CN219212663U - Stainless steel whole-coil wire drawing machine - Google Patents

Abstract

The utility model relates to the technical field of wire drawing machines, in particular to a stainless steel whole-roll wire drawing machine, wherein a bottom steel roller is arranged right below an abrasive belt assembly; conveying assemblies for conveying plates are arranged on the front side and the rear side of the abrasive belt assembly; the abrasive belt assembly comprises an abrasive frame and an abrasive belt; the top and the bottom of the grinding frame are respectively connected with a swing frame and a sand roller bracket in a lifting sliding manner; the swing frame is rotationally connected with a tensioning roller; the sand roller bracket is rotationally connected with a sand roller; a lower supporting spring is connected between the grinding frame and the sand roller bracket; an upper supporting spring is connected between the swing frame and the grinding frame; the abrasive belt is tensioned between the sand roller and the tensioning roller; the sand roller is connected to a sand roller driving motor. When the abrasive belt is used, the phenomenon that the abrasive belt is rigidly contacted with the plate to cause clamping or press deformation of the plate is avoided, so that the flatness of the plate is ensured, and the plate feeding and discharging is smoother.

Description

Stainless steel whole-coil wire drawing machine

Technical Field

The utility model relates to the technical field of wire drawing machines, in particular to a stainless steel whole-roll wire drawing machine.

Background

With the increasing demand for texture on wiredrawing surfaces in the decorative stainless steel surface processing market, vast processing enterprises are more prone to using more efficient and more stable whole-roll processing line equipment;

the traditional wire drawing machine that stainless steel used is through setting up the roller that is used for the wire drawing on the workstation, carries out wire drawing processing to the surface of stainless steel product through the gap that the manual work was pushed into between workstation and the wire drawing roller. The patent application number is as follows: 201922432923.5, the utility model relates to a stainless steel wire drawing machine with adjustable wire drawing depth; a wire drawing roller is arranged above the workbench, a center rod is connected with the center of the wire drawing roller in a penetrating way, a clamping ring is arranged on one side of the outer surface of the center rod, a bracket is arranged on the outer surface of the bottom end of the clamping ring, and a motor is arranged on one side of the clamping ring; in the structure, a motor directly drives a wire drawing roller to rotate to perform surface treatment on a workpiece; when the stainless steel wire drawing machine works, the positions of the wire drawing rollers are adjusted in advance, so that when the stainless steel products are uneven in thickness, the wire drawing depth can be influenced, and the quality of the products is affected; in severe cases, the product may be stuck.

Disclosure of Invention

The utility model aims to overcome the defects and shortcomings of the prior art and provides a stainless steel whole-roll wire drawing machine with smooth feeding and discharging.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model relates to a stainless steel whole-roll wire drawing machine, which comprises a main bracket and an abrasive belt component for wire drawing treatment on the surface of a plate; a bottom steel roller is arranged right below the abrasive belt assembly; conveying assemblies for conveying plates are arranged on the front side and the rear side of the abrasive belt assembly;

the abrasive belt assembly comprises an abrasive frame and an abrasive belt; the top and the bottom of the grinding frame are respectively connected with a swing frame and a sand roller bracket in a lifting sliding manner; the swing frame is rotationally connected with a tensioning roller; the sand roller bracket is rotationally connected with a sand roller; a lower supporting spring is connected between the grinding frame and the sand roller bracket; an upper supporting spring is connected between the swing frame and the grinding frame; the abrasive belt is tensioned between the sand roller and the tensioning roller; the sand roller is connected to a sand roller driving motor.

Further, the number of the abrasive belt assemblies is at least two; the abrasive belt assemblies are sequentially arranged along the conveying direction of the plates; the abrasive belt assemblies and the conveying assemblies are distributed alternately.

Further, the number of the tensioning rollers on the swing frame is two; the tensioning rollers are symmetrically arranged at the left side and the right side of the sand roller.

Further, a tensioning cylinder is connected between the grinding frame and the swing frame; the number of the upper supporting springs is two; the upper supporting springs are respectively arranged at two sides of the tensioning cylinder; a swing frame guide sleeve is fixed on the grinding frame; and a swing frame guide shaft which is in sliding connection with the swing frame guide sleeve is fixed on the swing frame.

Further, a lifting driving assembly is connected between the main support and the abrasive belt assembly; the lifting driving assembly comprises a lifting driving motor and a synchronous screw rod fixed at the output end of the lifting driving motor; two bearing seats are fixed on the grinding frame; two ends of the sand roller are respectively connected with the two bearing seats in a rotating way; and a telescopic universal joint is connected between the sand roller and the sand roller driving motor.

Further, the conveying assembly comprises a lifting cylinder, a conveying roller bracket fixed on the main bracket, a driven conveying roller rotationally connected on the conveying roller bracket, a sliding seat slidingly connected on the conveying roller bracket and a driving conveying roller rotationally connected on the sliding seat; two ends of the lifting cylinder are respectively fixed on the sliding seat and the conveying roller bracket; the driving conveying roller is arranged right below the driven conveying roller.

After the structure is adopted, the utility model has the beneficial effects that: when the stainless steel whole-roll wire drawing machine is used, a plate is placed on the conveying assembly and conveyed between the sand belt assembly and the bottom steel roller, the sand roller driving motor drives the sand roller to rotate, so that the sand belt rotates, and the surface of the plate passing between the sand roller and the bottom steel roller is drawn by the rotating sand belt; the sand roller and the grinding frame are elastically pressed by the upper supporting spring, so that the abrasive belt and the plate can be elastically pressed in addition to the elastic tensioning of the abrasive belt, the phenomenon that the abrasive belt is rigidly contacted with the plate to cause clamping or the plate is pressed and deformed is avoided, the flatness of the plate is ensured, and the plate feeding and discharging is smoother; and the elastic pressing abrasive belt ensures that the abrasive belt is always pressed on the surface of a stainless steel product, and the wiredrawing quality of the product is ensured.

Drawings

FIG. 1 is a right side view of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a schematic view of the construction of the belt assembly;

FIG. 4 is a schematic structural view of a transport assembly;

FIG. 5 is a block diagram of a lift drive assembly with a sand roller attached;

reference numerals illustrate:

1. a belt assembly; 101. a grinding frame; 102. a lower support spring; 103. a lower linear guide rail;

104. a tensioning cylinder; 105. abrasive belt; 106. a tension roller; 107. a swing frame;

108. a swing frame guide shaft; 109. a swing frame guide sleeve; 1010. a sand roller bracket;

1011. an upper support spring; 2. a transport assembly; 201. driven conveying rollers; 202. an active conveying roller;

203. a conveying roller bracket; 204. a lifting cylinder; 205. a slide; 3. a sand roller;

301. a sand roller driving motor; 302. a telescopic universal joint; 4. a main support; 5. a bottom steel roller;

6. a lifting driving assembly; 601. a lifting driving motor; 602. a bearing seat; 603. and synchronizing the screw rods.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 5, the whole stainless steel wire drawing machine comprises a main support 4 and an abrasive belt assembly 1 for wire drawing treatment of the surface of a plate; a bottom steel roller 5 is arranged right below the abrasive belt assembly 1; conveying assemblies 2 for conveying plates are arranged on the front side and the rear side of the abrasive belt assembly 1;

abrasive belt assembly 1 comprises an abrasive frame 101 and an abrasive belt 105; the top and the bottom of the grinding frame 101 are respectively connected with a swing frame 107 and a sand roller bracket 1010 in a lifting and sliding manner; the swing frame 107 is rotatably connected with a tensioning roller 106; the sand roller bracket 1010 is rotatably connected with a sand roller 3; a lower supporting spring 102 is connected between the grinding frame 101 and the sand roller bracket 1010; an upper supporting spring 1011 is connected between the swing frame 107 and the grinding frame 101; the abrasive belt 105 is tensioned between the sand roller 3 and the tensioning roller 106; the sand roller 3 is connected to a sand roller driving motor 301; the grinding frame 101 is in sliding connection with the sand roller bracket 1010 through a lower linear guide rail 103 and a guide sleeve matched with the lower linear guide rail 103;

the plate is arranged on the conveying assembly 2 and conveyed between the sand belt assembly 1 and the bottom steel roller 5, the sand roller driving motor 301 drives the sand roller 3 to rotate, so that the sand belt 105 rotates, and the surface of the plate passing between the sand roller 3 and the bottom steel roller 5 is drawn through the rotating sand belt 105; the sand roller 3 and the grinding frame 101 are elastically pressed by the upper supporting spring 1011, so that the sand belt 105 and the plate can be elastically pressed besides being elastically tensioned, the phenomenon that the sand belt is clamped or the plate is pressed and deformed due to rigid contact with the plate is avoided, the flatness of the plate is ensured, and the plate feeding and discharging is smoother.

As a preferred form of the utility model, the number of belt assemblies 1 is at least two; the abrasive belt assemblies 1 are sequentially arranged along the conveying direction of the plates; the abrasive belt assemblies 1 and the conveying assemblies 2 are distributed at intervals.

As a preferred mode of the present utility model, the number of the tension rollers 106 on the swing frame 107 is two; the tensioning rollers 106 are symmetrically arranged at the left side and the right side of the sand roller 3; the two tensioning rollers 106 and the sand roller 3 enable the abrasive belt 105 to form an isosceles triangle structure, the stress of three supporting points of the abrasive belt 105 is more uniform than that of the conventional double supporting points, the contact angle between the sand roller 3 and the abrasive belt 105 is smaller, and the abrasive belt is more stable to use; after the tensioning force reaches the standard, the surface of the abrasive belt 105 is fully spread, and is in complete contact with the surface of the steel coil, so that the utilization rate of the abrasive belt is naturally improved, and the abrasive belt 105 is more durable.

As a preferable mode of the utility model, a tensioning cylinder 104 is connected between the grinding frame 101 and the swing frame 107; the number of the upper supporting springs 1011 is two; the upper supporting springs 1011 are respectively provided at both sides of the tensioning cylinder 104; a swing frame guide sleeve 109 is fixed on the grinding frame 101; a swing frame guide shaft 108 which is in sliding connection with the swing frame guide sleeve 109 is fixed on the swing frame 107; the tensioning cylinder 104 is used for driving the swing frame 107 to lift, so that the abrasive belt 105 is tensioned or loosened between the sand roller 3 and the tensioning roller 106, and the abrasive belt 105 is convenient to replace; the tensioning cylinder 104 is connected with a valve body push-pull valve, and the gas in the tensioning cylinder 104 can be controlled to enter and exit through the valve body; opening the valve body when the abrasive belt 105 is disassembled, and exhausting the gas in the tensioning cylinder 104; when the abrasive belt 105 is tensioned, the valve body is opened, gas is injected into the tensioning cylinder 104 to a set value, and then the valve body is closed, so that the gas is left in the tensioning cylinder 104.

As a preferred mode of the utility model, a lifting driving assembly 6 is connected between the main support 4 and the abrasive belt assembly 1; the lifting driving assembly 6 comprises a lifting driving motor 601 and a synchronous screw 603 fixed at the output end of the lifting driving motor 601; two bearing seats 602 are fixed on the grinding frame 101; two ends of the sand roller 3 are respectively connected with two bearing seats 602 in a rotating way; a telescopic universal joint 302 is connected between the sand roller 3 and the sand roller driving motor 301; the synchronous screw 603 is connected with a transmission part, and the transmission part can be composed of a gear connected to the synchronous screw 603 and a rack fixed on the main bracket 4;

the synchronous screw rod 603 is driven to rotate through the lifting driving motor 601, so that the grinding frame 101 moves up and down relative to the main support 4, the height of the sand roller 3 is adjusted, plates with different thicknesses can be processed, and further, the height of the grinding frame 101 can be finely adjusted through the structure of the hand wheel and the screw rod nut.

As a preferred mode of the present utility model, the conveying assembly 2 includes a lifting cylinder 204, a conveying roller bracket 203 fixed on the main bracket 4, a driven conveying roller 201 rotatably connected to the conveying roller bracket 203, a sliding seat 205 slidably connected to the conveying roller bracket 203, and a driving conveying roller 202 rotatably connected to the sliding seat 205; the two ends of the lifting cylinder 204 are respectively fixed on the sliding seat 205 and the conveying roller bracket 203; the driving conveying roller 202 is arranged right below the driven conveying roller 201; after the lifting cylinder 204 is started, the driving conveying roller 202 on the sliding seat 205 is driven to do lifting motion, and the gap between the driving conveying roller 202 and the driven conveying roller 201 is adjusted according to the product rear degree.

When the grinding machine is used, the synchronous screw rod is driven to rotate by the lifting driving motor, so that the grinding frame moves in a lifting manner relative to the main support, the height of the sand roller is adjusted, and plates with different thicknesses can be processed; after the lifting cylinder is started, the driving conveying roller on the sliding seat is driven to do lifting movement, and the gap between the driving conveying roller and the driven conveying roller is adjusted according to the product rear degree; the plate is arranged on the conveying assembly and conveyed between the sand belt assembly and the bottom steel roller, the sand roller driving motor drives the sand roller to rotate, so that the sand belt rotates, and the surface of the plate passing between the sand roller and the bottom steel roller is drawn through the rotating sand belt; the sand roller and the grinding frame are elastically pressed by the upper supporting spring, besides the sand belt is elastically tensioned, the sand belt and the plate can be elastically pressed, the phenomenon that the sand belt is rigidly contacted with the plate to cause clamping or press deformation of the plate is avoided, the flatness of the plate is ensured, and the plate feeding and discharging is smoother.

The foregoing description is only of the preferred embodiments of the utility model, and all changes and modifications that come within the meaning and range of equivalency of the structures, features and principles of the utility model are therefore intended to be embraced therein.

Claims (6)

1. A stainless steel whole-roll wire drawing machine comprises a main bracket (4) and an abrasive belt component (1) for wire drawing treatment on the surface of a plate; a bottom steel roller (5) is arranged right below the abrasive belt assembly (1); conveying assemblies (2) for conveying plates are arranged on the front side and the rear side of the abrasive belt assembly (1);

the method is characterized in that: the abrasive belt assembly (1) comprises an abrasive frame (101) and an abrasive belt (105); the top and the bottom of the grinding frame (101) are respectively connected with a swing frame (107) and a sand roller bracket (1010) in a lifting and sliding manner; the swing frame (107) is rotatably connected with a tensioning roller (106); the sand roller bracket (1010) is rotationally connected with a sand roller (3); a lower supporting spring (102) is connected between the grinding frame (101) and the sand roller bracket (1010); an upper supporting spring (1011) is connected between the swing frame (107) and the grinding frame (101); the abrasive belt (105) is tensioned between the sand roller (3) and the tensioning roller (106); the sand roller (3) is connected to a sand roller driving motor (301); the grinding frame (101) and the sand roller support (1010) are connected in a sliding manner through a lower linear guide rail (103) and a guide sleeve matched with the lower linear guide rail (103).

2. The stainless steel whole-roll wire drawing machine according to claim 1, wherein: the number of the abrasive belt assemblies (1) is at least two; the abrasive belt assemblies (1) are sequentially arranged along the conveying direction of the plates; the abrasive belt assemblies (1) and the conveying assemblies (2) are distributed at intervals.

3. The stainless steel whole-roll wire drawing machine according to claim 1, wherein: the number of the tensioning rollers (106) on the swing frame (107) is two; the tensioning rollers (106) are symmetrically arranged at the left side and the right side of the sand roller (3).

4. The stainless steel whole-roll wire drawing machine according to claim 1, wherein: a tensioning cylinder (104) is connected between the grinding frame (101) and the swing frame (107); the number of the upper supporting springs (1011) is two; the upper supporting springs (1011) are respectively arranged at two sides of the tensioning cylinder (104); a swing frame guide sleeve (109) is fixed on the grinding frame (101); and a swing frame guide shaft (108) which is connected with the swing frame guide sleeve (109) in a sliding manner is fixed on the swing frame (107).

5. The stainless steel whole-roll wire drawing machine according to claim 1, wherein: a lifting driving assembly (6) is connected between the main support (4) and the abrasive belt assembly (1); the lifting driving assembly (6) comprises a lifting driving motor (601) and a synchronous screw rod (603) fixed at the output end of the lifting driving motor (601); two bearing seats (602) are fixed on the grinding frame (101); two ends of the sand roller (3) are respectively connected with two bearing seats (602) in a rotating way; a telescopic universal joint (302) is connected between the sand roller (3) and the sand roller driving motor (301); the synchronous screw rod (603) is connected with a transmission part, and the transmission part can be composed of a gear connected to the synchronous screw rod (603) and a rack fixed on the main bracket (4).

6. The stainless steel whole-roll wire drawing machine according to claim 1, wherein: the conveying assembly (2) comprises a lifting cylinder (204), a conveying roller bracket (203) fixed on the main bracket (4), a driven conveying roller (201) rotatably connected to the conveying roller bracket (203), a sliding seat (205) slidingly connected to the conveying roller bracket (203) and a driving conveying roller (202) rotatably connected to the sliding seat (205); two ends of the lifting cylinder (204) are respectively fixed on the sliding seat (205) and the conveying roller bracket (203); the driving conveying roller (202) is arranged right below the driven conveying roller (201).

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