CN106809659B

CN106809659B - Blank collection bucket

Info

Publication number: CN106809659B
Application number: CN201611212694.0A
Authority: CN
Inventors: 刘行
Original assignee: CHONGQING LONGYUE FOOD Co Ltd
Current assignee: CHONGQING LONGYUE FOOD Co Ltd
Priority date: 2016-12-25
Filing date: 2016-12-25
Publication date: 2019-04-02
Anticipated expiration: 2036-12-25
Also published as: CN106809659A

Abstract

This patent discloses be related to a kind of blank collection bucket, including collection bucket body equipped with joint pipe frame mating hole, discharge port, feed inlet；Joint pipe frame mating hole is set to the surrounding for collecting at the top of bucket body and being located at feed inlet, and discharge port and feed inlet are respectively arranged on the bottom and top for collecting bucket body；The channel passed through for blank is equipped between the feed inlet and discharge port, which is characterized in that the vias inner walls are equipped with one layer of strengthening layer, and the strengthening layer is made of the following raw material: nickel plating carbon dust, zinc stearate, nano tungsten disulfide, lanthanum nitrate and titanium dioxide.This patent provides one kind by coating material, improves the blank collection bucket of the impact resistance of product.

Description

Blank collection bucket

Technical field

The present invention relates to food processing apparatus, more particularly, to blank collection bucket.

Background technique

The conveying of general bean product blank (soybean for thinly slicing shape) uses Belt Conveying, using Belt Conveying to sky Between requirement it is larger, can not work at all when place is narrow；In order to solve this problem, Chinese patent nano tungsten disulfide N20362425623.15 provides a kind of conveying device collection bucket, it is welded by steel and collects bucket body, collects bucket body and is equipped with Joint pipe frame mating hole, discharge port, feed inlet；Joint pipe frame mating hole, which is set to, to be collected at the top of bucket body and is located at the four of feed inlet Week, discharge port and feed inlet are respectively arranged on the bottom and top for collecting bucket body, are equipped with described in supplying and cut between the bottom and top Expect the channel passed through.

However there are still following technological deficiencies for above-mentioned patented technology:

Since the channel needs to bear the impact of the blank under travel position, can be left in the vias inner walls a large amount of Trace is impacted, there are in the case where larger drop especially between the discharge port and feed inlet, the blank only needs half The moon can impact biggish pit vestige on the inner wall of the bottom of the channel.

Summary of the invention

The invention is intended to provide a kind of blank collection bucket, by coating material, the protecting against shock performance inside collection bucket is improved.

Blank collection bucket in this programme, including collect bucket body and be equipped with joint pipe frame mating hole, discharge port, feed inlet； Joint pipe frame mating hole is set to the surrounding for collecting at the top of bucket body and being located at feed inlet, and discharge port and feed inlet are respectively arranged on collection The bottom and top of bucket body；The channel passed through for blank is equipped between the feed inlet and discharge port, the vias inner walls are equipped with One layer of strengthening layer, the strengthening layer are made of the following raw material: nickel plating carbon dust, zinc stearate, nano tungsten disulfide, lanthanum nitrate and titanium White powder.

Further, the raw material further includes aluminium dihydrogen phosphate.

Further, the strengthening layer is made of the raw material of following mass ratio: 23.15 parts of nickel plating carbon dust, zinc stearate 12.23 parts, 14 parts of nano tungsten disulfide, 26.31 parts and 15.02 parts of titanium dioxide of lanthanum nitrate.

Further, the strengthening layer further includes 44.31 parts of aluminium dihydrogen phosphate.

Further, the feed inlet bore is greater than the discharge port.

Further, the discharge port is ellipse.

Specific embodiment

Below by specific embodiment, the present invention is described in further detail:

This present embodiment blank collection bucket, including by steel be welded into collect bucket body, which is provided with joint pipe frame mating hole, Discharge port, feed inlet；Joint pipe frame mating hole be set to collect at the top of bucket body and also in the surrounding of feed inlet, discharge port and charging Mouth 4 is respectively arranged on the bottom and top for collecting bucket body.

Wherein the preparation method of strengthening layer is:

(1) lanthanum nitrate and zinc stearate are stirred evenly, obtains pre-feed I；

(2) titanium dioxide is mixed to form with nickel plating carbon dust and is mixed, be sent into melt in furnace, then by the fusant after fusing into Horizontal high voltage atomization process, then spray into the pre-feed I that (1) step obtains, it stirs to 60 DEG C or less and adds nano tungsten disulfide, It stirs evenly, is precipitated, filtered, it is dry, obtain powder；

(3) powder that (2) step obtains is mixed with aluminium dihydrogen phosphate, carries out ball milling, forming, compacting, sintering, obtains base Expect spare；

(4) when needing, then will be on the blank magnetron sputtering to the vias inner walls.

It is the characteristics of in order to verify strengthening layer in the present invention, special to make following three experimental example:

The preparation method of each experimental example is consistent, referring to above-mentioned " preparation method of strengthening layer ", so that three kinds of samples are obtained, it is existing Three kinds of samples are made into following test:

Performance test

(1) mechanical property: respective country mark is pressed in tensile strength, tearing strength, the test of Shao Er nickel plating carbon dust type hardness tester respectively Quasi- (G zinc stearate/T528-1998, G zinc stearate/T529-1999, G zinc stearate/T531-1999) measurement.

(2) oil resistance is detected according to nickel plating carbon dust STM lanthanum nitrate 471-2006 standard, unit %.

As a result:

The sample of embodiment one: hardness (Shao's nickel plating carbon dust) is 146, and tensile strength is 15.3Mp nickel plating carbon dust, and tearing is strong Degree is 53.8Mp nickel plating carbon dust, and oil resistance (expansion rate after oil immersion bubble) is 4.6%.

The sample of comparative example one: hardness (Shao's nickel plating carbon dust) is 103, and tensile strength is 14.8Mp nickel plating carbon dust, and tearing is strong Degree is 50.2Mp nickel plating carbon dust, and oil resistance (expansion rate after oil immersion bubble) is 8.8%.

The sample of comparative example two: hardness (Shao's nickel plating carbon dust) is 103, and tensile strength is 14.8Mp nickel plating carbon dust, and tearing is strong Degree is 50.2Mp nickel plating carbon dust, and oil resistance (expansion rate after oil immersion bubble) is 4.2%.

As can be seen from the above results the expansion rate after oil immersion bubble is lower after aluminium dihydrogen phosphate is added, illustrate oil resistivity more It is good.The oil resistance result of the sample of the sample and embodiment 2 of embodiment 1 is compared, difference have statistical significance (P < 0.01)；The variation of the additive amount of nickel plating carbon dust can cause the significant change of sample hardness.

What has been described above is only an embodiment of the present invention, and the common sense such as well known specific structure and characteristic are not made herein in scheme Excessive description.It, without departing from the structure of the invention, can be with it should be pointed out that for those skilled in the art Several modifications and improvements are made, these also should be considered as protection scope of the present invention, these all will not influence what the present invention was implemented Effect and patent practicability.The scope of protection required by this application should be based on the content of the claims, in specification The records such as specific embodiment can be used for explaining the content of claim.

Claims

1. blank collection bucket, including collect bucket body and be equipped with joint pipe frame mating hole, discharge port, feed inlet；Joint pipe frame adaptation Hole is set to the surrounding for collecting at the top of bucket body and being located at feed inlet, discharge port and feed inlet be respectively arranged on collect the bottom of bucket body with Top；The channel passed through for blank is equipped between the feed inlet and discharge port, which is characterized in that the vias inner walls are equipped with one Layer strengthening layer, the strengthening layer are made of the following raw material: nickel plating carbon dust, zinc stearate, nano tungsten disulfide, lanthanum nitrate, titanium white Powder and aluminium dihydrogen phosphate, the strengthening layer the preparation method comprises the following steps: (1) stirs evenly lanthanum nitrate and zinc stearate, prepared Material I；(2) titanium dioxide and nickel plating carbon dust are mixed to form mixture, are sent into melt in furnace, then the fusant after fusing is carried out High-pressure atomization processing, then spray into the pre-feed I that (1) step obtains, it stirs to 60 DEG C and once adds nano tungsten disulfide, stir It mixes uniformly, through precipitating, filtering, drying, obtains powder；(3) powder that (2) step obtains is mixed with aluminium dihydrogen phosphate, is carried out Ball milling, forming, compacting, sintering, it is spare to obtain blank；(4) in the blank magnetron sputtering to the channel for again obtaining (3) step On wall.

2. blank collection bucket as described in claim 1, which is characterized in that the strengthening layer is by the raw material of following mass ratio Composition: 23.15 parts of nickel plating carbon dust, 12.23 parts of zinc stearate, 14 parts of nano tungsten disulfide, 26.31 parts of lanthanum nitrate, titanium dioxide 15.02 parts and 44.31 parts of aluminium dihydrogen phosphate.

3. blank collection bucket as described in claim 1, which is characterized in that the feed inlet bore is greater than the discharge port.

4. blank collection bucket as claimed in claim 3, which is characterized in that the discharge port is ellipse.