CN220169906U - Automatic fastener transferring assembly and oven device with same - Google Patents

Abstract

The utility model provides an oven device with an automatic fastener transferring component, which comprises an oven and an automatic fastener transferring component. The utility model also provides an automatic fastener transferring assembly which comprises a first conveying belt, a second conveying belt and a steering piece. The first conveyor belt is provided with a first length direction and an output end, and the first conveyor belt moves the fastener towards the output end along the first length direction. The second conveyer belt has second length direction and input, and first length direction is not parallel to each other with second length direction, and the input is located the output below, and the second conveyer belt makes the fastener remove away from the input along second length direction. The steering component is arranged at the output end and used for steering the fastener to move along the second length direction. The conveying speed of the second conveying belt is greater than that of the first conveying belt. Therefore, the utility model can continuously transfer the fasteners.

Description

Automatic fastener transferring assembly and oven device with same

Technical Field

The present utility model relates to a transfer device, and more particularly, to a conveyor belt device for a fastener production line.

Background

In the production line of automatic production of fasteners, a conveyor belt type device is often used to transport fasteners between stations, and under the condition of limited factory building space, the fasteners often have turning requirements in the transportation process.

As shown in the prior art schematic of fig. 8, the leak-proof processing of the fastener is taken as an example: when the anti-leakage paint is applied to the fasteners, the fasteners are turned around and fed into the oven, the clamping jaws 91 are matched with the crown block 92 or other modes, a plurality of fasteners with the anti-leakage paint are clamped from the conveyer belt at one time, and the fasteners are transferred to the conveyer belt in the heating device to continue the heating process. This way of transferring has several problems: 1. the clamping jaw may hurt the fastener when clamping the fastener, and may also affect the coating of the leak-proof coating; 2. tolerance of the fastener, thickness of the anti-leakage paint, and position difference of the fastener on the conveyor belt may cause the clamping jaw to leak or fall during clamping the fastener; 3. because the clamping strokes of the clamping jaws have time difference, the conveyor belt before entering the heating device must be stopped and walked by matching with the clamping jaws, and continuous production cannot be performed, so that the productivity is affected.

In view of the above, a better solution is a problem to be solved in the industry.

Disclosure of Invention

The utility model provides an automatic fastener transferring assembly which can be used in a production line for preventing the fasteners from being processed in a leakage way, and can continuously transfer the fasteners without stopping to cause time difference.

In order to achieve the above-mentioned object, the present utility model provides an automatic fastener transferring assembly, comprising:

the first conveying belt is provided with a first length direction and an output end, and the first conveying belt can move the fastener towards the output end along the first length direction;

the second conveying belt is provided with a second length direction, the first length direction and the second length direction are not parallel to each other, the second conveying belt is provided with an input end, the input end is positioned below the output end of the first conveying belt, and the second conveying belt can enable the fastener to move away from the input end along the second length direction; and

the steering piece is arranged at the output end and used for steering the fastener to move along the second length direction;

wherein the conveying speed of the second conveying belt is greater than the conveying speed of the first conveying belt.

In addition, the utility model also provides an oven device with an automatic fastener transferring component, which is used for drying a fastener, and the oven device with the automatic fastener transferring component comprises:

an oven; and

at least one automatic fastener transferring assembly, each of the at least one automatic fastener transferring assembly comprising:

the first conveying belt is provided with a first length direction and an output end, and the first conveying belt can move the fastener towards the output end along the first length direction;

the second conveying belt is provided with a second length direction, the first length direction and the second length direction are not parallel to each other, the second conveying belt is provided with an input end, the input end is positioned below the output end of the first conveying belt, and the second conveying belt can enable the fastener to move away from the input end along the second length direction; and

the steering piece is arranged at the output end and used for steering the fastener to move along the second length direction;

the conveying speed of the second conveying belt is greater than that of the first conveying belt, and the second conveying belt penetrates through the oven.

Therefore, the automatic fastener transferring assembly has the advantages that compared with the clamping jaw and the crown block in the prior art, the automatic fastener transferring assembly can continuously transfer the fasteners without waiting for the crown block to stop back and forth so as to improve the productivity, and the fasteners are not damaged by clamping or fall off due to no clamping stability so as to influence the yield. In addition, the steering part used in the creation has small volume and simple structure, so the installation is convenient.

An automated fastener transfer assembly as described above, wherein: the steering member is provided with an arc edge which spans the first conveying belt, one end of the arc edge extends along the second length direction, and the other end deflects opposite to the first length direction.

An automated fastener transfer assembly as described above, comprising: the first magnetic piece is arranged below the first conveying belt along the first length direction and is used for attracting the fastener; and the second magnetic piece is arranged below the second conveying belt along the second length direction and is used for attracting the fastener.

The automatic fastener transferring assembly as described above, wherein the magnetic force of the second magnetic member is greater than the magnetic force of the first magnetic member.

An automated fastener transfer assembly as described above, wherein: the first conveyor belt comprises: a first straight line section for carrying and transporting the fastener; the output end is formed on the first straight line section; the two ends of the loop-back section are connected with the two ends of the first straight line section; and the second conveyor belt comprises: a second straight line section for carrying and transporting the fastener; the input end is located on the second straight line segment and located between the first straight line segment and the return segment.

The oven device with the automatic fastener transferring components as described above, wherein the number of the at least one automatic fastener transferring components is plural.

Drawings

Fig. 1 is a schematic perspective view of an oven apparatus with an automatic fastener transferring assembly according to the present utility model.

Fig. 2 is a partial perspective view of the automatic fastener transfer assembly of the present utility model.

Fig. 3 is a schematic partial perspective view of the automatic fastener transferring assembly of the present utility model, which does not show the turning member.

Fig. 4 is a schematic top view of a portion of the automatic fastener transferring assembly of the present utility model, not shown with the diverter.

Fig. 5 is a schematic cross-sectional side view of the automatic fastener transfer assembly of the present utility model, without the diverter.

Fig. 6 is a partial top view of the fastener automatic transfer assembly of the present utility model.

Fig. 7 is a schematic top view of a portion of the automatic fastener transfer assembly of the present utility model, showing the first magnetic member and the second magnetic member.

Fig. 8 is a schematic diagram of the prior art.

Legend description: 10. an oven; 20. the fastener automatic transfer component; 21. a first conveyor belt; 211. an output end; 212. a first straight line segment; 213. a loop-back section; 22. a second conveyor belt; 221. an input end; 222. a second straight line segment; 23. a steering member; 231. arc edges; 24. a first magnetic member; 25. a second magnetic member; 91. a clamping jaw; 92. a crown block; A. a fastener; d1, a first length direction; d2, a second length direction.

Detailed Description

The utility model will be further described with reference to the drawings and the specific examples.

Referring to fig. 1 to 3 and 5, the present utility model provides an oven device with an automatic fastener transferring component for drying fasteners a. The oven device with the automatic fastener transferring assembly comprises an oven 10 and an automatic fastener transferring assembly 20. The present embodiment includes two automatic fastener transferring assemblies 20, but is not limited thereto, and in other embodiments may include only one automatic fastener transferring assembly 20 or more than two automatic fastener transferring assemblies 20.

The automatic fastener transferring assembly 20 is disposed through the oven 10 and is used for conveying the fasteners a into the oven 10. The automatic fastener transferring assembly 20 comprises a first conveyor 21, a second conveyor 22, a steering member 23, a first magnetic member 24, and a second magnetic member 25.

Please refer to fig. 2 to 5. The first conveyor belt 21 has an output end 211, a first straight line segment 212, and a return line segment 213, and the first conveyor belt 21 may define a first length direction D1. The output 211 is formed on the first straight line segment 212. The first straight line segment 212 is used for carrying and transporting the fastener a, specifically, the fastener a contacts the upper side surface of the first straight line segment 212, so that the first conveyor belt 21 moves the fastener a toward the output end 211 along the first length direction D1. The loop-back section 213 is connected at both ends to both ends of the first straight line section 212, and the first conveyor belt 21 forms a closed loop by interconnecting the first straight line section 212 and the loop-back section 213.

The second conveyor 22 is disposed through the oven 10 and can define a second length direction D2. The first length direction D1 and the second length direction D2 are not parallel to each other. The second conveyor 22 includes an input end 221 and a second straight section 222. The input end 221 is located on the second straight line segment 222 and below the output end 211 of the first conveyor belt 21, specifically, the input end 221 is located between the first straight line segment 212 and the return segment 213, and in this embodiment, the input end 221 is close to the lower side surface of the first straight line segment 212 to reduce the drop, so as to avoid the fastener a from falling over during the transferring process, but not limited thereto. The second straight section 222 is used for carrying and transporting the fastener a, specifically, the fastener a contacts the upper side of the second straight section 222, whereby the second conveyor 22 moves the fastener a away from the input end 221 along the second length direction D2. The conveying speed of the second conveying belt 22 is greater than that of the first conveying belt 21 by about 1.1-3 times, so that the fasteners A are prevented from being blocked at the output end 211.

Please refer to fig. 2 and 6. The turning member 23 is disposed at the output end 211 of the first conveyor belt 21, and is configured to turn the fastener a and move along the second length direction D2. In this embodiment, the steering member 23 has an arcuate edge 231, and the arcuate edge 231 spans the first conveyor belt 21. One end of the arc 231 extends along the second length direction D2, and the other end is biased opposite to the first length direction D1. The fastener a conveyed by the first conveyor 21 to the output end 211 slides along the arcuate edge 231 and is separated from the first conveyor 21, and thereby transferred to the second conveyor 22.

Specifically, one end of the arc 231 extends along the conveying direction of the second conveyor belt 22, and the other end of the arc 231 is inclined in a direction opposite to the conveying direction of the first conveyor belt 21 after crossing the first conveyor belt 21, so that the fastener a conveyed by the first conveyor belt 21 can contact the arc 231 at the output end 211 and gradually move to the second conveyor belt 22 along the arc 231, but not limited thereto; in other embodiments, the diverter may comprise a wheel, and the fastener a is transferred from the first conveyor 21 to the second conveyor 22 by a wheel diverter; or in other embodiments the steering member may comprise a beveled edge which is a straight line and extends from the output end to the input end.

Please refer to fig. 5 and 7. The first magnetic member 24 is elongated, and the first magnetic member 24 is disposed below the first straight line segment 212 of the first conveyor belt 21 along the first length direction D1. The first magnetic member 24 is used for attracting the fastening member a, so that the fastening member a can be stably contacted with the upper side surface of the first straight line segment 212.

Similarly, the second magnetic member 25 is elongated, and the second magnetic member 25 is disposed below the second straight line 222 of the second conveyor belt 22 along the second length direction D2. The second magnetic member 25 is used for attracting the fastening member a, so that the fastening member a can be stably contacted with the upper side surface of the second straight-line segment 222. In the present embodiment, the magnetic force of the second magnetic member 25 is greater than the magnetic force of the first magnetic member 24, so that the fastener a is separated from the first conveyor belt 21 and transferred to the second conveyor belt 22, but not limited thereto, in other embodiments, the magnetic force of the first magnetic member 24 may be equal to the magnetic force of the second magnetic member 25.

Referring to fig. 2 and 5-7, in the present embodiment, the fastener a with the leak-proof coating is transported to the output end 211 by the first straight line section 212 of the first conveyor belt 21, and the first magnetic member 24 under the first straight line section 212 attracts the fastener a, so that the fastener a can be stably contacted with the upper side surface of the first straight line section 212. Then, when the fastener a moves along the first conveyor 21 to the output end 211, it is blocked by the arc edge 231 of the turning member 23, and the fastener a changes its moving direction along the arc edge 231 and moves to the input end 221 of the second straight section 222 of the second conveyor 22. The second magnetic member 25 below the second straight section 222 attracts the fastener a, so that the fastener a can be stably contacted with the upper side of the second straight section 222, and is carried away from the input end 221 along the second length direction D2, and enters the oven 10 for drying.

Compared to the prior art of transferring the fastener a using the clamping jaw 91 and the crown block 92 as shown in fig. 8, the automatic fastener transferring assembly 20 of the present utility model can continuously change the conveying direction of the fastener a from the first conveyor belt 21 to the second conveyor belt 22 without waiting for the crown block 92 to clamp the fastener a back and forth and stop, thereby improving productivity; in addition, the clamping jaw 91 clamps the fastener A to cause damage to the fastener A, or the production yield is not affected because the fastener A is not clamped stably and falls or is not placed well.

In summary, the automatic fastener transferring assembly 20 of the present utility model can continuously transfer the fastener a, and the fastener a is not damaged, and the turning member 23 has a small size, a simple structure, and is easy to install and use and not easy to damage. In addition, the automatic fastener transferring assembly 20 of the present utility model may be used in other devices without being matched with the oven 10, or may be used only for conveying and turning the fastener a.

The present utility model has been described in detail with reference to the embodiments of the drawings, and those skilled in the art can make various modifications to the utility model based on the above description. Accordingly, certain details of the illustrated embodiments are not to be taken as limiting the utility model, which is defined by the appended claims.

Claims (7)

1. An automatic fastener transfer assembly, comprising:

the first conveying belt is provided with a first length direction and an output end, and the first conveying belt can move the fastener towards the output end along the first length direction;

the second conveyor belt is provided with a second length direction, the first length direction and the second length direction are not parallel to each other, the second conveyor belt is provided with an input end, the input end is positioned below the output end of the first conveyor belt, and the second conveyor belt can enable the fastener to move away from the input end along the second length direction; and

the steering piece is arranged at the output end and used for steering the fastener to move along the second length direction;

wherein the conveying speed of the second conveying belt is greater than the conveying speed of the first conveying belt.

2. The automated fastener transfer assembly of claim 1, wherein:

the steering part is provided with an arc edge, the arc edge spans the first conveying belt, one end of the arc edge extends along the second length direction, and the other end of the arc edge deflects opposite to the first length direction.

3. The automated fastener transfer assembly of claim 1, wherein:

the first magnetic piece is arranged below the first conveying belt along the first length direction and is used for attracting the fastener; and

the second magnetic piece is arranged below the second conveying belt along the second length direction and is used for attracting the fastener.

4. The fastener automatic transfer assembly of claim 3, wherein the magnetic force of the second magnetic member is greater than the magnetic force of the first magnetic member.

5. The automated fastener transfer assembly of any of claims 1 to 4, wherein:

the first conveyor belt comprises:

the first straight line section is used for bearing and conveying the fastener; the output end is formed on the first straight line segment;

the two ends of the loop-back section are connected with the two ends of the first straight line section; and is also provided with

The second conveyor belt comprises:

a second linear section for carrying and transporting the fastener;

the input end is located on the second straight line segment and located between the first straight line segment and the return segment.

6. An oven device with an automatic fastener transferring component for drying a fastener, characterized in that the oven device with the automatic fastener transferring component comprises:

an oven; and

at least one automatic fastener transferring assembly, each of the at least one automatic fastener transferring assembly comprising:

the first conveying belt is provided with a first length direction and an output end, and the first conveying belt can move the fastener towards the output end along the first length direction;

the second conveyor belt is provided with a second length direction, the first length direction and the second length direction are not parallel to each other, the second conveyor belt is provided with an input end, the input end is positioned below the output end of the first conveyor belt, and the second conveyor belt can enable the fastener to move away from the input end along the second length direction; and

the steering piece is arranged at the output end and used for steering the fastener to move along the second length direction;

the conveying speed of the second conveying belt is greater than that of the first conveying belt, and the second conveying belt penetrates through the oven.

7. The oven assembly with fastener automatic transfer assembly of claim 6, wherein the at least one fastener automatic transfer assembly is plural in number.