces the workload of manpower, and has high working efficiency, large output and automation.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic view showing the structure of a lateral polishing apparatus according to the present invention;

FIG. 4 is a schematic view of the vertical polishing apparatus of the present invention;

FIG. 5 is a schematic structural diagram of the turning device of the present invention;

FIG. 6 is a schematic view of the construction of the main conveyor of the present invention;

in the figure: 1. horizontal burnishing device, 2, vertical burnishing device, 3, turning device, 4, main conveyer belt, 5, the transport conveyer belt, 6, the stainless steel piece, 7, the chucking groove, 11, horizontal polishing wheel, 12, horizontal bearing, 13, horizontal restraint piece, 14, horizontal gland nut, 15, horizontal spring, 16, horizontal motor, 17, horizontal support, 21, vertical polishing wheel, 22, vertical bearing, 23, vertical restraint piece, 24, vertical gland nut, 25, vertical spring, 26, vertical motor, 27, vertical support, 31, the upset dish, 32, the upset motor, 33, the upset supporting disk, 34, first telescopic cylinder, 35, second telescopic cylinder, 36, upset supporting seat, 37, the upset spring.

Detailed Description

The invention is further described below with reference to the following figures and specific examples.

A polishing device for stainless steel ice cubes, comprising: the polishing device comprises a transverse polishing device 1, wherein the transverse polishing device 1 is positioned above a main conveyor belt 4, a plurality of vertical polishing devices 2 are arranged on two sides of the main conveyor belt 4, a turnover device 3 is arranged at the tail end of the main conveyor belt 4, the turnover device 3 is connected with the inlet of the main conveyor belt 4 through a transfer conveyor belt 5, the main conveyor belt 4 is provided with a plurality of clamping grooves 7, and the clamping grooves 7 clamp a stainless steel block 6; two ends of a transverse polishing wheel 11 of a transverse polishing device 1 are respectively fixed on a transverse bearing 12, the transverse bearing 12 vertically moves in a transverse restraint block 13, a transverse compression nut 14 is arranged above the transverse bearing 12, the transverse compression nut 14 is in threaded fit with the transverse restraint block 13, a transverse spring 15 is arranged below the inner part of the transverse restraint block 13, the transverse restraint block 13 is fixed on a transverse support 17, and the transverse bearing 12 at one end of the transverse polishing wheel 11 is connected with a transverse motor 16; two ends of a vertical polishing wheel 21 of the vertical polishing device 2 are respectively fixed on vertical bearings 22, the vertical bearings 22 transversely move in vertical restraint blocks 23, vertical compression nuts 24 are arranged on the side faces of the vertical bearings 22, the vertical bearings 22 are in threaded fit with the vertical restraint blocks 23, vertical springs 25 are arranged on the other sides of the interior of the vertical restraint blocks 23, the vertical restraint blocks 23 are fixed on vertical supports 27, and the vertical bearings 22 at one ends of the vertical polishing wheels 21 are connected with vertical motors 26; the turnover motor 32 is fixedly connected with the turnover disc 31 of the turnover device 3, the turnover motor 32 is fixed on the turnover support disc 33, the first telescopic cylinder 34 and the second telescopic cylinder 35 are respectively hinged below the turnover support disc 33, the first telescopic cylinder 34 and the second telescopic cylinder 35 are fixed on the turnover support seat 36, and a plurality of turnover springs 37 are arranged between the turnover support disc 33 and the turnover support seat 36.

The vertical polishing devices 2 are distributed on both lateral sides of the main conveyor belt 4, and the interval gradually narrows along the conveying direction of the main conveyor belt 4. The clamping grooves 7 are arranged in a group of two along the conveying direction of the main conveyor belt 4 and are smaller than the stainless steel blocks 6 in height. The width of the transverse polishing wheel 11 and the vertical polishing wheel 21 is larger than the length of the stainless steel block 6. The transverse bearing 12 is attached to the inside of the transverse restraint block 13, and the vertical bearing 22 is attached to the inside of the vertical restraint block 23. The number of the horizontal springs 15 and the vertical springs 25 is two or more. The turnover disc 31 is circular, and the center of the turnover disc fixes the working rod of the turnover motor 32. The roll-over support disk 33 is wedge-shaped. The turnover springs 37 are uniformly and respectively arranged around the turnover support plate 33.

Put into the chucking groove 7 chucking of main conveyor belt 4 with stainless steel piece 6, rotate main conveyor belt 4 and then drive stainless steel piece 6 forward motion, advance horizontal burnishing device 1, polish a plane of stainless steel piece 6, then get into a plurality of vertical burnishing devices 2, polish two sides of stainless steel piece 6, main conveyor belt 4 drives stainless steel piece 6 and gets into turning device 3 and overturn after the completion. After being turned over, the stainless steel block 6 is sent into the transfer conveyor belt 5, enters from the inlet of the main conveyor belt 4, and polishes the other two side surfaces and one plane, wherein six times of circulation are counted to finish polishing.

The transverse motor 16 drives the transverse polishing wheel 11 of the transverse polishing device 1 to rotate, the transverse bearings 12 at two ends are used for supporting the transverse polishing wheel 11 to rotate, the transverse bearings 12 vertically move in the transverse restraint block 13, and under the adjustment of the transverse compression nuts 14 and the transverse springs 15, the contact tightness of the transverse polishing wheel 11 and the stainless steel block 6 is adjusted, and then the polishing effect is adjusted. The transverse restraint block 13 is fixed on a transverse bracket 17, and the transverse bracket 17 is used for supporting the transverse restraint block 13.

Vertical motor 26 drives vertical burnishing wheel 21 of vertical burnishing device 2 and rotates, and the vertical bearing 22 at both ends is used for supporting vertical burnishing wheel 21 rotation, and vertical bearing 22 is under the regulation of vertical gland nut 24 and vertical spring 25 at the inside horizontal motion of vertical about piece 23, adjusts the contact elasticity of vertical burnishing wheel 21 and stainless steel piece 6, and then adjusts polishing effect. The vertical restraint block 23 is fixed on the vertical support 27, and the vertical support 27 is used for supporting the vertical restraint block 23.

The stainless steel block 6 falls onto the turning plate 31 of the turning device 3, and the turning motor 32 rotates the turning plate 31, thereby aligning the stainless steel block 6 with the transfer conveyor 5. By controlling the extension amount of the first extension cylinder 34 and the second extension cylinder 35 and adjusting the pitch angle of the turnover disc 31, the stainless steel block 6 can be turned over when entering the turnover disc 31 of the turnover device 3 from the main conveyor belt 4. The turnover support plate 33 is used for supporting the turnover motor 32 and is connected with a first telescopic cylinder 34 and a second telescopic cylinder 35. The roll-over support 36 is used for supporting the first telescopic cylinder 34 and the second telescopic cylinder 35, and the roll-over spring 37 is used for damping and falling back support.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A polishing device for stainless steel ice cubes, comprising:

the polishing device comprises a transverse polishing device (1), wherein the transverse polishing device (1) is positioned above a main conveyor belt (4), a plurality of vertical polishing devices (2) are arranged on two sides of the main conveyor belt (4), a turnover device (3) is arranged at the tail end of the main conveyor belt (4), the turnover device (3) is connected with the inlet of the main conveyor belt (4) through a transfer conveyor belt (5), the main conveyor belt (4) is provided with a plurality of clamping grooves (7), and the clamping grooves (7) clamp a stainless steel block (6);

two ends of a transverse polishing wheel (11) of the transverse polishing device (1) are respectively fixed on a transverse bearing (12), the transverse bearing (12) vertically moves in a transverse restraining block (13), a transverse compression nut (14) is arranged above the transverse bearing (12), the transverse compression nut (14) is in threaded fit with the transverse restraining block (13), a transverse spring (15) is arranged below the inner part of the transverse restraining block (13), the transverse restraining block (13) is fixed on a transverse support (17), and the transverse bearing (12) at one end of the transverse polishing wheel (11) is connected with a transverse motor (16);

two ends of a vertical polishing wheel (21) of the vertical polishing device (2) are respectively fixed on vertical bearings (22), the vertical bearings (22) transversely move in vertical restraint blocks (23), vertical compression nuts (24) are arranged on the side faces of the vertical bearings (22), the vertical bearings (22) are in threaded fit with the vertical restraint blocks (23), vertical springs (25) are arranged on the other sides in the vertical restraint blocks (23), the vertical restraint blocks (23) are fixed on vertical supports (27), and the vertical bearings (22) at one ends of the vertical polishing wheels (21) are connected with vertical motors (26);

upset dish (31) fixed connection upset motor (32) of turning device (3), upset motor (32) are fixed on upset supporting disk (33), first telescopic cylinder (34) and second telescopic cylinder (35) are articulated respectively to upset supporting disk (33) below, first telescopic cylinder (34) and second telescopic cylinder (35) are fixed on upset supporting seat (36), set up a plurality of upset springs (37) between upset supporting disk (33) and the upset supporting seat (36).

2. A polishing device for stainless steel ice cubes according to claim 1, wherein the vertical polishing means (2) are distributed on both lateral sides of the main conveyor belt (4) at intervals which are gradually narrowed in the conveying direction of the main conveyor belt (4).

3. A polishing device of stainless steel ice cubes according to claim 1, wherein the chucking grooves (7) are arranged in a group of two along the conveying direction of the main conveyor (4) and have a height smaller than that of the stainless steel cubes (6).

4. A polishing device for stainless steel ice cubes according to claim 1, wherein the width of the transverse polishing wheel (11) and the vertical polishing wheel (21) is greater than the length of the stainless steel cube (6).

5. A polishing device for stainless steel ice cubes according to claim 1, wherein the lateral bearing (12) fits inside the lateral restraining block (13) and the vertical bearing (22) fits inside the vertical restraining block (23).

6. A polishing device of stainless steel ice cubes according to claim 1, wherein the number of the horizontal springs (15) and the vertical springs (25) is more than two.

7. The polishing device of stainless steel ice cubes of claim 1, wherein the turnover disk (31) is circular and a working rod of the turnover motor (32) is centrally fixed.

8. A polishing device of stainless steel ice cubes as claimed in claim 1, wherein said inversion supporting plate (33) is wedge-shaped.

9. A polishing device of stainless steel ice cubes of claim 1, wherein said turnover springs (37) are uniformly and respectively disposed around the turnover support plate (33).