CN219689006U - Coil placing frame and coil winding machine - Google Patents

Abstract

The utility model provides a coil placing frame and a coil winding machine, wherein the coil placing frame is applied to the coil winding machine, and the coil winding machine is used for sewing a wire between each layer of coil on the coil placing frame; the coil placing frame is conical, and the side surface of the coil placing frame comprises a spiral groove which is used for embedding coils so as to enable each layer of coils to be spaced; the pitch of the spiral groove is gradually increased along the direction close to the top end of the coil placing frame, so that the interval between each layer of coil after winding is gradually increased, and the coil placing frame is attractive in appearance and balanced in stress after being hung.

Description

Coil placing frame and coil winding machine

Technical Field

The utility model relates to a coil placing frame and a coil winding machine.

Background

The incense coil is also called as ring incense, and also refers to a shape of incense. It is commonly used in temple, spectator or temple. The incense stick is formed by encircling a plurality of circles from inside to outside in sequence to form a concentric ring shape, and the cross section of the incense stick is polygonal. Generally, coils have a size and a fineness. The large coil is thick and can be vertically hung for burning or fumigated and burned in a incense burner by a incense stand. The incense stick is sequentially surrounded into a plurality of circles from inside to outside to form a concentric ring shape, and the cross section of the incense stick is polygonal; such as quadrilateral, hexagonal, octagonal; the coil is coiled in a loop on a plane, is usually spiral (a plurality of coils can also hang like a tower, and is similar to tower), and is suitable for being used in families, repair, temples and the like. When the coil is hung on the frame body, the coil falls down to form a spiral shape, however, the coil is easy to break due to the weight and the powder of the coil. Therefore, manufacturers send the coil to a processing place after the coil is manufactured, the coil is divided into four equal parts, and a red line with margin is wound on the coil in a manual winding mode, so that the weight can be transferred to the coil to be evenly shared by the red line when the coil is taken or hung, the coil is not concentrated at the bottom, and the coil is not easy to break. The common winding mode is to wind and bind manually one by one, which is very labor-and time-consuming, and the coil is easy to break due to artificial misunderstanding in the transportation process or winding process, thus increasing the cost.

Disclosure of Invention

The applicant designs a coil winding machine, wherein coil is sleeved on a spiral groove on a coil placing frame through the coil placing frame, and coil winding operation is performed on the coil placing frame through a suture mechanism; however, the uniform line length between coils of each layer can result in too small a spacing between coils of the top layer, which is not only aesthetically undesirable, but also affects the overall coil's force upon suspension.

The utility model aims to overcome the defects in the prior art and provides a coil placing frame and a coil winding machine.

In order to solve the technical problems, the utility model provides a coil rack, which is applied to a coil winding machine for sewing threads between each layer of coils on the coil rack; the coil placing frame is conical, and the side surface of the coil placing frame comprises a spiral groove which is used for embedding coils so as to enable each layer of coils to be spaced; wherein, the pitch of the spiral groove gradually increases along the direction of approaching the top end of the coil rack.

In a more preferred embodiment, the pitch of the helical groove increases in equal steps in a direction toward the top end of the coil holder.

In a more preferred embodiment, the difference between adjacent two pitches of the helical groove is 1 mm.

In a more preferred embodiment, the coil holder comprises an outer wall and a connector for connecting the top end of the outer wall; the placement outer wall includes a conical shape and includes the helical groove.

In a more preferred embodiment, the placement outer wall comprises at least one through slot for corresponding coil winder, the through slot extending along the direction of the generatrix of the placement outer wall; two sides of the through groove are respectively provided with a clamping piece, and the two clamping pieces are used for clamping coil on the spiral groove.

In a more preferred embodiment, one end of the clip is connected to the bottom side of the outer wall.

In a more preferred embodiment, the clip is elastically deformable.

In a more preferred embodiment, the placement outer wall includes a plurality of through slots evenly spaced along the circumferential direction.

The utility model also provides a coil winder, which is applied to the coil placing frame; the coil winding machine comprises a suture mechanism, wherein the suture mechanism is used for being sewn between each layer of coil on the coil placing frame.

Compared with the prior art, the technical scheme of the utility model has the following beneficial effects:

the pitch of the spiral groove is gradually increased along the direction close to the top end of the coil placing frame, so that the interval between each layer of coiled coil is gradually increased, and the coiled coil is attractive after being hung and is balanced in stress;

two sides of the through groove are respectively provided with a clamping piece, and the two clamping pieces are used for clamping coil on the spiral groove; stability during winding can be ensured.

Drawings

FIG. 1 is a schematic perspective view of a coil winder in accordance with a preferred embodiment of the present utility model;

FIG. 2 is a perspective view of a incense coil holder in accordance with a preferred embodiment of the present utility model;

fig. 3 is a schematic view showing the connection between the incense coil placement machine and the connecting frame in the preferred embodiment of the present utility model.

Detailed Description

The utility model is further described below with reference to the drawings and detailed description.

Referring to fig. 1-3, a coil holder 2 is applied to a coil winding machine, the coil winding machine comprises a frame 1, a suture mechanism 3 and a moving mechanism 4, the coil holder 2 is detachably connected with the moving mechanism 4, the moving mechanism 4 drives the coil holder 2 to approach the suture mechanism 3 along a feeding direction, and the suture mechanism 3 is used for sewing threads between each layer of coil on the coil holder 2. In this embodiment, the moving mechanism 4 includes a sliding frame 41, a screw rod transmission mechanism 42 and a driving motor 43, the coil placement frame 2 is detachably connected to the sliding frame 41, the coil placement frame 2 is conical, the side surface of the coil placement frame 2 includes a spiral groove 21, and the spiral groove 21 is used for embedding coils to space each layer of coils; when the moving mechanism 4 drives the coil placing frame 2 to move in the feeding direction, the suture mechanism 3 sequentially welds the suture between each layer of coils; the coil on the coil placing frame 2 is embedded in the spiral groove 21, so that each layer of coil is spaced a certain distance along the feeding direction, when the moving mechanism 4 drives the coil placing frame 2 to move, the thread mechanism 3 is used for sewing threads between each layer of coil, and the thread mechanism 3 is a conventional sewing machine and is not repeated here.

The coil holder 2 comprises a conical outer wall 22 and a connecting joint 23 connected with the top end of the outer wall 22; the connection joint 23 is detachably connected with the moving mechanism 4. The moving mechanism 4 comprises a connecting frame 44, the connecting frame 44 comprises a plug hole 441, and the connecting joint 23 can be plugged into the plug hole 441; also comprises a bolt 7; the plug pin 7 is connected with the connecting joint 23 and the connecting frame 44 in a pluggable manner.

The pitch of the spiral groove 21 gradually increases along the direction close to the top end of the coil holder 2, the pitch of the spiral groove 21 gradually increases along the direction close to the top end of the coil holder 2 in an equal difference, and the difference between two adjacent pitches of the spiral groove 21 is 1 mm.

The placement outer wall 22 comprises at least one through groove 221, and the through groove 221 extends along the bus direction of the placement outer wall 22; when the moving mechanism 4 drives the coil rack 2 to move in the feeding direction, the through groove 221 corresponds to the suture mechanism 3. Specifically, the placement outer wall 22 includes a plurality of through grooves 221, specifically 3 through grooves, which are uniformly spaced along the circumferential direction; the coil placing rack 2 is connected with the coil placing rack 2 to drive the coil placing rack 2 to rotate, and the coil placing rack 2 rotates to enable the through groove 221 to sequentially correspond to the suture mechanism 3; the rotating mechanism 5 is connected with the sliding frame 41, and the rotating mechanism 5 is connected with the connecting frame 44 so as to drive the connecting frame 44 to rotate. Two sides of the through groove 221 are respectively provided with a clamping piece 24, the two clamping pieces 24 are used for clamping coil on the spiral groove 21, and one end of each clamping piece 24 is connected with the bottom side of the outer placing wall 22. In this embodiment, the clip 24 is elastically deformable.

In this embodiment, the supply direction extends in the horizontal direction; the axis of the coil placing frame 2 is obliquely arranged, and the direction of a bus at the upper edge of the coil placing frame 2 is the same as the feeding direction; the coil holder 2 is driven by the rotating mechanism 5 to sequentially locate a plurality of through grooves 221 on the upper edge of the coil holder 2.

When in use, an operator firstly pulls out the bolt 7, and then the coil placing frame 2 can be taken down; the clamping piece 24 is taken down or the clamping piece 24 is forced to elastically deform, the coil is unfolded and embedded in the spiral groove 21 on the coil placing frame 2, each layer of coil is separated by a certain distance, and the clamping piece 24 clamps the coil on the placing outer wall 22; subsequently, the connecting joint 23 of the coil holder 2 is inserted into the inserting hole 441, then the bolt 7 is inserted, a positioning block mechanism 6 can be arranged between the connecting joint 23 and the inserting hole 441, and the positioning block mechanism 6 enables one through groove 221 to be positioned at the upper edge of the coil holder 2; starting a coil winding device, wherein a driving motor 43 of the moving mechanism 4 rotates to drive the sliding frame 41 to move, the coil placing frame 2 moves below the stitch mechanism 3, so that each layer of coils are correspondingly arranged below a sewing needle of the stitch mechanism 3, and the stitch mechanism 3 is used for sewing a thread between each layer of coils; after the thread on one side is sewn, the moving mechanism 4 is retracted, and an operator can cut the thread; and then, the rotating mechanism 5 drives the coil placing frame 2 to rotate by 90 degrees, and then the coil placing frame is conveyed to the corresponding suture mechanism 3 to reciprocate until the suture is completed on three sides of the coil, and the coil placing frame 2 can be taken down, and the coil with the suture completed can be taken out.

The foregoing is only a preferred embodiment of the present utility model, but the design concept of the present utility model is not limited thereto, and any person skilled in the art will be able to make insubstantial modifications of the present utility model within the scope of the present utility model disclosed herein by this concept, which falls within the actions of invading the protection scope of the present utility model.

Claims (9)

1. A coil placement frame applied to a coil winding machine for sewing a thread between each layer of coils on the coil placement frame; the coil placing rack is characterized in that the coil placing rack is conical, the side face of the coil placing rack comprises a spiral groove, and the spiral groove is used for embedding coils so as to enable each layer of coils to be spaced; wherein, the pitch of the spiral groove gradually increases along the direction of approaching the top end of the coil rack.

2. A coil holder as set forth in claim 1, wherein: the pitch of the spiral groove is in equal difference increment along the direction close to the top end of the coil placing frame.

3. A coil holder as set forth in claim 2, wherein: the difference between the adjacent two pitches of the spiral groove is 1 millimeter.

4. A coil holder as set forth in claim 1, wherein: the coil placing frame comprises a placing outer wall and a connecting joint connected with the top end of the placing outer wall; the placement outer wall includes a conical shape and includes the helical groove.

5. A coil holder as set forth in claim 4, wherein: the outer placing wall comprises at least one through groove, the through groove is used for corresponding to the coil winding machine, and the through groove extends along the direction of a bus of the outer placing wall; two sides of the through groove are respectively provided with a clamping piece, and the two clamping pieces are used for clamping coil on the spiral groove.

6. A coil holder as set forth in claim 5, wherein: one end of the clamping piece is connected with the bottom side of the outer placing wall.

7. A coil holder as set forth in claim 6, wherein: the clip is elastically deformable.

8. A coil holder as set forth in claim 5, wherein: the placement outer wall comprises a plurality of through grooves which are uniformly arranged at intervals along the circumferential direction.

9. A coil winder, wherein a coil holder according to any one of claims 1 to 8 is used; the coil winding machine comprises a suture mechanism, wherein the suture mechanism is used for being sewn between each layer of coil on the coil placing frame.