CN110587490A - Polishing wax structure and production process thereof - Google Patents

Abstract

The invention discloses a polishing wax structure and a production process thereof, relates to the technical field of polishing wax, and solves the technical problem of high recycling cost of a shaft lever. The polishing wax comprises a shaft lever and a polishing wax body, wherein a shaft hole which is coaxial with the shaft lever and is used for inserting and fixing the shaft lever is arranged in the polishing wax body, a flexible buffer layer which is arranged around the inner wall of the shaft hole is arranged in the shaft hole, the shaft lever is inserted in the flexible buffer layer, the circumscribed circle of the flexible buffer layer is larger than the circumscribed circle of the shaft lever, and the inscribed circle of the flexible buffer layer is smaller than the circumscribed circle of the shaft lever; the invention has the advantage of reducing the recycling cost of the shaft lever.

Description

Polishing wax structure and production process thereof

Technical Field

The invention relates to the technical field of polishing wax, in particular to a polishing wax structure and a production process thereof.

Background

The polishing wax (polishing paste, polishing soap, polishing wax) is mainly used for polishing metal, plastic handicraft, resin, porcelain-like melamine, woodenware painted surface and other products, and is an abrasive material with the performance similar to soap, which is prepared from oil material and powder material according to a scientific proportion. When the polishing wax is used, the polishing wax is wiped uniformly along the rotating direction of the polishing wheel, and then a polished workpiece is taken to do parabolic motion with the polishing wheel.

In the prior art, two methods for using the polishing paste are available, one method is to manually take polishing wax to contact with a polishing wheel, the method is low in manufacturing cost but dangerous, and the manpower and the human cost are high, so that the method is generally suitable for polishing machines with low automation degree; in addition, the automatic waxing device is additionally arranged on the polishing machine to control polishing wax to contact with the polishing wheel, and the method is high in manufacturing cost, low in labor cost and suitable for being used on the polishing machine with higher automation degree.

As shown in fig. 1, in the prior art, the polishing wheel waxing mechanism includes a bracket 2 rotatably connected to the polishing machine, a driving mechanism 3 for driving the bracket 2 to rotate toward the polishing wheel 1, and a rotating mechanism (generally, a belt pulley structure, not shown) disposed on the polishing machine for driving the polishing wax to rotate, the polishing wax generally includes a shaft lever 4 and a polishing wax body 5 formed outside the shaft lever by casting, the polishing wax body 5 is generally cylindrical, when the polishing wheel waxing mechanism is used, the portions of the two ends of the shaft lever 4 extending out of the polishing wax body 5 are fixed on the bracket 2 (the polishing wax body cannot rotate during the waxing process), the driving mechanism 3 drives the bracket 2 to rotate toward the polishing wheel 1, so that the polishing wax body 5 contacts with the polishing wheel 1 to complete the waxing operation, and when the workpiece is polished, the rotating mechanism drives the shaft lever 4 to rotate by a certain angle to replace the contact position of the polishing wax body 5 and the polishing wheel 1 When the polishing machine polishes the next batch of workpieces, the driving mechanism 3 controls the polishing wax body 5 to be in contact with the polishing wheel 1, and the replaced part of the polishing wax body 5 can be in contact with the polishing wheel 1, so that all parts of the polishing wax body 5 can be uniformly used.

Wherein, the production steps of the polishing wax are as follows: 1. hot melting and mixing the raw materials to form a polishing wax solution; 2. vertically inserting the shaft lever into the forming die, and enabling the shaft lever and the forming die to be coaxially arranged; 3, pouring polishing wax solution, then covering a mold cover, and waiting for the polishing wax to be cooled and solidified to form a polishing wax body covering the shaft rod; 4. and taking out the shaft rod together with the cooled and solidified polishing wax body.

However, in actual sale and use, I find that a polishing wax manufacturer produces polishing wax and then sells and transports the polishing wax to the polishing wax manufacturer, and the polishing wax manufacturer needs to return the shaft rod to the polishing wax manufacturer again for recycling after use, and during this period, a large amount of transportation, transportation and storage costs exist in the shaft rod recycling process, so that economic benefits are reduced, and therefore improvement is needed.

Disclosure of Invention

The invention aims to provide a polishing wax structure which has the advantage of reducing the recycling cost of a shaft lever, and the invention also aims to provide a polishing wax production process which can produce the effect of reducing the recycling cost of the shaft lever.

In order to achieve the purpose, the invention provides the following technical scheme: the polishing wax comprises a shaft lever and a polishing wax body, wherein a shaft hole which is coaxially arranged with the shaft lever and used for fixing the shaft lever in an inserting mode is formed in the polishing wax body, a flexible buffer layer which is arranged on the inner wall of the annular shaft hole is formed in the shaft hole, the shaft lever is inserted into the flexible buffer layer, the circumscribed circle of the flexible buffer layer is larger than the circumscribed circle of the shaft lever, and the inscribed circle of the flexible buffer layer is smaller than the circumscribed circle of the shaft lever.

Through adopting above-mentioned technical scheme, it fixes on the outer wall of flexible buffer layer to pour into a mould during polishing wax body shaping, the axostylus axostyle then adopts the mode of pegging graft to fix on flexible buffer layer inner wall in order to realize the fixed connection between axostylus axostyle and the polishing wax body, consequently, can go on the production shaping of polishing wax body in polishing wax manufacturer, put polishing wax body and the equipment work of axostylus axostyle and go on in polishing wax use manufacturer department, therefore, when actual sales uses, polishing wax manufacturer only need transport the polishing wax body that produces to polishing wax in the polishing wax use manufacturer, then with the polishing wax use the axostylus axostyle that the manufacturer left after using insert into polishing wax axostylus axostyle can, thereby when reaching the recycle axostylus axostyle, need not again to transport the effect in the polishing wax manufacturer with.

The invention is further configured to: the cross sections of the shaft hole and the shaft lever are arranged in a regular polygon shape.

Through adopting above-mentioned technical scheme, the axostylus axostyle that is regular polygon shape setting can further increase the joint strength between axostylus axostyle and the polishing wax body for the polishing wax body is difficult more and the axostylus axostyle separation.

The invention is further configured to: the flexible buffer layer is formed by connecting two long sides of corrugated paper or a flexible rubber sheet.

Through adopting above-mentioned technical scheme, the producer can be through forming the flexible buffer layer that regular polygon shape set up with corrugated paper or flexible sheet rubber batching one group, and the actual thickness of corrugated paper or flexible sheet rubber can be adjusted as required, make circumscribed circle diameter be greater than the axostylus axostyle of flexible buffer layer internal diameter in can inserting into the flexible buffer layer, and simultaneously, because receive the extrusion and the flexible buffer layer that thickness diminishes not only can fill the joint strength between axostylus axostyle and the polishing cream body, can play the absorbing effect of buffering simultaneously, make the use of this polishing cream safer.

The invention is further configured to: the outer wall of flexible buffer layer is provided with first anti-skidding line.

Through adopting above-mentioned technical scheme, can increase the joint strength between flexible buffer layer and the polishing paste body through first non-slip texture.

The invention is further configured to: the length of the flexible buffer layer is greater than that of the polishing wax body, and two ends of the flexible buffer layer extend out of two ends of the polishing wax body.

By adopting the technical scheme, the polishing wax solution can be prevented from overflowing into the flexible buffer layer in the casting molding process.

The invention is further configured to: the outer wall of the flexible buffer layer is coated with a hard reinforcing net.

Through adopting above-mentioned technical scheme, utilize the stereoplasm reinforcing mesh can increase the intensity of flexible buffer layer, avoid in the transportation, the polishing wax body is extruded because central cavity sets up and bursts.

The invention is further configured to: the outer wall of the shaft rod is provided with a plurality of annular shaft rod axes which are circumferentially arranged and along the second anti-skid grains arrayed in the length direction of the shaft rod.

Through adopting above-mentioned technical scheme, utilize the second antiskid line can increase the joint strength between axostylus axostyle and the flexible buffer layer for be connected between axostylus axostyle and the flexible buffer layer is inseparabler.

A production process for the polishing wax structure comprises the following steps:

the method comprises the following steps: hot melting and mixing the raw materials to form a polishing wax solution;

step two: selecting a regular polygon rod body with an external tangent circle slightly smaller than the shaft lever and the same number of sides as the shaft lever, rolling the corrugated paper or the flexible rubber sheet on the regular polygon rod body to form a flexible buffer layer, and rolling the hard reinforcing net on the outer wall of the flexible buffer layer;

step three: installing the regular polygon rod body sleeved with the flexible buffer layer into a forming die, pouring polishing wax solution and covering a die cover;

step four: after the polishing wax solution is solidified to form a polishing wax body, taking out the polishing wax body together with the regular polygonal rod body;

step five: taking out the regular polygonal rod body from the flexible buffer layer, and then conveying the polishing wax body with the flexible buffer layer inside to a polishing wax user;

step six: and inserting the shaft rod stored in a manufacturer of the polishing wax into the flexible buffer layer to realize the fixed connection between the shaft rod and the polishing wax body.

Through adopting above-mentioned technical scheme, utilize the cooperation between regular polygon body of rod and corrugated paper or the flexible rubber piece for corrugated paper or the flexible rubber piece can be simple the batching be the flexible buffer layer that regular polygon shape set up, ensure polishing wax solution casting forming in-process, flexible buffer layer can set up with fashioned polishing wax body coaxial line.

The invention is further configured to: before the second step is carried out, a plurality of pre-folding lines are pressed on the inner wall and the outer wall of the corrugated paper or the flexible rubber sheet in a pressure-equalizing mode, and the positions of the pre-folding lines correspond to the bending parts of the flexible ring layer respectively.

Through adopting above-mentioned technical scheme, utilize the corrugated paper or the flexible rubber piece of being convenient for more of crease to buckle out the flexible buffer layer that the inner wall can laminate in the outer wall of regular polygon pole in advance.

The invention is further configured to: and step two, binding and fixing the hard reinforcing net by using ropes or adhesive tapes.

Through adopting above-mentioned technical scheme for flexible buffer layer can not break away from regular polygon pole, ensures the stability of flexible buffer layer and stereoplasm reinforcing mesh in the pouring process.

Compared with the prior art, the invention has the beneficial effects that:

(1) the shaft lever does not need to be transported back to the polishing wax manufacturer again in the recycling process, so that the recycling cost of the polishing wax manufacturer is greatly reduced;

(2) when the polishing wax manufacturer produces the polishing wax, the polishing wax manufacturer does not need to wait for the polishing wax user to transport the shaft rod back to the polishing wax production field, so that the production limitation condition of the polishing wax is reduced;

(3) the polishing wax manufacturer does not need to prepare a storage and transfer warehouse of the shaft rod, which is beneficial to reducing the site cost;

(4) the flexible buffer layer can also play a role in buffering and damping in the using process, so that the use safety of the shaft lever is ensured;

(5) the produced polishing wax body has no shaft rod, so that when a polishing wax manufacturer conveys polishing wax to a polishing wax use manufacturer, compared with a polishing wax structure with a shaft rod, a transport vehicle can transport a larger number of polishing wax bodies;

(6) the production cost is increased to a limited extent, only the purchase cost and the forming cost of the material of the flexible buffer layer are increased, and the forming method is simple and convenient to popularize and use.

Drawings

FIG. 1 is a schematic representation of the use of a prior art polishing wax;

FIG. 2 is a schematic structural diagram of the present embodiment;

FIG. 3 is a schematic view of the shaft rod of the present embodiment in a withdrawn configuration;

fig. 4 is an enlarged partial cross-sectional view of the flexible buffer layer according to the present embodiment.

Reference numerals: 1. a polishing wheel; 2. a support; 3. a drive device; 4. a shaft lever; 41. a second anti-slip pattern; 5. polishing the wax body; 6. a flexible buffer layer; 61. the first anti-skid texture.

Detailed Description

The invention is described in detail below with reference to the figures and examples.

A polishing wax structure and a production process thereof are combined with a graph shown in a graph 1 and a graph 2, and the polishing wax structure comprises a shaft lever 4, a flexible buffer layer 6, a hard reinforcing net 7 and a polishing wax body 5, wherein the shaft lever 4 is used for being connected with a support 2 of a waxing mechanism, the flexible buffer layer 6 is sleeved on the outer wall of the shaft lever 4 and is in interference fit with the outer wall of the shaft lever 4, the hard reinforcing net 7 is sleeved on the outer wall of the flexible buffer layer 6 and is used for increasing the strength of the flexible buffer layer 6, and; the cross sections of the flexible buffer layer 6 and the shaft lever 4 are in regular polygon shapes, the shaft lever 4 is fixed in the flexible buffer layer 6 in an inserting mode, the hard reinforcing net 7 is made of a plant fiber net or a glass fiber net, and the thickness of the hard reinforcing net 7 is 3-8 mm.

Referring to fig. 2 and 3, the length of the flexible buffer layer 6 is greater than the length of the polishing wax body 5, two ends of the flexible buffer layer 6 extend out of two ends of the polishing wax body 5, and first anti-slip lines 61 for increasing the connection strength between the flexible buffer layer 6 and the polishing wax body 5 are arranged on the outer wall of the flexible buffer layer 6; wherein, the flexible buffer layer 6 is formed by connecting two long sides of corrugated paper or flexible rubber sheets with the thickness of 0.7-1.4 mm.

Specifically, the first anti-slip texture 61 is arranged in a wavy or zigzag manner, and when the flexible buffer layer 6 made of corrugated paper material is adopted, a corrugated layer used as an anti-slip texture is further arranged on the outer wall of the flexible buffer layer.

As shown in fig. 2, a plurality of second anti-slip lines 41 which are circumferentially arranged around the axis of the shaft lever 4 and are arrayed along the length direction of the shaft lever 4 are arranged on the outer wall of the shaft lever 4; wherein, the circumcircle of flexible buffer layer 6 is greater than the circumcircle of axostylus axostyle 4, and the inscribed circle of flexible buffer layer 6 is less than the circumcircle of axostylus axostyle 4, and the difference of the radius of the inscribed circle of axostylus axostyle 4 and the radius of the inscribed circle of polishing wax body 5 is less than the thickness of flexible buffer layer 6, when axostylus axostyle 4 is pegged graft in flexible buffer layer 6, the thickness of flexible buffer layer 6 can diminish because of receiving the extrusion.

Specifically, in this embodiment, as shown in fig. 3, taking a flexible buffer layer 6 formed by winding corrugated paper as an example, the difference between the radius of the inscribed circle of the shaft rod 4 and the radius of the inscribed circle of the polishing wax body 5 is slightly smaller than the product of the number of layers of corrugated paper and the thickness of each layer of corrugated paper.

A production process for the polishing wax structure comprises the following steps:

the method comprises the following steps: hot melting and mixing the raw materials to form a polishing wax solution;

step two: selecting a regular polygon rod body with an excircle slightly smaller than the shaft lever 4 and the same number of sides as the shaft lever 4, rolling corrugated paper or flexible rubber sheets on the regular polygon rod body to form a flexible buffer layer 6, and rolling a hard reinforcing net 7 on the outer wall of the flexible buffer layer 6;

step three: installing the regular polygon rod body sleeved with the flexible buffer layer 6 into a forming die, and pouring polishing wax solution and covering a die cover;

step four: after the polishing wax solution is solidified to form a polishing wax body 5, taking out the polishing wax body 5 together with the regular polygonal rod body;

step five: taking out the regular polygonal rod body from the flexible buffer layer 6, and then conveying the polishing wax body 5 with the flexible buffer layer 6 inside to a polishing wax user;

step six: the shaft rod 4 stored in a manufacturer of the polishing wax is inserted into the flexible buffer layer 6 to realize the fixed connection between the shaft rod 4 and the polishing wax body 5.

Before the second step, pressing a plurality of pre-folding lines arranged along the length direction of the corrugated paper or the flexible rubber sheet on the inner wall and the outer wall of the corrugated paper or the flexible rubber sheet in a pressure-equalizing manner, wherein the positions of the pre-folding lines respectively correspond to the bending parts of the flexible ring layer; and in the second step, the hard reinforcing mesh 7 is bound and fixed by using ropes or adhesive tapes.

When the shaft lever 4 is inserted into the flexible buffer layer 6 in the sixth step, one end of the shaft lever 4 is firstly inserted into the flexible buffer layer 6, and then the shaft lever 4 is knocked into the flexible annular layer by utilizing a hammer knocking mode.

It should be noted that, because the rigid reinforcing mesh 7 is a mesh, when the polishing wax solution is poured, the polishing wax solution will seep into the rigid reinforcing mesh 7 and the gap between the rigid reinforcing mesh 7 and the flexible buffer layer 6, so that the polishing wax solution can still be bonded and fixed with the flexible buffer layer 6.

The working process and the beneficial effects of the invention are as follows:

when the polishing wax body 5 is produced by a polishing wax manufacturer, the polishing wax body can be directly produced by the regular polygon rod of the production place without waiting for the shaft lever 4 to be sent to the production place, so that the uninterrupted production work of the polishing wax body 5 can be realized by equipping twice the regular polygon rod of the production mould, the production efficiency is effectively ensured, and the supply time can be controlled.

The installation work of axostylus axostyle 4 is gone on in polishing wax uses the producer for axostylus axostyle 4 need not to transport can production place, eliminates the transport cost of axostylus axostyle 4 from the root cause, effectively reduces the manufacturing cost of polishing wax structure, and because at the in-process of carrying polishing wax body 5 to polishing wax use producer, do not have axostylus axostyle 4 in the polishing wax body 5, at this moment, the polishing wax structure (no axostylus axostyle 4) weight of transportation is lower, consequently can reduce the cost of delivering goods of polishing wax structure (no axostylus axostyle 4.

When the shaft lever 4 is installed in the polishing wax body 5, the flexible buffer layer 6 deforms due to extrusion, at the moment, the flexible buffer layer 6 can play a role in filling a gap between the shaft lever 4 and the polishing wax body 5, so that the connection strength between the shaft lever 4 and the polishing wax body 5 can be guaranteed, meanwhile, the flexible buffer layer 6 has certain buffer and shock absorption capacity and can play a role in protecting the shaft lever 4, and the shaft lever 4 is not prone to fracture due to vibration in the use process of the shaft lever 4; it should be noted that, during the use process, the polishing wax body 5 may rub due to the contact with the polishing wheel 1, and the polishing wax may be forced to vibrate when the polishing wheel 1 rotates at a high speed due to the rough surface of the polishing wheel 1, thereby adversely affecting the shaft 4.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (10)

1. A polishing wax structure, comprising a shaft rod (4) and a polishing wax body (5), characterized in that: the polishing wax is characterized in that a shaft hole which is coaxially arranged with the shaft lever (4) and used for inserting and fixing the shaft lever (4) is formed in the polishing wax body (5), a flexible buffer layer (6) arranged on the inner wall of the annular shaft hole is arranged in the shaft hole, the shaft lever (4) is inserted into the flexible buffer layer (6), the circumscribed circle of the flexible buffer layer (6) is larger than that of the shaft lever (4), and the inscribed circle of the flexible buffer layer (6) is smaller than that of the shaft lever (4).

2. The polishing wax structure of claim 1, wherein: the cross sections of the shaft hole and the shaft lever (4) are arranged in regular polygon shapes.

3. The polishing wax structure of claim 1, wherein: the flexible buffer layer (6) is formed by connecting two long sides of corrugated paper or a flexible rubber sheet.

4. The polishing wax structure of claim 1, wherein: the outer wall of the flexible buffer layer (6) is provided with first anti-slip lines (61).

5. The polishing wax structure of claim 1, wherein: the length of the flexible buffer layer (6) is larger than that of the polishing wax body (5), and two ends of the flexible buffer layer (6) extend out of two ends of the polishing wax body (5).

6. The polishing wax structure of claim 1, wherein: the outer wall of the flexible buffer layer (6) is coated with a hard reinforcing net (7).

7. The polishing wax structure of claim 1, wherein: the outer wall of the shaft rod (4) is provided with a plurality of second anti-skid lines (41) which are arranged along the circumferential direction of the axis of the annular shaft rod (4) and arrayed along the length direction of the shaft rod (4).

8. A process for producing a polishing wax structure as claimed in any of claims 1 to 7, comprising the steps of:

the method comprises the following steps: hot melting and mixing the raw materials to form a polishing wax solution;

step two: selecting a regular polygon rod body with an external tangent circle slightly smaller than the shaft lever (4) and the same number of sides as the shaft lever (4), rolling corrugated paper or flexible rubber sheets on the regular polygon rod body to form a flexible buffer layer (6), and rolling a hard reinforcing net (7) on the outer wall of the flexible buffer layer (6);

step three: installing the regular polygon rod body sleeved with the flexible buffer layer (6) into a forming die, and pouring polishing wax solution and covering a die cover;

step four: after the polishing wax solution is solidified to form a polishing wax body (5), taking out the polishing wax body (5) together with the regular polygonal rod body;

step five: taking the regular polygonal rod body out of the flexible buffer layer (6), and then conveying the polishing wax body (5) with the flexible buffer layer (6) inside to a polishing wax user;

step six: the shaft rod (4) which is stored in a manufacturer of the polishing wax is inserted into the flexible buffer layer (6) to realize the fixed connection between the shaft rod (4) and the polishing wax body (5).

9. The structure of polishing wax and the process for producing the same as claimed in claim 8, wherein: before the second step is carried out, a plurality of pre-folding lines are pressed on the inner wall and the outer wall of the corrugated paper or the flexible rubber sheet in a pressure-equalizing mode, and the positions of the pre-folding lines correspond to the bending parts of the flexible ring layer respectively.

10. The structure of polishing wax and the process for producing the same as claimed in claim 8, wherein: and step two, binding and fixing the hard reinforcing net (7) by using ropes or adhesive tapes.