CN214726633U - Go up fillet device and be applicable to last fillet device of ring caulking groove - Google Patents

Abstract

The utility model relates to an go up fillet device and be applicable to last fillet device of ring shape caulking groove. It comprises the following components: a caulking groove positioning mechanism; a molding mechanism; a frame; a moving mechanism; the molding mechanism includes: a conveying mechanism; a shearing mechanism; the embedded guide wheel can convey the cut filler rod into the guide groove of the embedded guide wheel, and the embedded guide wheel can press the filler rod into the filler rod groove; the moving mechanism moves the embedding guide wheel to the caulking groove starting point of the semi-finished product, the embedding guide wheel can press the fillet into the caulking groove starting point, the conveying mechanism operates continuously, and the moving mechanism and the caulking groove positioning mechanism move in a matching mode to enable the embedding guide wheel to move relatively along the path of the caulking groove, so that the fillet can be pressed into the caulking groove continuously. The utility model discloses can the fillet process in the completion of efficient, improve production efficiency.

Description

Go up fillet device and be applicable to last fillet device of ring caulking groove

Technical Field

The utility model relates to an automatic change the device, especially relate to an go up fillet device.

Background

The caulking groove and the insertion strip are assembled with each other in a common matching mode, the precision requirement of the matching mode is generally not high, and the matching relation is generally interference fit. The matching form is often used for clamping and fixing, and particularly, easily deformed thin materials such as films, sheets and the like need to be fixed. For example, if the article a needs to be laid with the sheet B, a caulking groove may be formed in the article a, the sheet B partially covers the caulking groove, and then a suitable molding is prepared, and a part of the sheet body of the sheet B is pressed into the caulking groove together with the molding.

The common raw material of the fillet is the adhesive tape, and the fillet has good flexibility and elasticity. However, the fillet of many existing products is installed manually, so that the efficiency is low and the labor cost is high.

Disclosure of Invention

The utility model provides a full-automatic high-efficiency filler rod loading device; the problem of have caulking groove and fillet installation inefficiency among the prior art is solved.

The above technical problem of the present invention can be solved by the following technical solutions: the utility model provides a go up fillet device, is applicable to the fillet and is flexible material which characterized in that: comprises the following steps: the caulking groove positioning mechanism is used for fixing an article provided with a caulking groove, and the article is hereinafter referred to as a semi-finished product;

the upper insertion strip mechanism can press the insertion strip into the insertion groove;

the rack is used for bearing the caulking groove positioning mechanism and the upper insertion strip mechanism;

the moving mechanism is arranged on the rack and can be used for adjusting the relative positions of the upper insertion strip mechanism and the caulking groove positioning mechanism;

the upper insertion strip mechanism comprises: the conveying mechanism is used for conveying and guiding the filler rod; a cutting mechanism capable of cutting the filler rod into a fixed length; the embedded guide wheel can convey the cut filler rod into the guide groove of the embedded guide wheel, and the embedded guide wheel can press the filler rod into the filler rod groove;

the upper insertion strip mechanism and the insertion groove positioning mechanism are driven by the moving mechanism to relatively move, so that the insertion guide wheel relatively moves along the path of the insertion groove, the conveying mechanism continuously conveys the insertion strips, and the insertion guide wheel continuously presses the insertion strips into the insertion groove.

The utility model discloses an operation principle does: in an initial state, a semi-finished product is fixed on the caulking groove positioning mechanism, a filler rod penetrates through the filler rod feeding mechanism, the filler rod enters from the inlet side of the conveying mechanism and is output from the outlet of the conveying mechanism, and the foremost end of the filler rod is conveyed into the guide groove of the embedding guide wheel through the conveying mechanism;

the embedding guide wheel is moved to the embedding groove starting point of the semi-finished product, the embedding guide wheel can press the embedded strip into the embedding groove starting point, the conveying mechanism continuously operates, the moving mechanism and the embedding groove positioning mechanism move in a matched mode, the embedding guide wheel relatively moves along the path of the embedding groove, the embedded strip can be continuously pressed into the embedding groove, the shearing mechanism can cut the embedded strip into a required length, and after a semi-finished product embedding strip feeding process is completed, the moving mechanism controls the embedding strip feeding mechanism to be separated from the embedding groove positioning mechanism, so that the semi-finished product can be replaced conveniently. The utility model discloses can the fillet process in the completion of efficient, improve production efficiency.

Further, the moving mechanism includes: the first sliding block can horizontally slide relative to the rack; the second sliding block is in sliding fit with the first sliding block, and the sliding direction is vertical; a first power device capable of pushing the first sliding block to move is arranged on the rack, and a second power device capable of pushing the second sliding block to move up and down is arranged on the first sliding block; the upper insertion strip mechanism is integrally fixed on the second sliding block, and the first sliding block can drive the upper insertion strip mechanism to be close to or far away from the caulking groove positioning mechanism. Thus, the moving mechanism can drive the whole upper molding mechanism to move in two axial directions. The first power device and the second power device can be air cylinders, linear motors and other existing linear propulsion mechanisms.

The utility model also provides an go up the fillet device suitable for ring shape caulking groove, including one kind go up the fillet device, its characterized in that: caulking groove positioning mechanism includes:

the lower positioning plate is rotatably connected with the rack, and the rotating shaft is vertically arranged;

the upper positioning plate can be arranged on the lower positioning plate from the upper side cover, and the upper positioning plate can be arranged along with the lower positioning plate in a synchronous coaxial rotating mode. The upper positioning plate and the lower positioning plate are covered and used for fixing the semi-finished product, the caulking grooves in the semi-finished product are distributed in a circular shape, and the circle center of each caulking groove is concentric with the rotating shaft. The design makes the fillet that continuously transports under the fixed condition of embedding guide pulley just can imbed the caulking groove and promote caulking groove positioning mechanism whole rotation simultaneously, accomplishes the whole fillet process of going up to the caulking groove.

Further, the conveying mechanism comprises a guide wheel set and a guide pipe, the guide pipe is fixed on the second sliding block, the guide wheel set can guide and push the insertion strip to the inlet end in the guide pipe, and the insertion strip extends out of the outlet end of the guide pipe and then enters the lower side of the embedded guide wheel; the cutting mechanism comprises a first air cylinder and a blade, a notch is formed in the conduit, and the first air cylinder can push the blade to enter the cut-off insertion strip from the notch. The running effect of the guide insertion strip through the conduit is better, and the precision is higher.

Furthermore, the guide wheel set comprises a first guide wheel, a second guide wheel, a first pressing wheel and a second pressing wheel, rotating shafts of the first guide wheel and the second guide wheel are fixed on a second sliding block, the first pressing wheel is positioned right above the first guide wheel, a balancing weight is fixedly connected to the first pressing wheel, and the balancing weight is in up-and-down sliding fit with the second sliding block; the second pressing wheel is connected with a second cylinder, the second cylinder is fixed on a second sliding block, and the second cylinder can push the second pressing wheel to move downwards to be abutted against a second guide wheel; and a stepping motor is arranged on the second sliding block and can drive the second guide wheel to rotate.

The fillet flows between the first guide wheel and the first pressing wheel at first, and the first pressing wheel plays a role in fixing the fillet under the action of the gravity of the balancing weight to prevent the fillet from being separated from the guide groove on the first guide wheel; meanwhile, the first pressing wheel has high freedom degree in height, so that the universality is good; the pressure of the fillet flowing between the second guide wheel and the second pressure wheel is relatively large, and the second guide wheel is a driving wheel and is required to drive the fillet to be continuously conveyed, so that the friction force is increased by increasing extrusion force; when the fillet loading mechanism stops working, the second cylinder needs to lift off the second pressure roller to prevent the fillet from being pressed and deformed by long-time clamping; the rotation of the second guide wheel is driven by a stepping motor, and the stepping motor can set the rotation amount of each movement, so that the feeding amount of each molding can be well controlled. The feed amount is the same as the cutting length of the cutting mechanism.

Furthermore, the first pressing wheel is a one-way bearing, so that the displacement of the fillet in the conveying mechanism caused by the backward pulling of the fillet is prevented, and the length of the cut fillet is not enough.

Furthermore, a plurality of anti-skid holes distributed in an array manner are arranged in the guide groove of the second guide wheel. When the fillet flows between the second guide wheel and the second pressure wheel, the pressure can press the fillet to deform towards the anti-slip hole, and the small deformation can increase the friction force to prevent slipping.

Furthermore, a third cylinder which is vertically arranged is further fixed on the rack and above the lower positioning plate, and the third cylinder can drive the upper positioning plate to move up and down.

Furthermore, the lower positioning plate is integrally conical and is suitable for processing conical semi-finished products.

Furthermore, the lower bottom surface of the upper positioning plate is matched with the upper surface of the lower positioning plate in shape, and a plurality of rubber bands distributed in a net shape are connected to the lower bottom surface of the upper positioning plate. After the upper positioning plate and the lower positioning plate are covered, the rubber band can be tightly pressed on the upper surface of the semi-finished product, and the partial structure on the semi-finished product is prevented from displacing.

Therefore, compared with the prior art, the utility model has the following characteristics: 1. the embedding guide wheel continuously presses the embedded strip into the caulking groove continuously, so that an automatic embedding process is realized; 2. the caulking groove positioning mechanism is designed to be passively rotated, so that under the condition that the embedding guide wheel is kept fixed, the fillet which is continuously conveyed can be embedded into the caulking groove and simultaneously pushes the caulking groove positioning mechanism to integrally rotate, and the whole fillet loading process of the caulking groove is completed.

Drawings

FIG. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic diagram of a part of the structure of an upper molding mechanism;

FIG. 4 is a schematic structural view of embodiment 1;

FIG. 5 is a schematic structural view of an upper puck;

FIG. 6 is a schematic view of the second idler.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Example 1: referring to fig. 1, 2 and 3, an upper molding device for manufacturing a conical cap having a circular caulking groove formed on an upper surface thereof and a film covered therewith, which is required to be pressed into the caulking groove by molding for the purpose of fixing the film, comprises: a caulking groove positioning mechanism 100 for fixing an article provided with a caulking groove, which is hereinafter referred to as a semi-finished product;

a molding loading mechanism 200 capable of pressing the molding into the caulking groove;

a frame 300 for carrying the caulking groove positioning mechanism 100 and the upper molding mechanism 200;

the moving mechanism 400 is arranged on the rack 300 and can be used for adjusting the relative positions of the upper molding mechanism 200 and the caulking groove positioning mechanism 100;

the molding mechanism 200 includes: a conveying mechanism 210 for conveying and guiding the molding; a cutting mechanism 220 for cutting the fillet into a fixed length; the embedding guide wheel 230, the conveying mechanism 210 can convey the cut filler rod into the guide groove of the embedding guide wheel 230, and the embedding guide wheel 230 can press the filler rod into the filler rod groove;

caulking groove location 100 mechanism includes: the lower positioning plate 110 is conical, the lower positioning plate 110 is rotatably connected with the rack 300, and a rotating shaft is vertically arranged; the upper positioning plate 120 can be covered on the lower positioning plate 110 from the upper side, the upper positioning plate 120 can be synchronously and coaxially rotated along with the lower positioning plate 110, and the semi-finished product is fixed between the lower positioning plate and the upper positioning plate;

the upper molding mechanism 200 is driven by the moving mechanism 400 to move the embedding guide wheel 230 to the position above the caulking groove on the semi-finished product, the conveying mechanism 210 continuously conveys the molding, and the embedding guide wheel 230 continuously presses the molding into the caulking groove.

The operation principle of the embodiment is as follows: in an initial state, a semi-finished product is fixed on the caulking groove positioning mechanism, a filler rod penetrates through the filler rod feeding mechanism, the filler rod enters from the inlet side of the conveying mechanism and is output from the outlet of the conveying mechanism, and the foremost end of the filler rod is conveyed into the guide groove of the embedding guide wheel through the conveying mechanism;

and in the action stage, a moving mechanism on the rack starts to adjust the relative position of the fillet feeding mechanism and the caulking groove positioning mechanism, the embedding guide wheel is moved to the caulking groove starting point of the semi-finished product, the embedding guide wheel can press the fillet into the caulking groove starting point, the conveying mechanism continuously operates, and the continuously conveyed fillets can be embedded into the caulking groove while pushing the caulking groove positioning mechanism to integrally rotate under the condition that the embedding guide wheel is kept fixed, so that the whole fillet feeding process of the caulking groove is completed. The shearing mechanism can cut the fillet into the required length, and after a working procedure of loading the fillet on the semi-finished product is completed, the moving mechanism controls the fillet loading mechanism to be separated from the caulking groove positioning mechanism to replace the semi-finished product. The embodiment can efficiently finish the molding process and improve the production efficiency.

Referring to fig. 2 and 4, the moving mechanism 400 includes: a first sliding block 410 and a second sliding block 420, wherein a first sliding rail 310 is arranged on the rack 300, the first sliding block 410 is in sliding fit with the first sliding rail 310, a second sliding rail 430 which is vertically arranged is arranged on the first sliding block 410, and the second sliding block 420 is in sliding fit with the second sliding rail 430; the frame 300 is provided with a first power device 320 capable of pushing the first sliding block 410 to move, and the first sliding block 410 is provided with a second power device 440 capable of pushing the second sliding block 420 to move up and down; the upper molding mechanism 200 is integrally fixed on the second sliding block 420, and the first sliding block 410 can drive the upper molding mechanism 200 to approach or depart from the caulking groove positioning mechanism 100. Thus, the moving mechanism can drive the whole upper molding mechanism to move in two axial directions. The first power device and the second power device are cylinders.

Referring to fig. 2 and 3, the conveying mechanism 210 comprises a guide roller set 211 and a guide pipe 212, wherein the guide pipe 212 is fixed on a second sliding block 420, the guide roller set 211 can guide and push the fillet to the inlet end in the guide pipe 212, and the fillet is extended from the outlet end of the guide pipe 212 and enters the lower side of the embedding guide roller 230; the cutting mechanism 220 includes a first cylinder 221 and a blade 222, the pipe 212 is provided with a notch 2121, and the first cylinder 221 can push the blade 222 from the notch 2121 into the cutting fillet. The running effect of the guide insertion strip through the conduit is better, and the precision is higher.

Referring to fig. 1 and 2, the guide wheel set 211 includes a first guide wheel 2111, a second guide wheel 2112, a first pressure wheel 2113 and a second pressure wheel 2114, the rotating shafts of the first guide wheel 2111 and the second guide wheel 2112 are fixed on a second sliding block 420, the first pressure wheel 2113 is located right above the first guide wheel 2111, a counterweight 2115 is fixedly connected to the first pressure wheel 2113, and the counterweight 2115 and the second sliding block 420 are in up-and-down sliding fit; the second pressure wheel 2114 is connected with a second cylinder 2116, the second cylinder 2116 is fixed on a second sliding block 420, and the second cylinder 2116 can push the second pressure wheel 2114 to move downwards to abut against a second guide wheel 2112; the second sliding block 420 is provided with a step motor 421, and the step motor can drive the second guide wheel 2112 to rotate.

The fillet flows between the first guide wheel and the first pressing wheel at first, and the first pressing wheel plays a role in fixing the fillet under the action of the gravity of the balancing weight to prevent the fillet from being separated from the guide groove on the first guide wheel; meanwhile, the first pressing wheel has high freedom degree in height, so that the universality is good; the pressure of the fillet flowing between the second guide wheel and the second pressure wheel is relatively large, and the second guide wheel is a driving wheel and is required to drive the fillet to be continuously conveyed, so that the friction force is increased by increasing extrusion force; when the fillet loading mechanism stops working, the second cylinder needs to lift off the second pressure roller to prevent the fillet from being pressed and deformed by long-time clamping; the rotation of the second guide wheel is driven by a stepping motor, and the stepping motor can set the rotation amount of each movement, so that the feeding amount of each molding can be well controlled. The feed amount is the same as the cutting length of the cutting mechanism.

The first pressure wheel 2113 is a one-way bearing, and prevents the displacement of the fillet in the conveying mechanism caused by the reverse pulling of the fillet, so that the length of the trimmed fillet is insufficient.

Referring to fig. 6, a plurality of anti-slip holes 2117 are disposed in the guide groove of the second guide wheel 2112. When the fillet flows between the second guide wheel and the second pressure wheel, the pressure can press the fillet to deform towards the anti-slip hole, and the small deformation can increase the friction force to prevent slipping.

Referring to fig. 4, a vertically arranged third cylinder 330 is further fixed on the frame 300 and above the lower positioning plate, and the third cylinder 330 can drive the upper positioning plate 120 to move up and down.

Referring to fig. 5, the lower bottom surface of the upper positioning plate 120 is matched with the upper surface of the lower positioning plate 110 in shape, and the lower bottom surface of the upper positioning plate 120 is connected with a plurality of rubber bands 121 distributed in a net shape. After the upper positioning plate and the lower positioning plate are covered, the rubber band can be tightly pressed on the upper surface of the semi-finished product, and the partial structure on the semi-finished product is prevented from displacing.

The invention may be modified in many ways which will be obvious to a person skilled in the art, and such modifications are not to be considered as a departure from the scope of the invention. All such modifications as would be obvious to one skilled in the art are intended to be included within the scope of this claim.

Claims (10)

1. A molding apparatus, characterized in that: comprises the following steps: the caulking groove positioning mechanism is used for fixing an article provided with a caulking groove;

the upper insertion strip mechanism can press the insertion strip into the insertion groove;

the rack is used for bearing the caulking groove positioning mechanism and the upper insertion strip mechanism;

the moving mechanism is arranged on the rack and can be used for adjusting the relative positions of the upper insertion strip mechanism and the caulking groove positioning mechanism;

the upper insertion strip mechanism comprises: the conveying mechanism is used for conveying and guiding the filler rod; a cutting mechanism capable of cutting the filler rod into a fixed length; the embedded guide wheel can convey the cut filler rod into the guide groove of the embedded guide wheel, and the embedded guide wheel can press the filler rod into the filler rod groove;

the upper insertion strip mechanism and the insertion groove positioning mechanism are driven by the moving mechanism to relatively move, so that the insertion guide wheel relatively moves along the path of the insertion groove, the conveying mechanism continuously conveys the insertion strips, and the insertion guide wheel continuously presses the insertion strips into the insertion groove.

2. The molding apparatus of claim 1, wherein: the moving mechanism includes: the first sliding block can horizontally slide relative to the rack; the second sliding block is in sliding fit with the first sliding block, and the sliding direction is vertical; a first power device capable of pushing the first sliding block to move is arranged on the rack, and a second power device capable of pushing the second sliding block to move up and down is arranged on the first sliding block;

the upper insertion strip mechanism is integrally fixed on the second sliding block, and the first sliding block can drive the upper insertion strip mechanism to be close to or far away from the caulking groove positioning mechanism.

3. An upper molding apparatus adapted for use in a doughnut-shaped caulking groove, comprising the upper molding apparatus of claim 1 or 2, characterized in that: caulking groove positioning mechanism includes:

the lower positioning plate is rotatably connected with the rack, and the rotating shaft is vertically arranged;

the upper positioning plate can be arranged on the lower positioning plate from the upper side cover, and the upper positioning plate can be arranged along with the lower positioning plate in a synchronous coaxial rotating mode.

4. The molding apparatus of claim 3, further comprising: the conveying mechanism comprises a guide wheel set and a conduit, the guide wheel set can guide and push the insertion strip to an inlet end in the conduit, and the insertion strip extends out of an outlet end of the conduit and then enters the lower side of the embedded guide wheel; the cutting mechanism comprises a first air cylinder and a blade, a notch is formed in the conduit, and the first air cylinder can push the blade to enter the cut-off insertion strip from the notch.

5. The molding apparatus of claim 4, further comprising: the guide wheel group comprises a first guide wheel, a second guide wheel, a first pressing wheel and a second pressing wheel, rotating shafts of the first guide wheel and the second guide wheel are fixed on a second sliding block, the first pressing wheel is positioned right above the first guide wheel, a balancing weight is fixedly connected to the first pressing wheel, and the balancing weight is in up-and-down sliding fit with the second sliding block; the second pressing wheel is connected with a second cylinder, the second cylinder is fixed on a second sliding block, and the second cylinder can push the second pressing wheel to move downwards to be abutted against a second guide wheel; and a stepping motor is arranged on the second sliding block and can drive the second guide wheel to rotate.

6. The molding apparatus of claim 5, further comprising: the first pressing wheel is a one-way bearing.

7. The molding apparatus of claim 5, further comprising: and a plurality of anti-skid holes distributed in an array are arranged in the guide groove of the second guide wheel.

8. The molding apparatus of claim 3, further comprising: and a third cylinder which is vertically arranged is also fixed on the rack and positioned above the lower positioning plate, and the third cylinder can drive the upper positioning plate to move up and down.

9. The molding apparatus of claim 8, further comprising: the whole lower positioning plate is conical.

10. The molding apparatus of claim 9, further comprising: the lower bottom surface of the upper positioning plate is matched with the upper surface of the lower positioning plate in shape, and a plurality of rubber bands distributed in a net shape are connected to the lower bottom surface of the upper positioning plate.

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